#NEXUS [written Wed Jul 31 15:22:31 BRT 2019 by Mesquite version 3.51 (build 898) at DESKTOP-K67UO51/192.168.0.12] BEGIN TAXA; TITLE Original_analysis_Taxa_Block; DIMENSIONS NTAX=132; TAXLABELS Proganochelys_quenstedti Platychelys_oberndorferi Notoemys_laticentralis Bonapartemys_bajobarrealis Prochelidella_cerrobarcinae Pseudemydura_umbrina Elseya_dentata Emydura_macquarii Myuchelys_latisternum Acanthochelys_radiolata Platemys_platycephala Phrynops_hilarii Phrynops_geoffroanus Mesoclemmys_nasuta Chelodina_colliei Chelus_colombianus Chelus_fimbriatus Hydromedusa_tectifera Hydromedusa_maximilliani Yaminuechelys_maior Yaminuechelys_gasparinii Pelusios_castaneus Pelusios_sinuatus Pelomedusa_subrufa Araripemys_barretoi Laganemys_tenerensis Euraxemys_essweini Dirqadim_schaefferi Sokatra_antitra Atolchelys_lepida Cearachelys_placidoi Galianemys_emringeri Galianemys_whitei Kurmademys_kallamedensis Sankuchemys_sethnai Kinkonychelys_rogersi Foxemys_mechinorum Foxemys_trabanti Polysternon_provinciale Araiochelys_hirayamai Zolhafah_bella Rosasia_soutoi Bothremys_maghrebiana Bothremys_cooki Bothremys_arabicus Bothremys_kellyi Chedighaii_hutchisoni Chedighaii_barberi Taphrosphys_sulcatus Taphrosphys_ippolitoi Taphrosphys_congolensis Acleistochelys_maliensis Azabbaremys_moragjonesi Labrostochelys_galkini Phosphatochelys_tedfordi Ummulisani_rutgersensis Rhothonemys_brinkmani Arenila_krebsi Nigeremys_gigantea Brasilemys_josai Hamadachelys_escuilliei Portezueloemys_patagonica Bauruemys_elegans Cambaremys_langertoni Peiropemys_mezzalirai Lapparentemys_vilavilensis Pricemys_caiera Cerrejonemys_wayuunaiki Podocnemis_vogli Podocnemis_lewyana Podocnemis_unifilis Podocnemis_erythrocephala Podocnemis_expansa Podocnemis_sextuberculata Podocnemis_bassleri Caninemys_tridentata Stupendemys_geographicus Dacquemys_paleomorpha UCMP_42008 Carbonemys_cofrinii Peltocephalus_dumerilianus Kenyemys_williamsi Turkanemys_pattersoni Erymnochelys_madagascariensis Neochelys_fajumensis Neochelys_arenarum Neochelys_franzeni Papoulemys_laurenti Mogharemys_blackenhorni Brontochelys_gaffneyi Lemurchelys_diasphax Shweboemys_pilgrimi Stereogenys_cromeri Cordichelys_antiqua Latentemys_plowdeni Bairdemys_thalassica Bairdemys_healeyorum Bairdemys_venezuelensis Bairdemys_hartsteini Bairdemys_sanchezi Bairdemys_winklerae Piramys_auffenbergi Amabilis_uchoensis Yuraramirim_montealtensis Tartaruscola_teodorii Chupacabrachelys_complexus Eocenochelus_eremberti Paiutemys_tibert Algorachelus_peregrinus Palemys_bowerbankii Puentemys_mushaisaensis Elochelys_convenarum Elochelys_perfecta Andrewsemys_libyca Hydromedusa_casamayorensis Platycheloides_nyasae Teneremys_lapparenti Mendozachelys_wichmanni Rionegrochelys_caldieroi Lomalatachelys_neuquina Dortoka_vasconica Dortoka_botanica Birlimarr_gaffneyi Notoemys_zapatocaensis Elusor_macrurus Linderochelys_rinconensis Palaeophrynops_patagonicus Salamanchelys_palaeocenica Podocnemis_pritchardi Podocnemis_negrii Podocnemis_medemi Ilatardia_cetiotesta ; END; BEGIN CHARACTERS; TITLE Character_Matrix; DIMENSIONS NCHAR=285; FORMAT DATATYPE = STANDARD GAP = - MISSING = ? SYMBOLS = " 0 1 2 3 4 5 6 7"; CHARSTATELABELS 1 Skull_flattened / 'high skull (as in Peltocephalus dumerilianus)' 'flat skull (as in Pelusios castanoides)' 'extremely flattened skull (as in Hydromedusa maximiliani)', 2 Dorsal_margin_of_apertura_narium_externa / 'straight, broadly convex margin (Pelomedusa subrufa)' 'narrow midline process, at least partially dividing external nares (Bothremys cooki)', 3 'NA, nasals' / 'present (Emydura macquarii)' 'absent (Pelusios castanoides)', 4 'NA, meet on midline in dorsal view' / 'nasals meet (Hydromedusa tectifera)' 'nasals do not meet, completely separated by frontal process (Chelodina colliei)', 5 'PF, preorbital skull broad ' / 'narrow, equal or less than 90º, as in Podocnemis expansa' 'very broad, more than 90º, as in Bothremys cooki', 6 'PF, meet on midline in dorsal view' / 'no (Proganochelys quenstendti)' 'yes (Pelusios castanoides)', 7 'PF, pf-pal contact' / 'no contact (Galianemys emringeri)' 'contact present in anterior wall of fossa orbitalis (Bothremys maghrebiana)', 8 'PF, pf-pa contact' / 'no contact (Galianemys emringeri)' 'present (Phosphatochelys tedfordi)', 9 'FR, interorbital groove ' / 'no groove, smooth surface as in Peltocephalus dumerilianus' surface_with_a_groove_as_in_Podocnemis_expansa, 10 'FR, orbital position' / 'facing laterally, anterolaterally (as in Bairdemys venezuelensis)' 'facing dorsolaterally (as in Elseya dentata)' 'facing dorsally (as in Chelodina colliei)', 11 'FR, cranial process of frontal' / 'no process, smooth cranial edge (Podocnemis expansa)' 'projecting cranial process (Elseya dentata)', 12 'FR, prefrontal/frontal' / 'flat or slight convex (Podocnemis expansa)' 'strongly convex dorsally (Bairdemys venezuelensis)', 13 'FR, foramen interorbitale' / 'high (Galianemys emringeri)' 'low (Bothremys maghrebiana)', 14 'Anteroventral emargination, extension in lateral view' / 'absent or slight (Peltocephalus dumerilianus)' 'reaches ventral margin level of orbit (Hamadachelys escuilliei)' 'reaches dorsal margin level of cavum tympani (Lapparentemys villavilensis)' 'reaches above level of orbit or parietal (Elseya dentata)', 15 'QJ, quadratojugal' / 'absent (Elseya dentata)' 'present (Podocnemis expansa)', 16 'QJ-PA contact' / 'contact present (Podocnemis expansa)' 'no contact (Pelomedusa subrufa)', 17 'QJ-PA contact extension' / 'short contact (as in Bauruemys elegans)' 'long contact (as in Podocnemis expansa)', 18 'Posterodorsal emargination, extension in dorsal view' / 'no emargination, edge of the emargination caudal or on the same plane of condylus occipitalis (Dacquemys palaeomorpha)' 'edge of the emargination rostral to the condylus occipitalis plane (Podocnemis expansa)' 'edge rostral to condylus occipitalis plane and rostral wall of the otic chamber visible in dorsal view (Pelomedusa subrufa)', 19 'PA, dorsal portion in relation to adductor fossa' / 'broadly covers adductor fossa (Podocnemis expansa)' 'covers central area of adductor fossa (Elseya dentata)' 'covers little of adductor fossa (Phrynops geoffroanus)' 'parietal does not cover adductor fossa (Hydromedusa tectifera)', 20 'PA, Lateral edges of parietals' / 'parallel or subparallel (Podocnemis expansa)' 'pentagon-shaped parietal, lateral edges diverging (Bothremys magrebiana)' 'tapering posteriorly (Hydromedusa tectifera)' 'reduced in their medial portion (''wasp-waisted'') (Acantochelys radiolata)', 21 'PA, sulcus palatinopterygoideus' / 'high (Galianemys emringeri)' 'low due to thicker pa, po (Bothremys maghrebiana)', 22 'PA, enters orbital margin' / 'no (Galianemys emringeri)' 'yes (Phosphatochelys tedfordi)', 23 'PA, PA-JU contact' / 'no contact (Elseya dentata)' 'contact present (Podocnemis expansa)', 24 'PA, PA-SQ contact' / 'present (Proganochelys quenstendti)' 'absent (Pelusios castanoides)', 25 'PA, parietal contacts pterygoid at base of processus trochlearis pterygoidei' / 'no contact (Pelusios castanoides)' 'present, ventral parietal process on lateral side of sulcus palatinopterygoideus (Bothremys maghrebiana)', 26 'PA, PA-PT contact in septum orbitotemporale' / 'absent (Peltocephalus dumerilianus)' 'present and wider (Bairdemys venezuelensis)' 'present and narrower (Podocnemis expansa)', 27 'PA, interparietal scale' / 'equilateral triangle (Bauruemys elegans)' 'elongate triangle (Erymnochelys madagascariensis)' 'parallel sided (Bairdemys thalassica)' 'slightly elongated heart-like shaped (Neochelys franzeni', 28 'PA, Interparietal scale, anterior margin' / 'anterior to the frontal parietal suture (Podocnemis expansa)' 'posterior to the frontal parietal suture (Dacquemys palaeomorpha)', 29 'PA, parietal scales meeting medially' / 'yes (Podocnemis expansa)' 'no (Peltocephalus dumerilianus)', 30 'JU, narrow dorsoventrally' / 'broader (Bothremys cooki)' 'narrower (Taphrosphys ippolitoi)', 31 'JU, jugal retracted from orbital margin' / 'enters orbit (Pelusios castanoides)' 'retracted from orbit (Cearachelys placidoi)', 32 'JU-QU contact' / 'no contact (Bothremys maghrebiana)' 'contact present (Azzabbaremys moragjonesi)', 33 'JU-PT contact' / 'no contact (Cordichelys antiqua)' 'contact present (Podocnemis expansa)', 34 'JU, exposure in triturating surface' / 'no exposure (Pelusios castanoides)' 'exposed on triturating surface (Bothremys cooki)', 35 'SQ, caudal projection' / 'lacks projection (Pelusios castanoides)' 'forms distinct process, projecting posteriorly (Bothremys maghrebiana)' 'forms distinct process, projecting posterodorsally (Hydromedusa tectifera)', 36 'SQ, caudoventral vertical flange' / 'absent (Galianemys emringeri)' 'present (Labrostochelys galkini)', 37 'SQ, lateral tubercle' / 'absent (Galianemys emringeri)' 'present (Labrostochelys galkini)', 38 'SQ, lateral surface, origin site of the depressor mandibulae muscles ' / convex_to_slightly_flat_as_in_Podocnemis_expansa strongly_concave_as_in_Elseya_dentata, 39 'PO, septum orbitotemporale' / 'postorbital wall closed (Galianemys emringeri)' 'postorbital wall at least partially open (Phosphatochelys tedfordi)', 40 'PO, size' / 'larger or equal to orbit (Peltocephalus dumerilianus)' 'smaller than orbit (Podocnemis expansa)', 41 'PM, pinched snout' / 'no pinched snout, convex or straight rostral outline (Podocneims expansa)' 'pinched snout, concave outline near premaxilla-maxilla contact (Peltocephalus dumerilianus)', 42 'PM, dorsal sulcus' / 'smooth surface (Bothremys maghrebiana)' 'sulcus on dorsal surface, parallel to anterior margin (Phosphatochelys tedfordi)', 43 'PM, protrudes cranially in lateral view beyond apertura narium externa dorsal ridge' / 'does not protrude or protrudes slightly (Galianemys emringeri)' 'protrudes in lateral view (Bothremys maghrebiana)', 44 'PM, midline depression in ventral view' / 'no depression, shallow or indistinct (Euraxemys essweini)' 'depression present (Bothremys cooki)', 45 'PM, shape of the midline depression in ventral view' / 'narrow depression (Rosasia soutoi)' 'wide depression (Bothremys cooki)', 46 'PM, cranial pit on ventral surface' / 'no (Podocnemis expansa)' 'yes (Peltocephalus dumerilianus)', 47 'PM, premaxillae reach apertura narium interna' / 'no (Podocnemis expansa)' 'yes (Pelomedusa subrufa)', 48 'PM, One or two accessory ridges on the ventral surface of the premaxilla' / 'no accessory ridges (Peltocephalus dumerilianus)' 'accessory ridges present (Podocnemis expansa)', 49 'PM, foramen prepalatinum' / 'absent (Pseudemydura umbrina)' 'present in premaxilla-maxilar suture (Elseya dentata)' 'present in premaxilla only, or in premaxilla-vomer contact (Araripemys barretoi)', 50 'PM, foramen prepalatinum relative to triturating ridge' / 'on flat surface (Emydura macquarii)' 'under triturating surface (Elseya dentata)', 51 'MX, dorsal process onto skull roof' / 'not developed, mx not constricting PF nor forming part of the rostrodorsal margin of orbit (Galianemys emringeri)' 'developed rostrodorsally constricting PF (Bothremys maghrebiana)' 'developed rostrodorsally, forming part of the dorsal margin of orbit (Hydromedusa tectifera)', 52 'MX, orbital-narial bar width' / 'very narrow, less than half the diameter of orbit (Hydromedusa tectifera)' 'roughly equal or slightly less than diameter of orbit (Cearachelys placidoi)' 'larger than diameter of orbit (Bothremys maghrebiana)', 53 'MX, below orbit' / 'small, equal or less than orbital diameter (Galianemys emringeri)' 'well developed, greater than orbital diameter (Bothremys maghrebiana)', 54 'MX, labial ridge in ventral view' / 'high (Elseya dentata)' 'low (Phrynops geoffroanus)', 55 'MX, posterior lingual ridge near the maxilla-palatine contact ' / 'undistinguishable or very shallow ridge (Euraxemys essweini)' 'well defined ridge (Peltocephalus dumerilianus)', 56 'MX, triturating surfaces' / narrow_as_in_Euraxemys_essweini wide_as_in_Cearachelys_placidoi very_wide_as_in_Bothremys_cooki, 57 'MX, triturating surfaces shape' / 'lingual and labial ridges parallel sided (Podocnemis expansa)' 'triangular, wide caudally (Lapparentemys vilavilensis)' 'triangular, very wide caudally (Bothremys maghrebiana)', 58 'MX, medial expansion of triturating surface' / 'absent (Bauruemys elegans)' 'present, forming median maxillary ridge (Podocnemis expansa)', 59 'MX, triturating surface convexity' / 'absent or shallow (Podocnemis expansa)' 'deep (Bairdemys hartsteini)', 60 'MX, accessory ridge' / 'absent (Pelomedusa subrufa)' 'present (Elseya dentata)', 61 'MX, pits' / 'absent (Kurmademys kallamedensis)' 'present (Bothremys cooki)', 62 'MX, exposure in orbital floor' / 'broadly exposed (Galianemys emringeri)' 'narrowly or not exposed (Azzabbaremys moragjonesi)', 63 'MX, MX-QJ contact' / 'no contact (Euraxemys essweini)' 'contact present (Galianemys emringeri)', 64 'MX, MX-QU contact' / 'no contact (Podocnemis expansa)' 'contact present (Taphrosphys sulcatus)', 65 'VO, vomer' / 'present (Phrynops geoffroanus)' 'absent (Pelomedusa subrufa)', 66 'VO, VO-PM contact' / 'absent (Phrynops geoffroanus)' 'present (Bauruemys elegans)', 67 'VO, VO-MX contact' / 'present (Proganochelys quenstedti)' 'absent (Azabbaremys moragjonesi)', 68 'VO, VO-PT contact' / 'vomer contacts pterygoid (Phrynops geoffroanus)' 'vomer does not contact pterygoid (Elseya dentata)', 69 'VO, central bar' / sutured_at_both_ends_as_in_Podocnemis_expansa sutured_only_rostrally_as_in_Azzabaremys_moragjonesi, 70 'PAL, fossa orbitalis posterior pocket' / 'absent (Podocnemis expansa)' 'present in septum orbitotemporale (Bairdemys venezuelensis)', 71 'PAL, foramen palatinum posterius' / 'present, only in palatine (Podocnemis expansa)' 'present, both in palatine and pterygoid (Galianemys emringeri)' 'extremely reduced to absent (Dacquemys palaeomorpha)', 72 'PAL, foramen palatinum posterius' / 'in floor of orbit (Proganochelys quenstedti)' 'behind orbit, in floor of sulcus palatinopterygoideus (Pelusios castanoides)', 73 'PAL, apertura narium interna ' / 'small to moderate, caudal edge formed only by palatines (Podocnemis expansa)' 'large due to reduction of palatines, caudal edge formed by palatines and pterygoids (Hydromedusa tectifera)', 74 'PAL, dorsally arched palate' / 'absent (Galianemys emringeri)' 'present (Peltocephalus dumerilianus)', 75 'PAL, palatine extent in triturating surface' / 'narrow or absent (Elseya dentata)' 'moderate, but much less than extent of maxilla (Podocnemis expansa)' 'large, equal to or slightly less than extent of maxilla (Bothremys cooki)', 76 'PAL, secondary palate' / 'absent (Podocnemis expansa)' 'present (Bairdemys venezuelensis)', 77 'PAL, secondary palate, medial edges of palatal cleft' / 'curved (Bairdemys venezuelensis)' 'parallel (Stereogenys cromeri)', 78 'PAL, caudal development' / poorly_developed_as_in_Podocnemis_expansa 'developed, reducing the contact between pterygoids as in Baidemys venezuelensis' 'well-developed, reaching the basisphenoid as in Stereogenys cromeri', 79 'PAL, dorsal process reaches frontal' / 'does not reach frontal (Podocnemis expansa)' 'reaches frontal (Stereogenys cromeri)', 80 'PAL, dorsal process contacts parietal in septum orbitotemporale' / 'does not contact (Podocnemis expansa)' 'contacts parietal in septum orbitotemporale (Stereogenys cromeri)', 81 'QU, fossa precolumellaris' / 'very small to absent (Galianemys emringeri)' 'present but shallow (Euraxemys essweini)' 'deep and well defined (Pelusios castanoides)', 82 'QU, incisura columellae auris' / 'no posterior bony restriction (Euraxemys essweini)' 'eustachian tube separated from stapes by bone or narrow fissure (Foxemys mechinorum)' 'eustachian tube and stapes enclosed by bone in the same opening (Podocnemis expansa)', 83 'QU, stapes contained in bony canal' / 'no (Euraxemys essweini)' 'yes (Bothremys cooki)', 84 'QU, ventral process of the sulcus eustachii' / 'no ventral process (Bothremys cooki)' 'ventral process present (Labrostochelys galkini)', 85 'QU, trough on closed incisura columellae auris ridge' / 'absent (Bothremys maghrebiana)' 'present (Galianemys emringeri)', 86 'QU, entrance of the antrum postoticum' / 'large to moderate (Pelusios castanoides)' 'small (Podocnemis expansa)' 'very small and slitlike (Bairdemys thalassica)' 'antrum postoticum absent (Nigeremys gigantea)', 87 'QU, shelf below cavum tympani' / 'absent (Galianemys emringeri)' 'lower portion of cavum tympani unusually deep (Bothremys maghrebiana)', 88 'QU, condylus mandibularis position' / 'caudal to or on BO-BS suture (Galianemys emringeri)' 'rostral to BO-BS suture (Pelusios castanoides)' 'caudal to condylus occipitalis (Nigeremys gigantea)', 89 'QU, condylus mandibularis shape' / 'much wider than long, with anterior and posterior edges straight to concave making it shorter at midline (Bothremys cooki)' 'slightly wider than long in a ''kidney bean'' shape, with anterior edge straight to concave and posterior edge convex (Podocnemis unifilis)', 90 'QU, ventral outline in lateral view' / 'smooth, condylus mandibularis very close to the cavum tympani region (Araripemys barretoi)' 'ventral projection, condylus mandibularis separated from the cavum tympani region (Bothremys cooki)', 91 'QU, eustachian tube separated from fenestra postotica' / 'no (Podocnemis expansa)' 'yes (Bairdemys hartsteini)', 92 'QU, QU-BO contact' / 'no contact (Elseya dentata)' 'contact present (Podocnemis expansa)', 93 'PT, processus trochlearis pterygoidei' / 'oblique (Phrynops geoffroanus)' 'right angle (Podocnemis expansa)', 94 'PT, fossa pterygoidea/cavum pterygoideum' / absent_as_in_Euraxemys_essweini well_defined_as_in_Cearachelys_placidoi, 95 'PT, pterygoid flange' / 'absent (Proganochelys quenstedti)' 'very short (Phrynops geoffroanus)' 'moderate, does not reach the quadrate ramus of pterygoid (Brasilemys josai)' 'well developed, passing the quadrate ramus of the pterygoid and covering the fossa pterygoidea, forming the cavum pterygoideum (Podocnemis expansa)', 96 'PT, anterior opening of cavum pterygoidei' / 'small opening (Bauruemys elegans)' 'moderate opening (Podocnemis expansa)' 'large opening with foramen cavernosum in roof (Bairdemys venezuelensis)', 97 'PT, foramen caroticum palatinum' / 'present (Emydura macquarii)' 'absent (Pelusios castanoides)', 98 'PT, trigeminal ridge (PT + QU)' / 'absent (Galianemys emringeri)' 'ridge extending posteroventrally from foramen nervi trigemini to condylus mandibularis (Phosphatochelys tedfordi)', 99 Foramen_posterius_canalis_carotici_interni_position_in_relation_to_BS / 'restricted to BS (Kurmademys kallamedensis)' 'on BS edge with another bone (Cearachelys placidoi)' 'outside BS (Pelusios castanoides)', 100 Foramen_posterius_canalis_carotici_interni_position_in_relation_to_fenestra_postotica_cranial_edge / 'rostral to fenestra postotica rostral edge (Pelomedusa subrufa) ' 'on fenestra postotica rostral edge (Phrynops geoffroanus) ', 101 Foramen_posterius_canalis_carotici_interni_position_in_relation_to_PT_ignoring_the_BS_relation / 'restricted to PT (Cearachelys placidoi) ' 'on PT edge with another bone (QU or PR) (Bothremys cooki)' 'outside PT (Hydromedusa tectifera)', 102 Foramen_posterius_canalis_carotici_interni_on_quadrate / 'outside quadrate (Podocnemis unifilis) ' 'on quadrate (Bothremys maghrebiana)', 103 'SO, roof exposure' / 'SO not exposed on roof (Pelusios castanoides)' 'little exposure of SO on roof (Elseya dentata)' 'large exposure of SO on roof (Pseudemydura umbrina)', 104 'SO, crista supraoccipitalis' / 'not elongated caudal to the foramen magnum (Pelusios castanoides)' 'elongated caudal to the foramen magnum (Podocnemis expansa)', 105 'SO, bulbous ending of crista occipitalis' / 'flat ending (Podocnemis expansa)' 'bulbous ending (Bairdemys thalassica)', 106 'SO, horizontal plate along ventral edge of crista supraoccipitalis' / 'flat or very slim horizontal plate on ventral edge (Phrynops geoffroanus)' 'horizontal plate along ventral edge (Podocnemis unifilis) ', 107 'SO, supraoccipital lateral margin on otic chamber' / 'contacts PR and OP but not QU (Phrynops geoffroanus) ' 'contacts QU (Bothremys cooki)', 108 'SO, supraoccipital lateral margin on roof' / 'contacts SQ (Hydromedusa tectifera)' 'does not contact SQ (Pelomedusa subrufa) ', 109 'EX, ventral process' / 'absent to very short (Pelusios castanoides)' 'present, EX-BS contact avoiding BS-QU contact in ventral view of the skull (Euraxemys essweini)', 110 'EX, condylus occipitalis' / 'basioccipital plus both exoccipitals (Euraxemys essweini)' 'exoccipitals only (Pelusios castanoides)', 111 'EX, foramina