国际农业科学数据导航库-农业专业知识服务系统

Data from: Prey limitation drives variation in allometric scaling of predator-prey interactions

负责人：

关键词：: competition;Leptodactylus bufonius;Leptodactylus podicipinus;food web;foraging;Leptodactylus fuscus;Interactions: trophic;Allometry;Leptodactylus chaquensis;Interactions: predation

DOI：: doi:10.5061/dryad.011v40v

摘要：: concept, Predator-Prey Size Ratios (PPSR) vary strikingly across and within natural food webs, meaning that predators deviate from their optimal prey size

Data from: Ancestral reconstruction of reproductive traits shows no tendency toward terrestriality in Leptodactyline frogs

负责人：

关键词：: reproductive mode;Adenomera;Trait correlation;Foam nest;phylogeny;Leptodactylus;Terrestriality;Leptodactylidae;Anura;ancestral state reconstruction;Stochastic inference;Lithodytes;Leptodactylinae

DOI：: doi:10.5061/dryad.88kj7

摘要：: shifts from aquatic to terrestrial breeding occurred throughout the history of Leptodactylus and Adenomera, shifts from terrestrial to aquatic reproduct

Data from: Individual niche trajectories drive fitness variation

负责人：

关键词：: Leptodactylus podicipinus;stable isotopes;trophic niche;Parasites;Leptodactylus;individual specialization;reproductive investment;Leptodactylus chaquensis;body condition

DOI：: doi:10.5061/dryad.6qh7n6k

摘要：: 1. Variation in fitness across individuals is central to population growth, species coexistence, and evolution by natural selection. Fitness

GBIF Occurrence Download

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关键词：: GBIF biodiversity species occurrences

DOI：: doi:10.15468/dl.hcijcu

摘要：: A dataset containing 16 species occurrences available in GBIF matching the query: TaxonKey: Leptodactylus syphax Bokermann, 1969 HasCoordinate: true

Data from: Using automated digital recording systems as effective tools for the monitoring of birds and amphibians

负责人：

关键词：: Estrilda melpoda;Puerto Rico;monitoring methods;Dendroica petechia;Leptodactylus albilabris;Patagioneas leucocephala;Spindalis portoricensis;Birds;Zenaida asiatica;Bioacoustics;Crotophaga ani;Bufo marinus;Eleutherodactylus antillensis;Melanerpes portoricensis;Eleutherodactylus;Butorides virescens;Molothrus bonariensis;Zenaida aurita;Eleutherodactylus coqui;Rana grylio;Amphibians;Turdus plumbeus;Automated Digital Recording System;Columbina passerina;Vireo altiloquus;Myiarchus antillarum;Tyrannus dominicensis;Coereba flaveola;Coccyzus minor;Buteo jamaicensis;ADRS;Quiscalus niger

DOI：: doi:10.5061/dryad.g4n13

摘要：: There is a need to improve the quantity and quality of data in biodiversity monitoring projects. We compared an automated digital recording system

Data from: Bioacoustics reveals two new syntopic species of Adenomera Steindachner (Anura: Leptodactylidae: Leptodactylinae) in the Cerrado

负责人：

关键词：: Adenomera;Leptodactylus

DOI：: doi:10.5061/dryad.sf40c

摘要：: glandular/granular with no distinctive dorsal granular rows or dorsolateral folds; 3) black or very dark dorsal coloration with no distinctive color patterns

GBIF Occurrence Download

负责人：

关键词：: GBIF biodiversity species occurrences

DOI：: doi:10.15468/dl.ytrynm

摘要：: A dataset containing 64 species occurrences available in GBIF matching the query: TaxonKey: Leptodactylus syphax Bokermann, 1969. The da

Data from: Historical dynamics of Batrachochytrium dendrobatidis in Amazonia

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关键词：: disease spread;Spatial epidemiology;host-pathogen dynamics

DOI：: doi:10.5061/dryad.h3112

摘要：: nt amphibian pathogen is unknown for most of Amazonia. In this retrospective survey of preserved Leptodactylus frogs, collected over a 119 yr period, we use

Data from: Drivers of individual niche variation in coexisting species

负责人：: Costa-Pereira, Raul

关键词：: Leptodactylus stable isotopes species coexistence intraspecific variation competition ecological opportunity diet Thin-toed frogs

DOI：: doi:10.5061/dryad.mq2h237

摘要：: ure, availability of prey, phylogenetic relationships, and predator-prey size models to test how this variation is related to four ecological factors which are predict

Data from: Environmental correlates of the Late Quaternary regional extinctions of large and small Palaearctic mammals

