Data from: Variation in biodiversity and abundance of functional groups of arthropods along a tropical elevational gradient in Puerto Rico
Data files
Oct 24, 2025 version files 22.49 KB
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Elev_gradient_for_dryad.csv
18.85 KB
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README.md
3.64 KB
Abstract
Elevational gradients represent platforms for exploring the effects of environmental variation on biodiversity. The environmental correlates of these spatial gradients are likely to be modified during the Anthropocene, as species respond to global change drivers including warming and increased frequency of extreme events. We quantified variation in the abundance of four functional groups of canopy arthropods (i.e., folivores, sap-suckers, detritivores, and predators), as well as in aspects of biodiversity on each of six host-plant species along two elevational transects in the Luquillo Mountains of Puerto Rico: a mixed forest transect, traversing tabonuco, palo colorado, and elfin forests, and a palm forest transect, comprising only patches dominated by sierra palm (Prestoea acuminata). We expected gradients in arthropod abundance and biodiversity to be host-tree specific, and for gradients on palm to differ between transects due to a combination of mechanisms associated with host selection, rescue effects, habitat structure, and source pool dynamics. In general, abundance and biodiversity declined with elevation. The ways in which abundance declined with increasing elevation were contingent on host tree identity and on arthropod functional group, whereas all aspects of biodiversity declined with elevation in consistent manners, regardless of host tree identity or transect. Similarly, turnover (beta components of biodiversity between sequential elevational strata) did not differ between transects. Decreases in productivity with increasing elevation may be responsible for gradients in abundance or biodiversity. However, host-specific and functional group-specific gradients suggest that elevational effects manifest differently depending on tree species identity and resource bases that are consumer-specific.
https://doi.org/10.5061/dryad.gqnk98sxs
Description of the data and file structure
Arthropods were collected from canopy foliage of understory trees in plots spaced every 50 m along two parallel transects from 300 m to 1000 m elevation at the Luquillo Experimental Forest LTER Site in Puerto Rico. The description of column headers included in the data file Elev_gradient_for_dryad.csv is as follows:
- Column A = sample date in YRMODA format
- Column B = elevation in meters
- Column C = treatment (transect): M = mixed forest, P = palm grove
- Column D = tree species (MICO = Miconia prasina; PSYCH = Psychotria; PRES = Prestoea; CROT = Croton; CALSQU = Calycogonium squamulosum; MICSIN = Miconia sintenisii)
- Column E = foliage weight (g). All arthropod counts are significantly related to foliage weight, which should be used as a covariate to account for this relationship.
- Column F = leaf area missing (LAM) as %, a measure of herbivore effect on canopy surface area. The remaining columns are arthropod counts by taxon for each sample.
- Functional group designations are C = chewing folivore, S = sap-sucker, D = detritivore, O = omnivore, M = miscellaneous us, and P = predator.
C = CHR, GR1, GR2, LP1, LP4, MSC
S = ALY, CC3, CC4, CC5, CX2, FLT, KIN, SIBV
D = ANOB, BT1, CHI, COL, CRT, EUGLEN, EUPSIL, GALU, MORD, MYCT, OR1, OR2, PSO, SCRAP
O = AT2
M = CURC2, CURC3
P = ANYPH, AR1, AR2, BRC, LEUCAGE, MIAG, PLT, SLT, THERID2, THM, TYDEID
G = GR1 = Gryllid, cricket, large, brown
H = GR2 = Gryllid, cricket, Cyrtoxipha gundlachi
J = CHR = Chrysolmelidae beetle
K = LP1 = Lepidoptera 1, Arctiidae
N = LP4 = adult Moths
V = FLT = Flatid, planthopper Hemiptera, Petrusa
AB = CC3 = Scale insect, hemispherical (Ceraplastes rubens)
AC = CC4 = Scale insect, flat, round, pyriform scale (Protopulvinaria piriformis)
AE = CX2 = Cixiidae 2, planthopper, Hemiptera
AF = BT1 = Blattid 1, cockroach *Cariblattoides guava, *
AL = OR1 = Oribatid 1 mite, like Camisia
AM = OR2 = Oribatid 2 mite, like Opiella
AI = COL = Collembola
AJ = PSO = Psocoptera
AR = AT2 = Ant, yellow (Wasmania)
AU = THM = Thomisid spider
AV = AR2 = Spider, cream, long-legged (Pholcid, Modisimus)
AW = SLT = Salticid spiders (Gr = Lyssomanes portoricensis)
AX = AR1 = Spider 1 (yellow, Therid)
BC = PLT = Platygasterid, parasitic wasp
BG = BRC = Braconidae, parasitic wasp
BL = CHI = Chironomidae, fungus gnat, fly
BP = ALY = Aleyrodidae, whitefly, Hemiptera
BQ = MSC = Mollusca, primarily Gaeotis
BZ=CURC2 Curculionidae (short snout) beetle
CA=CC5 mealybug, scale insect
CC=SIBV Sibovea, leafhopper, Hemiptera
CG=MYCT Mycetophilidae, midge fly
CN=MORD (Mordellidae, beetle)
CY=KIN Kinnaridae Hemiptera
DA=CRT Ceratopogonidae midge
DF=GALU Galumnid (pterymorph) mite
DT=CURC3 miscellaneous curculionidae beetle
DX=ANOB anobiidae beetle
DY=EUGLEN euglenidae beetle
ED=ANYPH anyphaenid spiders
EI=TYDEID mite
EP=MIAG Miagramopes (stick) spider
FL=THERID2 (Green, Theridion antillanum) spider
FV=LEUCAGE (spider, Leucage)
FW=SCRAP (Scraptia sp.) beetle
FX=EUPSIL (Eupsilobiidae) beetle
Code/software
Excel or QuattroPro
Access information
Other publicly accessible locations of the data:
Arthropods were collected from understory trees in plots at 50 m intervals along two parallel transects from 300 m to 1000 m asl at the Luquillo Experimental Forest LTER site in Puerto Rico. One transect represented mixed forest plots; the other represented patches of sierra palm. An accessible branch was collected in a plastic bag from selected tree species in each plot. Arthropods were sorted and identified in the lab. Foliage was dried and weighed to control for variation in sample size. Leaf area missing in the foliage material was also measured.