国际农业科学数据导航库-农业专业知识服务系统

Data from: Adaptive divergence along environmental gradients in a climate-change-sensitive mammal

负责人：

关键词：: conservation genetics;Ochotona princeps;Ochotonidae;climate change;contemporary;Ochotona;Lagomorpha;Ecological Genetics;Population Genetics - Empirical;Adaptation

DOI：: doi:10.5061/dryad.fv91n

摘要：: , the American pika (Ochotona princeps), distributed along elevation gradients at its northern range margin in the Coast Mountains of British Columbia (BC), Canada

Data from: Climate-niche factor analysis: a spatial approach to quantifying species vulnerability to climate change

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关键词：: Ochotona princeps;exposure;climate change vulnerability;ecological-niche factor analysis;sensitivity;Marmota flaviventris

DOI：: doi:10.5061/dryad.qb2s9f2

摘要：: ween different species. We apply our methods to a case study of two species of montane mammals, the American pika Ochotona princeps and the yellow-bellied

Data from: Landscape effects on gene flow for a climate-sensitive montane species, the American pika

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关键词：: CDPOP;Ochotona princeps;Mantel test;Landscape Genetics;causal modeling

DOI：: doi:10.5061/dryad.7c2n8

摘要：: to determine how landscape and climate-related features influence gene flow for American pikas (Ochotona princeps) in Crater Lake National Park. Pikas are heat

Data from: From promise to practice: pairing non-invasive sampling with genomics in conservation

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关键词：: genotyping-by-sequencing;Hair;Ochotona princeps;biodiversity;single nucleotide polymorphism;nextRAD;American pika;Restriction-site Associated DNA Sequencing;climate change

DOI：: doi:10.5061/dryad.61691

摘要：: single nucleotide polymorphisms (SNPs) in a climate change-sensitive mammal, the American pika (Ochotona princeps). We identified and genotyped 3,803 high-confidence SNPs across eigh

Data from: A phylogenomic rodent tree reveals the repeated evolution of masseter architectures

负责人：

关键词：: Plagiodontia aedium;Jaculus jaculus;Ctenomys fochi;Marmota marmota;Platacanthomys lasiurus;Acomys louisae;Cavia porcellus;Tylomys tumbalensis;Sicista concolor;Myocastor coypus;Atherurus africanus;Beamys major;Rodentia;Abrocoma cinerea;Ammospermophilus nelsoni;Dipodomys ordii;Heteromys oasicus;hystricomorphy;Peromyscus maniculatus;Proechimys goeldii;Mus musculus;Ochotona princeps;Mesocricetus auratus;Laonastes aenigmamus;convergence;Anomalurus derbianus;Thryonomys gregorianus;Typhlomys cinereus;Rattus norvegicus;Octodon degus;Chinchilla lanigera;Dasyprocta fuliginosa;Cuniculus paca;Calomyscus baluchi;parallel evolution;Oryctolagus cuniculus;stochastic character mapping;Aplodontia rufa;Tachyoryctes daemon;Fukomys damarensis;Castor canadensis;Hydrochoerus hydrochaeris;Pedetes capensis;Dinomys branickii;ultraconserved elements;Stylodipus andrewsi;Nannospalax galili;Petromus typicus;Cratogeomys planiceps;Rhipidomys austrinus;Ctenodactylus gundi;Graphiurus kelleni;Ictidomys tridecemlineatus;Microtus ochrogaster;heterocephalus glaber;Zapus princeps;Coendou bicolor

DOI：: doi:10.5061/dryad.3f83707

摘要：: for evolutionary relationships among the five rodent suborders and then incorporated relevant fossils, fit models of character evolution, and used stochastic ch

Data from: Head-turning morphologies: evolution of shape diversity in the mammalian atlas-axis complex

