国际农业科学数据导航库-农业专业知识服务系统

Data from: Emergent patterns of population genetic structure for a coral reef community

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关键词：: stepping stone dispersal;marine connectivity;community genetics;chaotic genetic heterogeneity;pelagic larval duration

DOI：: doi:10.5061/dryad.1n246

摘要：: dispersal ability, taxonomy (i.e., fish vs. invertebrate) and habitat specialization as strongest influences on genetics, but otherwise left much variation in genetic

Data from: Turbulence induces metabolically costly behaviors and inhibits food capture in oyster larvae, causing net energy loss

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关键词：: capture efficiency;swimming efficiency;Kolmogorov scale;Crassostrea virginica;ciliary swimming;clearance rate;aerobic scope

DOI：: doi:10.5061/dryad.7rr7m

摘要：: Planktotrophic invertebrate larvae require energy to develop, disperse, and settle successfully, and it is unknown how their energetics is impacted

Data from: Ontogenetic and interspecific metabolic scaling in insects

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关键词：: Energetics Allometry Physiological Ecology Theoretical Ecology Individual Based Modeling Insect Respiration Oxygen Consumption

DOI：: doi:10.5061/dryad.3qv3p

摘要：: al phenomenon is referred to as metabolic scaling. However, mechanistic explanations for interspecific metabolic scaling do not apply to ontogenetic size change

Data from: Regulation of body reserves in a hunted wader: implications for cold-weather shooting restrictions

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关键词：: ringing;cold spell;Hunting;fasting endurance;energetics;Scolopax rusticola

DOI：: doi:10.5061/dryad.n3k9f

摘要：: 1.Severe winter weather can reduce avian energetic reserves. At such times, reducing disturbance, and therefore energy expenditure, through science

Data from: An improved hypergeometric probability method for identification of functionally linked proteins using phylogenetic profiles

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关键词：: Protein function prediction;functional similarity;phylogenetic profiles;functional annotation

DOI：: doi:10.5061/dryad.m6t4j

摘要：: . Phylogenetic profiling is a bioinformatics approach to identify the influence of a trait across species and can be employed to infer the evoluti

Data from: Graph splitting: a graph-based approach for superfamily-scale phylogenetic tree reconstruction

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关键词：: early evolution;TIM-barrel superfamily;Network analysis;Phylogenetic method;bioinformatics

DOI：: doi:10.5061/dryad.ps0qf4r

摘要：: onary history. Phylogenetic analysis of the early evolution of protein superfamilies is a key challenge because existing phylogenetic methods show poor performance when protein

Data from: The population structure and recent colonization history of Oregon threespine stickleback determined using restriction-site associated DNA

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关键词：: Genomics\/Proteomics;phylogeography;Fish;GBS;RAD-seq;Gasterosteus aculeatus;Adaptation;Population Genetics - Empirical

DOI：: doi:10.5061/dryad.62hb0

摘要：: al and evolutionary genetics. To address this problem, we studied the threespine stickleback fish, which has repeatedly undergone parallel phenotypic and genetic differentiati

Data from: Phylogenetic measures reveal eco-evolutionary drivers of biodiversity along a depth gradient

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关键词：: museum\/cradle;community phylogenetics;Deep sea;energy gradient;latitudinal gradient;New Zealand marine Actinopterygii

DOI：: doi:10.5061/dryad.0rxwdbrw1

摘要：: sity for a suite of complementary phylogenetic diversity metrics. Using a time-calibrated molecular phylogeny for New Zealand marine ray-finne

Data from: Nathusius' bats optimize long-distance migration by flying at maximum range speed.

