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Data from: Ecological resistance surfaces predict fine scale genetic differentiation in a terrestrial woodland salamander
负责人:
关键词:
Plethodontidae;Circuitscape resistance;resistance optimization;Caudata;Landscape Genetics;Amphibians;Plethodon albagula
DOI:
doi:10.5061/dryad.m4f17
摘要:
(Plethodon albagula). We used field data to derive resistance surfaces representing salamander abundance and rate of water loss through combinations
Data from: Evaluating modularity in morphometric data: challenges with the RV coefficient and a new test measure
负责人:
关键词:
Modularity;Plethodon;trait covariation;Morphological integration;trait covaraition;Geometric morphometrics
DOI:
doi:10.5061/dryad.2kt43
摘要:
, the covariance ratio meets these criteria and provides a useful alternative method for assessing the degree of modular structure in morphological data.
Data from: Physical calculations of resistance to water loss improve predictions of species range models
负责人:
Riddell, Eric
关键词:
DOI:
doi:10.5061/dryad.481g3
摘要:
to water loss of a Plethodon salamander collected from nature. For the empirical methods, we measured rb of agar replicas at five body sizes, two temperatures
Data from: Trade-offs between water loss and gas exchange influence habitat suitability of a woodland salamander
负责人:
关键词:
water loss;Plethodon metcalfi;trade-offs;acclimation;energy balance;Metabolism;salamander
DOI:
doi:10.5061/dryad.1r3s2
摘要:
and water loss rate using a species of woodland salamander (Plethodon metcalfi) in response to temperature and humidity using a full factorial experimental design
Data from: Rates of evolution: a quantitative synthesis
负责人:
关键词:
Brachycrus wilsoni;Mesozoic;Otomys auretus;Experimental Selection;Paleocene;Longitudinal time series;Merycochoerus proprius;Ectocion parvus;Passer montanus;Petrochelidon pyrrhonota;Metrarabdotos volkesorum;Metrarabdotos cubaguaense;Anolis carolinensis;Anakosmoceras sp.;Globoratalia tumida;Oligocene;Cervus elaphus;Rattus rattus;Ursavus elmensis;Merychippus paniensis;Longitudinal field study;cross-sectional field study;Merychyus elegans;Mesohippus bairdi;Hyracotherium sandrae;Hyopsodus latidens;Cantius trigonodus;Cantius ralstoni;Kosmoceras sp.;Passer domesticus;Pliocene;Merycochoerus matthewi;Stephanodiscus yellowstonensis;Eocoelia sp.;Hyopsodus pauxillus;Jurassic;Merychyus crabilli;Neotoma albigula;Branta leucopsis;Scathophaga stercoraria;Mus sp.;Metrarabdotos colligatum;Peromyscus maniculatus;Loxodonta sp.;Mollusca;Holocene;Mesomyla sclateri;Homo erectus;Brassica rapa;Mammuthus sp.;Artificial selection;Haplomylus simpsoni;Cormohipparion occidentale;Peromyscus leucopus;Cosomys primus;Hyracotherium grangeri;Parapelomys sp.;Globorotalia conoidea;Eohippus resartus;Vulpes vulpes;Hyopsodus miticulus;Zea mays;Dipodomys merriami;Urocitellus beldingi;Amara quenseli;Eocene;Herpestes auropunctatus;Otomys angoniensis;Hyopsodus powellianus;Hirundo rustica;Elephas sp.;Poseidonamicus spp.;Paleozoic;Primelephas sp.;Euryderus grossus;Globoratalia plesiotumida;Merychyus relictus;Ursus etruscus;Cantius mckennai;Gyretes sinuatus;Gambusia affinis;Globorotalia inflata;Gasterosteus aculeatus;Pleistocene;Drepanis coccinea;Gymnodactylus amarali;Carabus nemoralis;Chlorocebus sabaeus;Experimental field study;Ursus spelaeus;Myzomela pammelaena;Cymindis planipennis;Thymallus thymallus;Ectocion ralstonensis;Haplomylus speirianus;Pseudocubus vema;Pterostichus algidus;Dinosauria;Pterostichus melanarius;Equus germanicus;Cenozoic;Globorotalia puncticulata;Gallus gallus;Merychyus minimus;Cryptopecten vesicululosus;Equidae;Hyopsodus minor;Hyracotherium borealis;Oncorhyncus nerka;Ovis aries;Fringilla coelebs;fossil record;Anser caerulescens;Haplomylus scottianus;drosophila melanogaster;Brachycrus siouense;Cantius torresi;Hyopsodus lysitensis;Ficedula albicollis;Ectocion osbornianus;Mus musculus;Silurian;Bison bison;Metrarabdotos saundersi;Zugokosmoceras sp.;Bison priscus;Metrarabdotos auriculatum;Bison latifrons;Mandarina chichijimana;Gasterosteus doryssus;Geospiza scandens;Scaphinotus angusticollis;Telespyza canans;Recent;Oryctolagus cuniculus;Jadera haematoloma;Antemus sp.;Hyopsodus loomisi;Progonomys sp.;Drosophila subobscura;Harpalus fraternus;introduced species;Laboratory selection;Haplomylus palustris;Haplomylus zalmouti;Cyclostephanos andinus;Loxodonta africana;Globorotalia conomiozea;Karnimata sp.;Plethodon spp.;natural selection;Geospiza fortis;Ursus arctos;Bison antiquus;Metrarabdotos boldi;Metrarabdotos coatesi;Drosophila pseudoobscura;Littorina obtusata;Parus caeruleus;Poecilia reticulata;Miocene
DOI:
doi:10.5061/dryad.1tn7123
摘要:
One-generation step intervals, differences, and rates; longer base intervals, differences, and rates; and overlapping net intervals, differences, and rates for selection experiments (file 1: 15,431 rates), field studies (file 2: 12,461 rates), and fossil studies (file 3: 47,854 rates).

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