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Data from: Ecological release lead to novel otogenetic diet shift in kokanee (Oncoryhnchus nerka)
负责人:
关键词:
Geometric Morphometrics Microsatellites Niche Ontogenetic Diet Shift Phenotype-Environment Mismatch Phenotypic Plasticity Stable Isotopes Trophic Polymorphism
DOI:
doi:10.5061/dryad.rb14v
摘要:
ve ancestral population are convergent with expectations for piscivorous fishes, despite a presumed lack of standing genetic variation for piscivory
Data from: Morphometric analysis of inter- and intraspecific variation in the Cambrian helcionelloid mollusc Mackinnonia
负责人:
关键词:
Helcionelloida;species concept;incipient species;Elliptical Fourier Analysis;Early Cambrian;Davidonia;Cambrian Series 2;Morphometrics
DOI:
doi:10.5061/dryad.5b7n3
摘要:
and multivariate analyses were conducted to study intra- and interspecific variation in protoconch form as well as variation in ontogenetic trajectory of the teleoconch
Data from: Developmental dynamics of ecomorphological convergence in a transcontinental lizard radiation
负责人:
关键词:
Allometry;convergence;Lacertidae;constraint;ontogeny
DOI:
doi:10.5061/dryad.hp34m
摘要:
ly among biomes, with substantial convergence among arid-dwelling lineages. Comparisons of species ontogenetic growth trajectories between biomes revealed
Data from: Eco-evolution in size-structured ecosystems: simulation case study of rapid morphological changes in alewife
负责人:
Kang, Jung koo
关键词:
Eco-evolution Size-structured ecosystem Individual-based model Ecological power law Contemporary evolution Functional trait Body size Fish Alewife
DOI:
doi:10.5061/dryad.67c7q
摘要:
ke an ontogenetic transition from pelagic to littoral prey. These rapid, well-documented changes in the alewives’ morphology provide important insights int
Data from: Postnatal ontogeny and the evolution of macrostomy in snakes
负责人:
关键词:
Snakes;postnatal ontogeny;Evolution;macrostomy
DOI:
doi:10.5061/dryad.1g626
摘要:
in underground basal snakes. Dietary ontogenetic shift observed in most macrostomatan snakes is directly linked with this ontogenetic trajectory, indicating tha
Data from: Postnatal dynamics of developmental stability and canalization of lizard head shape under different environmental conditions
负责人:
关键词:
Allometry Fluctuating asymmetry Shape variance Geometric morphometrics Podarcis
DOI:
doi:10.5061/dryad.vs970
摘要:
in ontogenetic series of lizards inhabiting urban and rural environments. Urban lizards exhibited increased fluctuating asymmetry during the early postnatal stages
Data from: Plastic responses of some life history traits and cellular components of body size in Aphidius ervi as related to the age of its host
负责人:
关键词:
parasitoid;Wing Size;wing shape;developmental time;Aphidius ervi;Cell size;Acyrthosiphon pisum;cell number
DOI:
doi:10.5061/dryad.78mt2
摘要:
sitoids developed at the two extremes of host ages at parasitization, and that A.?ervi can reach the same adult size via different trajectories, adapti
Data from: The many faces of synapsid cranial allometry
负责人:
关键词:
Idelesaurus tataricus;\Tetracynodon\ darti;Patranomodon nyaphulii;Scalopodon tenuisfrons;Thrinaxodon liorhinus;Geikia locusticeps;Edaphosaurus cruciger;Lycideops longiceps;Gordonia traquairi;Abdalodon sp;Chiniquodon theotonicus;Eosimops newtoni;Eothyris parkeyi;Dicynodontoides nowacki;Dimetrodon limbatus;Viatkogorgon ivakhnenkoi;Peramodon amalitzkii;Alopecognathus angusticeps;Therocephalia;Vivaxosaurus trautscholdi;Dimetrodon grandis;Procynosuchus delaharpeae;Estemmenosuchus mirabilis;Tapinocaninus pamelae;Brachyprosopus broomi;Australosyodon nyaphuli;Lystrosaurus hedini;Tropidostoma dubium;Andescynodon mendozensis;Dolichuranus primaevus;Lumkuia fuzzi;Jonkeria truculenta;Dinodontosaurus pedroanum;Sycosaurus laticeps;Titanophoneus potens;Rhachiocephalus behemoth;Galeops