Dataset DOI: 10.5061/dryad.tx95x6b84

Description of the data and file structure

This Procellariiform flight parameter database contains values extracted from studies that were reviewed as part of the study 'A global review of Procellariiform flight height, flight speed and nocturnal activity: implications for offshore wind farm collision risk', published in Journal of Applied Ecology. The database also contains study metadata, meta-analysis results and recommendations for seabird Collision Risk Modelling.

Files and variables

File: Miller_procellariiform_flight_parameter_database.xlsx

Sheet 1 'Contents'

The parameter database excel file contains eight sheets, which are titled and described in the first sheet. This is entitled 'Contents' and intended to act as a landing page for the reader.

Sheet 2 'Mean flight height & %RSZ'

Mean flight height, percentage time in the Rotor Swept Zone and additional anecdotal values extracted from studies. Percentage time in the RSZ is represented with a mean value, with associated turbine air gap attribute (10 m, 20 m, 30 m), quality/certainty classification (High, Medium, Low), and study metadata. Mean flight height values are shown in varied formats as they appear in studies (means, median, ranges), with associated sample sizes and study metadata.

Sheet 3 'Speed'

Flight speed, whole trip speed, maximum speed and additional anecdotal values extracted from studies. Where available, multiple speed values from the same study (e.g. male vs female) are denoted by the subset field. Each speed value is presented as a mean ± standard deviation, with associated sample size (n birds) and study metadata.

Sheet 4 'Nocturnal activity (raw)'

Percentage of time flying (day vs night), Nocturnal Flight Index and additional anecdotal values extracted from studies. This sheet shows nocturnal activity values as they appeared in studies, with the majority providing values for percentage of time flying per day and night. The subset field shows day vs night splits, and further detail (e.g. adultDay, adultNight, juvenileDay, juvenileNight), where available. Each nocturnal activity value is presented as a mean ± standard deviation, with associated sample size (n birds) and study metadata. The only exceptions are two literature review studies, which have a quality/certainty classification (High, Medium, Low) in place of a sample size; see Appendix S1 in Supporting Information material for more detail.

Sheet 5 'Nocturnal activity (NFI)'

Nocturnal Flight Index values either extracted from studies or calculated from raw nocturnal activity values. This sheet shows the same information as Sheet 3 'Nocturnal activity (raw)' but all values have been standardised to the Nocturnal Flight Index (-1:1). Where available, multiple NFI values from the same study (e.g. male vs female) are denoted by the subset field. Each NFI value is presented as a mean ± standard deviation, with associated sample size (n birds) and study metadata.

Sheet 6 'Results & Recommendations'

Species-specific estimates and uncertainty calculated through semi-quantitative meta-analysis (percentage time in the Rotor Swept Zone), quantitative meta-analysis (flight speed, whole trip speed, maximum speed, Nocturnal Flight Index) or displayed as raw study values (Mean flight height). Each value comes with metadata on the phenological stage(s) and region(s) it is representative over, and a recommendation for appropriate use in Collision Risk Modelling.

Sheet 7 'Taxonomy & PRISMA reporting'

BirdLife International (2022) taxonomy used in this study, plus PRISMA systematic review reporting of species-specific search strings used to identify records, record screening, and report assessment results.

Sheet 8 'References'

Reference list for the 163 studies providing data used in the systematic review, and six additional studies providing anecdotal information archived in this database but not analysed.

Missing values

Missing values are denoted by N/A where 'not applicable' and NA where 'not avilable'.

Access information

The database contains values extracted from the following publications:

Adams J, Felis JJ, Czapanskiy M, Carle RD, Hodum PJ (2019) Diving behaviour of pink-footed shearwaters Ardenna creatopus rearing chicks on Isla Mocha, Chile.

Adams J, Felis JJ, Czapanskiy MF (2020) Habitat Affinities and At-Sea Ranging Behavior of Seabirds Breeding in the Main Hawaiian Islands: Bio-logger Data Release (ver. 2.0, May 2020). U.S. Geological Survey.

Afán I, Arcos JM, Ramírez F, García D, Rodríguez B, Delord K, Boué A, Micol T, Weimerskirch H, Louzao M (2021) Where to head: environmental conditions shape foraging destinations in a critically endangered seabird. Mar Biol 168:23.

