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Data from: Ontogenetic and interspecific scaling of consumption in insects
负责人:
关键词:
uptake.;uptake;body mass;Dynamic Energy Budget (DEB) theory;Insecta;Metabolic Rate;Invertebrate;metabolic theory of ecology (MTE)
DOI:
doi:10.5061/dryad.35n9f
摘要:
on metabolism depending on whether the size comparison is ontogenetic or inter-specific.
Data from: Survival is negatively related to basal metabolic rate in tropical Andean birds
负责人:
关键词:
pace-of-life;phylogenetic path analysis;BMR;life history trade-off;Manu Biosphere Reserve;mark-recapture;energy metabolism
DOI:
doi:10.5061/dryad.sf2gt4k
摘要:
1. Life history theory postulates that physiological traits, such as energy metabolism, can be understood in terms of allocation trade-offs bet
Data from: Metabolite profile of a mouse model of Charcot-Marie-Tooth type 2D neuropathy: implications for disease mechanisms and interventions
负责人:
Burgess, Robert W.
关键词:
Peripheral neuropathy Spinal cord Sciatic nerve Metabolomics Mass Spectrometry tRNA synthetase
DOI:
doi:10.5061/dryad.ng07t
摘要:
. To identify putative disease mechanisms, we compared metabolites isolated from the spinal cord of Gars mutant mice and their littermate controls. A profile
Data from: Biochemical determinants of litter quality in 15 species of Sphagnum
负责人:
关键词:
decay resistance;peatland;hummock-hollow;sphagnan;lignin;Sphagnum spp.;phenolics
DOI:
doi:10.5061/dryad.4f8d2
摘要:
with field mass loss, which is also affected by the environment. PCA also revealed that metabolites clearly group Sphagnum sections (subgenera). Conclusions
Data from: The energetics of life on the deep seafloor
负责人:
关键词:
biomass;Deep sea;lifespan;Body Size;Gastropoda;food;Marine;Metazoa;Modern;diversity;Bivalvia;temperature;Metabolism;Growth;standing stock;energetics
DOI:
doi:10.5061/dryad.78nt1
摘要:
. Our knowledge of the effects of this energy limitation on all levels of biological organization is very incomplete. Here we use the Metabolic Theory
Data from: A strong test of the Maximum Entropy Theory of Ecology
负责人:
关键词:
species abundance distribution;size distributions;trees
DOI:
doi:10.5061/dryad.5fn46
摘要:
ormation on only species richness, total abundance, and total metabolic rate of the community. We evaluated four major predictions of METE simultaneously at an unprecedented scale
Data from: A metabolic and body-size scaling framework for parasite within-host abundance, biomass, and energy flux
负责人:
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:
y permit us to tackle the energetics of parasite assemblages in hosts. This paper offers the foundations and initial testing of a metabolic theory
Data from: Immune response costs are associated with changes in resource acquisition and not resource reallocation
负责人:
关键词:
Appetite;Metabolic Rate;Infection-induced anorexia;life-history;parasite resistance;Energetic trade-off;Fecundity;immunity;drosophila melanogaster
DOI:
doi:10.5061/dryad.5b14n
摘要:
s in metabolic rate, food consumption and body weight, we assessed whether responses were consistent with immunity costs originating from altered resource allocation

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