dataService

您的位置: 首页 > 数据服务 > 数据列表页

筛选

共检索到121条 ,权限内显示50条;

Data from: Establishment of wildflower fields in poor quality landscapes enhances micro-parasite prevalence in wild bumble bees
负责人:
关键词:
Apicystis bombi;Parasite;conservation;Crithidia bombi;Nosema bombi;Bombus pascuorum;flower mix
DOI:
doi:10.5061/dryad.4kb762c
摘要:
, which could affect the populations. In this study, we investigated the influence of sown wildflower fields on the prevalence of micro-parasites
Data from: Effects of parasitism on aphid nutritional and protective symbioses
负责人:
关键词:
Buchnera aphidicola;insect-microbe;Hamiltonella defensa;Aphidius ervi;endosymbiont;microbial ecology;host-parasite;Acyrthosiphon pisum;mutualism;APSE
DOI:
doi:10.5061/dryad.89c3r
摘要:
interests when attacked by the wasp. We investigated the effects of parasitism on the abundance of aphid nutritional and protective symbionts. Fir
Data from: Allee effects may slow the spread of parasites in a coastal marine ecosystem
负责人:
关键词:
Population: dynamics;Lepeoptheirus salmonis;ocean;Epidemiology
DOI:
doi:10.5061/dryad.34g16868
摘要:
parasite populations to die out. These results may provide the first empirical evidence for Allee effects in a macroparasite. Furthermore, the data give
Data from: Is the continental life of the European eel Anguilla anguilla affected by the parasitic invader Anguillicoloides crassus?
负责人:
关键词:
pathogenicity;fitness cost;Virulence;Anguilla anguilla;life history traits;anguillicolosis;host\u2013parasite interaction;Holocene;Anguillicoloides (Anguillicola) crassus
DOI:
doi:10.5061/dryad.34qf8
摘要:
(i.e. the swimbladder, our internal marker) and parasite abundance and biomass, thus showing that the use of classical epidemiological parameters was not relevant her
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:
metabolic-scaling theory for parasite abundance, energetics, and biomass in individual hosts. In contrast to previous efforts, the theory factors in both host
Data from: Empirical evaluation of neutral interactions in host-parasite networks
负责人:
关键词:
Arvicola;Community: structure;Ecology: theoretical;ticks;Food web: theory;Apodemus;Mus;Sorex;Glis;Crocidura;Micromys;Neomys;Clethrionomys;mites;Ondatra;Rattus;Interactions: host\/parasite;Muscardinus;Microtus;Talpa;fleas
DOI:
doi:10.5061/dryad.70sj1
摘要:
levels. We found that species abundance accurately predicts network metrics at all levels. Despite host-parasite systems being constrained by physi
Data from: Parasite infection alters nitrogen cycling at the ecosystem scale
负责人:
关键词:
metabolism stoichiometry trematode metacercaria nutrients biogeochemistry
DOI:
doi:10.5061/dryad.mt240
摘要:
, (2) ecosystem nutrient limitation, (3) effects of parasite abundance, host density, host functional role, and host excretion rate on nutrient flow
Data from: Population dynamics of an Arctiid caterpillar-tachinid parasitoid system using state-space models
负责人:
关键词:
Donor control Host-parasitoid Insect outbreaks Markov chain Monte Carlo state space models trophic interactions population census survey
DOI:
doi:10.5061/dryad.sg45t
摘要:
census data for woolly bear caterpillars (Platyprepia virginalis) and their locally host-specific tachinid parasitoids (Thelaira americana). 3.?Caterpillar
Data from: A tale of two phylogenies: comparative analyses of ecological interactions
负责人:
关键词:
Ecology: evolutionary;Macroevolution;Community: structure;Evolution: host\/parasite;Ecology: statistical;Interactions: host\/parasite;phylogeny;Coevolution;statistics
DOI:
doi:10.5061/dryad.jf3tj
摘要:
The evolution of traits involved in ecological interactions such as predator-prey, host-parasite, and plant-pollinator interactions, are li

意 见 箱

匿名:登录

个人用户登录

找回密码

第三方账号登录

忘记密码

个人用户注册

必须为有效邮箱
6~16位数字与字母组合
6~16位数字与字母组合
请输入正确的手机号码

信息补充