Ainley D, Prozig E, Zajanc D, Spear L (2015) Seabird flight behaviour and height in response to altered wind strength and direction. Marine Ornithology.

Alderman R, Gales R, Hobday A, Candy S (2010) Post-fledging survival and dispersal of shy albatross from three breeding colonies in Tasmania. Mar Ecol Prog Ser 405:271–285.

Alerstam T, Gudmundsson GA, Larsson B (1993) Flight tracks and speeds of Antarctic and Atlantic seabirds: radar and optical measurements. Phil Trans R Soc Lond B 340:55–67.

Alho M, Catry P, Silva MC, Nunes VL, Granadeiro JP (2022) Revealing the foraging movements and diet of the White-faced Storm Petrel Pelagodroma marina in the NE Atlantic. Mar Biol 169:91.

Arata JA, Vila AR, Matus R, Droguett D, Silva-Quintas C, Falabella V, Robertson G, Haro D (2014) Use and exploitation of channel waters by the black-browed albatross. Polar Biol 37:565–571.

Arnould JPY, Briggs DR, Croxall JP, Prince PA, Wood AG (1996) The foraging behaviour and energetics of wandering albatrosses brooding chicks. Antartic science 8:229–236.

Awkerman J, Fukuda A, Higuchi H, Anderson D (2005) Foraging activity and submesoscale habitat use of waved albatrosses Phoebastria irrorata during chick-brooding period. Mar Ecol Prog Ser 291:289–300.

Awkerman JA, Cruz S, Proaño C, Huyvaert KP, Uzcátegui GJ, Baquero A, Wikelski M, Anderson DJ (2014) Small range and distinct distribution in a satellite breeding colony of the critically endangered Waved Albatross. J Ornithol 155:367–378.

Bell E (2016) Diving behaviour of black petrels (Procellaria parkinsoni) in New Zealand waters and its relevance to fisheries interaction. Notornis:57–65.

Bennet DG, Horton TW, Goldstien SJ, Rowe L, Briskie JV (2019) Flying south: Foraging locations of the Hutton’s shearwater ( Puffinus huttoni ) revealed by Time‐Depth Recorders and GPS tracking. Ecol Evol 9:7914–7927.

Berg M, Linnebjerg JF, Taylor G, Ismar-Rebitz SMH, Bell M, Gaskin CP, Åkesson S, Rayner MJ (2019) Year-round distribution, activity patterns and habitat use of a poorly studied pelagic seabird, the fluttering shearwater Puffinus gavia. PLoS ONE 14:e0219986.

Berlincourt M, Angel LP, Arnould JPY (2015) Combined Use of GPS and Accelerometry Reveals Fine Scale Three-Dimensional Foraging Behaviour in the Short-Tailed Shearwater. PLoS ONE 10:e0139351.

Berrow SD, Wood AG, Prince PA (2000) Foraging Location and Range of White-Chinned Petrels Procellaria aequinoctialis Breeding in the South Atlantic. Journal of Avian Biology 31:303–311.

Bonnet-Lebrun A-S, Dias MP, Phillips RA, Granadeiro JP, Brooke MDL, Chastel O, Clay TA, Fayet AL, Gilg O, González-Solís J, Guilford T, Hanssen SA, Hedd A, Jaeger A, Krietsch J, Lang J, Le Corre M, Militão T, Moe B, Montevecchi WA, Peter H-U, Pinet P, Rayner MJ, Reid T, Reyes-González JM, Ryan PG, Sagar PM, Schmidt NM, Thompson DR, Van Bemmelen R, Watanuki Y, Weimerskirch H, Yamamoto T, Catry P (2021) Seabird Migration Strategies: Flight Budgets, Diel Activity Patterns, and Lunar Influence. Front Mar Sci 8:683071.

Broekhuizen N, Stahl JC, Sagar PM (2003) Simulating the distribution of southern Buller’s albatross using an individual-based population model. J Appl Ecology 40:678–691.