nervi hypoglossi' / 'separated (Podocnemis expansa)' 'combined and recessed (Bairdemys thalassica)', 112 'EX, foramen jugulare posterius' / 'not formed in bone (Notoemys laticentralis)' 'closed completely (Phrynops geoffroanus)' 'partially openned (Galianemys emringeri)', 113 'EX, dorsal processes of exoccipitals ' / 'do not meet medially (Elseya dentata)' 'meeting dorsal to the foramen magnum (Acantochelys radiolata)', 114 'EX-QU contact' / 'no contact (Elseya dentata)' 'narrow contact (Euraxemys essweini)' 'extensive contact (Podocnemis expansa)', 115 'BO, length' / 'long, length/width => 0.60 (Pelusios castanoides)' 'short, 0.60 > length/width =< 0.25 (Bothremys cooki)' 'very short, length/width < 0.25 (Shweboemys pilgrimi)', 116 'BO, basioccipital tubera width in occipital view' / 'closer to median (Bauruemys elegans)' 'farther from median (Podocnemis expansa)', 117 'BO, horizontal occipital shelf' / 'absent (Elseya dentata)' 'present (Podocnemis expansa)', 118 'BO, basioccipital lateral edges' / 'does not contact opisthotic (Galianemys emringeri)' 'contacts opisthotic (Pelomedusa subrufa)', 119 'PR, ventral exposure, out of cavum pterygoideum' / 'most of PR exposed ventrally (Phrynops geoffroanus)' 'about half covered by QU + BS (Euraxemys essweini)' 'nearly all covered by QU, BS, PT (Podocnemis expansa)', 120 'PR, foramen stapediotemporale' / 'opens dorsally (Pelusios castanoides)' 'opens cranially (Galianemys emringeri)', 121 'PR, foramen stapediotemporale/foramen nervi trigemini' / 'separated by most of prootic (Pelusios castanoides)' 'separated by narrow bar of prootic (Bothremys cooki)', 122 'OP, processus interfenestralis covered ventrally' / 'visible ventrally (Emydura macquarii)' 'coverd by bone (Podocnemis expansa)', 123 'OP, fenestra postotica closed medially' / 'open (Euraxemys essweini)' 'closed by OP-QU contact (Podocnemis expansa)', 124 'OP, fenestra postotica shape' / 'more open (Euraxemys essweini)' 'small, horizontal slit (Galianemys emringeri)', 125 'OP, opisthotic and exoccipital project ventrally forming a flange over the foramen jugulare posterius ' / 'no (Podocnemis expansa)' 'yes (Bairdemys sanchezi)', 126 'OP, processus paraoccipitalis in ventral view' / 'projects caudally beyond SQ (Euraxemys essweini)' 'smaller, rostral to SQ (Galianemys emringeri)', 127 'OP, caudal surface' / 'smooth edge (Galianemys emringeri)' 'thin lateral and horizontal flange present on posterior edge (Chedighaii hutchisoni)' 'thin horizontal flange extending medially from the fenestra to the lateral contact with sq (Chelodina coillei)', 128 'BS, ventral outline' / 'pentagonal (Cearachelys placidoi)' 'triangular (Euraxemys essweini)' 'v-shaped (Nigeremys gigantea)', 129 'BS, rostral margin of basisphenoid' / 'very long rostral process in ventral view at least partially dividing the pterygoids (Chelodina coillei)' 'short rostral process in ventral view (Sokatra antitra)' 'no rostral process in ventral view (Peltocephalus dumerilianus)', 130 'BS, BS-QU contact' / 'absent (Euraxemys essweini)' 'present, wider (Galianemys emringeri)' 'present, very narrow (Bothremys cooki)', 131 'BS, processus clinoideus' / 'present, with abducens canal (Pelusios castanoides)' 'absent, nervi abducens canal is a groove (Bothremys cooki)', 132 'BS, sella turcica/dorsum sella' / 'deep, well-defined margins (Taphrosphys sulcatus)' 'very shallow, low margins (Bothremys cooki)', 133 'SP, splenial' / 'present (Proganochelys quenstedti)' 'absent (Pelusios castanoides)', 134 'DEN, widely exposed on lateral surface' / 'yes, in posterior part of jaw (Euraxemys essweini)' 'no, covered by surangular (Bothremys cooki)', 135 'DEN, internal angle between rami' / 'acute, between 40° and 90° (Podocnemis unifilis)' 'obtuse, over 90° (Phrynops geoffroanus) ', 136 'DEN, high lingual ridge' / 'no (Pelusios castanoides)' 'yes (Bothremys cooki)', 137 'DEN, U-shaped lingual ridges' / 'form U-shape, also wedge (Bothremys cooki)' 'form V-shape (Podocnemis unifilis)', 138 'DEN, accessory ridges' / 'absent (Peltocephalus dumerilianus)' 'present (Podocnemis unifilis)', 139 'DEN, pits' / 'no (Euraxemys essweini)' 'yes (Bothremys cooki)', 140 'DEN, sutured symphysis' / 'symphysis fused (Bothremys cooki)' 'symphysis sutured (Euraxemys essweini)', 141 'DEN, symphyseal hook' / 'no hook on rostral edge (Proganochelys quenstedti)' 'hooked rostral edge (Peltocephalus dumerilianus)', 142 'DEN, triturating surfaces' / narrow_as_in_Euraxemys_essweini wider_as_in_Podocnemis_unifilis_ wide_posteriorly_as_in_Cearachelys_placidoi__ wide_anteriorly_as_in_Bairdemys_venezuelensis__, 143 'SUR, foramen nervi auriculotemporalis' / 'absent (Proganochelys quenstedti)' 'present (Podocnemis unifilis)', 144 'COR, wide lateral exposure' / 'no (Euraxemys essweini)' 'yes (Bothremys cooki)', 145 'COR, participates on triturating surface' / 'no or slightly (Bothremys maghrebiana)' 'yes, lingual-caudal portion formed by coronoid (Podocnemis expansa)' 'yes, caudal portion formed by coronoid (Stereogenys cromeri)', 146 'PRA, fossa meckelii open cranially' / 'closed by long ang-pra contact and/or splenial (Euraxemys essweini)' 'more open, short pra-ang contact (Bothremys cooki)', 147 'ART, processus retroarticularis' / 'short, absent (Pelusios castanoides)' 'long, posterior (Bothremys cooki)' 'long, posteroventral (Podocnemis unifilis)', 148 'ART, foramen chorda tympani enclosed in processus retroarticularis' / 'no (Podocnemis expansa)' 'yes (Erymnochelys madagascariensis)', 149 'VT, cervical articulations' / 'amphicoelous, platycoelous (Proganochelys quenstedti)' '(2( (3( (4( (5) )6) )7( (8) (Phrynops geoffroanus)' '(2) )3) )4) )5) )6) )7) )8) (Podocnemis expansa)', 150 'VT, Cervical vertebrae length' / 'smaller than trunk vertebrae (Podocnemis expansa)' 'longer than trunk vertebrae (Chelodina coillei)', 151 'VT, Elements of atlantal neural arch' / 'dorsally suturally attached (Emydura macquarii)' 'dorsally fused (Hydromedusa tectifera)', 152 'VT, Atlantal intercentrum' / 'suturally attached to atlantal centrum (Phrynops geoffroanus)' 'fused to atlantal centrum (Hydromedusa tectifera) ', 153 'VT, Outline of atlantal neural arch in dorsal view' / 'convex or subparallel lateral edges (Pelomedusa subrufa) ' 'lateral edges tapering anteriorly (Phrynops hilarii)' 'lateral edges ''wasp-waisted'' (Chelus fimbriatus)', 154 'VT, Orientation of atlantal postzygapophyses' / 'ventromedial (Pelusios castanoides) ' 'dorsolateral (Laganemys tenerensis) ' 'ventral (Hydromedusa tectifera) ', 155 'VT, cranial process of neural arch in axis' / 'present (Phyrnops geoffroanus)' 'absent (Hydromedusa tectifera)', 156 'VT, cervical centrum' / 'wider than high (Platychelys oberndorferi)' 'usually higher than wide or rounder (Podocnemis expansa)', 157 'VT, cervical centra saddle shaped' / 'no heterocoelic vertebrae (Phrynops geoffroanus)' 'completely heterocoelic (Podocnemis unifilis)' 'wide (Erymnochelys madagascariensis)', 158 'VT, Proportion of condyle of cervical vertebra 8' / 'higher than wide (Chelodina coillei) ' 'wider than high (Pelomedusa subrufa) ', 159 'VT, Outline of condyle of cervical vertebra 8' / 'trapezoidal or sub-oval with shorter ventral side (Chelus fimbriatus)' 'subrectangular or suboval (Chelodina coillei) ' 'trapezoidal or sub-oval with shorter dorsal side (Hydromedusa tectifera)' 'kidney-like (Pelomedusa subrufa) ', 160 'VT, Ventral keel in cervical vertebrae 8' / 'ventrally developed (Elseya dentata)' 'slightly or not developed (Pelomedusa subrufa)', 161 'VT, Shape of ventral keel on cervical 8' / 'smooth straight or convex ventral edge (Elseya dentata)' 'concave ventral edge (Podocnemis sextuberculata)', 162 'VT, Orientation of dorsal process of neural arch in cervical vertebrae ' / 'more than 30 degrees with respect to vertebral body (Pelusios castanoides) ' 'less than 30 degrees with respect to vertebral body (Araripemys barretoi)', 163 'VT, cervical postzygapophyses' / 'separate (Proganochelys quenstedti) ' 'some fused (Podocnemis unifilis)', 164 'VT, cervical postzygapophyses' / 'separated from each other (Proganochelys quenstedti)' 'postzygapophyses elevated on neural spine (Podocnemis unifilis)', 165 'VT, Orientation of postzygapophyses of cervical vertebra 8' / 'ventrolateral (Pelomedusa subrufa)' 'ventral, horizontal (Hydromedusa tectifera)' 'lateral, vertical (Chelus fimbriatus)', 166 Coracoid_shape / 'entirely wide and plate-like (Proganochelys quenstedti)' 'narrow, almost straight longitudinally and slightly wider distally (Podocnemis unifilis)' 'slightly curved longitudinally and much wider distally (Pelusios castanoides)', 167 Coracoid_dorsolongitudinal_ridge / 'absent (Peltocephalus dumerilianus)' 'present (Podocnemis expansa)', 168 'Scapula, angle between acromion and scapular processess ' / '> 70° (Podocnemis expansa)' '=< 70° (Bairdemys venezuelensis)', 169 Claws_in_forefoot / 'five (Pelusios castanoides) ' 'four (Hydromedusa tectifera) ', 170 'CAR, nuchal embayment' / 'no (Emydura macquarii)' 'yes (Chedighaii barberi)', 171 'CAR, nuchal bone width' / 'greater than length, 2 times or more (Notoemys laticentralis) ' 'greater, but less than 2 times, or equal to length (Phrynops geoffroanus)' 'lesser than length (Araripemys barretoi)', 172 'CAR, nuchal proportions' / 'cranial width/greatest width < 0.40 (Turkanemys pattersoni)' '0.70 < cranial width/greatest width >= 0.40 (Phrynops geoffroanus)' 'cranial width/greatest width > 0.70 (Cordichelys antiqua)', 173 'CAR, first pleural scute reaches nuchal ' / 'no (Cearachelys placidoi)' 'yes (Chedighaii barberii)', 174 'CAR, neural number' / '8 or more (Araripemys barretoi)' '7 neurals (Foxemys mechinorum)' '6 (Kurmademys kallamedensis)' '5 or less (Phrynops geoffroanus)' 'no neurals (Bairdemys venezuelensis)', 175 'CAR, neural series completeness' / 'to suprapygal (Euraxemys essweini)' 'to costals 8 (Podocnemis unifilis)' 'to costals 7 (Foxemys mechinorum)' 'to costals 6 (Chedighaii barberi)' 'to costal 5 & 4 (Phyrnops geoffroanus)' 'neurals discontinuous (Platemys platycephala)', 176 'CAR, neural series pattern' / 'irregular (Platychelys oberndorferi)' 'regular, most hexagonal, coffin-shaped (Podocnemis unifilis)' 'neurals discontinuous (Araiochelys hirayamen)', 177 'CAR, First neural sutured with nuchal' / 'yes (Phrynops geoffroanus)' 'no (Chelodina coillei) ', 178 'CAR, position of four sided neural' / 'neural one (Euraxemys essweini)' 'neural two (Cearachelys placidoi)' 'neural three (Araripemys barretoi)' 'four-sided neural absent (Platemys platycephala)', 179 'CAR, keeled neurals' / 'none (Kenyemys williamsi)' 'at least some (Erymnochelys madagascariensis)', 180 'CAR, keels or knobs on costals' / 'no keel or knob on costals (Podocnemis expansa)' 'costals with keels or knobs (Chelus fimbriatus)', 181 'CAR, costal one length' / 'costal 1 shorter or equal to 2 times length of costal 2 (Euraxemys essweini)' 'costal 1 two times longer than 2nd costal (Foxemys mechinorum)', 182 'CAR, peripheral 1/costal 1 contact length' / 'no contact (Hydromedusa maximiliani)' 'narrow contact, cranial margin 2x contact (Foxemys mechinorum)' 'wide contact, anterior margin less than 2x contact (Rosasia soutoi)', 183 'CAR, peripheral 6 lateral edge' / 'medially inclined towards cranial edge (Araripemys barretoi) ' 'almost parallel to cranio-caudal axis (Phrynops geoffroanus) ' 'medially inclined towards caudal edge (Cordichelys antiqua) ', 184 'CAR, Suprapygal sutured with peripheral 10' / 'yes (Chelodina collei) ' 'no (Pelusios castanoides) ', 185 'CAR, suprapygal-peripheral 11 contact' / 'large (Phrynops geoffroanus)' 'small (Pelomedusa subrufa) ', 186 'CAR, Proportions of peripheral bones' / 'peripheral bones cranial to bridge shorter or equal size than caudal ones ones (Emydura macquarii) ' 'peripheral bones cranial to bridge longer than caudal ones (Phrynops geoffroanus) ', 187 'CAR, thoracic rib 1 versus 2' / 'thoracic rib 1 large and separate from thoracic rib 2 (Notoemys laticentralis)' 'thoracic rib 1 reduced, almost same size of the medial portion of thoracic rib 2, both separated by an oval elongated space (Podocnemis expansa)' 'thoracic rib 1 shorter than the medial exposed portion of thoracic rib 2, very small oval space between them (Chelus fimbriatus)', 188 'CAR, articulation facet on thoracic rib 1' / 'absent (Podocnemis expansa)' 'present, facet or tubercle on cranial margin of thoracic rib 1 (Notoemys laticentralis)', 189 'CAR, costovertebral tunnel' / 'large anteriorly and posteriorly only (Proganochelys quenstedti)' 'large entire length (Platychelys oberndorferi)' 'small (Chedighaii barberi)', 190 'CAR, intumescence from axillary buttress to the rib area on costal 1' / 'no (Podocnemis unifilis) ' 'yes (Bairdemys venezuelensis)', 191 'CAR, axillary buttress scar on costals' / 'contact only peripherals, no contact with costal 1 (Hydromedusa maximiliani)' 'contact present but separated from costal 2 suture (Chedighaii barberi)' 'contact present and close to costal 2 (Chelus colombianus)', 192 'CAR, axillary buttres contact with costal 1' / 'runs parallel to rib-gomphosis of costal 1 (Phrynops geoffroanus)' 'runs in a divergent angle between 15 and 50 degrees to rib-gomphosis (Elseya dentata)', 193 'CAR, axillary buttress extent on ventral surface of peripherals' / 'reaches peripheral 2 (Emydura macquarii) ' 'reaches peripheral 3 (Pelusios castanoides) ' 'reaches peripheral 4 (Phrynops hilarii) ' 'reaches peripheral 5 (Hydromedusa tectifera) ', 194 'CAR, inguinal buttress on costals' / 'short or absent (Proganochelys quenstedti)' 'contacts costal 5, extending medially onto it (Chedighaii barberi)' 'restricted to costal 4 (Chelus fimbriatus)', 195 'CAR, Inguinal buttress on peripheral' / '6 (Chelodina coillei) ' '7 (Hydromedusa tectifera) ' '8 (Phrynops geoffroanus) ', 196 'CAR, iliac scar reaches costal 7' / 'yes (Pelusios castanoides)' 'no (Elseya dentata)', 197 'CAR, iliac scar reaches suprapygal' / 'no (Pelusios castanoides)' 'yes (Elseya dentata)', 198 'CAR, Cervical scute' / 'present (Emydura)' 'absent (Podocnemis)', 199 'CAR, Cervical scute position' / 'between marginal scutes (Phrynops geoffroanus) ' 'behind marginal scutes (Hydromedusa tectifera) ', 200 'CAR, Cervical Scute Shape' / 'width greater than or equal to length (Hydromedusa tectifera) ' 'width smaller than length (Phrynops geoffroanus) ', 201 'CAR, first marginal scute shape' / 'trapezoidal (Podocnemis unifilis) ' 'rectangular (Erymnochelys madagascariensis) ' 'triangular (Araripemys barretoi) ', 202 'CAR, marginal scale 1 proportion overlapping the cranial margin/portion of peripheral bone' / 'between 30 to 60% (Phrynops geoffroanus) ' 'less than 30% (Erymnochelys madagascariensis) ' 'more than 60% (Cordichelys antiqua) ', 203 'CAR, vertebral scale width' / 'equal to or wider than pleural scales ((Pseudemydura umbrina) )' 'narrower than pleural scales (Foxemys mechinorum)', 204 'CAR, vertebral scale 1 reaches cranial margin of carapace' / 'no, first marginals and or cervical scales (Podocnemis unifilis)' 'yes (Araripemys barretoi)', 205 'CAR, relative width of vertebral scute 1' / 'first three vertebral scute equal or sub-equal in width (Pelusios castanoides) ' 'first vertebral scute wider than second and third (Phrynops geoffroanus) ', 206 Generalised_shell_shape / 'high domed (Elseya dentata) ' 'dorso-ventrally flattened (Phrynops geoffroanus) ', 207 'CAR, vertebral scale 1 shape of the craniolateral margins' / 'lateral margins parallel or subparallel to midline axis of carapace (Elseya dentata) ' 'lateral margins cranially divergent or ''houglass" shaped (Phrynops geoffroanus)', 208 'CAR, second vertebral scute shape' / 'quadrangular (Chelodina collei)' 'hexagonal (Hydromedusa tectifera)' 'trapezoidal (Araripemys barretoi) ', 209 'CAR, vertebral scute 2 to 4 longer than wide' / 'no (Chelus fimbriatus)' 'yes (Chelodina collei)', 210 'CAR, Vertebral scute 5 reaches last neural' / 'no (Pelusios castanoides) ' 'yes (Araripemys barretoi) ', 211 'CAR, Vertebral scute 5 reaches peripheral 10' / 'no (Phrynops geoffroanus) ' 'yes (Elseya dentata) ', 212 'CAR, Vertebral scute 5 reaches peripheral 11' / 'no (Hydromedusa tectifera) ' 'yes (Phrynops geoffroanus) ', 213 'CAR, Vertebral scute 5 reaches Pygal' / 'no (Hydromedusa tectifera) ' 'yes (Elseya dentata) ', 214 'CAR, pleural scute 4 touches suprapygal' / 'no (Phrynops geoffroanus)' 'yes (Platemys platycephala) ', 215 Position_of_the_posterior_edge_of_the_plastron_related_to_carapace_in_ventral_view / 'above C8 or more cranial, peripherals entirely visible (Araripemys barretoi)' 'above peripherals 11 (Podocnemis uniflis)', 216 'PLA, cranial lobe reaches carapace edge' / 'yes (Cearachelys placidoi)' 'no (Foxemys mechinorum)', 217 'PLA, cranial lobe length' / 'long to medium, width over length < = 2.0 (Podocnemis unifilis)' 'short, width over length > 2.1 (Chedighaii barberi)', 218 'PLA, cranial lobe' / 'wide, squared cranially, lateral margins parallel or sub-parallel (Platychelys platycephala)' 'narrow, tapered cranially, lateral margins converging cranially (Emydura macquarii)', 219 'PLA, Plastral lobes' / 'cranial lobe as long as or longer than caudal one (Hydromedusa tectifera)' 'cranial lobe shorter than caudal one (Pelomedusa subrufa) ', 220 'PLA, posterior lobe lateral outline' / 'almost straight lined (Euraxemys essweini)' 'concave (Phrynops geoffroanus) ' 'convex (Hydromedusa tectifera) ', 221 Foramina_on_suture_of_hypoplastron_and / 'peripheral 7 (Chelus fimbriatus) ' 'peripheral 8 (Podocnemis unifilis)', 222 Foramina_on_suture_of_hyoplastron_and / 'peripheral 3 (Podocnemis unifilis)' 'peripheral 4 (Chelus fimbriatus)', 223 'PLA, entoplastron shape' / 'arrow-shaped with caudolateral processes (Araripemys barretoi)' 'more trapezoidal (Podocnemis unifilis)' 'longer than wider (Platemys platycephala)', 224 'CAR, vertebral scale 1 overlap onto cranial peripherals and nuchal' / 'overlapping nuchal and peripherals 1 (Erymnochelys madagascariensis)' 'overlapping nuchal, peripherals 1 and 2 (Acantochelys radiolata) ' 'overlaping only nuchals (Bairdemys healeyorum) ', 225 'PLA, mesoplastra' / 'present, wider than long (Notoemys laticentralis)' 'present, rounder and lateral (Podocnemis expansa)' 'absent (Chelus fimbriatus)', 226 'PLA, fontanella between hyo and hypoplastra' / 'yes (Notoemys laticentralis)' 'no (Podocnemis expansa)', 227 'PLA, pectorals on entoplastron' / 'no (Euraxemys essweini)' 'yes (Foxemys mechinorum)', 228 'PLA, pectoral on epiplastron' / 'no, far behind epiplastron (Cearachelys placidoi)' 'on epiplastron, on epi-hyoplastron suture (Foxemys mechinorum)', 229 'PLA, pectoral on mesoplastron' / 'yes (Cearachelys placidoi)' 'anterior to mesoplastron (Kurmademys kallamedensis)', 230 'PLA, gular scute' / 'small , humerals contact in midline (Cearachelys placidoi)' 'large, separating extragulars and humerals (Taphrosphrys sulcatus)', 231 'PLA, extragulars size' / 'large, almost the same size as gular (Chelus fimbriatus)' 'smaller than gular (Pelomedusa subrufa)' 'extragulars absent (Araripemys barretoi)', 232 'PLA, entoplastron caudal end reaching the axillary notch level of plastron' / 'not reaching (Phrynops geoffroanus)' 'caudal end reaches axillary notch (Foxemys mechinorum)', 233 'PLA, extragulars in comparison to intergular' / 'separated by gular (Peltocephalus dumerilianus)' 'larger than gular, in contact in midline caudally (Erymnochelys madagascariensis)', 234 'PLA, gular scales reach entoplastron' / 'yes (Erymnochelys madagascariensis) ' 'no (Podocnemis unifilis) ', 235 'PLA, humeral scale' / 'longest length humeral < longest length pectoral (Elseya dentata) ' 'longest length humeral = > longest length pectoral (Pelusios castanoides) ', 236 'PLA, abdominal scale length' / 'midline length abdominal = > midline length anal (Podocnemis unifilis)' 'midline length abdominal < midline length anal (Taphrosphys sulcatus)', 237 'PLA, strong constriction on femural-anal scute on xiphiplastra' / 'no, smooth edge (Elseya dentata)' 'yes (Phrynops hilarii)', 238 'PEL, pelvis sutured to shell' / 'no (Proganochelys quenstedti)' 'yes (Pelusios castanoides)', 239 'PLA, pubic scar shape' / 'wider as in Phrynops hilarii (largest width/length >0.40)' 'narrower as in Podocnemis unifilis (largest width/length <0.40)', 240 'PLA, ischial scar shape' / 'large and linear or V-shaped (Podocnemis unifilis)' 'small and equidimensional (Taphrosphys sulcatus)', 241 'PLA, ischial scar position related to the lateral edges of xiphiplastron' / 'far from the caudal and lateral edges of xiphiplastron (Peltocephalus