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关键词：: Pipistrellus nathusii;migration physiology;flight speed;power curve;energy consumption;Holocene;energetics;flight metabolism

DOI：: doi:10.5061/dryad.1476d70

摘要：: not find a U-shaped curve in a few individuals that engaged in flight manoeuvers, including landing. We used the shape of the U-shaped power curve to estimate minimum

Data from: A metabolic and body-size scaling framework for parasite within-host abundance, biomass, and energy flux

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关键词：: Cylicocyclus nassatus;Setaria equina;Cyathostomum montgomeryi;Trichostrongylus affinis;Cylicocyclus gyalocephaloides;Crenosoma sp.;Dictyocaulus viviparus;Cylicostephanus bidentatus;Cylicostephanus minutus;Oesophagostomum quadrispinulatum;Cyathostomum labratum;Ancylostoma caninum;Cylicocyclus triramosus;Cylicodontophorus reineckei;Capillaria aerophilus;Metastrongylus pudendoctectus;Parascaris equorum;energetics;Toxocara cati;Carolinensis kinsellai;Protostrongylus macrotis;Syphacia peromysci;Litosomoides carinii;Macroecology;Cyathospirura sp.;Ascaris suum;Metathelazia californica;Nematodirus odocoilei;Parabronema pecariae;Cylicocyclus adersi;Skrjabinema parva;Physocephalus sexalatus;Apteragia odocoilei;Capillaria plica;Craterostomum acuticaudatum;Oxyuris equi;Strongyloides sigmodontis;Probstmayria vivipara;Placoconus lotoris;Trichostrongylus colubriformis;Globocephalus urosubulatus;Triodontophorus minor;Triodontophorus brevicaudata;Ecology: community;Oesophagostomum venulosum;Oslerus osleri;Capillaria putorii;Cylicostephanus longiconus;Texicospirura turki;Haemonchus contortus;Cyathostomum catenatum;Skrjabinema sp.;Ascarops strongylina;Poteriostomum ratzii;Poteriostomum imparidentatum;Gongylonema pulchrum;Strongyloides westeri;Aspiculuris tetraptera;Cyathostomum tetracanthum;Interactions: host\/parasite;Toxascaris leonina;Pharyngostomoides procyonis;Trichostrongylus thomasi;Cylicostephanus calicatus;Protospirura numidica;Spirocerca lupi;Lagochilascaris sp.;Hymenolepis diminuta;Physaloptera praeputialis;Ancylostoma tubaeforme;Crossocephalus viviparus;Baylisascaris transfuga;Habronema muscae;Ostertagia mossi;Parabronema skrjabini;Gnathostoma sp.;Nematodirus helvetianus;Sertaria yehi;Pterygodermatites peromysci;Cylicospirura subaequalis;Stephanurus dentatus;Ostertagia ostertagi;Allometry;Monodontus floridanus;Cylicodontophorus schuermanni;Dirofilaria immitis;Physaloptera rara;Molineus barbatus;Triodontophorus nipponicus;Draschia megastoma;Syphacia sigmodontis;Cooperia oncophora;Moniliformis dubius;Trichostrongylus axei;Triodontophorus serratus;Haemonchus mitchelli;Strongyloides sp.;Dracunculus sp.;Cyathostomum alveatum;Vogeloides felis;Cylicocyclus auriculatus;Trichuris vulpis;Metastrongylus apri

DOI：: doi:10.5061/dryad.14nn1

摘要：: Energetics may provide a useful currency for studying the ecology of parasite assemblages within individual hosts. Parasite assemblages may als

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Data from: Emergent patterns of population genetic structure for a coral reef community

Data from: Turbulence induces metabolically costly behaviors and inhibits food capture in oyster larvae, causing net energy loss

Data from: Ontogenetic and interspecific metabolic scaling in insects

Data from: Regulation of body reserves in a hunted wader: implications for cold-weather shooting restrictions

Data from: An improved hypergeometric probability method for identification of functionally linked proteins using phylogenetic profiles

Data from: Graph splitting: a graph-based approach for superfamily-scale phylogenetic tree reconstruction

Data from: The population structure and recent colonization history of Oregon threespine stickleback determined using restriction-site associated DNA

Data from: Phylogenetic measures reveal eco-evolutionary drivers of biodiversity along a depth gradient

Data from: Nathusius' bats optimize long-distance migration by flying at maximum range speed.

Data from: A metabolic and body-size scaling framework for parasite within-host abundance, biomass, and energy flux

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