Brothers N, Gales R, Hedd A, Robertson G (1998) Foraging movements of the Shy Albatross Diomedea cauta breeding in Australia; implications for interactions with longline fisheries. Ibis 140:446–457.

Bugoni L, D’Alba L, Furness R (2009) Marine habitat use of wintering spectacled petrels Procellaria conspicillata, and overlap with longline fishery. Mar Ecol Prog Ser 374:273–285.

Carneiro APB, Dias MP, Oppel S, Pearmain EJ, Clark BL, Wood AG, Clavelle T, Phillips RA (2022) Integrating immersion with GPS data improves behavioural classification for wandering albatrosses and shows scavenging behind fishing vessels mirrors natural foraging. Animal Conservation 25:627–637.

Catard A, Weimerskirch H (1999) Catard & Weimerskirch: Satellite tracking of White-chinned Petrels and comparison with other Procellariiformes. In: Adams, N.J. & Slotow, R.H. (eds) Proc. 22 Int. Ornithol. Congr. Durban

Catry P, Phillips R, Phalan B, Silk J, Croxall J (2004a) Foraging strategies of grey-headed albatrosses Thalassarche chrysostoma: integration of movements, activity and feeding events. Mar Ecol Prog Ser 280:261–273.

Catry P, Phillips RA, Croxall JP (2004b) Fast Travel by a Gray-Headed Albatross (Thalassarche chrysostoma) Riding an Antarctic Storm. Auk 121:1208.

Catry T, Ramos J a., Le Corre M, Phillips R a. (2009) Movements, at-sea distribution and behaviour of a tropical pelagic seabird: The wedge-tailed shearwater in the western Indian Ocean. Marine Ecology Progress Series 391:231–242.

Cherel Y, Delord K, Barbraud C, Weimerskirch H (2022) Diet, isotopic niche, and spatial distribution of the white-headed petrel (Pterodroma lessonii) at Kerguelen Islands. Polar Biol 45:1607–1621.

Clay T, Phillips R, Manica A, Jackson H, Brooke M (2017) Escaping the oligotrophic gyre? The year-round movements, foraging behaviour and habitat preferences of Murphy’s petrels. Mar Ecol Prog Ser 579:139–155.

Clay TA, Oppel S, Lavers JL, Phillips RA, Brooke MDL (2019) Divergent foraging strategies during incubation of an unusually wide-ranging seabird, the Murphy’s petrel. Mar Biol 166:8.

Collins SM, Hedd A, Fifield DA, Wilson DR, Montevecchi WA (2022) Foraging Paths of Breeding Leach’s Storm-Petrels in Relation to Offshore Oil Platforms, Breeding Stage, and Year. Front Mar Sci 9:816659.

Conners MG, Hazen EL, Costa DP, Shaffer S a. (2015) Shadowed by scale: subtle behavioral niche partitioning in two sympatric, tropical breeding albatross species. Movement Ecology 3:28.

Courbin N, Besnard A, Boncourt E, Grémillet D (2023) Flight heights of Scopoli’s shearwaters Calonectris diomedea in the context of offshore wind farm developments. Ecology.

De Felipe F, Reyes‐González JM, Militão T, Neves VC, Bried J, Oro D, Ramos R, González‐Solís J (2019) Does sexual segregation occur during the nonbreeding period? A comparative analysis in spatial and feeding ecology of three Calonectris shearwaters. Ecol Evol 9:10145–10162.

De Grissac S, Bartumeus F, Cox SL, Weimerskirch H (2017) Early‐life foraging: Behavioral responses of newly fledged albatrosses to environmental conditions. Ecology and Evolution 7:6766–6778.

De Pascalis F, Pala D, Pisu D, Morinay J, Benvenuti A, Spano C, Ruiu A, Serra L, Rubolini D, Cecere J (2021) Searching on the edge: dynamic oceanographic features increase foraging opportunities in a small pelagic seabird. Mar Ecol Prog Ser 668:121–132.

Dean B, Freeman R, Kirk H, Leonard K, Phillips RA, Perrins CM, Guilford T (2013) Behavioural mapping of a pelagic seabird: combining multiple sensors and a hidden Markov model reveals the distribution of at-sea behaviour. Journal of the Royal Society, Interface / the Royal Society:rsif.2012.0570-.