dumerilianus)' 'closer to the caudal and lateral edges of xiphiplastron (Chelus fimbriatus)', 242 'PLA, cranial margin width of gulars' / 'much narrower than the cranial margin of intergular (Taphrosphys sulcatus)' 'almost the same width as the cranial margin of intergular (Podocnemis expansa)' 'wider than the cranial margin of intergular (Neochelys laurenti)' 'much wider than the cranial margin of intergular (Erymnochelys madagascariensis)', 243 'PLA, ischial scar position related to the anal notch of xiphiplastron' / 'the most caudal tip of the scar reaches the level of the anal notch (Podocnemis expansa)' 'the most caudal tip is located cranially to the anal notch level (Foxemys mechinorum)', 244 'PLA, gular position' / 'gular reaches cranial margin of plastron (Podocnemis expansa)' 'gular retracted from cranial margin of plastron (Chelodina colliei)', 245 'PLA, shape of caudal process of xiphiplastron' / 'short and wide (Podocnemis expansa)' 'long and narrow (Chelus fimbriatus)', 246 'PM, median notch in upper jaw' / 'notch absent, mx and pm ventral ridge runs anteroventrally, forming an anterior hook (Peltocephalus dumerilianus)' 'notch absent or very shallow, mx and pm ventral ridge runs anteriorly to the midline (Lemurchelys diasphax)' 'notch present, mx and pm ventral ridge runs anterodorsally to the midline (Podocnemis unifilis)', 247 'Labyrinth, ratio between labyrinth length / crus communis height to the horizontal axis' / 'greater than 2.5 (Elseya)' 'lesser than 2.5 (Podocnemis)', 248 'Labyrinth, angle ASC / PSC' / 'greater than 90 (Elseya)' 'lesser than 90 (Podocnemis)', 249 'Labyrinth, ASC course' / 'straight (Elseya)' 'arched (Podocnemis)', 250 'Labyrinth, size of the opening between the lateral semicircular canal and the vestibule' / 'small (Proganochelys)' 'large (Podocnemis)', 251 'Labyrinth, ASC dorsoventrally higher than PSC' / 'no (Elseya)' 'yes (Podocnemis)', 252 'Labyrinth, ASC / PSC length ratio' / 'lesser than 1.1 (Bothremys maghrebiana)' 'greater than 1.1 (Yuraramirim)', 253 'Endocast, dorsal projection posterior to the cerebral hemispheres' / 'present (Hamadachelys)' 'absent (Yuraramirim)', 254 'Endocast, cartilaginous rider fading to a ridge anteriorly' / 'no (Hamadachelys)' 'yes (Phosphatochelys)', 255 'Endocast, medulla position relative to the cerebral hemispheres' / 'dorsal margin of medulla ventral to dorsal margin of cerebral hemispheres (Phosphatochelys)' 'dorsal margins of medulla and cerebral hemispheres roughly at the same plane (Araripemys)', 256 'Endocast, , cerebral hemispheres lateral expansions' / 'slightly expanded (Podocnemis)' 'very expanded laterally (Phosphatochelys)', 257 'Carotid, cerebral carotid canal' / 'short (as in Podocnemis), entering braincase anteriorly to the foramen stapedio-temporale ' 'long (as in Galianemys), entering braincase posteriorly to FST', 258 'Carotid, inclination of the internal carotid course between the posterior (fpcci) and anterior (facci) foramina' / 'lesser than 140º (Phrynops)' 'greater than 140º (Ummulisani)', 259 'Carotid, foramen anterius canalis caroticum palatinum size' / 'small (Hydromedusa)' 'large (Podocnemis)', 260 'Carotid, carotid canal dorsally open at some point' / 'no (Podocnemis)' 'yes (Ummulisani)', 261 'Nerves, cranial nerve I canal' / 'slender (Podocnemis)' 'broad (Phosphatochelys)', 262 'Nerves, canalis nervi vidiani' / 'absent (Hydromedusa)' 'present (Pelomedusa)', 263 'Nerves, canal for the cranial facial (VII) nerve' / 'approximately straight, directed laterally (Pelusios)' 'directed laterally in medial section, then bends posteriorly (Hydromedusa)', 264 'QU, sulcus posterior to condlys mandibularis' / 'absent, smooth surface' present, 265 'EVERS 116, foramen nervi hypoglossi ventral covering' / exposed_in_ventral_view covered_by_an_extension_of_the_BO covered_by_an_extension_of_BO_and_EX, 266 'EVERS 117, foramen nervi hypoglossi' / exit_posterior_to_fenestra_postotica at_least_one_opens_anterior_to_the_margin_of_fenestra_postotica both_open_anterior_to_the_margin_of_fenestra_postotica, 267 'EVERS 120, Basioccipital, basal tubera' / formed_by_BO 'formed by EX + BO', 268 'EVERS 122, Prootic, lateral semicircular canal enclosure' / 'only formed by opisthotic, prootic not ossified' formed_by_opithotic_and_prootic, 269 'EVERS 123, Prootic, ventral process', 270 'EVERS 125, Prootic/pterygoid, posteroventral elongation of trigeminal foramen' / trigeminal_foramen_rounded elongated, 271 'EVERS 128, Prootic/opisthotic, enclosure of fenestra ovalis' / fenestra_ovalis_ventrally_enclosed_by_PR_and_OP PR_and_OP_do_not_have_a_contact_ventrally_to_the_fenestra, 272 'EVERS 138, rostrum basisphenoidale', 273 'EVERS 141, basisphenoid, retractor bulbi pits' / bulbi_pit_absent present, 274 'EVERS 143, basisphenoid, prootic foramen' / prootic_foramen_present absent, 275 'MANIEL 2017, Supraoccipital shape' / rhomboidal subtriangular 'oblong (anteroposterior axis much longer than lateromedial axis)', 276 'GEORGES 2009, QU-PA contact' / absent present, 277 'PLA, length bridge / length anterior lobe' / 'bridge longer than anterior lobe, ratio => 1' 'bridge shorter than anterior lobe, ratio < 1', 278 'QJ-SQ contact' / present absent, 279 'PG 29, Location of pubic scars' / exclusively_on_xiphiplastra overlapping_posterior_region_of_hypoplastra, 280 'CAR, Pleural 2 overlapping on costal 1' / absent present, 281 'CAR, Costal 1 width/length' / 'width/length >= 1.25' less_than_1.25, 282 Caudal_vertebrae / 'platycoelous, amphicoelous' 'formed centra varies, opisthocoelous and procoelous' all_centra_procoelous, 283 'Carapace, bridge marginals' / 'restricted to peripheral plates (Bauruemys)' 'coincide with peripheral/costal suture, or even overlap costals (Chelodina)', 284 'LC2017, Carapace F' / 'The width of the posterior half of carapace is the same or is slightly wider than the anterior half (Platychelys)' 'pentagonal in shape, with the anterior border more or less straight and the posterior half tapering posteriorly (Phrynops)', 285 'LC2017, Suprapygal A' / 'one element (Podocnemis)' 'two elements (Notoemys)' ; MATRIX Proganochelys_quenstedti 0100001000000011?000?000?????000100000?00000?00020010010000000000101??100000?0??000003?000?0?00?0000?000??010010000?01000000000000000000?0000000001000?0210?0001?0001000010???0???100?????000?0000???0002?0000010?????000100??0?0100000?000000???1?0?1000011000010?0000000???0??00?000???0?0? Platychelys_oberndorferi ????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????10?????00??1??0??????00?000001110211?00110100110000012000100011110000001??10000000100010111012000???????????????????????????????0?000?010 Notoemys_laticentralis ??????????????????????????????????0??????????????????????????????????????????????00000?1???0?0????1010????01100000000?0000000000?0??????????????????10?????00??1?1?0?????00200000100021100011?101021000001000111001110000001??10000000100010?1?0??0?????????????0??????0001?2???????0??001011 Bonapartemys_bajobarrealis ???????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????0?11200110?00021100????1110211???1?101110100100100001??1011000010010101?????01???????????????????????????????1??00?10? Prochelidella_cerrobarcinae ????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????1????????????????????01200110?00122101?????????0100110101?10011110??0012??100100001001100110?1001???????????????????????????????1???????? Pseudemydura_umbrina 000000000010030??0000000?0???000102001010?00?0001120000000000??00000?01?0000?0??000000011000001???20202000?000020000010??000010010??00?0?00000??000?????????????????????011114?????0011000???????????001100000010?1110??1012??102111?110011111???1?001?????????????????0200?2?????111????2??? Elseya_dentata 000000000110030??100000000???000102001010001000111200010000100?00000?0110000?000120000010000001?0010201100010001000001000100010020000000?0001000000?100000010000000102?0001104?????0011100102011101111??101010001?1110100112??1021???0??010001??12?0010001010010100000101001211001001?0002100 Emydura_macquarii 000000000110030??100000000???000102001010000?00010200000000000?00001?0010000?000120000010000001?0010201000010001000?01000000000010000000?0001010000?1000?0010000000112?0?01104?????001110010211100101001101000000?111010011200102100?010010001??1200010001110011100000102011201001001?0002100 Myuchelys_latisternum 000100?01110030??100000000???000102001010001000011200010000000?00000?00?0000?0?0020000010000001??010201000?10?01?00001000100010012??0000?0001010000?1000?0010000000102?0?01104?????0011100102010001111??101010010?1110100102??102100?010010001???2?001?????????????????0????21????001?0?02100 Acanthochelys_radiolata 0?0001?00110030??123000000???000102001010000?00010200100000000?00000?0110000?000020000011000001?00102110000?0??1100?0?000000012010?????????1????????1000000??01??0012???00?104?????011110110201020211001101011100?1110??0002??212100?01001100100111001????????????????????????????201?0002100 Platemys_platycephala 0?0000000010030??110000000???000100001010000?01010000100000000?00110?0110000?000020000011000001?0021211000010??1100000000000012010?????????1????????1000030??12??0010???002104?????111100110201020200001101001100?0111100002??202100?01001100100011001?????????????????02?0??0????001?0?02100 Phrynops_hilarii 0?0010?00110030??123000000???000102001010000?00010200100000000?00000??110000?000020000011000001?0021211000010001100?00000000012010000010?00100??0?0?1000100??01??0010???00110231000011110110201020200001101011100001101?0001??102100?00001101100010001???????????????0?02211210101001?0002100 Phrynops_geoffroanus ?00?10000110030??123000000???000102001010000?00010200100000000?00000?0110000?000020000011000001?0021211000010001100?00000000012010000010?0010000000010?????10??01?01?200?0110{2 3}{3 4}1000011110?102??01?2??0?1101011100001101?00?1??102100?0100110110?0100010001110011100000102211211011001?0002100 Mesoclemmys_nasuta 0?0010?00110?30??123000000???000102001?1?000??001020010000000??00000??110000?000020000001000001?00212110000100?1100?00000000?12020??0010?00100000?0?1000100?001??0010???0????34?1300121101102???2?2??001101011100001101?0002??102100?010011001???1?001???????????????????????1????001?00?2100 Chelodina_colliei 200100000210030???32000100???000102001110010??0010200100000001?00101?0110000?000020000011000001?0010201000010?01100000000000012002??0010?0010000000?1110220?0010011102?01011125110000010011020102001100000101110100001000002??122111?110010001??1?0101???????????????0?01201200001201?0002100 Chelus_colombianus ?????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????0110120001111{0 1}10{0 1}???021?2?10?????1??1100????0100001??1?2100?0?0011001001?011???????????????????????????????????????? Chelus_fimbriatus 201?00?00110030??123000000???000102001001010?00010000100000000?00100?0110000?000020000011000001?1020201000010001100?01000000012000000010?001000000201100210100000111220000110{0 1}{0 1 2}00011111101201011221010001010111001111010000101102110?000001001001{0 1}00111101111?1110?000102211200001201?0002100 Hydromedusa_tectifera 200001000210030??132000000???000102001010010?0001020010000000??00000?0111000?000020000011000001?0020201000000001100?01000000012002000010?00100??000?1111221?0120011112?01010111001001111011020003010101010100011000000100002??102100?010011101001110010001111?11100000101101201001101?0002100 Hydromedusa_maximilliani 2?000????????30?????????????????????????????????????????????????????????1???????????????????????0???????????????1??????????????????????????1????????1111221??12??1111???101001100100101101102000301??01010101001001110??0002??1{0 2}2100?0100111110011100????????????????????????0????201?0?02100 Yaminuechelys_maior 2??????0?????30??11????1?????00???????????????????????????????????????????????????????????????????????2000?0?0??1???????????????????00?0?00100?0?00?11102200?130?1110????10200110000011100??21102011100010101111000110??01?1??100000001001?111101??01?????????????????????????????2?1???0?100 Yaminuechelys_gasparinii 2?0100?00210?30??112?00100???000???????00?????????0?0????????0?0????????1??0???0??????????????????????200000???????????????????????????????1????????11?0??00?12??1110????1020011000001110010???02?1??000101011110001100????0???000??0??????101??1???01????????????????????????????2?1?000?100 Pelusios_castaneus 101?010000000111?23200010?1010001000000000010010??00001000010?001????0110000?000220000011000001??020200100010101??0?010000000000120010?0?00{0 1}1010?00020??0???0??1?001?20?00??01?1??00??1??010200??0?001??101000000{0 1}????1?0112???001???01?0?1011??010001????????????????????????????20?0?0?2000 Pelusios_sinuatus 101?01?000000111?23200010?101000100000000000?0000?000010000100001????0110000?0??220000011000001?1?202000000101?1000?01000000000012??1?10?000101??00?20???0010??1?00102?10011022113000211001?200?101001??10100000000110100112??1001001010011011?0010001010111001010?00110000120??0120?0?0?2000 Pelomedusa_subrufa 101?010000000111?232000100101000100000000000?0100?000010000000001????0110000?000220000011000001?1020200000010101000?01000000000012001010?00110100000200000010131?001020100210121{0 1}00011111010200?101001??10100011000110100112??101100001001101100010002010111001010?00110000120111020000002000 Araripemys_barretoi 2?1?010002000211?230000100???000100000000010?01020000000000000001????0010000?000200000011000001?1020200???01000{1 2}000?00000000000000??1000?0010011?00021????010021?111120??122000102000101001?200?101011??20110112010110000110??022000?020??11?1?1???001010101001110?001100011201{0 1}01?0100000??0 Laganemys_tenerensis 201?010002000210021000000????000100000000010??????000?000??0?0000??1?0010000?0?02000000110?0001??020201000010102000?00000000?00100??1000?0011000?00?210??1010????1111????102001002000100001?2?1?111??1??2011010000????000110??0210001020??11?1?????001????????????????????????????2010??00??0 Euraxemys_essweini 101?0100010002100210000100?0?000100000000000?00020000010000100000101?0010000?000100000011000001??0100010??011002010000100100000120??1000?0011010?00120?????10??1??11?2???011?00100000111101?2???1?1??1??1110???00?0110100110??1?11000010011101?0?1?001???????????????1?0?????0????0000?002000 Dirqadim_schaefferi 101?0100?10?02?0011000?00????000?00000000010?01?0?0000100?010000?????011000?????100000011??0001?102010????0110?2010??0100100000120???????????????????????????????????????????????????????????????????????????????????????????????????????????????????1??01?0001010?0?110001?20?101?0?0??????? Sokatra_antitra 101?010001000011??2?0001?0???000100000010?0???????000010??010000?????0110000?0002200000100??001??01021?00001?00201???0100100000011???0?0??0????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????000??2?????00?1??????? Atolchelys_lepida ??1??10??????????????0?????????0?000????0??0?010?????11100000???0111??010000?0?????????11??0112???2001??????0????11?001??1???1?011????0?????????????????????????????????????????????????1???????????????????????????????111?????11?????0????11001?0?0???????????????????????????????????????? Cearachelys_placidoi 001?010001000011?221000100???01010000000100??0?0??0000011?0000100??1?0110010?0000{0 2}0000000101112?101000010011010202100021010101002100100100000210?010???????1???0???1?????011000101000{1 2}11101?20??112??1??10100011011110100010??1011000010011001?001?001?????????????????0?00???????0000?0?2000 Galianemys_emringeri 001?{0 1}100?10?00?1?22?00?100???010?0000?001000?000??0000?1???00010?????1?1?010?0??011010000??1112?1010000100110002?21?002101010101?100?????????????????????????????????????????????????????????????????????????????????????????????????????????????????1001111000010?001001001101001?0?0??????? Galianemys_whitei 001?0100?10?00?1?21?00?10????010?0000?001?00?000??0000?1???000100?0??1?1?010?0??011010000??1112?1010000100110002?21?002101010101?100?????????????????????????????????????????????????????????????????????????????????????????????????????????????????1111111000110?001000001101{0 2}01?0?0??????? Kurmademys_kallamedensis 001?0100?10?0111?23100?11????00010000000000100100?0000111?000010?????1110010?0??2110100101?1112?1000200100110001021?002001100100210??0?10?001210?010???????1?????????2???0110231?0?0121?101?201011?001??1?100?10000110??0??2???011111??0???00100??1?01?????????????????0???????????0?100??000 Sankuchemys_sethnai ??1?01?0?10????1?231?0?1??????0??0?????00?0??010??000??1???100000?1????1??10?0?????????1???11?????1000?????10????2???02??1?????0?1??????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????? Kinkonychelys_rogersi 001?010001000?????1?00???0????0?10????0?0?????????000011??0000???????1??0?1??0?02110000001?1?1??101000????1?0101021?0020011001002100???????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????0???????????0????????? Foxemys_mechinorum 001?110001001011?21100010????00010100000100110000?000111100000100101?1110010?0??0100001001?1112??010000100110102021?00211110010021??11?11?000211?11????????1??????11?2???0110121?0?0111?101?201111?0{0 1}1??10100011000110?11110??111111{0 1}0110110?110011001?????????????????0???????????00000??000 Foxemys_trabanti 001?110001001???????00??0????00010100?0?1??????????001111?0000?0?????1?1?010?0???10000100101112?1010000100110102?21100211110010021??11?11000021101??2??????1???????1???0?01??121?0?011??????2?1??1?0{0 1}1????10????????????1?????1?1??100?????0?1?0???????????????????????0????????????????????? Polysternon_provinciale 001?11?0?10??0?1?21??0?1?????000?0?00??01?0110??210001?110?00?10?????????010?0??0100001101?1112??010000100110112021?002??11001?0?1?????????0?????????????????????????????11??121?0?0111?1?1?2?1?11?0{0 1}1??1010??110??????10??2??101?1110?101?0?1?0?1100??????????????????0????????????000???000 Araiochelys_hirayamai 011?0110?10?1??1?21??0?1?????000?1100?0000110000210101?210?010??0?0??1???020?0??011001100??1102?1020111100110101?21??02111100101?1??11?11?10?001?11??????????????????????????2?2?0???1??????2?1?11??????111???110??????????0???21?101??0???0?1?0??0?01111000000110?001?10000???0??000?00????? Zolhafah_bella 001?11000200?????????????1????0?01??????000110?0??000111110010??01?1?1110020?0???110011001?1?0???010110???0?0?01022?0021?1100?002100?????????????????????????????????????????????????????????????????????????????????????????????????????????????????1?????????????????1????????????????????? Rosasia_soutoi 001?1100?20?10?1????00??01???000?1????0?10010000210001?220?010110?0??1?1?020?0??01100?100??1112??01000??????0?????????211110???1?100?????????????????????????????????????11??121?0?0101?1???????1????1??1110??010??????11??0???01?0000?001?0?1???11002?????????????????1????????????0?0???000 Bothremys_maghrebiana 011?111002001011?21110?110???0000110{0 1}0000011000021121112200010110101?1110020?0??011001100??1002?10201101001101110211?021111001{0 1}12210110100100201011??????????????????????????????????????????????????????????????????????????????????????????????????1111000000010?011?1000??0??????????????? Bothremys_cooki 011?111002001???????10??10???00?11????0?0011000021121112200010??0101?1110020?0?????????001?1?0??1?201?????1?0?0102?1002??11?011?22101?01001002??01???????????????????????????????????????????????????????????????????????????????????????????????????1?11000000?????1???00?0001?????????????? Bothremys_arabicus 0???1??0????????????1???10??????11????0?0??11?0021????1220001???0101??1?0020?0??01100??0???1?0???02011????1?0101022?0021?11001?122??????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????? Bothremys_kellyi 011?11100200?0?1?21??0?1?????00?01100?00001110?0??0211?220?01??1?????1???020?0??011001100??1?02?1?10111100110101?22???21?1100111?2???????????????????????????????????????????????????????????????????????????????????????????????????????????????????1111?000?0?????1??1?00??0????00????????? Chedighaii_hutchisoni 011?111002001??1?21?10?11????00010100?000?????????011??22??000100????1?1?020?0??01100?10???1002??020110100110101?21??02111100111?2????