Data from: Is embryonic hypothermia tolerance common in birds?

负责人：

关键词：

incubation temperature;Embryonic development;hatchability;hypothermia tolerance

DOI：

doi:10.5061/dryad.6nn23

摘要：

tolerance, as observed in the field. We found that eggs of the chicken (Gallus gallus domesticus), pigeon (Columba livia domestica), Japanese quail

Data from: Corticosterone: effects on feather quality and deposition into feathers

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关键词：

feather;melanin;feather growth rate;Columba livia domestica;fault bar;corticosterone incorporation;corticosterone

DOI：

doi:10.5061/dryad.7tm53

摘要：

measure of the historical record of an individual's hypothalamo-pituitary-adrenal (HPA) activity during feather growth. However, where and how CORT

Data from: Not just passengers: Pigeons, Columba livia, can learn homing routes while flying with a more experienced conspecific

负责人：

Pettit, Benjamin

关键词：

social learning navigation leadership migration information transmission

DOI：

doi:10.5061/dryad.53f4b

摘要：

ghts. This test of social influences on navigation takes advantage of the individually distinctive routes that pigeons establish when trained alone. We found tha

Data from: Misinformed leaders lose influence over pigeon flocks

负责人：

Watts, Isobel

关键词：

homing pigeon hierarchy information transfer leadership clock-shift

DOI：

doi:10.5061/dryad.508j2

摘要：

of homing pigeons (Columba livia). We demonstrate that in the majority of cases when leaders hold inaccurate information they lose their influence over the flock

Data from: Barb geometry of asymmetrical feathers reveals a transitional morphology in the evolution of avian flight

负责人：

关键词：

Athene cunicularia;Mesozoic;Junco hyemalis;Nymphicus hollandicus;Gallinula neiotis;Eopengornis martini;Todus mexicanus;asymmetrical flight feather;Petrochelidon pyrrhonota;Zenaida asiatica;Atlantisia rogersi;Calypte anna;Gavia immer;Chordeiles acutipennis;Podilymbus gigas;Callipepla californica;Pipra mentalis;Dendragapus canadensis;Archaeopteryx;Alectoris Chukar;Gallirallus sylvestris;Larus marinus;Oporornis tolmiei;Numenius americanus;Falco columbarius;Chaetura pelagica;Porzana atra;Gallirallus australis;Tachyeres leucocephalus;Protonotaria citrea;Pica nuttalli;Passerella iliaca;Zonotrichia albicollis;Columbina passerina;Spizella pusilla;Aphelocoma californica;Anser fabalis;Seiurus motacilla;Streptopelia decaocto;Sphyrapicus varius;Coragyps atratus;Elanus leucurus;Cathartes aura;Numida meleagris;Strigops habroptilus;Cyanocitta stelleri;Dendroica coronata;Vermivora celata;Pinguinus impennis;Megacrex inepta;Progne subis;Pipilo maculatus;Tachyeres pteneres;Tachycineta thalassina;Paraves;Daption capense;Gallirallus rovianae;Phalacrocorax harrisi;Crypturellus soui;Archaeopteryx lithographica;Coccyzus americanus;Fulica gigantea;Corvus brachyrhynchos;Tachyeres brachypterus;Tachycineta bicolor;Aramidopsis plateni;Podiceps taczanowskii;Jacana jacana;Sapeornis chaoyangensis;Micrathene whitneyi;Columba livia;Accipiter gentilis;Pelecanus erythrorhynchos;Anas discors;evolutionary transition;avian flight;Hirundo rustica;Casmerodius albus;Rallus limicola;Porzana sandwichensis;Xenicus lyalli;Confuciusornis sanctus;Accipiter striatus;Microraptor gui;Buteo jamaicensis;Thalassarche melanophrys;Surnia ulula;Tyrannus vociferans;Porzana palmeri;theoretical morphospace;Columbina inca;Tribonyx mortierii;Habroptila wallacii;Trogon violaceus

DOI：

doi:10.5061/dryad.7vb83

摘要：

n in comparatively stemward taxa like Archaeopteryx, which exhibit small trailing vane barb angles. This discovery reveals a previously unrecognized

Data from: Here and there, but not everywhere: repeated loss of uncoupling protein 1 in amniotes