负责人：

关键词：: Vormela peregusna;Sorex araneus sl;Eptesicus nilssonii;Sicista kazbegica;Dicrostonyx torquatus sl;Muscardinus avellanarius;Sorex thaleri;Rhinolophus mehelyi;Apodemus agrarius;Talpa stankovici;Murina hilgendorfi;Spalax microphtalmus;Spermophilus citelloides;Crocidura suaveolens sl;Microtus liechtensteini;Rhinolophus bocharicus;Ellobius talpinus;Marmota baibacina;Cricetulus migratorius;Ochotona pallasi;Marmota caudata;Cricetus cricetus;Ochotona macrotis;Bos grunniens sl;Sorex satunini;Myotis nattereri;Paraechinus hypomelas;Microtus guentheri;Ovibos moschatus sl;Sicista caucasica;Spermophilus relictus;Allactaga elater;Lagurus lagurus;Nyctalus lasiopterus;Ursus thibetanus;Bos primigenius;Lemmus sibiricus;Hemiechinus auritus;Spermophilus xanthoprymnus;Holocene;Sorex alpinus;Allocricetulus eversmanni;Selevinia betpakdalaensis;Ochotona alpina;Talpa caeca;Capreolus capreolus;Martes zibellina;extinction;Nyctalus leisleri;Pteromys volans;Spermophilus erythrogenys;Apodemus epimelas;Ochotona pusilla;Saiga tatarica sl;Crocidura zorzii;Paradipus ctenodactylus;Salpingotus crassicauda;Microtus lusitanicus;Vulpes vulpes;Ochotona rutila;Allactaga vinogradovi;Stylodipus andrewsi;Calomyscus urartensis;Microtus ilaeus;Caracal caracal;Alticola barakshin;Spalax leucodon sl;Spermophilus suslicus;Pygeretmus platyurus;Lasiopodomys mandarinus;Sorex isodon;Pipistrellus kuhlii;Mustela altaica;Rupicapra pyrenaica;Coelodonta antiquitatis;Salpingotus pallidus;Ochotona hyperborea;Myotis ikonnikovi;Microtus subterraneus;Hypsugo savii;Microtus socialis;Sciurus anomalus;Spermophilopsis leptodactylus;Ursus spelaeus;Uncia uncia;Panthera leo sl;Sicista armenica;Microtus maximowiczii;Allocricetulus curtatus;Eolagurus luteus;Rhombomys opimus;Arvicola sapidus;Miniopterus schreibersii;Microtus felteni;Alticola macrotis;Barbastella schadleri;Hystrix cristata;Crocuta spelaea;Felis manul;Apodemus uralensis;Talpa europaea;Myotis schaubi;Spermophilus dauricus;Alticola lemminus;Chionomys nivalis;Myodes rutilus;Apodemus hyrcanicus;Equus hydruntinus;Dipus sagitta;Rhinolophus ferrumequinum;Spermophilus undulatus;Canis aureus;Mus musculus sl;Ovis orientalis;Capra aegagrus;Spermophilus severskensis;Lasiopodomys brandtii;Allactaga williamsi;Mammuthus primigenius;Vespertilio murinus;Spermophilus fulvus;Microtus juldaschi;Canis lupus;Allactaga severtzovi;Crocidura serezkyensis;Microtus arvalis;Mustela eversmanii;Lemmus lemmus;Alticola argentatus;Felis margarita;Apodemus ponticus;Spalax arenarius;Microtus gerbei;Spermophilus musicus;Alticola semicanus;Cardiocranius paradoxus;habitat loss;Oryctolagus cuniculus;Ovis ammon;Pipistrellus nathusii;mammal;Palaearctic;Neomys fodiens;Phodopus campbelli;Desmana moschata;Salpingotus heptneri;Microtus multiplex;Sorex volnuchini;Myotis myotis sl;Tadarida teniotis;Late Pleistocene;Talpa caucasica;Sicista tianshanica;Myotis dasycneme;Rhinolophus blasii;Macaca sylvanus;Megaloceros giganteus;Mammalia;Sorex raddei;Microtus duodecimcostatus;Myomimus roachi;Lepus capensis sl;Panthera pardus;Procapra gutturosa;Mesechinus dauuricus;Dama mesopotamica;Pygeretmus pumilio;Vulpes corsac;Microtus bavaricus;Sorex minutissimus;Mustela erminea;Marmota sibirica;Spermophilus major;Spalax zemni;Lynx lynx;Microtus schidlovskii;Mustela sibirica;Marmota marmota;Martes foina;Marmota paleocaucasica;Galemys pyrenaicus;Capra caucasica;Sorex asper;Dinaromys bogdanovi;Apodemus mystacinus;Crocidura gmelini;Gazella subgutturosa;Apodemus sylvaticus;Alces alces sl;Myodes centralis;Myospalax myospalax;Capra sibirica;Allactaga major;Ochotona dauurica;Equus hemionus;Mustela nivalis;Microtus mongolicus;Moschus moschiferus;Marmota camtschatica;Otonycteris hemprichii;Talpa altaica;Alticola tuvinicus;Meriones persicus;Cuon alpinus;Rangifer tarandus;Alticola strelzovi;Eptesicus serotinus;Sus scrofa;Mesocricetus