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????00?0??????? Chedighaii_barberi 0?1?11?0?20?????????10???????00??010?0??0??????0??011111??0000???????11???20?0??011?01100????0???02011????1?0??1?21??0211110?1112210?1?10?10?2010?1????????1??????11?????1111131?0?0120?101?201011?011??10100011001110?11110??12111000100110011001000???????????????????????????????0?00??000 Taphrosphys_sulcatus 001?01?00?0???????1??0????????????0110???10???????0??????????????????1??????????011100?1?1?1?0??11101111000101010201?0211110010021?1???????????????????????1??????11?2???0110121?0?0110?101?20{1 2}111?011??10100?01001110?01112??101110?11001110111?1000??????????????????1????????????0?00????? Taphrosphys_ippolitoi 001?01?0010??010?11??0?1?????101?0011?10010100?0210101?0???00101?????101??0??0??0111001101?1??2?1110110???0101010211?02??110010021?1???????????????????????????????????????????????????????????????????????????????????????????????????????????????????11000000111?00??12110011001?0?0??????? Taphrosphys_congolensis 0?1?0??00????0100110?001?????101?0011010?10????????10??????????1?????111?????0??011?0?11???1??????1011?1??01010102110021111001?02100???????????????????????????????????????????????????????????????????????????????????????????????????0?????????1000?????????????????????????????0?000?????? Acleistochelys_maliensis 001?01000000001???1?000100???00111?00010001100100?010110000111?10111?1110100?2000110001011?1010??01000????110011021?00211110010122??????????????????2????????0000????????????????????????????????????????????????????????????????????????????????????1?????????????????0????????????????????? Azabbaremys_moragjonesi 001?0100000?0011?21?00?10????001?0100?100010?1100?0100?00??001010?1??111?10??1??011003100??1012??020110100010101?21??02111100101?200?????????????????????????????????????????????????????????????????????????????????????????????????????????????????1?????????????????1??????????00?0??????? Labrostochelys_galkini 111?01100?0??0100?1000?1?????10??0?11??0001110?0210201?00??001010?????11?00??0??0111011001?1?02?102021????0?0111?21??02111100101?1?0?????????????????????????????????????????????????????????????????????????????????????????????????????????????????1010000000011?0010101000010?1?0?0??????? Phosphatochelys_tedfordi 011?0101010?0010011?01?11????001?0011?11010100100?0011?00??00000?????111?10??0??0111001001?1102?1120110100010101?21??02111100100?{1 2}?0?????????????????????????????????????????????????????????????????????????????????????????????????????????????????1111000010111?111?121100111?120?0??????? Ummulisani_rutgersensis 011?0101010?0010011??1??0????001?0011?11010100?00?0011?0???00000?????1????0?????0111031101?1?0??1120211???010111?21??02111100?00?1?0????????????????????????????????????????????????????????????????????????????????????1?????1?1?1001?000?1???1?00002111000010111?111?1210?011{0 2}01000?0?????? Rhothonemys_brinkmani 011?01?00100?????110?101?????00????1?01?0?1???????001????????????????1??????????011100?????????????????????????10?????????1??10?????110000000000011??????????????????????????????????????????????????????????????????????????????????????????????????1??????????????????????????????????????? Arenila_krebsi 0???01?00100?0????1?00???0???00?101???0???0???0?2101000000000???0101?1110?00?1?0011?031201?101????1000?1?0??0111021?002111?0?1?222?????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????0????????????????????? Nigeremys_gigantea 001?01?0010?00?1?21??0?1?????00??00???0?000101012101000000000???0101??0?0100?1??0110031201?1012??0????0????10?11????0?2??110??0222???????????????????????????????????????????????????????????????????????????????????????????????????????????????????1?????????????????0????????????????????? Brasilemys_josai 0????????1??011???2?000100???000?0000000????????????00?0??000000?????01?001??0001000000110011120?0101000??11100201100?200110000021??1000?00010100?2?20?????00????0?1?????0110111000001????1?2?10?1?001??101000000??????????????0?????????????1?????????????????????????0200???????20?0??????? Hamadachelys_escuilliei 0?1?0100010001100220?0010010?000100000000?0???????010010100000000??1?0110010?0002200010110011120001010?1?0010002001011200110000021001000?0001010?021??????????????????????????????????????????????????????????????????????????????????????????????????1111000011001001002001?011?1?0?0??????? Portezueloemys_patagonica 0???01???100??1?012????1??11??????00????????????????????????????0??1??1?00?0?0???2?????1??011130??101??1????0??2??1011?0?11?00???1??????????????????????????????????????????02210?000?????????1?112??1??1?1?0?020????????11???1011101?100????1??0???0???????????????????????????????????????? Bauruemys_elegans 001?0100010001100120000100000000100000000000?01021010010100000000101?0{0 1}10010?000220001010001113000101011000100010010112001100000210?1000?0001010?02?20?????0011????10200?01102{2 3}101000211001?2010112001??11100000000110100110??101111101001100110010001111101001000100??0210?00?101200000??000 Cambaremys_langertoni ????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????20?????0?????????200?02101210000021??0???010112??1??10100?0000?1???????0???01??11????????1000?0?0???????????????????????????????????????? Peiropemys_mezzalirai 001?01000100021011000001?000000010000000??01100021010000100000000101?0010010?0002200010100011130??10101101010001001111200110000021?????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????0??????????10?0??????? Lapparentemys_vilavilensis 001?01000100021011000001?0000000100000000001100021010010100000000101?0010010?00012000101000111300010101101010001001111200110000021??1000?00010100?20????????1????????10??011012100000211001?2010112001??10100000000110100110??10111100110110011001?001????????????1????02001??1???100000??000 Pricemys_caiera 0????????1????10?10???????2?1??0?00000?????????????100???00000????????????10?0?0120001010001?130?01010???10100010011112001100??021?????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????0????????????????????? Cerrejonemys_wayuunaiki 00??01?00100??101100?011??000000?0000??1??????????010?????0?00001?????0?0??0?0???2???1???0?1?13??0????11?10100??001??12001???00021??10111000?1??11??20?????11??????1?11??0110??1000002????????1?1????1??11100?110??????????????011??1???????????????????????????????????????????????????????? Podocnemis_vogli 001?01?0110001101100001100000000?00000010001100121010011010100000101?0010010?0002200010110011130001010110101000100111120011000002100100111001110?120?0??????1??????1??1??011011100000201101?2011112001??011000111????0??011000101111101001101110010001?????????????????01?????????0000?0?2100 Podocnemis_lewyana 0?1?01?01100??101?0?0?1102100000???0???10????00121???00??101????1????00100100000220001??10011?3000101011?1?1?001001111???11??0????001?0??1?0??????20?0??????1??????1??1??01101210000020??01?2011012001??0110001100011?100110??10111110100110011001000??????????????????????????????000?0?2100 Podocnemis_unifilis 001?0100110001101100001100100000100000010001100121010001010100001????0010010?00022000101100111300010101101010001001111200110000021001001110011101120200??00111300011011000100{1 2}{2 3}100100201001?2011012001??0{0 1}1000110001101001121010111{0 1}1010011001100100021111111?10001001001001001101200000?2100 Podocnemis_erythrocephala 001?0100110001101100001100?000001000000100011001210100110101000001?1?0{0 1}10010?0002200010110011131001010110101000100111120011000002100100111001110?120200??000101010110110?020012100000111101?2011012001??1{0 1}10001200011010011211101111101001100110010002?????????????????????????????00000?2100 Podocnemis_expansa 001?0100110001101100001102100000100000010001100111010001010100001????0010010?10012000101100111310010101101010001001111200110000021001001110011101120200??0011130001101100011012100000201001?2011012001??0{0 1}10001200011010011211101111101001101110010001011111????001001001?????????000000?2100 Podocnemis_sextuberculata 001?0100110001101100001102100000100000010001101111010001010100001????0010010?00002000101100111310010101101010001001111200110000021??10011100111011202000000111101011011000110{1 2}{2 3}1{0 1}0101201101?2011012001??0110001100011010011210101111{0 1}01001101110010001?????????????????01?????????00000002100 Podocnemis_bassleri 0?1?01001100?1101100?0110?100000100000010001?011??00100101010?00???????10010?000?20001011001113??010101101010001?0111?2??110???021??????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????? Caninemys_tridentata 001?010001000?101?00000?00101000?00000000001000021011011010100000101?0??0110?000020002001001113??01010?1?10?00010011112??110000021??????????????????????????1????????????????????????????????????????????????????????????????????????????????????????2?????????????????0????????????????????? Stupendemys_geographicus ????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????1011???101?0?1110121000002????1???1????001????101?1000???0?????????011??1??0????01100?0?0??????????????????????????????????00?000 Dacquemys_paleomorpha 001?0100000001101000?000??010000?00000?00000?1000?01001101010?001????02?0?10?0?0220001010001113??0101021010100010011112??110000021????0111?001???????????????????????????????????????????????????????????????????????????????????????????????????????1????????????????????????????0?????????? UCMP_42008 011?01?00000?0101000?000???1?001????00?00?0???????01001??1010?00?????0???????????2?0??1??00?113???????21???0?????????????????????????001100001?0?1???????????????????????1????????0??????????????????????????0???????????????????????????????????????1??????????????????????????????????????? Carbonemys_cofrinii 001?01000000??101100?0010????000?0000?000000?0100?01?01101000000??????2?0010?0???????1?0???1113??0???001010100????11??2001???00021???????????????????????????????????????????????????????????????????????????????????????????????????????????????????2??????????????????????????????????????? Peltocephalus_dumerilianus 001?01000000001011001001?0201001?0000000100101100?010011010100001????0110010?00012000101000111320010100100010001001101200110000021001001100011101121200??0011010001101000011012100000211001?2011112001??0110001200011010111001101110{0 1}01001100110010000??????????????????1??????????0000002?00 Kenyemys_williamsi ?????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????11112210010011110????????2??1??01100011001110100112??1011111000101001???2?00???????????????????????????????????????? Turkanemys_pattersoni 001?01?0000001101100?001??00?000?0000000100??010??01001101010?001????0010010?0??220001010001113??010100101?10001??110?2??1???00021??1001110011?01?2?2???????2????????????01002310000011100???111012001??10100011000110100112??1011111000101001?0010000???????????????????????????????????2??? Erymnochelys_madagascariensis 001?01000000001011001001?0101000?00000000001001021010011010100001????0010010?0002200010100011132001010010001000100110120011000002100100110001110112120???0002130101101000011023100000211001?2011012001??11100011000110100112??10111110001010011?020000??????????????????1?????????2000?????00 Neochelys_fajumensis 001?010000000110?100?00101000000100000000001001021010011010000001????0110010?0001200010100011132?0101001?10100010011?12?01100?0021??1?011000?1????2????????????????????1?01?0{1 2}{2 3}10000??1101??????112??1??10100?1100011010?112??101111{0 1}00010100110?2?001?????????????????0???????????0?0??????? Neochelys_arenarum 001?0100000000101100?0010?30000010000000100100102101001101000?001????0010010?0002200010100011132?0101001??010001?0110?2??110???021??1??11000??10?12??????????????????????01??2310000021?????????11???1???1?00?1???????????????1011111{0 1}10001??1???1?0?1??????????????????????????????????????? Neochelys_franzeni 0?1?01000000?0101100?0010?300000?0000000000???1???0100??????0?00?????0?1?0?0?0??22000??1?0011132?01010????010001?0110?2??110???0?1??1?0????0???0?1202???????2?????11?????0110{1 2}{2 3}10000021100102???112001??1110001100011010011{0 2}??1011110{0 1}00001001???1?001??????????????????????????????0?00??000 Papoulemys_laurenti 001?0100000001101100?001??30?000100000001?010?10??0?00110?000?001????0110010?000220001010001113??0101001010100010011012??110000021??????????????????20?????0?????0?1?????0110121000?011110??2011112001??11100011000110??0110??10111110001010011002000???????????????????????????????????????? Mogharemys_blackenhorni 0????1?0?000????????10??11?0100?10????00????????????0111?10?00???????02?0110?01002000101?00111?2?01010?1??0?0011011100?001100??02100???????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????0????????????????????? Brontochelys_gaffneyi 0?1?0100?0000???????10??11???00?10????0???????????0101022?0000??1????1??01210010???????????11132?01010????0?0?110?11012?01?00??1210??????????????????????????????????????????????????????????????????????????????????????????????????????????????????1??????????????????????????????????????? Lemurchelys_diasphax 001?0100?0000???????10??11???00?10????0010111110200101022?0000??1????12?01211010?2???2?0110111?2?01010?1??0?0001001101200110010121???????????????????????????????????????????????????????????????????????????????????????????????????????????????????1?????????????????0????????????????????? Shweboemys_pilgrimi 001?01000000????????10???1?0?00?0?????001?111110200101022?000???1?????2?01211211???????????1????101?????????0?11?02101??0??????121???????????????????????????????????????????????????????????????????????????????????????????????????????????????????21111101?0100?00?0?????0111?1??????????? Stereogenys_cromeri 001?010000000?10??0010??1120?00?0000000010011?10??0101022?0000??1????12?0121121102???200110111321010100???0?0011002101200110010122001?00?00003??2?1??????????????????????????????????????????????????????????????????????????????????????????????????{1 2}1111101?0000?00??020?0011?????????????? Cordichelys_antiqua 0?1?0100100000101100100111201000000000001??11110??0?00022?0000001????1??01211?1002000101?1011132?0101001?1010011001101200110010121???????????????????????????????????????11202310000012?001?2011012001??02110110000110101110??10111110100010011001?001?????????????????0?????1??????00?00?000 Latentemys_plowdeni 001?010000000???????10??11???00?100000000?????????0100022?000???1????1??01210010?200010101111132101010????0?0?11001101200110010121???????????????????????????????????????????????????????????????????????????????????????????????????????????????????2?????0???????00??02000011101??????????? Bairdemys_thalassica 0??????0?00?011?110010011120100010110000????????????0002??100000?????10?0121?1100200020011111132?0101011110?0011001101200110110122?????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????0?????1???????0??????? Bairdemys_healeyorum ?????????????????????????????????????????????????????????????????????????????????2000???111?????????????????????????????????????????1000?00013?1???????????????????????0?012123100001211001?2111112001??021?00001011101?1110??1211111010011001???0?00??????????????????????????????????????0? Bairdemys_venezuelensis 001?0100000101101100?001?12010001011000000011010??0100022?1000001????10?012101100200020011111132??10100111010011001101200110110122??1000?0000311211????????????????????1?011?4?????00201001?2111112001???????0?????????01110??1?1111101001?0011001?001?????????????????0????????????00????0?? Bairdemys_hartsteini 001?010000010?1011001001?120100?101100?010011010??0100022?10000?1?????0?012100?00200020111111132??1010?1?101001100110120?110010121???????????????????????????????????????????????????????????????????????????????????????????????????????????????????11111101?01????01?02000??1?????????????? Bairdemys_sanchezi 001?0100000101101210100111?0?00010110000000???10??0100022?0000001????1??012100?0020002011111113???101001?1010001001101200110110112??1000?00003?1211??????????????????????????????????????????????????????????????????????????????????????????????????1?????????????????0?????????????1??????? Bairdemys_winklerae 001?01000001?1101110?001???????010110??0100??110??0100022?100?001???????012100???2000?011111113???????0111?10?1?0011012??1?0110121???????????????????????????????????????????????????????????????????????????????????????????????????????????????????1??????????????????????????????????????? Piramys_auffenbergi 001?01?01000011??????00??????000????00?0101???????010?????????00?????????????????200020??1??1?????????????0??0??0??????10????10??????????????????????????????????????????????????????????????????????????????????????????????????????????????????????2??????????????????????????????????????? Amabilis_uchoensis 0?????????????1?????00??00???00?1?????0??????????????????????????????001?????0?0220001?1??011130101010????0?00020010002001000??02100??????????????????????????????????????????????????????????????????????????????????????????????????????????????????111101??1000?0?10?1001001?01??????????? Yuraramirim_montealtensis 0???01?001?002101100000?00???0001?????00?????????????????????????????011?0?0?000220000?1??0111300010101???0?0???00110?2001100??01100??????????????????????????????????????????????????????????????????????????????????????????????????????????????????1111111?100010010????1001?01?0????????? Tartaruscola_teodorii 011??1?0010011???1110001???1??0??0???0????10??1?1??1001221?100??0001??11??10?00?00??001101?1?12???1000110?11?112?21?00211?1001?02100???????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????1????????????????????? Chupacabrachelys_complexus 111?01?00100?011?101?0?1???????????110????1???1???0010??1???0?10?????????????????11????001???1?????????10?01???????00???????????????1?001?0000??01112??1???10??0???1?2?0?101?2310000110100??2???11?011???????0????????101010??2?11??0????????1110?0?0???????????????????????????????0?0?02?00 Eocenochelus_eremberti ?01?01?00100?011??0??00???310000???????0??1???????0110???????000??????11?????0?????????100??1132??????????0???????????20???????02???100???????????21?????????????????????????1?1??00?????????????????????0???????????????1?2??1?1???1????0????1????00???????????????????????????????????????0 Paiutemys_tibert ?????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????1111121000?1{1 2}1??0????2?112??1??00100?010011?0010110??101?00?0?0?0???1??????0???????????????????????????????????????0 Algorachelus_peregrinus 0????????1??1011??11?001?????000?1?????0?????????????0122??01011??????????2??????11?0??00101012???1000?10?1101??0?1???21111??100?1?????????????????????????????????????0?1111{1 2 3}{2 3}1000?1211??????1??12011??1{0 2}?00?110011101?0010??10{0 1}?100??0???0?1000???0???????????????????????????????0???????0 Palemys_bowerbankii ?????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????0110121000?021110???????????1??10000?11001110111012??101?1110?0?000????????????????????????????????????????0???????0 Puentemys_mushaisaensis ???????????????????????????????????????????????????????????????????????????????????????1??????????????????110????11??0?111???1???2???????????????????????????????????????0210{1 2}{2 3}100001111?0102?1?{0 1}12011??10101?10000110?11112??111?{0 1}{0 1}{0 1}0?1?010??0001100??????????????????0????????????0???????0 Elochelys_convenarum ?????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????010023100??1111?0??2?1?11?011??10100?11000??0011010??101?1111?0?000?1?0?1?00???????????????????????????????0??0??000 Elochelys_perfecta ??????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????1?012100??111??0???????????1??10100?0100111??11012??101?1111?0?000?1?????00???????????????????????????????1??0??000 Andrewsemys_libyca ?????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????110115113??022100??????1?2??1??10000001011110101012??121?1111010000?11002100???????????????????????????????0?000?000 Hydromedusa_casamayorensis ??????????????????32??????????????????????????????????????????????????????????????????????????????2020100?0?00011?010?00????00?0?0??????????????????11????????????111????0{1 2}10011000?111001????1?{1 2}110?0101000011?0?????01000???1?2?00?010?010?1?????00???????????????????????????????1???0?10? Platycheloides_nyasae ?????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????10202{0 1 2 3}1130?021110102?2?011001??20110011000110100110??10110000100000?1?0?0?00???????????????????????????????0??00?000 Teneremys_lapparenti 2???0??001?0?????232?0????????????0????00??????????000?0????0???0??1?????????0???00????110?0001???10?0????01????????0?00?????0?00??????????1?0??????2??????1???????1?????12??1?1?2??02????1???2?1??0?1????10???10??????101????1?1?000??00????1??????????????????????????????????????0??0????? Mendozachelys_wichmanni ????????????????????????????????10????????????????????0???????????????????0??????2??????00???????????????????0????0???0??????0?020??0001??00101?????110?????0??0?0?1?2?001210231000?010101??2?111??1100110101?1010?110??1011??100?00?0100?00?1?010001??????????????????0??1?????????1??002100 Rionegrochelys_caldieroi ?????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????111001100??1211001???1011101000?0101110001110100?11??100?1000?00010?1?01?0?1???????????????????????????????1??00?100 Lomalatachelys_neuquina ?????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????1?101?1000?1110?1???????12010?1??101?101?1110?10010??100?000??00????1??1?0?1???????????????????????????????1?0?0?100 Dortoka_vasconica ????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????1????????0?????1?????02010000000101101102?2?1110000010100?10010110100001??202?00?0100000?1?0?0100???????????????????????????????0?111100? Dortoka_botanica ?????