国际农业科学数据导航库-农业专业知识服务系统

Data from: Recent biological invasion shapes species recognition and aggressive behavior in a native species: a behavioral experiment using robots in the field

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关键词：: anolis lizards;display behavior;Dominica;Invasive-native species competition;robots;species coexistence

DOI：: doi:10.5061/dryad.5x69p8d0s

摘要：: ="text-align:justify;">We tested whether the interactions between the recently introduced invasive lizard Anolis cristatellus and the native

Data from: The role of bite force in the evolution of head shape and head shape dimorphism in Anolis lizards

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关键词：: head shape;bite force;Anolis;sexual dimorphism

DOI：: doi:10.5061/dryad.1v26h11

摘要：: driving its evolution. Anole lizards represent an excellent subject to test this, as recurrent habitat specialists or ecomorphs evolved independently ac

Data from: Expanding the understanding of local community assembly in adaptive radiations

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关键词：: Environmental filtering community assembly body mass adaptive radiation

DOI：: doi:10.5061/dryad.4b2g5

摘要：: s on the example of Caribbean Anolis lizards. We constructed maps for the probability of presence of Anolis ecomorphs (ecology-morphology-behavior specialis

Data from: City slickers: poor performance does not deter Anolis lizards from using artificial substrates in human-modified habitats

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关键词：: habitat constraint hypothesis habitat use locomotion surface roughness urban environments

DOI：: doi:10.5061/dryad.1k3d2

摘要：: eas, but effects of these novel surfaces on animal locomotion are little-known. 2. In this study, we assessed locomotor performance of two Anolis lizard species

Data from: The biomechanical basis of evolutionary change in a territorial display

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关键词：: dewlap morphology visual signal evolutionary differentiation hyoid apparatus island divergence

DOI：: doi:10.5061/dryad.87754

摘要：: ng closely related species. 2. In Anolis lizards, adult males extend a large, conspicuous dewlap as part of a territorial advertisement display. Males of species from

Data from: Thermal niche evolution across replicated Anolis lizard adaptive radiations

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关键词：: thermal tolerance;evolutionary rates;thermal performance;species richness;temperature;physiology

DOI：: doi:10.5061/dryad.688jj72

摘要：: cated radiations of Anolis lizards, groups best known for resource partitioning based on morphological divergence. We find repeated divergence in thermal physiology

Data from: Spatial variation in climate mediates gene flow across an island archipelago

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关键词：: climate change;metapopulation;thermal performance curve;Thermoregulation;Anolis sagrei;natural selection

DOI：: doi:10.5061/dryad.68mp3

摘要：: anole lizards (Anolis sagrei) distributed across seven islands in The Bahamas. We used microsatellite markers to estimate gene flow among islands

dimorphic lizard

负责人：: Cox, Robert M.

关键词：: lizards Conflict: sexual Development Endocrinology: androgens Evolution: developmental Genetics: quantitative Genomics Sexual dimorphism

DOI：: doi:10.5061/dryad.n95k3

摘要：: brown anole lizards (Anolis sagrei) to show that the development of sexual size dimorphism is mirrored by the ontogenetic breakdown of rmf for body size

Data from: Inference of evolutionary jumps in large phylogenies using Lévy processes

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关键词：: Loriini;Expectation-Maximization algorithm;Lévy process;phenotypic evolution;Anolis;quantitative traits;Evolutionary jump

DOI：: doi:10.5061/dryad.170rb

摘要：: ge trees. We then make use of this development to infer evolutionary jumps in Anolis lizards and Loriinii parrots where we find strong signal for such jumps

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

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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

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Data from: Recent biological invasion shapes species recognition and aggressive behavior in a native species: a behavioral experiment using robots in the field

Data from: The role of bite force in the evolution of head shape and head shape dimorphism in Anolis lizards

Data from: Expanding the understanding of local community assembly in adaptive radiations

Data from: City slickers: poor performance does not deter Anolis lizards from using artificial substrates in human-modified habitats

Data from: The biomechanical basis of evolutionary change in a territorial display

Data from: Thermal niche evolution across replicated Anolis lizard adaptive radiations

Data from: Spatial variation in climate mediates gene flow across an island archipelago

dimorphic lizard

Data from: Inference of evolutionary jumps in large phylogenies using Lévy processes

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

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