负责人：

关键词：: Equus zebra;Tupaia glis;Erythrocebus patas;Macropus robustus;Dendrohyrax arboreus;Dromiciops gliroides;cervical vertebrae;Eumetopias jubatus;Petaurus breviceps;Tadarida brasiliensis;Hystrix cristata;Trichechus manatus;Cervus elaphus;Manis pentadactyla;Giraffa camelopardalis;Phoca vitulina;Antilocapra americana;Myocastor coypus;Sorex bendirii;Orycteropus afer;Tamandua tetradactyla;Martes pennanti;Sarcophilus harrisii;Eptesicus fuscus;Trichosurus caninus;Lepus americanus;Rhinolophus ferrumequinum;Hipposideros dinops;Mammals;Didelphis virginiana;Erethizon dorsatum;Suricata suricatta;Elephas maximus;Galago senegalensis;Dipodomys microps;Spherical harmonics analysis;Phascolarctos cinereus;Canis lupus;Atelerix albiventris;Puma concolor;Geocapromys ingrahami;Potorous tridactylus;Bison bison;Ochotona princeps;Berardius bairdii;Acrobates pygmaeus;Morphological Evolution;Tachyglossus aculeatus;Myoprocta pratti;Emballonura semicaudata;Octodon degus;Symphalangus syndactylus;Chinchilla lanigera;Saimiri sciureus;Gorilla gorilla;Pseudocheirus peregrinus;Cuniculus paca;Ursus maritimus;Tapirus terrestris;Thomomys mazama;Aplodontia rufa;Galeopterus variegatus;Castor canadensis;Lemur catta;Odobenus rosmarus;Arctictis binturong;Choloepus hoffmanni;Lagenorhynchus obliquidens;Desmodus rotundus;Hydrochoerus hydrochaeris;Neotoma cinerea;Hippopotamus amphibius;Lama glama;Scapanus townsendii;Sciurus griseus;Echinops telfairi;Dasypus novemcinctus;Nycticebus coucang;Pteropus poliocephalus;locomotion;Procyon lotor;Elephantulus rufescens;Perameles nasuta;Zapus princeps;Vombatus ursinus

DOI：: doi:10.5061/dryad.1nq8md7

摘要：: Mammals flex, extend, and rotate their spines as they perform behaviors critical for survival, such as foraging, consuming prey, loc

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：: nonshivering thermogenesis (NST). Although ucp1 arose early in the vertebrate lineage, the loss of ucp1 was previously documented in several reptile species (including birds

Data from: Heterogeneous models place the root of the placental mammal phylogeny

负责人：

关键词：: Equus caballus;Mus musculus;Ochotona princeps;evolutionary models;Macropus eugenii;Callithrix jacchus;Rattus norvegicus;phylogenetic reconstruction;Macaca mulatta;Canis familiaris;Gorilla gorilla;Felis catus;Ursus maritimus;Oryctolagus cuniculus;Pteropus vampyrus;Erinaceus europaeus;mammal phylogeny;Vicugna pacos;Microcebus murinus;Pongo abelii;Cavia porcellus;Monodelphis domestica;Otolemur garnettii;Gallus gallus;Spermophilus tridecemlineatus;Choloepus hoffmanni;Procavia capensis;Ornithorhynchus anatinus;Heterogeneous modelling;Tupaia belangeri;Loxodonta africana;Echinops telfairi;Homo Sapiens;Pan troglodytes;Dasypus novemcinctus;Bos taurus;Dipodomys ordii;Tursiops truncatus;Sorex araneus;Tarsius syrichta;Myotis lucifugus;Placental Root;Sus scrofa;Ailuropoda melanoleuca

DOI：: doi:10.5061/dryad.vh49j

摘要：: hypotheses. Through these sophisticated methods, we demonstrate the importance of model adequacy, dataset power and provide strong support

Data from: How to survive a glaciation: the challenge of estimating biologically realistic potential distributions under freezing conditions

负责人：

关键词：: Ecological Niche Modeling;Ochotona princeps;MaxEnt;Quaternary;climate change

DOI：: doi:10.5061/dryad.3bd5rr4

摘要：: ) for biogeographical research. In the case of presence-background/pseudoabsences techniques, cold environments that are poorly represented in existing geography

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Data from: Adaptive divergence along environmental gradients in a climate-change-sensitive mammal

Data from: Climate-niche factor analysis: a spatial approach to quantifying species vulnerability to climate change

Data from: Landscape effects on gene flow for a climate-sensitive montane species, the American pika

Data from: From promise to practice: pairing non-invasive sampling with genomics in conservation

Data from: A phylogenomic rodent tree reveals the repeated evolution of masseter architectures

Data from: Head-turning morphologies: evolution of shape diversity in the mammalian atlas-axis complex

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

Data from: Heterogeneous models place the root of the placental mammal phylogeny

Data from: How to survive a glaciation: the challenge of estimating biologically realistic potential distributions under freezing conditions

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