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????01??0000000102111102?1????0000?1?10??10111110000011??102?10?0000000?110?2100???????????????????????????????0?011?00? Birlimarr_gaffneyi 00??00?00110030??1000000?????000102??1?1??????????2?000000?10??0???????1?000?0??12??00010000001???20201000?100?100010?0??0???00020????0???00?0??????100??????????????2?0?01104??????111100????111????001100000110?1110100002??102110?0000100?1???2?00???????????????????1?????????001??00?10? Notoemys_zapatocaensis ?????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????012000001??021100011???1?21000000000?00010110100000??100000?1000000?1?012000???????????????????????????????0?000?011 Elusor_macrurus 000000000110030??100000000???000102??1?00000??0?11200000000?0??000000?110000?00?120?00010000101???2020100??100???0010?0??0???1?020??0000??0000??????1???????????????????001104?????0011100????11111??001100000110?0110100110??102100?0000101?1???2?00?????????????????????????????001??002100 Linderochelys_rinconensis ????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????1????????????001????1????23?????????????2?1110??????????????????????0010??1?01000??0???0?1??????1???????????????????????????????1?0?????0 Palaeophrynops_patagonicus ????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????1?????????????????????2?0??10????2????????1?112??00???1?0?10???????000????2???????1?01???????0?0????????????????????????????????????0???? Salamanchelys_palaeocenica ??????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????1?1??1010011????????1?1??0?001120001000??????00100??22110000100110110000000???????????????????????????????1?0?0?1?? Podocnemis_pritchardi ?????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????01102310000120110???????????1??00101?11101110110110??10011110000100011001001???????????????????????????????0?000?100 Podocnemis_negrii ?????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????121?01???0110??201??1200?????1????1101110??01????1??111?010010??1???1?0???????????????????????????????????0??1?0 Podocnemis_medemi ?????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????01?0??100??01???????????????1??00101?101????????112??10111110010100011001000???????????????????????????????0?000???? Ilatardia_cetiotesta 001?11?00000???????1?01??????10??0?000?00?1???1???1100100?0?0???0111??1?0?10?0??01??02100??101????2011????????11?21?002111??01?022?????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????110??????????????????? ; END; BEGIN LABELS; TAXAGROUPLABEL 'G06_only' COLOR = (RGB 0.4 0.76078431 1) ; TAXAGROUPLABEL 'G11_only' COLOR = (RGB 0.31764706 0.31764706 0.86666667) ; TAXAGROUPLABEL 'C12_only' COLOR = (RGB 0.96862745 0.96862745 0.25882353) ; TAXAGROUPLABEL 'F03_only' COLOR = (RGB 0.39607843 0.90196078 0.27058824) ; TAXAGROUPLABEL Outgroup COLOR = (RGB 0.70196078 0.81960784 1) ; TAXAGROUPLABEL Ingroup COLOR = (RGB 1 0.70196078 0.81960784) ; TAXAGROUPLABEL 'Ingroup_ok' COLOR = (RGB 1 0.03529412 0.80784314) ; TAXAGROUPLABEL B&F05 COLOR = (RGB 1 0.56862745 0.82745098) ; TAXAGROUPLABEL MyTaxa COLOR = (RGB 0.4 0.76078431 1) ; TAXAGROUPLABEL Chelidae COLOR = (RGB 1 0.76078431 0.6) ; TAXAGROUPLABEL Pelomedusidae COLOR = (RGB 1 0.91372549 0.56862745) ; TAXAGROUPLABEL Araripemydidae COLOR = (RGB 1 1 0.53333333) ; TAXAGROUPLABEL Euraxemydidae COLOR = (RGB 0.77254902 1 0.43529412) ; TAXAGROUPLABEL 'Pan-Podocnemididae' COLOR = (RGB 0.54509804 1 0.43529412) ; TAXAGROUPLABEL Bothremydidae COLOR = (RGB 0.4 1 1) ; TAXAGROUPLABEL Podocnemididae COLOR = (RGB 0.43529412 0.54509804 1) ; CHARGROUPLABEL G06 COLOR = (RGB 0.51372549 0.8745098 0.96862745) ; CHARGROUPLABEL C12 COLOR = (RGB 0.86666667 0.86666667 0.23137255) ; CHARGROUPLABEL G11 COLOR = (RGB 0.54901961 0.63137255 0.96862745) ; CHARGROUPLABEL F03 COLOR = (RGB 0.32156863 0.83529412 0.19607843) ; CHARGROUPLABEL 'New_char' COLOR = (RGB 1 0.6 0.33333333) ; CHARGROUPLABEL Alright COLOR = (RGB 0.70196078 0.81960784 1) ; CHARGROUPLABEL Check_it COLOR = (RGB 1 0.2 0.2) ; CHARGROUPLABEL 'Chelida_matrix' COLOR = (RGB 1 0.81960784 0.10196078) ; CHARGROUPLABEL Revised COLOR = (RGB 0.36862745 0.36862745 1) ; CHARGROUPLABEL Other_Authors COLOR = (RGB 0.83529412 0.56862745 0.16470588) ; CHARGROUPLABEL New COLOR = (RGB 0.90196078 0.18039216 0.90196078) ; END; BEGIN SETS; TAXPARTITION * UNTITLED = Outgroup : 1- 3, Chelidae : 4- 21, Pelomedusidae : 22- 24, Araripemydidae : 25- 26, Euraxemydidae : 27- 28, 'Pan-Podocnemididae' : 29- 30 60- 67, Bothremydidae : 31- 59, Podocnemididae : 68- 101; END; BEGIN ASSUMPTIONS; TYPESET * UNTITLED = unord: 1- 13 15- 17 20- 70 72- 94 97- 98 100 102- 118 120- 128 130- 173 176- 285, ord: 14 18- 19 71 95- 96 99 101 119 129 174- 175; EXSET * UNTITLED = ; END; BEGIN MESQUITECHARMODELS; ProbModelSet * UNTITLED = 'Mk1 (est.)': 1- 285; END; BEGIN TREES; Title Trees; ID 015a2c1ad0d61; LINK Taxa = Original_analysis_Taxa_Block; TRANSLATE [0] 1 Proganochelys_quenstedti, [1] 2 Platychelys_oberndorferi, [2] 3 Notoemys_laticentralis, [3] 4 Bonapartemys_bajobarrealis, [4] 5 Prochelidella_cerrobarcinae, [5] 6 Pseudemydura_umbrina, [6] 7 Elseya_dentata, [7] 8 Emydura_macquarii, [8] 9 Myuchelys_latisternum, [9] 10 Acanthochelys_radiolata, [10] 11 Platemys_platycephala, [11] 12 Phrynops_hilarii, [12] 13 Phrynops_geoffroanus, [13] 14 Mesoclemmys_nasuta, [14] 15 Chelodina_colliei, [15] 16 Chelus_colombianus, [16] 17 Chelus_fimbriatus, [17] 18 Hydromedusa_tectifera, [18] 19 Hydromedusa_maximilliani, [19] 20 Yaminuechelys_maior, [20] 21 Yaminuechelys_gasparinii, [21] 22 Pelusios_castaneus, [22] 23 Pelusios_sinuatus, [23] 24 Pelomedusa_subrufa, [24] 25 Araripemys_barretoi, [25] 26 Laganemys_tenerensis, [26] 27 Euraxemys_essweini, [27] 28 Dirqadim_schaefferi, [28] 29 Sokatra_antitra, [29] 30 Atolchelys_lepida, [30] 31 Cearachelys_placidoi, [31] 32 Galianemys_emringeri, [32] 33 Galianemys_whitei, [33] 34 Kurmademys_kallamedensis, [34] 35 Sankuchemys_sethnai, [35] 36 Kinkonychelys_rogersi, [36] 37 Foxemys_mechinorum, [37] 38 Foxemys_trabanti, [38] 39 Polysternon_provinciale, [39] 40 Araiochelys_hirayamai, [40] 41 Zolhafah_bella, [41] 42 Rosasia_soutoi, [42] 43 Bothremys_maghrebiana, [43] 44 Bothremys_cooki, [44] 45 Bothremys_arabicus, [45] 46 Bothremys_kellyi, [46] 47 Chedighaii_hutchisoni, [47] 48 Chedighaii_barberi, [48] 49 Taphrosphys_sulcatus, [49] 50 Taphrosphys_ippolitoi, [50] 51 Taphrosphys_congolensis, [51] 52 Acleistochelys_maliensis, [52] 53 Azabbaremys_moragjonesi, [53] 54 Labrostochelys_galkini, [54] 55 Phosphatochelys_tedfordi, [55] 56 Ummulisani_rutgersensis, [56] 57 Rhothonemys_brinkmani, [57] 58 Arenila_krebsi, [58] 59 Nigeremys_gigantea, [59] 60 Brasilemys_josai, [60] 61 Hamadachelys_escuilliei, [61] 62 Portezueloemys_patagonica, [62] 63 Bauruemys_elegans, [63] 64 Cambaremys_langertoni, [64] 65 Peiropemys_mezzalirai, [65] 66 Lapparentemys_vilavilensis, [66] 67 Pricemys_caiera, [67] 68 Cerrejonemys_wayuunaiki, [68] 69 Podocnemis_vogli, [69] 70 Podocnemis_lewyana, [70] 71 Podocnemis_unifilis, [71] 72 Podocnemis_erythrocephala, [72] 73 Podocnemis_expansa, [73] 74 Podocnemis_sextuberculata, [74] 75 Podocnemis_bassleri, [75] 76 Caninemys_tridentata, [76] 77 Stupendemys_geographicus, [77] 78 Dacquemys_paleomorpha, [78] 79 UCMP_42008, [79] 80 Carbonemys_cofrinii, [80] 81 Peltocephalus_dumerilianus, [81] 82 Kenyemys_williamsi, [82] 83 Turkanemys_pattersoni, [83] 84 Erymnochelys_madagascariensis, [84] 85 Neochelys_fajumensis, [85] 86 Neochelys_arenarum, [86] 87 Neochelys_franzeni, [87] 88 Papoulemys_laurenti, [88] 89 Mogharemys_blackenhorni, [89] 90 Brontochelys_gaffneyi, [90] 91 Lemurchelys_diasphax, [91] 92 Shweboemys_pilgrimi, [92] 93 Stereogenys_cromeri, [93] 94 Cordichelys_antiqua, [94] 95 Latentemys_plowdeni, [95] 96 Bairdemys_thalassica, [96] 97 Bairdemys_healeyorum, [97] 98 Bairdemys_venezuelensis, [98] 99 Bairdemys_hartsteini, [99] 100 Bairdemys_sanchezi, [100] 101 Bairdemys_winklerae, [101] 102 Piramys_auffenbergi, [102] 103 Amabilis_uchoensis, [103] 104 Yuraramirim_montealtensis, [104] 105 Tartaruscola_teodorii, [105] 106 Chupacabrachelys_complexus, [106] 107 Eocenochelus_eremberti, [107] 108 Paiutemys_tibert, [108] 109 Algorachelus_peregrinus, [109] 110 Palemys_bowerbankii, [110] 111 Puentemys_mushaisaensis, [111] 112 Elochelys_convenarum, [112] 113 Elochelys_perfecta, [113] 114 Andrewsemys_libyca, [114] 115 Hydromedusa_casamayorensis, [115] 116 Platycheloides_nyasae, [116] 117 Teneremys_lapparenti, [117] 118 Mendozachelys_wichmanni, [118] 119 Rionegrochelys_caldieroi, [119] 120 Lomalatachelys_neuquina, [120] 121 Dortoka_vasconica, [121] 122 Dortoka_botanica, [122] 123 Birlimarr_gaffneyi, [123] 124 Notoemys_zapatocaensis, [124] 125 Elusor_macrurus, [125] 126 Linderochelys_rinconensis, [126] 127 Palaeophrynops_patagonicus, [127] 128 Salamanchelys_palaeocenica, [128] 129 Podocnemis_pritchardi, [129] 130 Podocnemis_negrii, [130] 131 Podocnemis_medemi, [131] 132 Ilatardia_cetiotesta; TREE 'Strict Consensus+++++++++' = (1,((2,(124,3)),((122,121),(((((120,118),127),126),(8,((7,9),((125,123),(6,(128,((10,(11,(14,(13,12)))),((17,16),(15,(((19,18),115),(5,(119,(4,(21,20)))))))))))))),((24,(23,22)),((((26,25),(117,116)),(28,27)),(29,(30,((34,35,(36,((31,(33,32)),(((((((((48,47),((46,45),(44,43))),40),41),(42,108)),109),105),((112,113,110),37,111,38,39)),((59,58),(52,(53,(132,(106,(54,((57,(55,56)),(51,(50,49))))))))))))),(60,(103,(61,(62,(64,(63,((104,(65,(66,67))),((76,(68,(72,((69,(130,(129,131))),(70,(71,(73,(75,74)))))))),((77,78,80,79),((107,(86,(87,((88,82),(85,(83,84)))))),(81,(89,(94,(95,(97,((90,(91,(102,92,93))),(101,99,(100,(98,96))))))))))))))))))))))))))))[% ] [% ] [% setBetweenBits = selected ]; END; BEGIN NOTES; SU T = 62 C = 2 N = color I = 4; SU T = 66 C = 2 N = color I = 4; SU T = 68 C = 2 N = color I = 4; SU T = 72 C = 2 N = color I = 4; SU T = 74 C = 2 N = color I = 4; SU T = 81 C = 2 N = color I = 4; SU T = 84 C = 2 N = color I = 4; SU T = 62 C = 3 N = color I = 4; SU T = 66 C = 3 N = color I = 4; SU T = 68 C = 3 N = color I = 4; SU T = 72 C = 3 N = color I = 4; SU T = 74 C = 3 N = color I = 4; SU T = 81 C = 3 N = color I = 4; SU T = 84 C = 3 N = color I = 4; SU T = 62 C = 5 N = color I = 4; SU T = 66 C = 5 N = color I = 4; SU T = 68 C = 5 N = color I = 4; SU T = 72 C = 5 N = color I = 4; SU T = 74 C = 5 N = color I = 4; SU T = 81 C = 5 N = color I = 4; SU T = 84 C = 5 N = color I = 4; TEXT TAXON = 117 CHARACTER = 5 TEXT = Joyce_et_al._2016; SU T = 62 C = 6 N = color I = 4; SU T = 66 C = 6 N = color I = 4; SU T = 68 C = 6 N = color I = 4; SU T = 72 C = 6 N = color I = 4; SU T = 74 C = 6 N = color I = 4; SU T = 81 C = 6 N = color I = 4; SU T = 84 C = 6 N = color I = 4; SU T = 62 C = 7 N = color I = 4; SU T = 66 C = 7 N = color I = 4; SU T = 68 C = 7 N = color I = 4; SU T = 72 C = 7 N = color I = 4; SU T = 74 C = 7 N = color I = 4; SU T = 81 C = 7 N = color I = 4; SU T = 84 C = 7 N = color I = 4; TEXT TAXON = 117 CHARACTER = 8 TEXT = Joyce_et_al._2016; SU T = 62 C = 9 N = color I = 4; SU T = 66 C = 9 N = color I = 4; SU T = 68 C = 9 N = color I = 4; SU T = 72 C = 9 N = color I = 4; SU T = 74 C = 9 N = color I = 4; SU T = 81 C = 9 N = color I = 4; SU T = 84 C = 9 N = color I = 4; SU T = 85 C = 9 N = color I = 4; SU T = 62 C = 10 N = color I = 4; SU T = 66 C = 10 N = color I = 4; SU T = 68 C = 10 N = color I = 4; SU T = 72 C = 10 N = color I = 4; SU T = 74 C = 10 N = color I = 4; SU T = 81 C = 10 N = color I = 4; SU T = 84 C = 10 N = color I = 4; TEXT TAXON = 117 CHARACTER = 10 TEXT = Joyce_et_al._2016; SU T = 62 C = 12 N = color I = 4; SU T = 66 C = 12 N = color I = 4; SU T = 68 C = 12 N = color I = 4; SU T = 72 C = 12 N = color I = 4; SU T = 74 C = 12 N = color I = 4; SU T = 81 C = 12 N = color I = 4; SU T = 84 C = 12 N = color I = 4; SU T = 62 C = 13 N = color I = 4; SU T = 66 C = 13 N = color I = 4; SU T = 68 C = 13 N = color I = 4; SU T = 72 C = 13 N = color I = 4; SU T = 74 C = 13 N = color I = 4; SU T = 81 C = 13 N = color I = 4; SU T = 84 C = 13 N = color I = 4; SU T = 62 C = 14 N = color I = 4; SU T = 66 C = 14 N = color I = 4; SU T = 68 C = 14 N = color I = 4; SU T = 72 C = 14 N = color I = 4; SU T = 74 C = 14 N = color I = 4; SU T = 81 C = 14 N = color I = 4; SU T = 84 C = 14 N = color I = 4; SU T = 62 C = 15 N = color I = 4; SU T = 66 C = 15 N = color I = 4; SU T = 68 C = 15 N = color I = 4; SU T = 72 C = 15 N = color I = 4; SU T = 74 C = 15 N = color I = 4; SU T = 81 C = 15 N = color I = 4; SU T = 84 C = 15 N = color I = 4; SU T = 62 C = 17 N = color I = 4; SU T = 66 C = 17 N = color I = 4; SU T = 68 C = 17 N = color I = 4; SU T = 72 C = 17 N = color I = 4; SU T = 74 C = 17 N = color I = 4; SU T = 81 C = 17 N = color I = 4; SU T = 84 C = 17 N = color I = 4; SU T = 62 C = 18 N = color I = 4; SU T = 66 C = 18 N = color I = 4; SU T = 68 C = 18 N = color I = 4; SU T = 72 C = 18 N = color I = 4; SU T = 74 C = 18 N = color I = 4; SU T = 81 C = 18 N = color I = 4; SU T = 84 C = 18 N = color I = 4; TEXT TAXON = 117 CHARACTER = 18 TEXT = 'Gaffney et al. 2006; Joyce et al. 2016'; SU T = 62 C = 22 N = color I = 4; SU T = 66 C = 22 N = color I = 4; SU T = 68 C = 22 N = color I = 4; SU T = 72 C = 22 N = color I = 4; SU T = 74 C = 22 N = color I = 4; SU T = 81 C = 22 N = color I = 4; SU T = 84 C = 22 N = color I = 4; SU T = 62 C = 23 N = color I = 4; SU T = 66 C = 23 N = color I = 4; SU T = 68 C = 23 N = color I = 4; SU T = 72 C = 23 N = color I = 4; SU T = 74 C = 23 N = color I = 4; SU T = 81 C = 23 N = color I = 4; SU T = 84 C = 23 N = color I = 4; SU T = 62 C = 24 N = color I = 4; SU T = 66 C = 24 N = color I = 4; SU T = 68 C = 24 N = color I = 4; SU T = 72 C = 24 N = color I = 4; SU T = 74 C = 24 N = color I = 4; SU T = 81 C = 24 N = color I = 4; SU T = 84 C = 24 N = color I = 4; SU T = 62 C = 25 N = color I = 4; SU T = 66 C = 25 N = color I = 4; SU T = 68 C = 25 N = color I = 4; SU T = 72 C = 25 N = color I = 4; SU T = 74 C = 25 N = color I = 4; SU T = 81 C = 25 N = color I = 4; SU T = 84 C = 25 N = color I = 4; SU T = 62 C = 27 N = color I = 4; SU T = 66 C = 27 N = color I = 4; SU T = 68 C = 27 N = color I = 4; SU T = 72 C = 27 N = color I = 4; SU T = 74 C = 27 N = color I = 4; SU T = 81 C = 27 N = color I = 4; SU T = 84 C = 27 N = color I = 4; SU T = 62 C = 28 N = color I = 4; SU T = 66 C = 28 N = color I = 4; SU T = 68 C = 28 N = color I = 4; SU T = 72 C = 28 N = color I = 4; SU T = 74 C = 28 N = color I = 4; SU T = 81 C = 28 N = color I = 4; SU T = 84 C = 28 N = color I = 4; SU T = 62 C = 32 N = color I = 4; SU T = 66 C = 32 N = color I = 4; SU T = 68 C = 32 N = color I = 4; SU T = 72 C = 32 N = color I = 4; SU T = 74 C = 32 N = color I = 4; SU T = 81 C = 32 N = color I = 4; SU T = 84 C = 32 N = color I = 4; SU T = 62 C = 34 N = color I = 4; SU T = 66 C = 34 N = color I = 4; SU T = 68 C = 34 N = color I = 4; SU T = 72 C = 34 N = color I = 4; SU T = 74 C = 34 N = color I = 4; SU T = 81 C = 34 N = color I = 4; SU T = 84 C = 34 N = color I = 4; SU T = 62 C = 35 N = color I = 4; SU T = 66 C = 35 N = color I = 4; SU T = 68 C = 35 N = color I = 4; SU T = 72 C = 35 N = color I = 4; SU T = 74 C = 35 N = color I = 4; SU T = 81 C = 35 N = color I = 4; SU T = 84 C = 35 N = color I = 4; SU T = 62 C = 36 N = color I = 4; SU T = 66 C = 36 N = color I = 4; SU T = 68 C = 36 N = color I = 4; SU T = 72 C = 36 N = color I = 4; SU T = 74 C = 36 N = color I = 4; SU T = 81 C = 36 N = color I = 4; SU T = 84 C = 36 N = color I = 4; SU T = 62 C = 37 N = color I = 4; SU T = 66 C = 37 N = color I = 4; SU T = 68 C = 37 N = color I = 4; SU T = 72 C = 37 N = color I = 4; SU T = 74 C = 37 N = color I = 4; SU T = 81 C = 37 N = color I = 4; SU T = 84 C = 37 N = color I = 4; SU T = 62 C = 39 N = color I = 4; SU T = 66 C = 39 N = color I = 4; SU T = 68 C = 39 N = color I = 4; SU T = 72 C = 39 N = color I = 4; SU T = 74 C = 39 N = color I = 4; SU T = 81 C = 39 N = color I = 4; SU T = 84 C = 39 N = color I = 4; SU T = 62 C = 40 N = color I = 4; SU T = 66 C = 40 N = color I = 4; SU T = 68 C = 40 N = color I = 4; SU T = 72 C = 40 N = color I = 4; SU T = 74 C = 40 N = color I = 4; SU T = 81 C = 40 N = color I = 4; SU T = 84 C = 40 N = color I = 4; SU T = 62 C = 41 N = color I = 4; SU T = 66 C = 41 N = color I = 4; SU T = 68 C = 41 N = color I = 4; SU T = 72 C = 41 N = color I = 4; SU T = 74 C = 41 N = color I = 4; SU T = 81 C = 41 N = color I = 4; SU T = 84 C = 41 N = color I = 4; SU T = 62 C = 42 N = color I = 4; SU T = 66 C = 42 N = color I = 4; SU T = 68 C = 42 N = color I = 4; SU T = 72 C = 42 N = color I = 4; SU T = 74 C = 42 N = color I = 4; SU T = 81 C = 42 N = color I = 4; SU T = 84 C = 42 N = color I = 4; SU T = 62 C = 43 N = color I = 4; SU T = 66 C = 43 N = color I = 4; SU T = 68 C = 43 N = color I = 4; SU T = 72 C = 43 N = color I = 4; SU T = 74 C = 43 N = color I = 4; SU T = 81 C = 43 N = color I = 4; SU T = 84 C = 43 N = color I = 4; SU T = 62 C = 44 N = color I = 4; SU T = 66 C = 44 N = color I = 4; SU T = 68 C = 44 N = color I = 4; SU T = 72 C = 44 N = color I = 4; SU T = 74 C = 44 N = color I = 4; SU T = 81 C = 44 N = color I = 4; SU T = 84 C = 44 N = color I = 4; SU T = 62 C = 47 N = color I = 4; SU T = 66 C = 47 N = color I = 4; SU T = 68 C = 47 N = color I = 4; SU T = 72 C = 47 N = color I = 4; SU T = 74 C = 47 N = color I = 4; SU T = 81 C = 47 N = color I = 4; SU T = 84 C = 47 N = color I = 4; SU T = 62 C = 48 N = color I = 4; SU T = 66 C = 48 N = color I = 4; SU T = 68 C = 48 N = color I = 4; SU T = 72 C = 48 N = color I = 4; SU T = 74 C = 48 N = color I = 4; SU T = 81 C = 48 N = color I = 4; SU T = 84 C = 48 N = color I = 4; SU T = 62 C = 51 N = color I = 4; SU T = 66 C = 51 N = color I = 4; SU T = 68 C = 51 N = color I = 4; SU T = 72 C = 51 N = color I = 4; SU T = 74 C = 51 N = color I = 4; SU T = 81 C = 51 N = color I = 4; SU T = 84 C = 51 N = color I = 4; SU T = 62 C = 52 N = color I = 4; SU T = 66 C = 52 N = color I = 4; SU T = 68 C = 52 N = color I = 4; SU T = 72 C = 52 N = color I = 4; SU T = 74 C = 52 N = color I = 4; SU T = 81 C = 52 N = color I = 4; SU T = 84 C = 52 N = color I = 4; SU T = 62 C = 53 N = color I = 4; SU T = 66 C = 53 N = color I = 4; SU T = 68 C = 53 N = color I = 4; SU T = 72 C = 53 N = color I = 4; SU T = 74 C = 53 N = color I = 4; SU T = 81 C = 53 N = color I = 4; SU T = 84 C = 53 N = color I = 4; SU T = 62 C = 54 N = color I = 4; SU T = 66 C = 54 N = color I = 4; SU T = 68 C = 54 N = color I = 4; SU T = 72 C = 54 N = color I = 4; SU T = 74 C = 54 N = color I = 4; SU T = 81 C = 54 N = color I = 4; SU T = 84 C = 54 N = color I = 4; TEXT TAXON = 117 CHARACTER = 54 TEXT = Broin_1980; SU T = 62 C = 56 N = color I = 4; SU T = 66 C = 56 N = color I = 4; SU T = 68 C = 56 N = color I = 4; SU T = 72 C = 56 N = color I = 4; SU T = 74 C = 56 N = color I = 4; SU T = 81 C = 56 N = color I = 4; SU T = 84 C = 56 N = color I = 4; SU T = 62 C = 58 N = color I = 4; SU T = 66 C = 58 N = color I = 4; SU T = 68 C = 58 N = color I = 4; SU T = 72 C = 58 N = color I = 4; SU T = 74 C = 58 N = color I = 4; SU T = 81 C = 58 N = color I = 4; SU T = 84 C = 58 N = color I = 4; SU T = 62 C = 59 N = color I = 4; SU T = 66 C = 59 N = color I = 4; SU T = 68 C = 59 N = color I = 4; SU T = 72 C = 59 N = color I = 4; SU T = 74 C = 59 N = color I = 4; SU T = 81 C = 59 N = color I = 4; SU T = 84 C = 59 N = color I = 4; SU T = 62 C = 60 N = color I = 4; SU T = 66 C = 60 N = color I = 4; SU T = 68 C = 60 N = color I = 4; SU T = 72 C = 60 N = color I = 4; SU T = 74 C = 60 N = color I = 4; SU T = 81 C = 60 N = color I = 4; SU T = 84 C = 60 N = color I = 4; SU T = 62 C = 61 N = color I = 4; SU T = 66 C = 61 N = color I = 4; SU T = 68 C = 61 N = color I = 4; SU T = 72 C = 61 N = color I = 4; SU T = 74 C = 61 N = color I = 4; SU T = 81 C = 61 N = color I = 4; SU T = 84 C = 61 N = color I = 4; SU T = 62 C = 62 N = color I = 4; SU T = 66 C = 62 N = color I = 4; SU T = 68 C = 62 N = color I = 4; SU T = 72 C = 62 N = color I = 4; SU T = 74 C = 62 N = color I = 4; SU T = 81 C = 62 N = color I = 4; SU T = 84 C = 62 N = color I = 4; SU T = 62 C = 63 N = color I = 4; SU T = 66 C = 63 N = color I = 4; SU T = 68 C = 63 N = color I = 4; SU T = 72 C = 63 N = color I = 4; SU T = 74 C = 63 N = color I = 4; SU T = 81 C = 63 N = color I = 4; SU T = 84 C = 63 N = color I = 4; SU T = 62 C = 64 N = color I = 4; SU T = 66 C = 64 N = color I = 4; SU T = 68 C = 64 N = color I = 4; SU T = 72 C = 64 N = color I = 4; SU T = 74 C = 64 N = color I = 4; SU T = 81 C = 64 N = color I = 4; SU T = 84 C = 64 N = color I = 4; SU T = 62 C = 65 N = color I = 4; SU T = 66 C = 65 N = color I = 4; SU T = 68 C = 65 N = color I = 4; SU T = 72 C = 65 N = color I = 4; SU T = 74 C = 65 N = color I = 4; SU T = 81 C = 65 N = color I = 4; SU T = 84 C = 65 N = color I = 4; SU T = 62 C = 66 N = color I = 4; SU T = 66 C = 66 N = color I = 4; SU T = 68 C = 66 N = color