Dehnhard N, Klekociuk AR, Emmerson L (2021) Interactive effects of body mass changes and species‐specific morphology on flight behavior of chick‐rearing Antarctic fulmarine petrels under diurnal wind patterns. Ecol Evol 11:4972–4991.

Delord K, Pinet P, Pinaud D, Barbraud C, De Grissac S, Lewden A, Cherel Y, Weimerskirch H (2016) Species-specific foraging strategies and segregation mechanisms of sympatric Antarctic fulmarine petrels throughout the annual cycle. Ibis 158:569–586.

Dias MP, Alho M, Granadeiro JP, Catry P (2015) Wanderer of the deepest seas: migratory behaviour and distribution of the highly pelagic Bulwer’s petrel. J Ornithol 156:955–962.

Dias MP, Romero J, Granadeiro JP, Catry T, Pollet IL, Catry P (2016) Distribution and at-sea activity of a nocturnal seabird, the Bulwer’s petrel Bulweria bulwerii, during the incubation period. Deep Sea Research Part I: Oceanographic Research Papers 113:49–56.

Edwards EWJ, Quinn LR, Wakefield ED, Miller PI, Thompson PM (2013) Tracking a northern fulmar from a Scottish nesting site to the Charlie-Gibbs Fracture Zone: Evidence of linkage between coastal breeding seabirds and Mid-Atlantic Ridge feeding sites. Deep Sea Research Part II: Topical Studies in Oceanography 98:438–444.

Einoder L, Goldsworthy S (2005) Foraging flights of short-tailed shearwaters (Puffinus tenuirostris) from Althorpe Island: Assessing their use of neritic waters.

Einoder LD, Page B, Goldsworthy SD, De Little SC, Bradshaw CJA (2011) Exploitation of distant Antarctic waters and close neritic waters by short-tailed shearwaters breeding in South Australia: SHORT-TAILED SHEARWATER FORAGING. Austral Ecology 36:461–475.

Elliott KH, Gaston AJ (2005) Flight speeds of two seabirds: a test of Norberg’s hypothesis. Ibis 147:783–789.

Fayet AL, Freeman R, Shoji A, Padget O, Perrins CM, Guilford T (2015) Lower foraging efficiency in immatures drives spatial segregation with breeding adults in a long-lived pelagic seabird. Animal Behaviour 110:79–89.

Felis J, Adams J, Hodum P, Carle R, Colodro V (2019) Eastern Pacific migration strategies of pink-footed shearwaters Ardenna creatopus: implications for fisheries interactions and international conservation. Endang Species Res 39:269–282.

Fernandez P, Anderson DJ (2000) Nocturnal and diurnal foraging activity of Hawaiin albatrosses detected with a new immersion monitor. Condor 102:577–584.

Fischer J, Debski I, Spitz D, Taylor G, Wittmer H (2021) Year-round offshore distribution, behaviour, and overlap with commercial fisheries of a Critically Endangered small petrel. Mar Ecol Prog Ser 660:171–187.

Frankish CK, Manica A, Navarro J, Phillips RA (2021) Movements and diving behaviour of white‐chinned petrels: Diurnal variation and implications for bycatch mitigation. Aquatic Conserv: Mar Freshw Ecosyst 31:1715–1729.

Frankish CK, Phillips RA, Clay TA, Somveille M, Manica A (2020) Environmental drivers of movement in a threatened seabird: insights from a mechanistic model and implications for conservation. Divers Distrib 26:1315–1329.

Freeman AND, Wilson KJ, Nicholls DG (2001) Westland Petrels and the Hoki fishery: determining co-occurrence using satellite telemetry. Emu - Austral Ornithology 101:47–56.

Fromant A (2022) The ecology and niche segregation of diving petrels. Université de La Rochelle, La Rochelle

Fromant A, Eizenberg YH, Poupart T, Bustamante P, Arnould JPY (2022) Year-round at-sea movements of fairy prions from southeastern Australia. R Soc open sci 9:220134.