负责人：

关键词：

Gavia stellata;Canis familiaris;Haliaeetus albicilla;Balaenoptera acutorostrata;Anolis carolinensis;Picoides pubescens;Cuculus canorus;Pteropus vampyrus;Merops nubicus;Cavia porcellus;Struthio camelus australis;Pseudopodoces humilis;Aquila chrysaetos canadensis;Meleagris gallopavo;Serinus canaria;Procavia capensis;Sarcophilus harrisii;Tupaia belangeri;Zonotrichia albicollis;Buceros rhinoceros silvestris;Homo Sapiens;Dipodomys ordii;Papio anubis;Candoia aspera;Melopsittacus undulatus;Pan troglogdytes;Myotis lucifugus;Thamnophis couchii;Corvus cornix cornix;Sus scrofa;Sceloporus undulatus;Charadrius vociferus;Rattus norvegicus;Crocodylus porosus?;Alligator sinensis;Tauraco erythrolophus;Erinaceus europaeus;Microcebus murinus;Nipponia nippon;Xenopeltis unicolor;Ophiophagus hannah;Choloepus hoffmanni;Myotis brandtii;Dasypus novemcinctus;Tinamus guttatus;Pygoscelis adeliae;Orcinus orca;Tursiops truncatus;Phaethon lepturus;Phalacrocorax carbo;Falco cherrug;Alligator mississippiensis;Microtus ochrogaster;Tyto alba;heterocephalus glaber;Aptenodytes forsteri;Apaloderma vittatum;Macropus eugenii;Chlorocebus sabaeus;Cariama cristata;Egretta garzetta;Pterocles gutturalis;Agkistrodon piscivorus;Macaca mulatta;Felis catus;Physeter macrocephalus;Calypte anna;Gavialis gangeticus;Vicugna pacos;Elgaria multicarinata;Manacus vitellinus;Chaetura pelagica;Gallus gallus;Otolemur garnettii;Pelecanus crispus;turtle;Anolis sagrei;Bos taurus;Balearica regulorum gibbericeps;Chelonia mydas;thermogenesis;Sorex araneus;Ovis aries;Nestor notabilis;Mesitornis unicolor;Opisthocomus hoazin;Python molurus bivittatus;cetacean;Equus caballus;Chrysemys picta;Ficedula albicollis;Mus musculus;Ochotona princeps;Pogona vitticeps;Callithrix jacchus;Colius striatus;Leptosomus discolor;UCP1;Snake;Lamprophis fuliginosus;Anser cygnoides domesticus;Terrapene ornata;Gorilla gorilla;Oryctolagus cuniculus;Fulmarus glacialis;Corvus brachyrhynchos;Sternotherus odoratus;Taeniopygia guttata;Eublepharis macularius;Pongo abelii;Caprimulgus carolinensis;lizard;Monodelphis domestica;Haliaeetus leucocephalus;Mustela putorius;Pelodiscus sinensis;Pelusios castaneus;Chlamydotis macqueenii;Eurypyga helias;Ornithorhynchus anatinus;Columba livia;Loxodonta africana;Echinops telfairi;Falco peregrinus;Nomascus leucogenys;Geospiza fortis;Scincella lateralis;Thamnophis elegans;Tarsius syrichta;Ictidomys tridecemlineatus;Anas platyrhynchos;Ailuropoda melanoleuca;Cheyldra serpentina

DOI：

doi:10.5061/dryad.934fg

摘要：

(dolphin, orca) and potentially Xenarthra (sloth, armadillo) and Afrotheria (hyrax). These lineages provide models for investigating alternate mechanisms

Data from: Carnivore diet analysis based on next-generation sequencing: application to the leopard cat (Prionailurus bengalensis) in Pakistan

负责人：

关键词：

Mus musculus;Mitochondrial DNA;ribosomal DNA;Columba livia;Crocidura pullata;Lepus capensis;Hyperacrius wynnei;Pucrasia macrolopha;Corvus macrorhynchos;Timaliidae;Dendrocopos sp.;Eoglaucomys fimbriatus;Dryomys nitedula;Prionailurus bengalensis;Paa vicina;Siluriformes;DNA metabarcoding;species identification;Lophura leucomelanos;Alectoris Chukar;Apodemus rusiges;blocking primer;Rattus rattus;Gallus gallus

DOI：

doi:10.5061/dryad.443t4m1q

摘要：

based on next generation sequencing. We applied this approach to the analysis of the vertebrate component of leopard cat diet in two ecologically distinct