I = 4; SU T = 72 C = 66 N = color I = 4; SU T = 74 C = 66 N = color I = 4; SU T = 81 C = 66 N = color I = 4; SU T = 84 C = 66 N = color I = 4; SU T = 62 C = 70 N = color I = 4; SU T = 66 C = 70 N = color I = 4; SU T = 68 C = 70 N = color I = 4; SU T = 72 C = 70 N = color I = 4; SU T = 74 C = 70 N = color I = 4; SU T = 81 C = 70 N = color I = 4; SU T = 84 C = 70 N = color I = 4; SU T = 62 C = 71 N = color I = 4; SU T = 66 C = 71 N = color I = 4; SU T = 68 C = 71 N = color I = 4; SU T = 72 C = 71 N = color I = 4; SU T = 74 C = 71 N = color I = 4; SU T = 81 C = 71 N = color I = 4; SU T = 84 C = 71 N = color I = 4; SU T = 62 C = 74 N = color I = 4; SU T = 66 C = 74 N = color I = 4; SU T = 68 C = 74 N = color I = 4; SU T = 72 C = 74 N = color I = 4; SU T = 74 C = 74 N = color I = 4; SU T = 81 C = 74 N = color I = 4; SU T = 84 C = 74 N = color I = 4; SU T = 62 C = 75 N = color I = 4; SU T = 66 C = 75 N = color I = 4; SU T = 68 C = 75 N = color I = 4; SU T = 72 C = 75 N = color I = 4; SU T = 74 C = 75 N = color I = 4; SU T = 81 C = 75 N = color I = 4; SU T = 84 C = 75 N = color I = 4; SU T = 62 C = 76 N = color I = 4; SU T = 66 C = 76 N = color I = 4; SU T = 68 C = 76 N = color I = 4; SU T = 72 C = 76 N = color I = 4; SU T = 74 C = 76 N = color I = 4; SU T = 81 C = 76 N = color I = 4; SU T = 84 C = 76 N = color I = 4; SU T = 62 C = 77 N = color I = 4; SU T = 66 C = 77 N = color I = 4; SU T = 68 C = 77 N = color I = 4; SU T = 72 C = 77 N = color I = 4; SU T = 74 C = 77 N = color I = 4; SU T = 81 C = 77 N = color I = 4; SU T = 84 C = 77 N = color I = 4; SU T = 62 C = 78 N = color I = 4; SU T = 66 C = 78 N = color I = 4; SU T = 68 C = 78 N = color I = 4; SU T = 72 C = 78 N = color I = 4; SU T = 74 C = 78 N = color I = 4; SU T = 81 C = 78 N = color I = 4; SU T = 84 C = 78 N = color I = 4; SU T = 62 C = 79 N = color I = 4; SU T = 66 C = 79 N = color I = 4; SU T = 68 C = 79 N = color I = 4; SU T = 72 C = 79 N = color I = 4; SU T = 74 C = 79 N = color I = 4; SU T = 81 C = 79 N = color I = 4; SU T = 84 C = 79 N = color I = 4; SU T = 62 C = 80 N = color I = 4; SU T = 66 C = 80 N = color I = 4; SU T = 68 C = 80 N = color I = 4; SU T = 72 C = 80 N = color I = 4; SU T = 74 C = 80 N = color I = 4; SU T = 81 C = 80 N = color I = 4; SU T = 84 C = 80 N = color I = 4; SU T = 62 C = 81 N = color I = 4; SU T = 66 C = 81 N = color I = 4; SU T = 68 C = 81 N = color I = 4; SU T = 72 C = 81 N = color I = 4; SU T = 74 C = 81 N = color I = 4; SU T = 81 C = 81 N = color I = 4; SU T = 84 C = 81 N = color I = 4; SU T = 62 C = 82 N = color I = 4; SU T = 66 C = 82 N = color I = 4; SU T = 68 C = 82 N = color I = 4; SU T = 72 C = 82 N = color I = 4; SU T = 74 C = 82 N = color I = 4; SU T = 81 C = 82 N = color I = 4; SU T = 84 C = 82 N = color I = 4; SU T = 62 C = 86 N = color I = 4; SU T = 66 C = 86 N = color I = 4; SU T = 68 C = 86 N = color I = 4; SU T = 72 C = 86 N = color I = 4; SU T = 74 C = 86 N = color I = 4; SU T = 81 C = 86 N = color I = 4; SU T = 84 C = 86 N = color I = 4; SU T = 62 C = 87 N = color I = 4; SU T = 66 C = 87 N = color I = 4; SU T = 68 C = 87 N = color I = 4; SU T = 72 C = 87 N = color I = 4; SU T = 74 C = 87 N = color I = 4; SU T = 81 C = 87 N = color I = 4; SU T = 84 C = 87 N = color I = 4; SU T = 62 C = 88 N = color I = 4; SU T = 66 C = 88 N = color I = 4; SU T = 68 C = 88 N = color I = 4; SU T = 72 C = 88 N = color I = 4; SU T = 74 C = 88 N = color I = 4; SU T = 81 C = 88 N = color I = 4; SU T = 84 C = 88 N = color I = 4; SU T = 62 C = 89 N = color I = 4; SU T = 66 C = 89 N = color I = 4; SU T = 68 C = 89 N = color I = 4; SU T = 72 C = 89 N = color I = 4; SU T = 74 C = 89 N = color I = 4; SU T = 81 C = 89 N = color I = 4; SU T = 84 C = 89 N = color I = 4; SU T = 62 C = 90 N = color I = 4; SU T = 66 C = 90 N = color I = 4; SU T = 68 C = 90 N = color I = 4; SU T = 72 C = 90 N = color I = 4; SU T = 74 C = 90 N = color I = 4; SU T = 81 C = 90 N = color I = 4; SU T = 84 C = 90 N = color I = 4; SU T = 62 C = 91 N = color I = 4; SU T = 66 C = 91 N = color I = 4; SU T = 68 C = 91 N = color I = 4; SU T = 72 C = 91 N = color I = 4; SU T = 74 C = 91 N = color I = 4; SU T = 81 C = 91 N = color I = 4; SU T = 84 C = 91 N = color I = 4; SU T = 62 C = 92 N = color I = 4; SU T = 66 C = 92 N = color I = 4; SU T = 68 C = 92 N = color I = 4; SU T = 72 C = 92 N = color I = 4; SU T = 74 C = 92 N = color I = 4; SU T = 81 C = 92 N = color I = 4; SU T = 84 C = 92 N = color I = 4; SU T = 62 C = 93 N = color I = 4; SU T = 66 C = 93 N = color I = 4; SU T = 68 C = 93 N = color I = 4; SU T = 72 C = 93 N = color I = 4; SU T = 74 C = 93 N = color I = 4; SU T = 81 C = 93 N = color I = 4; SU T = 84 C = 93 N = color I = 4; SU T = 62 C = 94 N = color I = 4; SU T = 66 C = 94 N = color I = 4; SU T = 68 C = 94 N = color I = 4; SU T = 72 C = 94 N = color I = 4; SU T = 74 C = 94 N = color I = 4; SU T = 81 C = 94 N = color I = 4; SU T = 84 C = 94 N = color I = 4; SU T = 62 C = 95 N = color I = 4; SU T = 66 C = 95 N = color I = 4; SU T = 68 C = 95 N = color I = 4; SU T = 72 C = 95 N = color I = 4; SU T = 74 C = 95 N = color I = 4; SU T = 81 C = 95 N = color I = 4; SU T = 84 C = 95 N = color I = 4; SU T = 62 C = 96 N = color I = 4; SU T = 66 C = 96 N = color I = 4; SU T = 68 C = 96 N = color I = 4; SU T = 72 C = 96 N = color I = 4; SU T = 74 C = 96 N = color I = 4; SU T = 81 C = 96 N = color I = 4; SU T = 84 C = 96 N = color I = 4; SU T = 62 C = 97 N = color I = 4; SU T = 66 C = 97 N = color I = 4; SU T = 68 C = 97 N = color I = 4; SU T = 72 C = 97 N = color I = 4; SU T = 74 C = 97 N = color I = 4; SU T = 81 C = 97 N = color I = 4; SU T = 84 C = 97 N = color I = 4; SU T = 62 C = 98 N = color I = 4; SU T = 66 C = 98 N = color I = 4; SU T = 68 C = 98 N = color I = 4; SU T = 72 C = 98 N = color I = 4; SU T = 74 C = 98 N = color I = 4; SU T = 81 C = 98 N = color I = 4; SU T = 84 C = 98 N = color I = 4; SU T = 62 C = 103 N = color I = 4; SU T = 66 C = 103 N = color I = 4; SU T = 68 C = 103 N = color I = 4; SU T = 72 C = 103 N = color I = 4; SU T = 74 C = 103 N = color I = 4; SU T = 81 C = 103 N = color I = 4; SU T = 84 C = 103 N = color I = 4; SU T = 62 C = 104 N = color I = 4; SU T = 66 C = 104 N = color I = 4; SU T = 68 C = 104 N = color I = 4; SU T = 72 C = 104 N = color I = 4; SU T = 74 C = 104 N = color I = 4; SU T = 81 C = 104 N = color I = 4; SU T = 84 C = 104 N = color I = 4; SU T = 62 C = 106 N = color I = 4; SU T = 66 C = 106 N = color I = 4; SU T = 68 C = 106 N = color I = 4; SU T = 72 C = 106 N = color I = 4; SU T = 74 C = 106 N = color I = 4; SU T = 81 C = 106 N = color I = 4; SU T = 84 C = 106 N = color I = 4; SU T = 62 C = 107 N = color I = 4; SU T = 66 C = 107 N = color I = 4; SU T = 68 C = 107 N = color I = 4; SU T = 72 C = 107 N = color I = 4; SU T = 74 C = 107 N = color I = 4; SU T = 81 C = 107 N = color I = 4; SU T = 84 C = 107 N = color I = 4; SU T = 62 C = 109 N = color I = 4; SU T = 66 C = 109 N = color I = 4; SU T = 68 C = 109 N = color I = 4; SU T = 72 C = 109 N = color I = 4; SU T = 74 C = 109 N = color I = 4; SU T = 81 C = 109 N = color I = 4; SU T = 84 C = 109 N = color I = 4; SU T = 62 C = 110 N = color I = 4; SU T = 66 C = 110 N = color I = 4; SU T = 68 C = 110 N = color I = 4; SU T = 72 C = 110 N = color I = 4; SU T = 74 C = 110 N = color I = 4; SU T = 81 C = 110 N = color I = 4; SU T = 84 C = 110 N = color I = 4; SU T = 62 C = 111 N = color I = 4; SU T = 66 C = 111 N = color I = 4; SU T = 68 C = 111 N = color I = 4; SU T = 72 C = 111 N = color I = 4; SU T = 74 C = 111 N = color I = 4; SU T = 81 C = 111 N = color I = 4; SU T = 84 C = 111 N = color I = 4; SU T = 62 C = 112 N = color I = 4; SU T = 66 C = 112 N = color I = 4; SU T = 68 C = 112 N = color I = 4; SU T = 72 C = 112 N = color I = 4; SU T = 74 C = 112 N = color I = 4; SU T = 81 C = 112 N = color I = 4; SU T = 84 C = 112 N = color I = 4; SU T = 62 C = 114 N = color I = 4; SU T = 66 C = 114 N = color I = 4; SU T = 68 C = 114 N = color I = 4; SU T = 72 C = 114 N = color I = 4; SU T = 74 C = 114 N = color I = 4; SU T = 81 C = 114 N = color I = 4; SU T = 84 C = 114 N = color I = 4; SU T = 62 C = 115 N = color I = 4; SU T = 66 C = 115 N = color I = 4; SU T = 68 C = 115 N = color I = 4; SU T = 72 C = 115 N = color I = 4; SU T = 74 C = 115 N = color I = 4; SU T = 81 C = 115 N = color I = 4; SU T = 84 C = 115 N = color I = 4; SU T = 62 C = 116 N = color I = 4; SU T = 66 C = 116 N = color I = 4; SU T = 68 C = 116 N = color I = 4; SU T = 72 C = 116 N = color I = 4; SU T = 74 C = 116 N = color I = 4; SU T = 81 C = 116 N = color I = 4; SU T = 84 C = 116 N = color I = 4; SU T = 62 C = 117 N = color I = 4; SU T = 66 C = 117 N = color I = 4; SU T = 68 C = 117 N = color I = 4; SU T = 72 C = 117 N = color I = 4; SU T = 74 C = 117 N = color I = 4; SU T = 81 C = 117 N = color I = 4; SU T = 84 C = 117 N = color I = 4; SU T = 62 C = 118 N = color I = 4; SU T = 66 C = 118 N = color I = 4; SU T = 68 C = 118 N = color I = 4; SU T = 72 C = 118 N = color I = 4; SU T = 74 C = 118 N = color I = 4; SU T = 81 C = 118 N = color I = 4; SU T = 84 C = 118 N = color I = 4; SU T = 62 C = 119 N = color I = 4; SU T = 66 C = 119 N = color I = 4; SU T = 68 C = 119 N = color I = 4; SU T = 72 C = 119 N = color I = 4; SU T = 74 C = 119 N = color I = 4; SU T = 81 C = 119 N = color I = 4; SU T = 84 C = 119 N = color I = 4; SU T = 62 C = 120 N = color I = 4; SU T = 66 C = 120 N = color I = 4; SU T = 68 C = 120 N = color I = 4; SU T = 72 C = 120 N = color I = 4; SU T = 74 C = 120 N = color I = 4; SU T = 81 C = 120 N = color I = 4; SU T = 84 C = 120 N = color I = 4; SU T = 62 C = 121 N = color I = 4; SU T = 66 C = 121 N = color I = 4; SU T = 68 C = 121 N = color I = 4; SU T = 72 C = 121 N = color I = 4; SU T = 74 C = 121 N = color I = 4; SU T = 81 C = 121 N = color I = 4; SU T = 84 C = 121 N = color I = 4; SU T = 62 C = 122 N = color I = 4; SU T = 66 C = 122 N = color I = 4; SU T = 68 C = 122 N = color I = 4; SU T = 72 C = 122 N = color I = 4; SU T = 74 C = 122 N = color I = 4; SU T = 81 C = 122 N = color I = 4; SU T = 84 C = 122 N = color I = 4; SU T = 62 C = 123 N = color I = 4; SU T = 66 C = 123 N = color I = 4; SU T = 68 C = 123 N = color I = 4; SU T = 72 C = 123 N = color I = 4; SU T = 74 C = 123 N = color I = 4; SU T = 81 C = 123 N = color I = 4; SU T = 84 C = 123 N = color I = 4; SU T = 62 C = 124 N = color I = 4; SU T = 66 C = 124 N = color I = 4; SU T = 68 C = 124 N = color I = 4; SU T = 72 C = 124 N = color I = 4; SU T = 74 C = 124 N = color I = 4; SU T = 81 C = 124 N = color I = 4; SU T = 84 C = 124 N = color I = 4; SU T = 62 C = 126 N = color I = 4; SU T = 66 C = 126 N = color I = 4; SU T = 68 C = 126 N = color I = 4; SU T = 72 C = 126 N = color I = 4; SU T = 74 C = 126 N = color I = 4; SU T = 81 C = 126 N = color I = 4; SU T = 84 C = 126 N = color I = 4; SU T = 62 C = 127 N = color I = 4; SU T = 66 C = 127 N = color I = 4; SU T = 68 C = 127 N = color I = 4; SU T = 72 C = 127 N = color I = 4; SU T = 74 C = 127 N = color I = 4; SU T = 81 C = 127 N = color I = 4; SU T = 84 C = 127 N = color I = 4; SU T = 62 C = 128 N = color I = 4; SU T = 66 C = 128 N = color I = 4; SU T = 68 C = 128 N = color I = 4; SU T = 72 C = 128 N = color I = 4; SU T = 74 C = 128 N = color I = 4; SU T = 81 C = 128 N = color I = 4; SU T = 84 C = 128 N = color I = 4; SU T = 62 C = 130 N = color I = 4; SU T = 66 C = 130 N = color I = 4; SU T = 68 C = 130 N = color I = 4; SU T = 72 C = 130 N = color I = 4; SU T = 74 C = 130 N = color I = 4; SU T = 81 C = 130 N = color I = 4; SU T = 84 C = 130 N = color I = 4; SU T = 62 C = 133 N = color I = 4; SU T = 66 C = 133 N = color I = 4; SU T = 68 C = 133 N = color I = 4; SU T = 72 C = 133 N = color I = 4; SU T = 74 C = 133 N = color I = 4; SU T = 81 C = 133 N = color I = 4; SU T = 84 C = 133 N = color I = 4; SU T = 62 C = 134 N = color I = 4; SU T = 66 C = 134 N = color I = 4; SU T = 68 C = 134 N = color I = 4; SU T = 72 C = 134 N = color I = 4; SU T = 74 C = 134 N = color I = 4; SU T = 81 C = 134 N = color I = 4; SU T = 84 C = 134 N = color I = 4; SU T = 62 C = 135 N = color I = 4; SU T = 66 C = 135 N = color I = 4; SU T = 68 C = 135 N = color I = 4; SU T = 72 C = 135 N = color I = 4; SU T = 74 C = 135 N = color I = 4; SU T = 81 C = 135 N = color I = 4; SU T = 84 C = 135 N = color I = 4; SU T = 62 C = 136 N = color I = 4; SU T = 66 C = 136 N = color I = 4; SU T = 68 C = 136 N = color I = 4; SU T = 72 C = 136 N = color I = 4; SU T = 74 C = 136 N = color I = 4; SU T = 81 C = 136 N = color I = 4; SU T = 84 C = 136 N = color I = 4; SU T = 62 C = 137 N = color I = 4; SU T = 66 C = 137 N = color I = 4; SU T = 68 C = 137 N = color I = 4; SU T = 72 C = 137 N = color I = 4; SU T = 74 C = 137 N = color I = 4; SU T = 81 C = 137 N = color I = 4; SU T = 84 C = 137 N = color I = 4; SU T = 62 C = 138 N = color I = 4; SU T = 66 C = 138 N = color I = 4; SU T = 68 C = 138 N = color I = 4; SU T = 72 C = 138 N = color I = 4; SU T = 74 C = 138 N = color I = 4; SU T = 81 C = 138 N = color I = 4; SU T = 84 C = 138 N = color I = 4; SU T = 62 C = 139 N = color I = 4; SU T = 66 C = 139 N = color I = 4; SU T = 68 C = 139 N = color I = 4; SU T = 72 C = 139 N = color I = 4; SU T = 74 C = 139 N = color I = 4; SU T = 81 C = 139 N = color I = 4; SU T = 84 C = 139 N = color I = 4; SU T = 62 C = 140 N = color I = 4; SU T = 66 C = 140 N = color I = 4; SU T = 68 C = 140 N = color I = 4; SU T = 72 C = 140 N = color I = 4; SU T = 74 C = 140 N = color I = 4; SU T = 81 C = 140 N = color I = 4; SU T = 84 C = 140 N = color I = 4; SU T = 62 C = 142 N = color I = 4; SU T = 66 C = 142 N = color I = 4; SU T = 68 C = 142 N = color I = 4; SU T = 72 C = 142 N = color I = 4; SU T = 74 C = 142 N = color I = 4; SU T = 81 C = 142 N = color I = 4; SU T = 84 C = 142 N = color I = 4; SU T = 62 C = 143 N = color I = 4; SU T = 66 C = 143 N = color I = 4; SU T = 68 C = 143 N = color I = 4; SU T = 72 C = 143 N = color I = 4; SU T = 74 C = 143 N = color I = 4; SU T = 81 C = 143 N = color I = 4; SU T = 84 C = 143 N = color I = 4; SU T = 62 C = 144 N = color I = 4; SU T = 66 C = 144 N = color I = 4; SU T = 68 C = 144 N = color I = 4; SU T = 72 C = 144 N = color I = 4; SU T = 74 C = 144 N = color I = 4; SU T = 81 C = 144 N = color I = 4; SU T = 84 C = 144 N = color I = 4; SU T = 62 C = 146 N = color I = 4; SU T = 66 C = 146 N = color I = 4; SU T = 68 C = 146 N = color I = 4; SU T = 72 C = 146 N = color I = 4; SU T = 74 C = 146 N = color I = 4; SU T = 81 C = 146 N = color I = 4; SU T = 84 C = 146 N = color I = 4; SU T = 62 C = 147 N = color I = 4; SU T = 66 C = 147 N = color I = 4; SU T = 68 C = 147 N = color I = 4; SU T = 72 C = 147 N = color I = 4; SU T = 74 C = 147 N = color I = 4; SU T = 81 C = 147 N = color I = 4; SU T = 84 C = 147 N = color I = 4; SU T = 62 C = 149 N = color I = 4; SU T = 66 C = 149 N = color I = 4; SU T = 68 C = 149 N = color I = 4; SU T = 72 C = 149 N = color I = 4; SU T = 74 C = 149 N = color I = 4; SU T = 81 C = 149 N = color I = 4; SU T = 84 C = 149 N = color I = 4; SU T = 62 C = 156 N = color I = 4; SU T = 66 C = 156 N = color I = 4; SU T = 68 C = 156 N = color I = 4; SU T = 72 C = 156 N = color I = 4; SU T = 74 C = 156 N = color I = 4; SU T = 81 C = 156 N = color I = 4; SU T = 84 C = 156 N = color I = 4; SU T = 62 C = 157 N = color I = 4; SU T = 66 C = 157 N = color I = 4; SU T = 68 C = 157 N = color I = 4; SU T = 72 C = 157 N = color I = 4; SU T = 74 C = 157 N = color I = 4; SU T = 81 C = 157 N = color I = 4; SU T = 84 C = 157 N = color I = 4; SU T = 62 C = 163 N = color I = 4; SU T = 66 C = 163 N = color I = 4; SU T = 68 C = 163 N = color I = 4; SU T = 72 C = 163 N = color I = 4; SU T = 74 C = 163 N = color I = 4; SU T = 81 C = 163 N = color I = 4; SU T = 84 C = 163 N = color I = 4; SU T = 62 C = 166 N = color I = 4; SU T = 66 C = 166 N = color I = 4; SU T = 68 C = 166 N = color I = 4; SU T = 72 C = 166 N = color I = 4; SU T = 74 C = 166 N = color I = 4; SU T = 81 C = 166 N = color I = 4; SU T = 84 C = 166 N = color I = 4; SU T = 62 C = 170 N = color I = 4; SU T = 66 C = 170 N = color I = 4; SU T = 68 C = 170 N = color I = 4; SU T = 72 C = 170 N = color I = 4; SU T = 74 C = 170 N = color I = 4; SU T = 81 C = 170 N = color I = 4; SU T = 84 C = 170 N = color I = 4; SU T = 62 C = 171 N = color I = 4; SU T = 66 C = 171 N = color I = 4; SU T = 68 C = 171 N = color I = 4; SU T = 72 C = 171 N = color I = 4; SU T = 74 C = 171 N = color I = 4; SU T = 81 C = 171 N = color I = 4; SU T = 84 C = 171 N = color I = 4; SU T = 62 C = 174 N = color I = 4; SU T = 66 C = 174 N = color I = 4; SU T = 68 C = 174 N = color I = 4; SU T = 72 C = 174 N = color I = 4; SU T = 74 C = 174 N = color I = 4; SU T = 81 C = 174 N = color I = 4; SU T = 84 C = 174 N = color I = 4; TEXT TAXON = 109 CHARACTER = 174 TEXT = 'Perez-Garcia (2017; Algorachelus)'; SU T = 62 C = 175 N = color I = 4; SU T = 66 C = 175 N = color I = 4; SU T = 68 C = 175 N = color I = 4; SU T = 72 C = 175 N = color I = 4; SU T = 74 C = 175 N = color I = 4; SU T = 81 C = 175 N = color I = 4; SU T = 84 C = 175 N = color I = 4; SU T = 62 C = 178 N = color I = 4; SU T = 66 C = 178 N = color I = 4; SU T = 68 C = 178 N = color I = 4; SU T = 72 C = 178 N = color I = 4; SU T = 74 C = 178 N = color I = 4; SU T = 81 C = 178 N = color I = 4; SU T = 84 C = 178 N = color I = 4; SU T = 62 C = 179 N = color I = 4; SU T = 66 C = 179 N = color I = 4; SU T = 68 C = 179 N = color I = 4; SU T = 72 C = 179 N = color I = 4; SU T = 74 C = 179 N = color I = 4; SU T = 81 C = 179 N = color I = 4; SU T = 84 C = 179 N = color I = 4; SU T = 62 C = 181 N = color I = 4; SU T = 66 C = 181 N = color I = 4; SU T = 68 C = 181 N = color I = 4; SU T = 72 C = 181 N = color I = 4; SU T = 74 C = 181 N = color I = 4; SU T = 81 C = 181 N = color I = 4; SU T = 84 C = 181 N = color I = 4; SU T = 62 C = 182 N = color I = 4; SU T = 66 C = 182 N = color I = 4; SU T = 68 C = 182 N = color I = 4; SU T = 72 C = 182 N = color I = 4; SU T = 74 C = 182 N = color I = 4; SU T = 81 C = 182 N = color I = 4; SU T = 84 C = 182 N = color I = 4; SU T = 62 C = 191 N = color I = 4; SU T = 66 C = 191 N = color I = 4; SU T = 68 C = 191 N = color I = 4; SU T = 72 C = 191 N = color I = 4; SU T = 74 C = 191 N = color I = 4; SU T = 81 C = 191 N = color I = 4; SU T = 84 C = 191 N = color I = 4; SU T = 62 C = 193 N = color I = 4; SU T = 66 C = 193 N = color I = 4; SU T = 68 C = 193 N = color I = 4; SU T = 72 C = 193 N = color I = 4; SU T = 74 C = 193 N = color I = 4; SU T = 81 C = 193 N = color I = 4; SU T = 84 C = 193 N = color I = 4; SU T = 62 C = 194 N = color I = 4; SU T = 66 C = 194 N = color I = 4; SU T = 68 C = 194 N = color I = 4; SU T = 72 C = 194 N = color I = 4; SU T = 74 C = 194 N = color I = 4; SU T = 81 C = 194 N = color I = 4; SU T = 84 C = 194 N = color I = 4; SU T = 62 C = 198 N = color I = 4; SU T = 66 C = 198 N = color I = 4; SU T = 68 C = 198 N = color I = 4; SU T = 72 C = 198 N = color I = 4; SU T = 74 C = 198 N = color I = 4; SU T = 81 C = 198 N = color I = 4; SU T = 84 C = 198 N = color I = 4; SU T = 62 C = 204 N = color I = 4; SU T = 66 C = 204 N = color I = 4; SU T = 68 C = 204 N = color I = 4; SU T = 72 C = 204 N = color I = 4; SU T = 74 C = 204 N = color I = 4; SU T = 81 C = 204 N = color I = 4; SU T = 84 C = 204 N = color I = 4; SU T = 62 C = 215 N = color I = 4; SU T = 66 C = 215 N = color I = 4; SU T = 68 C = 215 N = color I = 4; SU T = 72 C = 215 N = color I = 4; SU T = 74 C = 215 N = color I = 4; SU T = 81 C = 215 N = color I = 4; SU T = 84 C = 215 N = color I = 4; SU T = 62 C = 216 N = color I = 4; SU T = 66 C = 216 N = color I = 4; SU T = 68 C = 216 N = color I = 4; SU T = 72 C = 216 N = color I = 4; SU T = 74 C = 216 N = color I = 4; SU T = 81 C = 216 N = color I = 4; SU T = 84 C = 216 N = color I = 4; SU T = 62 C = 217 N = color I = 4; SU T = 66 C = 217 N = color I = 4; SU T = 68 C = 217 N = color I = 4; SU T = 72 C = 217 N = color I = 4; SU T = 74 C = 217 N = color I = 4; SU T = 81 C = 217 N = color I = 4; SU T = 84 C = 217 N = color I = 4; SU T = 62 C = 223 N = color I = 4; SU T = 66 C = 223 N = color I = 4; SU T = 68 C = 223 N = color I = 4; SU T = 72 C = 223 N = color I = 4; SU T = 74 C = 223 N = color I = 4; SU T = 81 C = 223 N = color I = 4; SU T = 84 C = 223 N = color I = 4; SU T = 62 C = 225 N = color I = 4; SU T = 66 C = 225 N = color I = 4; SU T = 68 C = 225 N = color I = 4; SU T = 72 C = 225 N = color I = 4; SU T = 74 C = 225 N = color I = 4; SU T = 81 C = 225 N = color I = 4; SU T = 84 C = 225 N = color I = 4; SU T = 62 C = 227 N = color I = 4; SU T = 66 C = 227 N = color I = 4; SU T = 68 C = 227 N = color I = 4; SU T = 72 C = 227 N = color I = 4; SU T = 74 C = 227 N = color I = 4; SU T = 81 C = 227 N = color I = 4; SU T = 84 C = 227 N = color I = 4; SU T = 62 C = 228 N = color I = 4; SU T = 66 C = 228 N = color I = 4; SU T = 68 C = 228 N = color I = 4; SU T = 72 C = 228 N = color I = 4; SU T = 74 C = 228 N = color I = 4; SU T = 81 C = 228 N = color I = 4; SU T = 84 C = 228 N = color I = 4; SU T = 62 C = 229 N = color I = 4; SU T = 66 C = 229 N = color I = 4; SU T = 68 C = 229 N = color I = 4; SU T = 72 C = 229 N = color I = 4; SU T = 74 C = 229 N = color I = 4; SU T = 81 C = 229 N = color I = 4; SU T = 84 C = 229 N = color I = 4; SU T = 62 C = 236 N = color I = 4; SU T = 66 C = 236 N = color I = 4; SU T = 68 C = 236 N = color I = 4; SU T = 72 C = 236 N = color I = 4; SU T = 74 C = 236 N = color I = 4; SU T = 81 C = 236 N = color I = 4; SU T = 84 C = 236 N = color I = 4; SU T = 62 C = 240 N = color I = 4; SU T = 66 C = 240 N = color I = 4; SU T = 68 C = 240 N = color I = 4; SU T = 72 C = 240 N = color I = 4; SU T = 74 C = 240 N = color I = 4; SU T = 81 C = 240 N = color I = 4; SU T = 84 C = 240 N = color I = 4; TEXT TAXON = 27 CHARACTER = 262 TEXT = Gaffney_2006; AN C = 1 DC = 2014.5.7.14.32.33 DM = 2018.1.30.10.13.30 ID = 0145d7be6fe8230 I = _ TF = (CM ) TF = (R 'BF05Ch03, G77Ch09'); AN C = 2 DC = 2014.1.21.10.47.4 DM = 2018.1.30.10.13.44 ID = 0143b50deb6f122 I = _ TF = (CM ) TF = (R 'G06Ch06, C12Ch05^n'); AN C = 3 DC = 2014.1.6.13.31.23 DM = 2018.1.30.10.13.50 ID = 01436864f59276 I = _ TF = (CM ) TF = (R 'G06Ch01, G11Ch01, F03Ch02, G77Ch01^n'); AN C = 4 DC = 2014.4.30.13.34.44 DM = 2014.5.7.14.28.41 ID = 0145b37cff8e226 I = _ TF = (CM ) TF = (R 'BF05Ch04, G77Ch02'); AN C = 5 DC = 2014.1.6.13.34.56 DM = 2018.1.30.10.14.0 ID = 0143686835aa78 I = _ TF = (CM ) TF = (R 'G06Ch05, C12Ch08, C15Ch04^n^n'); AN C = 6 DC = 2014.1.6.13.33.37 DM = 2014.9.5.16.5.25 ID = 01436867005677 I = _ TF = (CM ) TF = (R G06Ch04); AN C = 7 DC = 2014.2.3.18.19.6 DM = 2018.1.30.10.14.30 ID = 0143f99e6f1f135 I = _ TF = (CM ) TF = (R 'G06Ch07, C12Ch08'); AN C = 8 DC = 2014.9.19.10.4.30 DM = 2018.1.30.10.14.40 ID = 01488e038bdb222 I = _ TF = (CM ) TF = (R G06Ch10); AN C = 9 DC = 2014.1.6.13.36.7 DM = 2014.1.6.13.36.27 ID = 014368694a7379 I = _ TF = (CM ) TF = (R 'G11Ch03, C12Ch07'); AN C = 10 DC = 2014.1.6.13.36.35 DM = 2018.1.30.10.15.1 ID = 01436869b7c580 I = _ TF = (CM ) TF = (R 'G06Ch11, G11Ch02'); AN C = 11 DC = 2014.9.16.14.36.19 DM = 2015.9.14.16.44.9 ID = 01487f8952d1217 I = _ TF = (CM ) TF = (R TG09Ch10); AN C = 12 DC = 2014.2.3.18.25.42 DM = 2018.1.30.10.15.19 ID = 0143f9a478b5140 I = _ TF = (CM ) TF = (R G11Ch04); AN C = 13 DC = 2014.2.3.18.24.20 DM = 2018.1.30.10.15.26 ID = 0143f9a33adb139 I = _ TF = (CM ) TF = (R G06Ch12); AN C = 14 DC = 2013.12.31.17.19.14 DM = 2018.1.30.10.15.37 ID = 01434a4f68ff14 I = _ TF = (CM '^n^n') TF = (R 'G11Ch11, BF05Ch01, BF05Ch08, G77Ch10'); AN C = 15 DC = 2014.1.6.16.28.14 DM = 2018.1.30.10.15.55 ID = 01436906df5686 I = _ TF = (CM ) TF = (R 'C12Ch02, F03Ch04, BF05Ch02'); AN C = 16 DC = 2018.1.30.10.16.4 DM = 2018.1.30.10.16.5 ID = 016146fee2a3260 I = _ TF = (CM ) TF = (R 'G06Ch13, G11Ch05'); AN C = 17 DC = 2014.1.6.13.37.26 DM = 2014.12.11.15.39.40 ID = 0143686a806f81 I = _ TF = (CM ) TF = (R 'G06Ch13, G11Ch05, C12Ch04, F03Ch05'); AN C = 18 DC = 2013.12.31.11.10.55 DM = 2018.1.30.10.16.34 ID = 014348fe332d5 I = _ TF = (CM ) TF = (R 'G11Ch04, BF05Ch06, BF05Ch07, G77Ch08'); AN C = 19 DC = 2014.11.18.15.34.56 DM = 2018.1.30.10.16.45 ID = 0149c3f8b562245 I = _ TF = (CM ) TF = (R 'TG09Ch15, G77Ch10'); AN C = 20 DC = 2014.5.7.14.34.23 DM = 2018.1.30.10.16.57 ID = 0145d7c01f65232 I = _ TF = (CM ) TF = (R 'BF05Ch09, G77Ch11'); AN C = 21 DC = 2014.9.19.10.4.46 DM = 2018.1.30.10.17.55 ID = 01488e03cc1a223 I = _ TF = (CM ) TF = (R G06Ch17); AN C = 22 DC = 2014.2.3.18.31.57 DM = 2018.1.30.10.18.4 ID = 0143f9aa30f7144 I = _ TF = (CM ) TF = (R G06Ch18); AN C = 23 DC = 2014.1.6.14.13.15 DM = 2018.1.30.10.18.13 ID = 0143688b49c684 I = _ TF = (CM ) TF = (R 'G11Ch10, C12Ch10, F03Ch03'); AN C = 24 DC = 2014.1.6.13.39.55 DM = 2018.1.30.10.18.25 ID = 0143686cc60882 I = _ TF = (CM ) TF = (R 'G06Ch15, C12Ch03, G77Ch12'); AN C = 25 DC = 2014.2.3.18.28.37 DM = 2018.1.30.10.18.41 ID = 0143f9a72403141 I = _ TF = (CM ) TF = (R G06Ch16); AN C = 26 DC = 2014.1.15.11.3.16 DM = 2018.1.30.10.18.49 ID = 01439636952e108 I = _ TF = (CM ) TF = (R G11Ch06); AN C = 27 DC = 2014.1.16.17.5.8 DM = 2018.1.30.10.18.59 ID = 01439ca83eb7106 I = _ TF = (CM ) TF = (R G11Ch08); AN C = 28 DC = 2014.2.3.18.34.37 DM = 2018.1.30.10.19.8 ID = 0143f9aca29a145 I = _ TF = (CM ) TF = (R C12Ch12); AN C = 29 DC = 2015.8.27.15.13.54 DM = 2018.1.30.10.19.20 ID = 014f705db97b247 I = _ TF = (CM ) TF = (R C15Ch20); AN C = 30 DC = 2014.9.19.10.5.22 DM = 2018.1.30.10.19.39 ID = 01488e045974225 I = _ TF = (CM ) TF = (R G06Ch21); AN C = 31 DC = 2014.9.19.10.5.7 DM = 2018.1.30.10.19.35 ID = 01488e041ecd224 I = _ TF = (CM ) TF = (R G06Ch20); AN C = 32 DC = 2014.1.6.16.27.25 DM = 2018.1.30.10.19.51 ID = 014369061e5c85 I = _ TF = (CM ) TF = (R 'G06Ch22, G11Ch09'); AN C = 33 DC = 2017.8.21.10.18.12 DM = 2018.1.30.10.20.1 ID = 015e03dee521259 I = _ TF = (CM ) TF = (R F15Ch07); AN C = 34 DC = 2014.2.3.18.38.19 DM = 2018.1.30.10.20.16 ID = 0143f9b006c1149 I = _ TF = (CM ) TF = (R G06Ch23); AN C = 35 DC = 2014.2.3.18.39.12 DM = 2018.1.30.10.20.34 ID = 0143f9b0d6d8150 I = _ TF = (CM ) TF = (R G06Ch24); AN C = 36 DC = 2014.1.6.16.29.8 DM = 2018.1.30.10.20.43 ID = 01436907b2ca87 I = _ TF = (CM ) TF = (R 'G06Ch25, G11Ch12'); AN C = 37 DC = 2014.2.3.18.40.7 DM = 2018.1.30.10.20.49 ID = 0143f9b1ac36151 I = _ TF = (CM ) TF = (R G06Ch26); AN C = 39 DC = 2013.12.31.11.9.22 DM = 2018.1.30.10.21.26 ID = 014348fcc8311 I = _ TF = (CM ) TF = (R G06Ch28); AN C = 40 DC = 2013.12.31.17.11.40 DM = 2018.1.30.10.21.37 ID = 01434a487b389 I = _ TF = (CM ) TF = (R 'G06Ch29, G11Ch13, F03Ch07, G77Ch07'); AN C = 41 DC = 2014.2.3.18.47.33 DM = 2018.1.30.10.21.45 ID = 0143f9b879f3159 I = _ TF = (CM ) TF = (R G11Ch15); AN C = 42 DC = 2014.2.3.18.45.51 DM = 2018.1.30.10.21.52 ID = 0143f9b6ed6f157 I = _ TF = (CM ) TF = (R G06Ch33); AN C = 43 DC = 2014.2.3.18.43.50 DM = 2018.1.30.10.22.1 ID = 0143f9b5150d154 I = _ TF = (CM ) TF = (R G06Ch30); AN C = 44 DC = 2014.2.3.18.44.20 DM = 2018.1.30.10.22.7 ID = 0143f9b58a6c155 I = _ TF = (CM ) TF = (R G06Ch31); AN C = 45 DC = 2018.1.30.10.22.18 DM = 2018.1.30.10.22.21 ID = 01614704958b261 I = _ TF = (CM ) TF = (R C15Ch34); AN C = 47 DC = 2014.2.3.18.46.43 DM = 2018.1.30.10.22.42 ID = 0143f9b7b62a158 I = _ TF = (CM ) TF = (R G11Ch14); AN C = 48 DC = 2014.2.3.18.48.23 DM = 2018.1.30.10.22.48 ID = 0143f9b93e7d160 I = _ TF = (CM ) TF = (R C12Ch19); AN C = 49 DC = 2014.9.22.16.31.56 DM = 2018.1.30.10.22.56 ID = 01489ed95599238 I = _ TF = (CM ) TF = (R M09Ch14); AN C = 50 DC = 2014.9.22.16.32.33 DM = 2018.1.30.10.23.3 ID = 01489ed9e6c7239 I = _ TF = (CM ) TF = (R M09Ch15); AN C = 51 DC = 2014.1.20.10.6.44 DM = 2018.1.30.10.24.26 ID = 0143afc2a0ad116 I = _ TF = (CM ) TF = (R G06Ch41); AN C = 52 DC = 2014.2.4.11.31.29 DM = 2018.1.30.10.24.43 ID = 0143fd4f9c0f162 I = _ TF = (CM ) TF = (R G06Ch40); AN C = 53 DC = 2014.2.3.18.51.14 DM = 2018.1.30.10.24.51 ID = 0143f9bbd966163 I = _ TF = (CM ) TF = (R G06Ch37); AN C = 54 DC = 2014.2.3.18.51.52 DM = 2018.1.30.10.24.59 ID = 0143f9bc6e62164 I = _ TF = (CM ) TF = (R G11Ch19); AN C = 56 DC = 2014.2.6.14.18.51 DM = 2018.1.30.10.25.20 ID = 014408358ef7256 I = _ TF = (CM ) TF = (R G06Ch34); AN C = 57 DC = 2014.9.15.10.13.44 DM = 2018.1.30.10.25.27 ID = 014879729028217 I = _ TF = (CM ) TF = (R 'G06Ch34, C15Ch37'); AN C = 58 DC = 2014.1.9.10.54.39 DM = 2018.1.30.10.25.36 ID = 014377488a8795 I = _ TF = (CM ) TF = (R 'G11Ch16, C12Ch19'); AN C = 59 DC = 2014.2.4.11.37.49 DM = 2018.1.30.10.25.44 ID = 0143fd55684b166 I = _ TF = (CM ) TF = (R G11Ch18); AN C = 60 DC = 2014.1.6.16.32.21 DM = 2018.1.30.10.25.55 ID = 0143690aa46e88 I = _ TF = (CM ) TF = (R 'G06Ch36, G11Ch20'); AN C = 61 DC = 2014.2.3.18.50.16 DM = 2018.1.30.10.26.33 ID = 0143f9baf973162 I = _ TF = (CM ) TF = (R G06Ch35); AN C = 62 DC = 2014.2.4.11.36.16 DM = 2018.1.30.10.26.40 ID = 0143fd53fc23165 I = _ TF = (CM ) TF = (R G06Ch43); AN C = 63 DC = 2014.1.10.21.38.23 DM = 2018.1.30.10.26.48 ID = 01437ebc425899 I = _ TF = (CM ) TF = (R G06Ch38); AN C = 64 DC = 2013.12.31.17.19.3 DM = 2018.1.30.10.26.59 ID = 01434a4f3d2e13 I = _ TF = (CM '^n') TF = (R G06Ch39); AN C = 65 DC = 2013.12.31.17.27.3 DM = 2018.1.30.10.27.13 ID = 01434a568f4c16 I = _ TF = (CM ) TF = (R 'G06Ch45, G11Ch22, C12Ch20, F03Ch08'); AN C = 67 DC = 2014.9.19.10.5.49 DM = 2018.1.30.10.27.32 ID = 01488e04c37b227 I = _ TF = (CM ) TF = (R G06Ch44); AN C = 68 DC = 2014.5.23.12.4.4 DM = 2018.1.30.10.27.39 ID = 0146299c4176250 I = _ TF = (CM ) TF = (R J07Ch28); AN C = 69 DC = 2015.8.27.15.25.48 DM = 2018.1.30.10.27.45 ID = 014f70689cab248 I = _ TF = (CM ) TF = (R G06Ch47); AN C = 70 DC = 2014.2.3.18.42.4 DM = 2018.1.30.10.27.52 ID = 0143f9b3774f153 I = _ TF = (CM ) TF = (R 'G06Ch27, G11Ch27'); AN C = 71 DC = 2014.1.6.11.54.43 DM = 2018.1.30.10.28.0 ID = 0143680c745d75 I = _ TF = (CM '^n') TF = (R C12Ch27); AN C = 72 DC = 2014.9.19.10.6.6 DM = 2018.1.30.10.28.6 ID = 01488e050474228 I = _ TF = (CM ) TF = (R G06Ch48); AN C = 73 DC = 2014.9.4.10.36.49 DM = 2018.1.30.10.28.13 ID = 014840e1c042237 I = _ TF = (CM ) TF = (R BF05Ch11); AN C = 74 DC = 2014.2.4.11.43.17 DM = 2018.1.30.10.28.19 ID = 0143fd5a69cf170 I = _ TF = (CM ) TF = (R G06Ch49); AN C = 75 DC = 2014.1.6.16.44.43 DM = 2018.1.30.10.28.29 ID = 01436915f73f89 I = _ TF = (CM ) TF = (R 'G06Ch50, G11Ch24'); AN C = 76 DC = 2014.1.13.11.14.1 DM = 2018.1.30.10.28.37 ID = 01438bf3b6f0105 I = _ TF = (CM ) TF = (R 'C12Ch28, G11Ch23'); AN C = 77 DC = 2014.2.4.11.39.47 DM = 2018.1.30.10.28.44 ID = 0143fd57342e167 I = _ TF = (CM ) TF = (R G11Ch17); AN C = 78 DC = 2014.2.4.11.50.35 DM = 2018.1.30.10.29.2 ID = 0143fd611939173 I = _ TF = (CM ) TF = (R G11Ch28); AN C = 79 DC = 2014.2.4.11.48.56 DM = 2018.1.30.10.29.17 ID = 0143fd5f943a172 I = _ TF = (CM ) TF = (R G11Ch26); AN C = 80 DC = 2014.2.4.11.47.31 DM = 2018.1.30.10.29.24 ID = 0143fd5e4942171 I = _ TF = (CM ) TF = (R G11Ch25); AN C = 81 DC = 2014.1.3.18.51.21 DM = 2018.1.30.10.30.18 ID = 01435a16d07a78 I = _ TF = (CM ) TF = (R 'G06Ch56, G11Ch30, C12Ch16'); AN C = 82 DC = 2013.12.31.18.1.31 DM = 2018.1.30.10.30.25 ID = 01434a761e5426 I = _ TF = (CM ) TF = (R 'G06Ch52, G11Ch32, C12Ch15, F03Ch24'); AN C = 83 DC = 2014.9.19.10.6.19 DM = 2018.1.30.10.30.33 ID = 01488e0535dc229 I = _ TF = (CM ) TF = (R G06Ch53); AN C = 84 DC = 2014.9.19.10.6.31 DM = 2018.1.30.10.30.45 ID = 01488e0566d2230 I = _ TF = (CM ) TF = (R 'G 06C54, C15Ch57'); AN C = 85 DC = 2014.9.19.10.6.45 DM = 2018.1.30.10.30.51 ID = 01488e059ab0231 I = _ TF = (CM ) TF = (R G06Ch55); AN C = 86 DC = 2013.12.31.17.47.33 DM = 2018.1.30.10.31.0 ID = 01434a69547a22 I = _ TF = (CM ) TF = (R 'G06Ch51, G11Ch29, F03Ch22'); AN C = 87 DC = 2014.2.4.12.0.52 DM = 2018.1.30.10.31.7 ID = 0143fd6a8295178 I = _ TF = (CM ) TF = (R G06Ch57); AN C = 88 DC = 2014.2.4.12.2.10 DM = 2018.1.30.10.31.13 ID = 0143fd6bb43d179 I = _ TF = (CM ) TF = (R G06Ch60); AN C = 89 DC = 2014.2.4.12.4.32 DM = 2018.1.30.10.31.20 ID = 0143fd6dde52180 I = _ TF = (CM ) TF = (R C12Ch29); AN C = 90 DC = 2014.1.6.16.56.23 DM = 2018.1.30.10.31.28 ID = 01436920a42692 I = _ TF = (CM ) TF = (R 'C12Ch17, F03Ch18'); AN C = 91 DC = 2014.2.4.12.8.12 DM = 2018.1.30.10.31.36 ID = 0143fd7137e0181 I = _ TF = (CM ) TF = (R G11Ch31); AN C = 92 DC = 2014.1.6.16.54.29 DM = 2018.1.30.10.31.44 ID = 0143691ee81a91 I = _ TF = (CM ) TF = (R 'G06Ch59, G11Ch33, C12Ch14, F03Ch13'); AN C = 93 DC = 2013.12.31.18.33.12 DM = 2018.1.30.10.31.55 ID = 01434a931e0f31 I = _ TF = (CM ) TF = (R 'G06Ch70, G11Ch38, F03Ch20'); AN C = 94 DC = 2014.1.13.12.26.16 DM = 2018.1.30.10.32.12 ID = 01438c35da0d112 I = _ TF = (CM '^n^n') TF = (R 'G06Ch68, G06Ch69, G11Ch35, C12Ch26, F03Ch10'); AN C = 95 DC = 2013.12.31.18.35.58 DM = 2018.1.30.10.32.21 ID = 01434a95a68733 I = _ TF = (CM '^n^n') TF = (R 'FL06Ch17, G06Ch71, G11Ch37, C12Ch25, F03Ch25, F03Ch21^n'); AN C = 96 DC = 2014.2.4.12.29.37 DM = 2018.1.30.10.32.36 ID = 0143fd84d6c4184 I = _ TF = (CM ) TF = (R G11Ch36); AN C = 97 DC = 2014.2.4.12.28.57 DM = 2018.1.30.10.32.44 ID = 0143fd8438ce183 I = _ TF = (CM ) TF = (R G06Ch76); AN C = 98 DC = 2014.2.4.12.27.26 DM = 2018.1.30.10.32.56 ID = 0143fd82d65d182 I = _ TF = (CM ) TF = (R G06Ch73); AN C = 99 DC = 2018.1.30.10.33.8 DM = 2018.1.30.10.33.17 ID = 0161470e8344262 I = _ TF = (CM 'Characters related to the foramen posterius canalis carotici interni appeared in previous analyses, but they usually unite several features into a single character or leave some variation out of the definition (e.g., characters 74 of Gaffney et al., 2006 and 72 of Cadena, 2015). We decided to distribute this variation (i.e., the position of the foramen posterius canalis carotici interni) into four characters (99 to 102), to better represent all the observed variation, but other versions of these characters can be found elsewhere (G06Ch74; G11Ch49; C15Ch72; J07Ch56).') TF = (R 'G06Ch74, G06Ch75, G11Ch49, C15Ch72, C15Ch73'); AN C = 100 DC = 2018.1.30.10.33.22 DM = 2018.1.30.10.33.47 ID = 0161470eb7b1263 I = _ TF = (CM 'Characters related to the foramen posterius canalis carotici interni appeared in previous analyses, but they usually unite several features into a single character or leave some variation out of the definition (e.g., characters 74 of Gaffney et al., 2006 and 72 of Cadena, 2015). We decided to distribute this variation (i.e., the position of the foramen posterius canalis carotici interni) into four characters (99 to 102), to better represent all the observed variation, but other versions of these characters can be found elsewhere (G06Ch74; G11Ch49; C15Ch72; J07Ch56).') TF = (R 'G06Ch74, G06Ch75, G11Ch49, C15Ch72, C15Ch73'); AN C = 101 DC = 2018.1.30.10.33.35 DM = 2018.1.30.10.33.55 ID = 0161470ee936264 I = _ TF = (CM 'Characters related to the foramen posterius canalis carotici interni appeared in previous analyses, but they usually unite several features into a single character or leave some variation out of the definition (e.g., characters 74 of Gaffney et al., 2006 and 72 of Cadena, 2015). We decided to distribute this variation (i.e., the position of the foramen posterius canalis carotici interni) into four characters (99 to 102), to better represent all the observed variation, but other versions of these characters can be found elsewhere (G06Ch74; G11Ch49; C15Ch72; J07Ch56).') TF = (R 'G06Ch74, G06Ch75, G11Ch49, C15Ch72, C15Ch73'); AN C = 102 DC = 2018.1.30.10.33.37 DM = 2018.1.30.10.34.3 ID = 0161470ef37e265 I = _ TF = (CM 'Characters related to the foramen posterius canalis carotici interni appeared in previous analyses, but they usually unite several features into a single character or leave some variation out of the definition (e.g., characters 74 of Gaffney et al., 2006 and 72 of Cadena, 2015). We decided to distribute this variation (i.e., the position of the foramen posterius canalis carotici interni) into four characters (99 to 102), to better represent all the observed variation, but other versions of these characters can be found elsewhere (G06Ch74; G11Ch49; C15Ch72; J07Ch56).') TF = (R 'G06Ch74, G06Ch75, G11Ch49, C15Ch72, C15Ch73'); AN C = 103 DC = 2014.2.4.12.33.14 DM = 2018.1.30.10.43.2 ID = 0143fd88249a186 I = _ TF = (CM ) TF = (R G11Ch39); AN C = 104 DC = 2014.1.6.17.8.55 DM = 2018.1.30.10.43.12 ID = 0143692c1d6f97 I = _ TF = (CM ) TF = (R 'G06Ch80, C12Ch11, TG09Ch03'); AN C = 105 DC = 2014.1.8.17.39.15 DM = 2018.1.30.10.43.21 ID = 014373949ac9108 I = _ TF = (CM ) TF = (R C12Ch11); AN C = 106 DC = 2014.1.8.17.39.11 DM = 2018.1.30.10.43.27 ID = 014373948a97107 I = _ TF = (CM ) TF = (R G11Ch40); AN C = 107 DC = 2014.2.4.12.30.24 DM = 2018.1.30.10.43.34 ID = 0143fd858c26185 I = _ TF = (CM ) TF = (R G06Ch79); AN C = 108 DC = 2018.1.30.10.43.41 DM = 2018.1.30.10.43.42 ID = 0161471829c2266 I = _ TF = (CM ) TF = (R J07Ch19); AN C = 109 DC = 2014.2.4.12.37.44 DM = 2018.1.30.10.43.50 ID = 0143fd8c4144187 I = _ TF = (CM ) TF = (R 'G06Ch86, C15Ch86'); AN C = 110 DC = 2014.1.6.17.12.9 DM = 2018.1.30.10.43.59 ID = 0143692f13be100 I = _ TF = (CM ) TF = (R 'G06Ch84, G11Ch41, C12Ch13'); AN C = 111 DC = 2014.2.4.12.38.55 DM = 2018.1.30.10.44.8 ID = 0143fd8d5805188 I = _ TF = (CM ) TF = (R G11Ch43); AN C = 112 DC = 2014.1.6.17.10.48 DM = 2018.1.30.10.44.18 ID = 0143692dd57399 I = _ TF = (CM ) TF = (R 'G06Ch82, G11Ch42'); AN C = 113 DC = 2014.5.7.14.42.36 DM = 2018.1.30.10.44.28 ID = 0145d7c7a637234 I = _ TF = (CM ) TF = (R 'BF05Ch10, G77Ch17'); AN C = 114 DC = 2013.12.31.18.55.24 DM = 2018.1.30.10.44.36 ID = 01434aa774c642 I = _ TF = (CM ) TF = (R 'G06Ch85, C12Ch30'); AN C = 115 DC = 2013.12.31.19.0.30 DM = 2018.1.30.10.44.51 ID = 01434aac1f7243 I = _ TF = (CM ) TF = (R 'G06Ch87, G11Ch44, C12Ch21'); AN C = 116 DC = 2014.2.4.12.45.14 DM = 2018.1.30.10.46.21 ID = 0143fd93209a189 I = _ TF = (CM ) TF = (R G11Ch45); AN C = 117 DC = 2014.2.4.12.45.48 DM = 2018.1.30.10.46.29 ID = 0143fd93a4f3190 I = _ TF = (CM ) TF = (R G11Ch46); AN C = 118 DC = 2014.1.6.17.16.45 DM = 2018.1.30.10.46.38 ID = 014369334a0e101 I = _ TF = (CM ) TF = (R 'G06Ch89, C12Ch24'); AN C = 119 DC = 2014.1.1.12.19.59 DM = 2018.1.30.10.46.52 ID = 01434e63c9ad46 I = _ TF = (CM ) TF = (R 'G06Ch94, G11Ch47, C12Ch32, F03Ch11'); AN C = 120 DC = 2014.1.6.17.19.55 DM = 2018.1.30.10.47.16 ID = 014369362f55102 I = _ TF = (CM ) TF = (R 'G06Ch92, F03Ch16'); AN C = 121 DC = 2014.2.4.12.47.41 DM = 2018.1.30.10.47.23 ID = 0143fd955ea5192 I = _ TF = (CM ) TF = (R G06Ch93); AN C = 122 DC = 2014.1.3.11.27.40 DM = 2018.1.30.10.47.33 ID = 014358809f0175 I = _ TF = (CM ) TF = (R 'G06Ch99, G11Ch50'); AN C = 123 DC = 2014.1.1.12.54.36 DM = 2018.1.30.10.47.42 ID = 01434e837d9752 I = _ TF = (CM ) TF = (R 'G06Ch100, G11Ch51'); AN C = 124 DC = 2014.2.4.12.53.44 DM = 2018.1.30.10.47.48 ID = 0143fd9ae743194 I = _ TF = (CM ) TF = (R G06Ch101); AN C = 126 DC = 2014.1.6.17.26.18 DM = 2018.1.30.10.48.43 ID = 0143693c0725105 I = _ TF = (CM ) TF = (R 'G06Ch102, C12Ch22'); AN C = 127 DC = 2014.1.14.10.31.17 DM = 2018.1.30.10.48.55 ID = 014390f2f0d4102 I = _ TF = (CM ) TF = (R G06Ch103); AN C = 128 DC = 2014.2.4.12.55.7 DM = 2018.1.30.10.49.3 ID = 0143fd9c2e99195 I = _ TF = (CM ) TF = (R G06Ch106); AN C = 129 DC = 2014.8.29.16.16.9 DM = 2018.1.30.10.49.10 ID = 0148233240c5247 I = _ TF = (CM ) TF = (R J07Ch44); AN C = 130 DC = 2014.1.1.13.0.52 DM = 2018.1.30.10.49.21 ID = 01434e893a4454 I = _ TF = (CM ) TF = (R 'G06Ch104, C12Ch23, F03Ch12, G11Ch53, BF05Ch13, G77Ch23'); AN C = 131 DC = 2015.8.27.16.51.3 DM = 2018.1.30.10.50.55 ID = 014f70b6ab56249 I = _ TF = (CM ) TF = (R 'G06Ch107, C15Ch104'); AN C = 132 DC = 2018.1.30.10.51.33 DM = 2018.1.30.10.51.34 ID = 0161471f5f18268 I = _ TF = (CM ) TF = (R G06Ch110); AN C = 133 DC = 2014.1.6.17.31.41 DM = 2018.1.30.10.51.45 ID = 01436940f4ec107 I = _ TF = (CM ) TF = (R 'G06Ch113, G11Ch57, F03Ch28'); AN C = 134 DC = 2014.2.4.14.47.44 DM = 2018.1.30.10.51.52 ID = 0143fe034959206 I = _ TF = (CM ) TF = (R G06Ch119); AN C = 135 DC = 2014.2.4.14.45.41 DM = 2018.1.30.10.51.58 ID = 0143fe0166cc204 I = _ TF = (CM ) TF = (R C12Ch34); AN C = 136 DC = 2014.2.4.14.36.25 DM = 2018.1.30.10.52.20 ID = 0143fdf8ece8200 I = _ TF = (CM ) TF = (R G06Ch114); AN C = 137 DC = 2014.2.4.14.45.19 DM = 2018.1.30.10.52.26 ID = 0143fe01123e203 I = _ TF = (CM ) TF = (R G06Ch116); AN C = 138 DC = 2014.2.4.14.48.35 DM = 2018.1.30.10.52.32 ID = 0143fe040e6e207 I = _ TF = (CM ) TF = (R C12Ch35); AN C = 139 DC = 2014.2.4.14.39.20 DM = 2018.1.30.10.52.40 ID = 0143fdfb9754202 I = _ TF = (CM ) TF = (R G06Ch116); AN C = 140 DC = 2014.1.6.17.38.36 DM = 2018.1.30.10.52.52 ID = 0143694749e7108 I = _ TF = (CM ) TF = (R 'G06C117, G11Ch54, C12Ch33, BF05Ch14, G77Ch24'); AN C = 141 DC = 2014.9.16.16.37.0 DM = 2018.1.30.10.53.3 ID = 01487ff7d082218 I = _ TF = (CM ) TF = (R 'G77, TG09Ch22'); AN C = 142 DC = 2014.2.4.14.46.56 DM = 2018.1.30.10.53.16 ID = 0143fe028ddf205 I = _ TF = (CM ) TF = (R 'G06Ch118, C15Ch111'); AN C = 143 DC = 2014.2.4.14.48.57 DM = 2018.1.30.10.53.24 ID = 0143fe04649a208 I = _ TF = (CM ) TF = (R G06Ch120); AN C = 144 DC = 2014.2.4.14.49.14 DM = 2018.1.30.10.53.30 ID = 0143fe04a6c6209 I = _ TF = (CM ) TF = (R G06Ch121); AN C = 145 DC = 2014.2.4.14.49.45 DM = 2018.1.30.10.53.37 ID = 0143fe051f8d210 I = _ TF = (CM ) TF = (R C15Ch114); AN C = 146 DC = 2014.2.4.14.50.26 DM = 2018.1.30.10.53.43 ID = 0143fe05bf82211 I = _ TF = (CM ) TF = (R G06Ch122); AN C = 147 DC = 2014.1.6.17.39.48 DM = 2018.1.30.10.53.53 ID = 0143694863ab109 I = _ TF = (CM ) TF = (R 'G06Ch123, G11Ch55'); AN C = 148 DC = 2018.1.30.10.54.0 DM = 2018.1.30.10.54.1 ID = 016147219cd3269 I = _ TF = (CM ) TF = (R G11Ch56); AN C = 149 DC = 2014.1.6.17.47.31 DM = 2018.1.30.10.54.12 ID = 0143694f7308112 I = _ TF = (CM ) TF = (R 'G06C128, G11Ch59, F03Ch46, BF05Ch16'); AN C = 150 DC = 2014.5.7.14.54.11 DM = 2018.1.30.10.54.22 ID = 0145d7d24155235 I = _ TF = (CM ) TF = (R 'BF05Ch15, G77'); AN C = 151 DC = 2014.11.18.17.28.20 DM = 2018.1.30.10.54.32 ID = 0149c46084e3246 I = _ TF = (CM ) TF = (R BF05Ch26); AN C = 152 DC = 2014.9.26.9.56.0 DM = 2018.1.30.10.54.38 ID = 0148b208489b248 I = _ TF = (CM ) TF = (R BF05Ch28); AN C = 153 DC = 2014.9.26.9.55.30 DM = 2018.1.30.10.54.44 ID = 0148b207d59d247 I = _ TF = (CM ) TF = (R BF05Ch27); AN C = 154 DC = 2014.9.4.14.43.4 DM = 2018.1.30.10.54.51 ID = 014841c3324d245 I = _ TF = (CM ) TF = (R BF05Ch25); AN C = 155 DC = 2014.9.4.14.42.33 DM = 2018.1.30.10.54.58 ID = 014841c2b976244 I = _ TF = (CM ) TF = (R BF05Ch24); AN C = 156 DC = 2014.2.4.14.58.27 DM = 2018.1.30.10.55.5 ID = 0143fe0d173e214 I = _ TF = (CM ) TF = (R G06Ch127); AN C = 157 DC = 2014.1.2.10.45.33 DM = 2018.1.30.10.55.14 ID = 01435333b08155 I = _ TF = (CM ) TF = (R 'G11Ch58, C12Ch38, F03Ch47^n'); AN C = 158 DC = 2014.9.4.14.41.45 DM = 2018.1.30.10.55.22 ID = 014841c1ff20242 I = _ TF = (CM ) TF = (R BF05Ch22); AN C = 159 DC = 2014.9.4.14.42.10 DM = 2018.1.30.10.55.28 ID = 014841c25f2e243 I = _ TF = (CM ) TF = (R BF05Ch23); AN C = 160 DC = 2014.9.1.11.51.7 DM = 2018.1.30.10.55.34 ID = 014831b2b048240 I = _ TF = (CM ) TF = (R BF05Ch19); AN C = 162 DC = 2014.9.4.14.32.35 DM = 2018.1.30.10.56.0 ID = 014841b998f1238 I = _ TF = (CM ) TF = (R BF05Ch20); AN C = 163 DC = 2014.1.6.17.46.37 DM = 2018.1.30.10.58.49 ID = 0143694ea192111 I = _ TF = (CM _) TF = (R 'G06Ch125, G11Ch60, BF05Ch018'); AN C = 164 DC = 2014.9.19.10.7.52 DM = 2018.1.30.10.59.3 ID = 01488e06a41e234 I = _ TF = (CM ) TF = (R G06Ch126); AN C = 165 DC = 2014.9.4.14.38.42 DM = 2018.1.30.11.1.46 ID = 014841bf3362241 I = _ TF = (CM ) TF = (R BF05Ch21); AN C = 166 DC = 2014.1.2.10.52.59 DM = 2018.1.30.11.1.54 ID = 0143533a7eb756 I = _ TF = (CM ) TF = (R C12Ch39); AN C = 167 DC = 2018.1.30.11.2.2 DM = 2018.1.30.11.2.3 ID = 01614728f629270 I = _ TF = (CM ) TF = (R 'C10Ch44, C15Ch132'); AN C = 168 DC = 2014.2.4.15.7.12 DM = 2018.1.30.11.2.12 ID = 0143fe151a26218 I = _ TF = (CM ) TF = (R CP15Ch219); AN C = 169 DC = 2014.11.18.19.33.51 DM = 2018.1.30.11.2.28 ID = 0149c4d370f6247 I = _ TF = (CM ) TF = (R 'BF05Ch37, G77'); AN C = 170 DC = 2014.2.4.15.16.6 DM = 2018.1.30.11.2.34 ID = 0143fe1d3fc2220 I = _ TF = (CM ) TF = (R G06Ch154); AN C = 171 DC = 2014.1.2.18.0.51 DM = 2018.1.30.11.2.45 ID = 014354c2399681 I = _ TF = (CM ) TF = (R 'G06Ch139, G11Ch62, F03Ch33, BF05Ch30'); AN C = 172 DC = 2014.9.2.15.8.32 DM = 2018.1.30.11.2.55 ID = 0148378dcca2236 I = _ TF = (CM ) TF = (R C15Ch135); AN C = 174 DC = 2014.1.2.11.6.35 DM = 2018.1.30.11.3.15 ID = 01435346f58766 I = _ TF = (CM ) TF = (R 'G06Ch146, G11Ch64, C12Ch42, G77'); AN C = 175 DC = 2014.1.2.10.56.7 DM = 2018.1.30.11.3.26 ID = 0143533d600c61 I = _ TF = (CM ) TF = (R 'G06Ch141, G11Ch63, F03Ch38'); AN C = 176 DC = 2014.9.19.10.8.32 DM = 2018.1.30.11.4.28 ID = 01488e074023236 I = _ TF = (CM ) TF = (R G06Ch145); AN C = 178 DC = 2014.1.2.10.58.53 DM = 2018.1.30.11.5.9 ID = 0143533fe8ab62 I = _ TF = (CM ) TF = (R 'G06Ch144, G11Ch66, C12Ch43'); AN C = 179 DC = 2014.2.4.16.14.28 DM = 2018.1.30.11.5.18 ID = 0143fe52aef8221 I = _ TF = (CM ) TF = (R G11Ch65); AN C = 180 DC = 2018.1.30.11.5.29 DM = 2018.1.30.11.5.30 ID = 0161472c1eb1271 I = _ TF = (CM ) TF = (R C15Ch141); AN C = 181 DC = 2014.2.4.16.18.46 DM = 2018.1.30.11.6.4 ID = 0143fe56a171225 I = _ TF = (CM ) TF = (R G06Ch143); AN C = 182 DC = 2014.1.21.11.42.28 DM = 2018.1.30.11.6.11 ID = 0143b540a3c8123 I = _ TF = (CM ) TF = (R G06Ch147); AN C = 183 DC = 2014.9.22.16.40.15 DM = 2018.1.30.11.6.29 ID = 01489ee0f258240 I = _ TF = (CM ) TF = (R D13Ch100); AN C = 184 DC = 2014.2.4.16.40.1 DM = 2018.1.30.11.6.37 ID = 0143fe6a13c2243 I = _ TF = (CM ) TF = (R F17Ch39); AN C = 185 DC = 2014.9.22.16.49.7 DM = 2018.1.30.11.6.43 ID = 01489ee9112f243 I = _ TF = (CM ) TF = (R D13Ch105); AN C = 186 DC = 2014.9.4.16.1.47 DM = 2018.1.30.11.6.49 ID = 0148420b41bb246 I = _ TF = (CM ) TF = (R BF05Ch31); AN C = 187 DC = 2014.9.19.10.9.2 DM = 2018.1.30.11.6.58 ID = 01488e07b43c238 I = _ TF = (CM ) TF = (R 'G06C155, C15Ch160'); AN C = 188 DC = 2018.1.30.11.7.5 DM = 2018.1.30.11.7.7 ID = 0161472d97a2272 I = _ TF = (CM ) TF = (R G06Ch157); AN C = 189 DC = 2014.9.19.10.9.19 DM = 2018.1.30.11.7.14 ID = 01488e07f4cf239 I = _ TF = (CM ) TF = (R G06Ch156); AN C = 191 DC = 2014.1.14.16.58.34 DM = 2018.1.30.11.8.40 ID = 0143925582bb109 I = _ TF = (CM ) TF = (R G06Ch148); AN C = 192 DC = 2014.9.18.10.13.33 DM = 2018.1.30.11.8.48 ID = 014888e57ae0219 I = _ TF = (CM ) TF = (R TG09Ch25); AN C = 193 DC = 2014.1.2.11.36.57 DM = 2018.1.30.11.8.56 ID = 01435362c12769 I = _ TF = (CM ) TF = (R 'G06Ch149, G11Ch68, BF05Ch32, C15Ch146'); AN C = 194 DC = 2014.1.2.11.39.14 DM = 2018.1.30.11.9.8 ID = 01435364d7cc70 I = _ TF = (CM ) TF = (R 'G06Ch150, C12Ch44'); AN C = 195 DC = 2014.2.4.16.39.36 DM = 2018.1.30.11.9.21 ID = 0143fe69b0eb242 I = _ TF = (CM ) TF = (R BF05Ch33); AN C = 196 DC = 2015.8.28.15.0.15 DM = 2018.1.30.11.9.29 ID = 014f75779778251 I = _ TF = (CM ) TF = (R 'G06Ch142, C15Ch142'); AN C = 197 DC = 2015.8.28.15.0.41 DM = 2018.1.30.11.9.36 ID = 014f7577f9fb252 I = _ TF = (CM ) TF = (R 'G06Ch142, C15Ch142'); AN C = 198 DC = 2014.1.2.11.49.59 DM = 2018.1.30.11.9.44 ID = 0143536eaf5773 I = _ TF = (CM ) TF = (R 'G06Ch138, G11Ch61, C12Ch41, F03Ch39, BF05Ch36, G77'); AN C = 199 DC = 2014.4.30.15.7.42 DM = 2018.1.30.11.9.51 ID = 0145b3d21d8b227 I = _ TF = (CM ) TF = (R BF05Ch36); AN C = 200 DC = 2014.9.2.15.46.37 DM = 2018.1.30.11.10.0 ID = 014837b0aa4b237 I = _ TF = (CM ) TF = (R 'C13*Ch61'); AN C = 201 DC = 2014.9.22.16.48.54 DM = 2018.1.30.11.10.42 ID = 01489ee8df31242 I = _ TF = (CM ) TF = (R D13Ch104); AN C = 202 DC = 2015.8.28.15.27.56 DM = 2018.1.30.11.10.51 ID = 014f7590ee65253 I = _ TF = (CM ) TF = (R 'P13Ch08, C15Ch152'); AN C = 203 DC = 2014.9.19.10.8.45 DM = 2018.1.30.11.10.58 ID = 01488e076fc2237 I = _ TF = (CM ) TF = (R G06Ch152); AN C = 204 DC = 2014.1.20.11.53.32 DM = 2018.1.30.11.11.5 ID = 0143b0246884120 I = _ TF = (CM ) TF = (R G06Ch153); AN C = 205 DC = 2014.9.18.10.13.54 DM = 2018.1.30.11.11.12 ID = 014888e5cbd0220 I = _ TF = (CM ) TF = (R 'G77, TG09Ch28'); AN C = 206 DC = 2014.9.18.11.30.57 DM = 2018.1.30.11.11.35 ID = 0148892c575a222 I = _ TF = (CM ) TF = (R TG09Ch36); AN C = 207 DC = 2015.9.11.15.43.57 DM = 2018.1.30.11.11.49 ID = 014fbdb89f68255 I = _ TF = (CM ) TF = (R C15Ch156); AN C = 208 DC = 2014.9.22.16.48.19 DM = 2018.1.30.11.11.58 ID = 01489ee854b7241 I = _ TF = (CM ) TF = (R D13Ch103); AN C = 209 DC = 2014.9.22.16.49.38 DM = 2018.1.30.11.12.4 ID = 01489ee98bb8245 I = _ TF = (CM ) TF = (R D13Ch107); AN C = 211 DC = 2014.2.4.16.40.32 DM = 2018.1.30.11.12.23 ID = 0143fe6a8f60246 I = _ TF = (CM ) TF = (R C15Ch159); AN C = 212 DC = 2014.9.3.11.46.0 DM = 2018.1.30.11.12.39 ID = 01483bfab890237 I = _ TF = (CM ) TF = (R C15Ch159); AN C = 213 DC = 2014.2.17.15.21.55 DM = 2018.1.30.11.12.48 ID = 0144411540f2254 I = _ TF = (CM ) TF = (R C15Ch159); AN C = 216 DC = 2014.2.4.16.29.56 DM = 2018.1.30.11.13.20 ID = 0143fe60d96c236 I = _ TF = (CM ) TF = (R G06Ch173); AN C = 217 DC = 2014.2.4.16.29.37 DM = 2018.1.30.11.13.31 ID = 0143fe60903e235 I = _ TF = (CM ) TF = (R G06Ch164); AN C = 218 DC = 2014.9.18.11.30.36 DM = 2018.1.30.11.13.45 ID = 0148892c0586221 I = _ TF = (CM ) TF = (R TG09Ch35); AN C = 219 DC = 2014.5.8.16.35.49 DM = 2018.1.30.11.13.54 ID = 0145dd55a966237 I = _ TF = (CM ) TF = (R BF05Ch34); AN C = 220 DC = 2014.9.22.16.50.23 DM = 2018.1.30.11.14.1 ID = 01489eea3a6a248 I = _ TF = (CM ) TF = (R D13Ch118); AN C = 221 DC = 2018.1.30.11.14.8 DM = 2018.1.30.11.14.9 ID = 016147340c4e273 I = _ TF = (CM ) TF = (R JB04Ch58); AN C = 222 DC = 2018.1.30.11.14.14 DM = 2018.1.30.11.14.16 ID = 0161473421d9274 I = _ TF = (CM ) TF = (R JB04Ch57); AN C = 223 DC = 2014.2.4.16.27.34 DM = 2018.1.30.11.14.24 ID = 0143fe5eafc7230 I = _ TF = (CM ) TF = (R G06Ch159); AN C = 224 DC = 2015.8.28.15.45.27 DM = 2018.1.30.11.14.32 ID = 014f75a0f5ef254 I = _ TF = (CM ) TF = (R 'C15Ch157, C12Ch177'); AN C = 225 DC = 2014.1.2.12.2.17 DM = 2018.1.30.11.14.40 ID = 01435379f1d174 I = _ TF = (CM ) TF = (R 'G06Ch158, G11Ch71, C12Ch45, F03Ch40, BF05Ch35'); AN C = 226 DC = 2014.9.12.11.23.40 DM = 2018.1.30.11.14.48 ID = 01486a3f858e220 I = _ TF = (CM ) TF = (R C15Ch171); AN C = 227 DC = 2014.1.2.12.12.53 DM = 2018.1.30.11.14.59 ID = 01435383a6c982 I = _ TF = (CM ) TF = (R 'G11Ch74, F03Ch36, F03Ch41'); AN C = 228 DC = 2014.1.2.12.9.19 DM = 2018.1.30.11.15.9 ID = 0143538062eb81 I = _ TF = (CM ) TF = (R 'G06Ch166, G11Ch74, F03Ch36, F03Ch41'); AN C = 229 DC = 2014.1.2.12.6.11 DM = 2018.1.30.11.15.20 ID = 0143537d864778 I = _ TF = (CM ) TF = (R 'G06Ch167, G11Ch72, F03Ch34'); AN C = 230 DC = 2014.5.7.15.9.30 DM = 2018.1.30.11.15.31 ID = 0145d7e045a7236 I = _ TF = (CM ) TF = (R 'G06Ch170, C12Ch46, G77, C15Ch180'); AN C = 232 DC = 2015.8.28.16.8.27 DM = 2018.1.30.11.15.52 ID = 014f75b6062b255 I = _ TF = (CM ) TF = (R 'C13Ch179, C15Ch166'); AN C = 233 DC = 2018.1.30.11.15.55 DM = 2018.1.30.11.16.0 ID = 01614735ac7e275 I = _ TF = (CM ) TF = (R C15Ch180); AN C = 234 DC = 2014.9.22.16.50.55 DM = 2018.1.30.11.16.7 ID = 01489eeab622250 I = _ TF = (CM ) TF = (R D13Ch120); AN C = 236 DC = 2014.2.4.16.31.51 DM = 2018.1.30.11.16.29 ID = 0143fe62997a238 I = _ TF = (CM ) TF = (R G06Ch172); AN C = 238 DC = 2014.9.19.10.8.19 DM = 2018.1.30.11.16.48 ID = 01488e070c71235 I = _ TF = (CM ) TF = (R G06Ch133); AN C = 240 DC = 2014.2.4.16.31.17 DM = 2018.1.30.11.17.9 ID = 0143fe62162a237 I = _ TF = (CM ) TF = (R G06Ch168); AN C = 242 DC = 2015.8.28.16.35.17 DM = 2018.1.30.11.17.34 ID = 014f75ce9811256 I = _ TF = (CM ) TF = (R 'C15Ch182, C12Ch46, P13Ch14'); AN C = 243 DC = 2015.9.13.11.50.36 DM = 2018.1.30.11.17.42 ID = 014fc72fb37c256 I = _ TF = (CM ) TF = (R C15Ch177); AN C = 245 DC = 2015.9.13.11.53.7 DM = 2018.1.30.11.18.4 ID = 014fc7320310258 I = _ TF = (CM '^n') TF = (R C08Ch04); END; Begin MESQUITE; MESQUITESCRIPTVERSION 2; TITLE AUTO; tell ProjectCoordinator; timeSaved 1564597351558; getEmployee #mesquite.minimal.ManageTaxa.ManageTaxa; tell It; setID 0 5442791775385315148; tell It; setDefaultOrder 67 96 59 68 69 94 50 65 93 51 52 53 209 54 56 95 55 57 58 198 199 97 66 206 3 61 4 5 60 62 8 72 71 11 70 63 13 178 73 75 87 74 19 88 89 77 76 23 24 83 86 64 79 80 82 81 85 84 78 7 6 210 211 242 233 212 232 216 226 227 229 228 224 225 177 231 255 215 92 230 223 90 234 222 217 91 170 235 237 238 239 240 214 213 241 243 244 205 219 220 221 101 102 103 104 105 106 107 108 109 110 112 113 111 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131; attachments ; endTell; endTell; getEmployee #mesquite.charMatrices.ManageCharacters.ManageCharacters; tell It; setID 0 5185040010108004626; tell It; setDefaultOrder 175 5 0 176 4 3 6 205 597 10 195 598 11 605 530 412 12 13 197 181 206 17 692 14 15 628 602 542 230 208 207 21 421 22 23 24 25 192 27 607 609 32 29 30 388 549 608 561 220 221 40 39 36 613 546 33 193 610 612 35 34 42 37 38 44 43 210 459 231 621 575 211 183 48 49 576 611 622 620 619 55 51 212 213 214 50 56 59 577 559 625 58 69 67 652 651 75 72 422 423 424 244 654 541 637 655 78 203 85 83 658 81 182 578 86 660 661 88 93 91 92 98 99 100 225 101 102 105 460 103 232 233 112 118 582 113 115 583 114 116 198 117 119 120 563 121 122 234 127 187 453 455 454 452 449 126 673 435 436 432 450 433 124 217 434 587 236 562 485 153 138 564 550 145 140 219 627 143 680 238 142 146 222 632 396 479 409 243 410 551 147 199 683 149 630 239 375 137 484 437 224 240 408 152 200 202 241 223 398 439 639 438 538 642 721 172 163 201 482 401 444 445 158 242 157 430 164 165 166 472 473 365 226 403 191 171 190 218 646 167 194 367 366 228 229 245 246 247 248 249 250 251 252 253 254 255 256 257 258 259 260 261 262 269 265 358 263 270 271 266 272 273 267 268 277 334 326 321 282 307 283 297 295 289 290; attachments ; endTell; mqVersion 351; checksumv 0 3 1270581173 null getNumChars 285 numChars 285 getNumTaxa 132 numTaxa 132 short true bits 2305843009213694015 states 63 sumSquaresStatesOnly 65803.0 sumSquares -2.5825441703193372E20 longCompressibleToShort false usingShortMatrix true NumFiles 1 NumMatrices 1; mqVersion; endTell; getWindow; tell It; suppress; setResourcesState false false 121; setPopoutState 400; setExplanationSize 0; setAnnotationSize 0; setFontIncAnnot 0; setFontIncExp 0; setSize 1366 649; setLocation -8 0; setFont SanSerif; setFontSize 10; getToolPalette; tell It; endTell; desuppress; endTell; getEmployee #mesquite.minimal.ManageTaxa.ManageTaxa; tell It; showTaxa #5442791775385315148 #mesquite.lists.TaxonList.TaxonList; tell It; setTaxa #5442791775385315148; getWindow; tell It; useTargetValue off; setTargetValue ; newAssistant #mesquite.lists.TaxonListCurrPartition.TaxonListCurrPartition; newAssistant #mesquite.lists.DefaultTaxaOrder.DefaultTaxaOrder; getTable; tell It; columnWidth 1 83; endTell; setExplanationSize 30; setAnnotationSize 20; setFontIncAnnot 0; setFontIncExp 0; setSize 1245 577; setLocation -8 0; setFont SanSerif; setFontSize 10; getToolPalette; tell It; setTool mesquite.lists.TaxonList.TaxonListWindow.arrow; endTell; endTell; showWindow; getEmployee #mesquite.lists.ColorTaxon.ColorTaxon; tell It; setColor Dark Gray; removeColor on; endTell; getEmployee #mesquite.lists.TaxonListAnnotPanel.TaxonListAnnotPanel; tell It; togglePanel on; endTell; endTell; endTell; getEmployee #mesquite.trees.BasicTreeWindowCoord.BasicTreeWindowCoord; tell It; makeTreeWindow #5442791775385315148 #mesquite.trees.BasicTreeWindowMaker.BasicTreeWindowMaker; tell It; suppressEPCResponse; setTreeSource #mesquite.trees.StoredTrees.StoredTrees; tell It; setTreeBlock 1; setTreeBlockID 015a2c1ad0d61; toggleUseWeights off; endTell; setAssignedID 956.1444307958125.4300342804394331382; getTreeWindow; tell It; setExplanationSize 30; setAnnotationSize 20; setFontIncAnnot 0; setFontIncExp 0; setSize 1245 577; setLocation -8 0; setFont SanSerif; setFontSize 10; getToolPalette; tell It; setTool mesquite.trees.BasicTreeWindowMaker.BasicTreeWindow.arrow; endTell; setActive; getTreeDrawCoordinator #mesquite.trees.BasicTreeDrawCoordinator.BasicTreeDrawCoordinator; tell It; suppress; setTreeDrawer #mesquite.trees.SquareLineTree.SquareLineTree; tell It; setNodeLocs #mesquite.trees.NodeLocsStandard.NodeLocsStandard; tell It; branchLengthsToggle off; toggleScale on; toggleBroadScale off; toggleCenter on; toggleEven on; setFixedTaxonDistance 0; endTell; setEdgeWidth 4; showEdgeLines on; orientUp; endTell; setBackground White; setBranchColor Black; showNodeNumbers off; showBranchColors on; labelBranchLengths off; centerBrLenLabels on; showBrLensUnspecified on; showBrLenLabelsOnTerminals on; setBrLenLabelColor 0 0 255; setNumBrLenDecimals 6; desuppress; getEmployee #mesquite.trees.BasicDrawTaxonNames.BasicDrawTaxonNames; tell It; setColor Black; toggleColorPartition off; toggleColorAssigned on; toggleShadePartition off; toggleShowFootnotes on; toggleNodeLabels on; toggleCenterNodeNames off; toggleShowNames on; namesAngle ?; endTell; endTell; setTreeNumber 1; setDrawingSizeMode 0; toggleLegendFloat on; scale 0; toggleTextOnTree off; togglePrintName on; showWindow; endTell; desuppressEPCResponse; getEmployee #mesquite.trees.ColorBranches.ColorBranches; tell It; setColor Red; removeColor off; endTell; getEmployee #mesquite.ornamental.BranchNotes.BranchNotes; tell It; setAlwaysOn off; endTell; getEmployee #mesquite.ornamental.ColorTreeByPartition.ColorTreeByPartition; tell It; colorByPartition off; endTell; getEmployee #mesquite.ornamental.DrawTreeAssocDoubles.DrawTreeAssocDoubles; tell It; setOn on; toggleShow consensusFrequency; toggleShow posteriorProbability; toggleShow bootstrapFrequency; toggleShow consensusFrequency; toggleShow posteriorProbability; toggleShow bootstrapFrequency; setDigits 4; setThreshold ?; writeAsPercentage off; toggleCentred off; toggleHorizontal on; toggleWhiteEdges on; toggleShowOnTerminals on; setFontSize 10; setOffset 0 0; endTell; getEmployee #mesquite.ornamental.DrawTreeAssocStrings.DrawTreeAssocStrings; tell It; setOn on; toggleCentred on; toggleHorizontal on; setFontSize 10; setOffset 0 0; toggleShowOnTerminals on; endTell; getEmployee #mesquite.trees.TreeInfoValues.TreeInfoValues; tell It; panelOpen false; endTell; endTell; endTell; getEmployee #mesquite.charMatrices.BasicDataWindowCoord.BasicDataWindowCoord; tell It; showDataWindow #5185040010108004626 #mesquite.charMatrices.BasicDataWindowMaker.BasicDataWindowMaker; tell It; getWindow; tell It; getTable; tell It; rowNamesWidth 210; endTell; setExplanationSize 30; setAnnotationSize 20; setFontIncAnnot 1; setFontIncExp 0; setSize 1245 577; setLocation -8 0; setFont SanSerif; setFontSize 12; getToolPalette; tell It; setTool mesquite.charMatrices.BasicDataWindowMaker.BasicDataWindow.ibeam; endTell; setTool mesquite.charMatrices.BasicDataWindowMaker.BasicDataWindow.ibeam; colorCells #mesquite.charMatrices.ColorByState.ColorByState; tell It; setStateLimit 9; toggleUniformMaximum on; endTell; colorRowNames #mesquite.charMatrices.TaxonGroupColor.TaxonGroupColor; colorColumnNames #mesquite.charMatrices.CharGroupColor.CharGroupColor; colorText #mesquite.charMatrices.NoColor.NoColor; setBackground White; toggleShowNames off; toggleShowTaxonNames on; toggleTight off; toggleThinRows off; toggleShowChanges on; toggleSeparateLines off; toggleShowStates on; toggleAutoWCharNames on; toggleAutoTaxonNames off; toggleShowDefaultCharNames off; toggleConstrainCW on; toggleBirdsEye off; toggleShowPaleGrid off; toggleShowPaleCellColors off; toggleShowPaleExcluded off; togglePaleInapplicable on; toggleShowBoldCellText off; toggleAllowAutosize on; toggleColorsPanel off; toggleDiagonal on; setDiagonalHeight 80; toggleLinkedScrolling on; toggleScrollLinkedTables off; endTell; showWindow; getWindow; tell It; forceAutosize; endTell; getEmployee #mesquite.charMatrices.AlterData.AlterData; tell It; toggleBySubmenus off; endTell; getEmployee #mesquite.charMatrices.ColorCells.ColorCells; tell It; setColor White; removeColor off; endTell; getEmployee #mesquite.categ.StateNamesEditor.StateNamesEditor; tell It; makeWindow; tell It; getTable; tell It; rowNamesWidth 475; endTell; setExplanationSize 30; setAnnotationSize 20; setFontIncAnnot 0; setFontIncExp 0; setSize 1245 577; setLocation -8 0; setFont SanSerif; setFontSize 10; getToolPalette; tell It; setTool mesquite.categ.StateNamesEditor.StateNamesWindow.ibeam; endTell; rowsAreCharacters on; toggleConstrainChar on; toggleConstrainCharNum 3; togglePanel off; toggleSummaryPanel off; endTell; showWindow; endTell; getEmployee #mesquite.categ.StateNamesStrip.StateNamesStrip; tell It; showStrip off; endTell; getEmployee #mesquite.charMatrices.AnnotPanel.AnnotPanel; tell It; togglePanel off; endTell; getEmployee #mesquite.charMatrices.CharReferenceStrip.CharReferenceStrip; tell It; showStrip off; endTell; getEmployee #mesquite.charMatrices.QuickKeySelector.QuickKeySelector; tell It; autotabOff; endTell; getEmployee #mesquite.charMatrices.SelSummaryStrip.SelSummaryStrip; tell It; showStrip off; endTell; getEmployee #mesquite.categ.SmallStateNamesEditor.SmallStateNamesEditor; tell It; panelOpen true; endTell; endTell; endTell; getEmployee #mesquite.charMatrices.ManageCharacters.ManageCharacters; tell It; showCharacters #5185040010108004626 #mesquite.lists.CharacterList.CharacterList; tell It; setData 0; getWindow; tell It; useTargetValue off; setTargetValue ; newAssistant #mesquite.lists.DefaultCharOrder.DefaultCharOrder; newAssistant #mesquite.lists.CharListInclusion.CharListInclusion; newAssistant #mesquite.lists.CharListPartition.CharListPartition; newAssistant #mesquite.stochchar.CharListProbModels.CharListProbModels; newAssistant #mesquite.parsimony.CharListParsModels.CharListParsModels; getTable; tell It; rowNamesWidth 522; columnWidth 1 31; columnWidth 2 67; endTell; setExplanationSize 30; setAnnotationSize 20; setFontIncAnnot 0; setFontIncExp 0; setSize 1245 577; setLocation -8 0; setFont SanSerif; setFontSize 10; getToolPalette; tell It; setTool mesquite.lists.CharacterList.CharacterListWindow.ibeam; endTell; endTell; showWindow; getEmployee #mesquite.lists.CharListAnnotPanel.CharListAnnotPanel; tell It; togglePanel off; endTell; endTell; endTell; endTell; end;