Froy H, Lewis S, Catry P, Bishop CM, Forster IP, Fukuda A, Higuchi H, Phalan B, Xavier JC, Nussey DH, Phillips RA (2015) Age-Related Variation in Foraging Behaviour in the Wandering Albatross at South Georgia: No Evidence for Senescence. PLoS ONE 10:e0116415.

Gibb R, Shoji A, Fayet AL, Perrins CM, Guilford T, Freeman R (2017) Remotely sensed wind speed predicts soaring behaviour in a wide-ranging pelagic seabird. J R Soc Interface 14:20170262.

González-Solís J, Croxall JP, Biggs D (2002) Activity patterns of giant petrels, Macronectes spp., using different foraging strategies. Marine Biology 140:197–204.

González-Solís J, Croxall JP, Wood AG (2000) Sexual Dimorphism and Sexual Segregation in Foraging Strategies of Northern Giant Petrels, Macronectes halli, during Incubation. Oikos 90:390–398.

Grémillet D, Péron C, Pons J-B, Ouni R, Authier M, Thévenet M, Fort J (2014) Irreplaceable area extends marine conservation hotspot off Tunisia: insights from GPS-tracking Scopoli’s shearwaters from the largest seabird colony in the Mediterranean. Mar Biol 161:2669–2680.

Guicking D, Ristow D, Becker PH, Schlatter R, Berthold P, Querner U (2001) Satellite Tracking of the Pink-Footed Shearwater in Chile. Waterbirds: The International Journal of Waterbird Biology 24:8.

Guilford TC, Meade J, Freeman R, Biro D, Evans T, Bonadonna F, Boyle D, Roberts S, Perrins CM (2008) GPS tracking of the foraging movements of Manx Shearwaters Puffinus puffinus breeding on Skomer Island, Wales. Ibis 150:462–473.

Halpin LR, Mott R, Clay TA, Humphries GRW, Chatwin TA, Carlile N, Clarke RH (2022) Predicting the Foraging Habitats of Sympatrically Breeding Gadfly Petrels in the South Pacific Ocean. Front Mar Sci 9:853104.

Hedd A, Gales R, Brothers N (2001) Foraging strategies of shy albatross Thalassarche cauta breeding at Albatross Island, Tasmania, Australia. Mar Ecol Prog Ser 224:267–282.

Hedd A, Montevecchi WA, Phillips RA, Fifield DA (2014) Seasonal Sexual Segregation by Monomorphic Sooty Shearwaters Puffinus griseus Reflects Different Reproductive Roles during the Pre-Laying Period. PLoS ONE 9:e85572.

Hong Kong Offshore Wind Limited (2009) Hong Kong Offshore Wind Farm in Southeastern Waters Environmental Impact Assessment. Hong Kong.

Huin N, Prince PA (1997) Diving behaviour of the grey-headed albatross. Antartic science 9:243–249.

Hyrenbach K, Fernández P, Anderson D (2002) Oceanographic habitats of two sympatric North Pacific albatrosses during the breeding season. Mar Ecol Prog Ser 233:283–301.

Ito S, Ogi H (1999) Flight Speed Measurement of Short-tailed Shearwaters Puffinus tenuirostris Recorded by Ship-Loading Radar. Journal of the Yamashina Institute for Ornithology 31:88–93.

Jodice P, Ronconi R, Rupp E, Wallace G, Satgé Y (2015) First satellite tracks of the Endangered black-capped petrel. Endang Species Res 29:23–33.

Johnston A, Cook ASCP, Wright LJ, Humphreys EM, Burton NHK (2014) Modelling flight heights of marine birds to more accurately assess collision risk with offshore wind turbines. J Appl Ecol 51:31–41.

Johnston A, Cook SCP (2016) How high do birds fly? Development of methods and analysis of digital aerial data of seabird flight heights. British Trust for Ornithology, Thetford, Norfolk.

Jones CW, Phillips RA, Grecian WJ, Ryan PG (2020) Ecological segregation of two superabundant, morphologically similar, sister seabird taxa breeding in sympatry. Mar Biol 167:45.

Jouventin P, Weimerskirch H (1990) Satellite tracking of Wandering albatrosses. Nature 343:746–748.