whaitsi;Daqingshanodon limbus;Parakannemeyeria youngi;Cynosaurus suppostus;Mirotenthes digitipes;Vinceria andina;Arctops willistoni;Basilodon woodwardi;Charassognathus gracilis;Exaeretodon argentinus;Dinanomodon gilli;Inostrancevia alexandri;Eodicynodon oosthuizeni;Probelesodon lewisi;Rhachiocephalus magnus;Suminia getmanovi;Moschops capensis;Dvinia prima;Titanophoneus adamanteus;Varanosaurus acutirostris;Hofmeyria atavus;Hipposaurus boonstrai;Jimusaria sinkiangensis;Parakannemeyeria shenmuensis;Arctognathus curvimola;Syodon biarmicum;Angonisaurus cruickshanki;Exaeretodon riograndensis;Keyseria benjamini;Anteosaurus magnificus;Dinogorgon rubidgei;Cotylorhynchus romeri;Dinocephalia;Lystrosaurus murrayi;Endothiodon bathystoma;Olivierosuchus parringtoni;Probainognathus jenseni;Tritylodon longaevus;Ericiolacerta parva;Cyonosaurus longiceps;Stahleckeria potens;Struthiocephaloides duplessisi;Aerosaurus wellesi;Gorgonops torvus;Lycaenops ornatus;Ruhuhucerberus haughtoni;Sinognathus gracilis;Ophiacodon retroversus;Rhadiodromus mariae;Mycterosaurus longiceps;Elph borealis;Euchambersia mirabilis;Lycosuchus vanderrieti;Synapsida;Moschorhinus kitchingi;Clelandina rubidgei;Ictidosuchops rubidgei;Proburnetia viatkensis;Ctenospondylus;Odontocyclops whaitsi;Chaliminia musteloides;Cryptocynodon simus;Biarmosaurus tener;Scylacosaurus sclateri;Theriognathus microps;Shansiodon wuhsiangensis;Massetognathus pascuali;Mormosaurus seeleyi;Viatkosuchus sumini;Trirachodon berryi;Regisaurus jacobi;Platycraniellus elegans;Aleodon cf cromptoni;Aelurognathus tigriceps;Scaloporhinus angulorugatus;Sphenacodon ferox;Riograndia guaibensis;Casea brolii;Bauria cynops;Aulacephalodon bainii;Akidnognathus parvus;Glanosuchus macrops;Eriphostoma microdon;Pachygenelus monus;Emydops;Pachydectes elsi;Cynodontia;Moschowhaitsia vjuschkovi;Bulbasaurus phylloxyron;Ulemosaurus svijagensis;Rubidgea atrox;Dicynodon lacerticeps;Diademodon tetragonus;Cranial Allometry;Pascualgnathus polanskii;Lycaenops pricei;Diictodon feliceps;Lystrosaurus declivis;Mupashi migrator;Langbergia modisei;Annatherapsidus petri;Aleodon brachyrhamphus;Tapinocephalus atherstonei;Secodontosaurus obtusidens;Xiyukannemeyeria brevirostris;Ictidorhinus martinsi;Emydorhinus sciuroides;Ophiacodon sp;Australobarbarus kotelnitschi;Jachaleria candelariensis;Carboniferous;pelycosaurs;Sinophoneus yumenensis;Kawingasaurus fossilis;Galesaurus planiceps;Ictidosuchoides longiceps;Cistecephalus microrhinus;Compsodon helmoedi;Moschops koupensis;Leontosaurus vanderhorsti;Lycaenops n. sp.;Permian;Tetragonias njalilus;Microgomphodon oligocynus;Pristerognathus;Digalodon rubidgei;Kannemeyeria simocephalus;Lemurosaurus pricei;Oudenodon bainii;Herpetoskylax hopsoni;Triassic;Delectosaurus arefjevi;Daptocephalus leoniceps;Silphoictidoides ruhuhuensis;Bienotheroides wansienensis;Protheriodon estudianti;Smilesaurus ferox;Heleosaurus scholtzi;Robertia broomiana;Progalesaurus lootsbergensis;Rhinodicynodon gracile;Ophiacodon mirus;Struthiocephalus whaitsi;Scalaoposaurus constrictus;Prosictodon dubei;Ischigualastia jenseni;Paraburnetia sneeubergensis;Otsheria netzvetajevi;Eodicynodon oelofseni;Dimetrodon loomisi;Sycosaurus nowaki;Lystrosaurus curvatus;Cistecephaloides boonstrai;Allometry;Lycaenops angusticeps;Sinokannemeyeria sunchuanheensis;Kayentatherium wellesi;Varanops brevirostris;Ulemica efremovi;Cynognathus crateronotus;Proalopecopsis haughtoni;Ennatosaurus tecton;Gorgonopsia;Glaucosaurus megalops;Rechnisaurus cristarhynchus;Biarmosuchia;Euptychognathus bathyrhynchus;Burnetia mirabilis;Sintocephalus alticeps;Pristerodon mackayi
DOI:
doi:10.5061/dryad.56qq231
摘要:
of interspecific allometry within anomodonts parallels the ontogenetic trajectory of Diictodon. This indicates that in at least some synapsids allometric patterns

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