brandti;Rhinolophus hipposideros;Barbastella barbastellus sl;Capra ibex;Myotis frater;Hyaena hyaena;Myotis emarginatus;Prometheomys schaposchnikowi;Microtus middendorffii;Myotis bechsteinii;Apodemus flavicollis;Talpa levantis;Microtus limnophilus;Capra pyrenaica;Meriones libycus;Meles meles sl;Rhinolophus euryale;Sicista betulina sl;Pygeretmus shitkovi;Felis chaus;Apodemus witherbyi;Spermophilus superciliosus;Sorex minutus;Apodemus alpicola;Dama dama;Allactaga euphratica;Sorex averini;Stylodipus sungorus;Microtus fortis;Myotis brandtii;Lemmus amurensis;Apodemus peninsulae;Lepus timidus;Crocidura leucodon;Marmota menzbieri;Eolagurus przewalskii;Dryomys nitedula;Microtus cabrerae sl;Spermophilus pallidicauda;Mus spretus;Ochotona turuchanensis;Mus spicilegus;Cricetulus longicaudus;Ovis nivicola;Marmota bobak;Castor fiber;Nyctalus noctula;Meriones dahli;Equus ferus sl;Phodopus sungorus;Acinonyx jubatus;Sorex caecutiens;Pleistocene;Microtus thomasi;Meriones unguiculatus;Felis silvestris sl;Vulpes lagopus;fauna;Nyctereutes procyonoides;Camelus knoblochi;Spermophilus citellus;Meriones tamariscinus;Lutra lutra;Crocidura armenica;Pipistrellus pipistrellus sl;Sorex granarius;Eremodipus lichtensteini;mammoth steppe;Arvicola amphibius;Camelus ferus;Jaculus blanfordi;Sciurus vulgaris;Ellobius tancrei;Diplomesodon pulchellum;climate change;Myotis mystacinus sl;Neomys teres;Suncus etruscus;Ursus deningeri;Micromys minutus;Myospalax aspalax;Microtus majori;Ellobius lutescens;Microtus oeconomus;Bison bonasus;Sicista kluchorica;Sorex tundrensis sl;Lynx pardinus;Ratus pyctoris;Hystrix indica;Talpa romana;Capreolus pygargus;Cervus elaphus sl;Microtus agrestis;Microtus levis;Microtus schelkovnikovi;Allactaga bullata;Panthera tigris;Gulo gulo;Microtus savii sl;Stylodipus telum;Mesocricetus auratus;Eptesicus gobiensis;Bison priscus;Eptesicus bottae;Myodes rufocanus;Myodes glareolus;Eliomys quercinus;Erinaceus europaeus sl;Neomys anomalus;Microtus tatricus;Lepus tanaiticus;Ursus maritimus;Plecotus auritus sl;Chionomys roberti;Martes martes;Bubalus cf. arnee;Spalax graecus;Mus macedonicus;Meriones tristami;Meriones vinogradovi;Spalax giganteus;Meriones meridianus;Mustela putorius;Crocidura sibirica;Sorex daphaenodon;Mesocricetus raddei;Talpa occidentalis;Myopus schisticolor;Phodopus roborovskii;Spalax uralensis;Spermophilus pygmaeus;Microtus daghestanicus;Mesocricetus newtoni;Spermophilus parryii;Mustela lutreola;Myotis capaccinii;Tamias sibiricus;Allactaga sibirica;Microtus gregalis;Ursus arctos;Myotis daubentonii sl;Glis glis;Sorex roboratus;Vespertilio sinensis;Chionomys gud;Sicista subtilis sl;rupicapra rupicapra;Cricetulus barabensis

DOI：: doi:10.5061/dryad.62p1q

摘要：: s on these extinctions, but the relative importance of the different environmental factors involved remains poorly understood. Moreover, these studies are str

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Data from: Prey limitation drives variation in allometric scaling of predator-prey interactions

Data from: Ancestral reconstruction of reproductive traits shows no tendency toward terrestriality in Leptodactyline frogs

Data from: Individual niche trajectories drive fitness variation

GBIF Occurrence Download

Data from: Using automated digital recording systems as effective tools for the monitoring of birds and amphibians

Data from: Bioacoustics reveals two new syntopic species of Adenomera Steindachner (Anura: Leptodactylidae: Leptodactylinae) in the Cerrado

GBIF Occurrence Download

Data from: Historical dynamics of Batrachochytrium dendrobatidis in Amazonia

Data from: Drivers of individual niche variation in coexisting species

Data from: Environmental correlates of the Late Quaternary regional extinctions of large and small Palaearctic mammals

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