Kappes MA, Shaffer SA, Tremblay Y, Foley DG, Palacios DM, Bograd SJ, Costa DP (2015) Reproductive constraints influence habitat accessibility, segregation, and preference of sympatric albatross species. Mov Ecol 3:34.

Kappes MA, Shaffer SA, Tremblay Y, Foley DG, Palacios DM, Robinson PW, Bograd SJ, Costa DP (2010) Hawaiian albatrosses track interannual variability of marine habitats in the North Pacific. Progress in Oceanography 86:246–260.

Karris G, Xirouchakis S, Maina I, Grivas K, Kavadas S (2018) Home range and foraging habitat preference of Scopoli’s shearwater Calonectris diomedea during the early chick‐rearing phase in the eastern Mediterranean. Wildlife Biology 2018:1–12.

Kazama K, Harada T, Deguchi T, Suzuki H, Watanuki Y (2019) Foraging Behavior of Black-Footed Albatross Phoebastria nigripes Rearing Chicks on the Ogasawara Islands. Ornithological Science 18:27.

Kelsey EC, Felis JJ, Czapanskiy M, Pereksta DM, Adams J (2018) Collision and displacement vulnerability to offshore wind energy infrastructure among marine birds of the Pacific Outer Continental Shelf. Journal of Environmental Management 227:229–247.

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Kroeger CE, Crocker DE, Orben RA, Thompson DR, Torres LG, Sagar PM, Sztukowski LA, Andriese T, Costa DP, Shaffer SA (2020) Similar foraging energetics of two sympatric albatrosses despite contrasting life histories and wind-mediated foraging strategies. Journal of Experimental Biology 223:jeb228585.

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Mackley E, Phillips R, Silk J, Wakefield E, Afanasyev V, Fox J, Furness R (2010) Free as a bird? Activity patterns of albatrosses during the nonbreeding period. Mar Ecol Prog Ser 406:291–303.

Mackley EK, Phillips RA, Silk JRD, Wakefield ED, Afanasyev V, Furness RW (2011) At-sea activity patterns of breeding and nonbreeding white-chinned petrels Procellaria aequinoctialis from South Georgia. Mar Biol 158:429–438.

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McDuie F, Weeks SJ, Miller MGR, Congdon BC (2015) Breeding Tropical Shearwaters Use Distant Foraging Sites When Self-provisioning. Marine Ornithology 43:123–129.

Meier RE, Wynn RB, Votier SC, McMinn Grivé M, Rodríguez A, Maurice L, Van Loon EE, Jones AR, Suberg L, Arcos JM, Morgan G, Josey SA, Guilford T (2015) Consistent foraging areas and commuting corridors of the critically endangered Balearic shearwater Puffinus mauretanicus in the northwestern Mediterranean. Biological Conservation 190:87–97.

Merkel B, Phillips RA, Descamps S, Yoccoz NG, Moe B, Strøm H (2016) A probabilistic algorithm to process geolocation data. Mov Ecol 4:26.

Militão T, Sanz‐Aguilar A, Rotger A, Ramos R (2022) Non‐breeding distribution and at‐sea activity patterns of the smallest European seabird, the European Storm Petrel ( Hydrobates pelagicus ). Ibis 164:1160–1179.

Miller MGR, Carlile N, Phillips JS, McDuie F, Congdon BC (2018) Importance of tropical tuna for seabird foraging over a marine productivity gradient. Marine Ecology Progress Series.

Navarro J, Votier SC, Aguzzi J, Chiesa JJ, Forero MG, Phillips RA (2013) Ecological Segregation in Space, Time and Trophic Niche of Sympatric Planktivorous Petrels. PLoS ONE 8:e62897.

Neves V, Bried J, González-Solís J, Roscales J, Clarke M (2012) Feeding ecology and movements of the Barolo shearwater Puffinus baroli baroli in the Azores, NE Atlantic. Mar Ecol Prog Ser 452:269–285.

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Nicholls DG, Robertson CJR (2007) Assessing flight characteristics for the Chatham albatross. Notornis 54:168–179.

Paiva VH, Guilford T, Meade J, Geraldes P, Ramos JA, Garthe S (2010) Flight dynamics of Cory’s shearwater foraging in a coastal environment. Zoology 113:47–56.

Pajot A, Corbeau A, Jambon A, Weimerskirch H (2021) Diel at‐sea activity of two species of great albatrosses: the ontogeny of foraging and movement behaviour. Journal of Avian Biology 52:jav.02597.

Pastor-Prieto M, Ramos R, Zajková Z, Reyes-González J, Rivas M, Ryan P, González-Solís J (2019) Spatial ecology, phenological variability and moulting patterns of the Endangered Atlantic petrel Pterodroma incerta. Endang Species Res 40:189–206.

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Pennycuick C (1987) Flight of auks (Alcidae) and other northern seabirds compared with southern procellariiformes: ornithodolite observations. Journal of Experimental Biology 128:338–347.

Pennycuick C (2002) Gust soaring as a basis for the flight of petrels and albatrosses (Procellariiformes). Avian Science 2.

Péron C, Delord K, Phillips R, Charbonnier Y, Marteau C, Louzao M, Weimerskirch H (2010) Seasonal variation in oceanographic habitat and behaviour of white-chinned petrels Procellaria aequinoctialis from Kerguelen Island. Mar Ecol Prog Ser 416:267–284.

Péron C, Grémillet D, Culioli J-M, Faggio G, Gillet P, Mante A, Vidal P (2012) Exploring marine habitats of two shearwater species breeding on French Mediterranean islands. In: Ecology and Conservation of Mediterranean Seabirds and other bird species under the Barcelona Convention: Update & Progress : Proceedings of the 13th Medmaravis Pan-Mediterranean Symposium. Medmaravis, S.l.

Phalan B, Phillips R, Silk J, Afanasyev V, Fukuda A, Fox J, Catry P, Higuchi H, Croxall J (2007) Foraging behaviour of four albatross species by night and day. Mar Ecol Prog Ser 340:271–286.

Phillips R, Silk J, Croxall J (2005) Foraging and provisioning strategies of the light-mantled sooty albatross at South Georgia: competition and co-existence with sympatric pelagic predators. Mar Ecol Prog Ser 285:259–270.

Pinet P, Jaeger A, Cordier E, Potin G, Le Corre M (2011) Celestial Moderation of Tropical Seabird Behavior. PLoS ONE 6:e27663.

Pinet P, Jaquemet S, Phillips RA, Le Corre M (2012) Sex-specific foraging strategies throughout the breeding season in a tropical, sexually monomorphic small petrel. Animal Behaviour 83:979–989.

Poupart T, Waugh S, Miskelly C, Kato A, Angel L, Rogers K, Arnould J (2019) Fine-scale foraging behaviour of southern Buller’s albatross, the only Thalassarche that provisions chicks through winter. Mar Ecol Prog Ser 625:163–179.

Poupart TA, Waugh SM, Kato A, Arnould JPY (2020) Foraging niche overlap during chick-rearing in the sexually dimorphic Westland petrel. R Soc open sci 7:191511.

Powell CDL (2009) Foraging movements and the migration trajectory of flesh-footed shearwaters Puffinus carneipes from the south coast of Western Australia. Marine Ornithology 37:115–120.

Precheur C (2015) Ecologie et conservation du puffin d’Audubon (Puffinus lherminieri lherminieri) de la réserve naturelle des îlets de Sainte- Anne (Martinique). Université des Antilles

Prince PA, Wood AG, Barton T, Croxall JP (1992) Satellite tracking of wandering albatrosses ( Diomedea exulans ) in the South Atlantic. Antartic science 4:31–36.

Quillfeldt P, Bange A, Boutet A, Orben RA, Baylis AMM (2022) Breeding Thin-Billed Prions Use Marine Habitats Ranging from Inshore to Distant Antarctic Waters. Animals 12:3131.

Quintana F, Dell’Arciprete OP, Copello S (2010) Foraging behavior and habitat use by the Southern Giant Petrel on the Patagonian Shelf. Mar Biol 157:515–525.

Raine A, Gjerdrum C, Pratte I, Madeiros J, Felis J, Adams J (2021) Marine distribution and foraging habitat highlight potential threats at sea for the Endangered Bermuda petrel Pterodroma cahow. Endang Species Res 45:337–356.

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