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Data from: Multi-trophic ?-diversity mediates the effect of environmental gradients on the turnover of multiple ecosystem functions
负责人:
关键词:
multi-trophic;Biodiversity-ecosystem functioning;elevation gradient;path analyses;Alpine systems;?-diversity
DOI:
doi:10.5061/dryad.m2579m0
摘要:
ple ecosystem functions, we do not know yet which components of multi-trophic ?-diversity influence which ecosystem functions. 2. Here, we captured the biodiversity
Data from: Light availability impacts structure and function of phototrophic stream biofilms across domains and trophic levels
负责人:
关键词:
Protists;Transcriptomics;Algae;bacteria;Freshwater;Microbial Eukaryotes
DOI:
doi:10.5061/dryad.gj3vj
摘要:
on complex biofilms, or “microbial jungles”, where in analogy to forests, diverse and multi-trophic level communities lend stability to ecosystem functioning
Data from: Spatial insurance in multi-trophic metacommunities
负责人:
关键词:
trophic interactions;environmental change;Dispersal;metacommunity
DOI:
doi:10.5061/dryad.360k8v0
摘要:
of dispersal to mitigate effects of environmental change might vary among trophic groups, potentially resulting in changes in trophic interacti
Data from: Tree diversity increases robustness of multi-trophic interactions
负责人:
关键词:
Diospyros japonica;Tetramorium wroughtonii;Aphis gossypii;tri-trophic;Crematogaster cf. nawai;Tuberculatus radisectuae;Eutrichosiphum tattakanum;Cinnamomum camphora;bottom-up;aphid;Nyssa sinensis;Camponotus vitiosus;Aphis odinae;Camponotus albosparsus;Aphis aurantii;Tuberculatus querceus;Lachnus tropicalis;Pheidole roberti;Tuberculatus castanocallis;Technomyrmex brunneus;Phylloxera castanea;Idesia polycarpa;Tuberculatus indicus;Paraparatrechina sauteri;Siculaphis vittoriensis;Prenolepis shanialena;Pochazia speculum;Machilus leptophylla;Tuberculatus glauca;Cyclobalanopsis glauca;Iridomyrmex anceps;Tapinoma melanocephalum;Castanea henryi;Machilus thunbergii;Neonipponaphis pustulosis;Dilobocondyla fouqueti;Dolichoderus taprobanae;Kerria lacca;Pheidole noda;redundancy;Sapindus saponaria;Hemiptera;Phylloxera querceus;Crematogaster cf. rogenhoferi;Daphniphyllum oldhamii;Mollitrichosiphum tenuicorpus;Cervaphis quercus;Membracidae;Camponotus cf. compressus;Monomorium floricola;Eutrichosiphum radisectuae;Quercus serrata;Machilus grijsii;Melia azedarach;insect-plant interactions;Lithocarpus glaber;Eutrichosiphum sclerophyllum;Tuberculatus capitatus;Nylanderia flavipes;Phoebe bournei;Choerospondias axillaris;Castanopsis fargesii;Tuberculatus stigmatus;Carebara altinoda;Pristomyrmex punctatus;Celtis biondii;Camponotus pseudoirritans;Polyrhachis dives;Manglietia yuyuanensis;Castanopsis sclerophylla;Elaeocarpus chinensis;insect;Ailanthus altissima;Eutrichosiphum pasaniae;Elaeocarpus glabripetalus;stability;Betacallis querciphaga;Formicidae;Elaeocarpus japonicus;2011-2014;tree;Acer davidii;Castanopsis eyrei;Tuberculatus japonicus;Ochetellus glaber;BEF-China;Eutrichosiphum heterotrichum;Quercus phillyreoides;Paratrechina longicornis;Lepisiota cf. capensis;Quercus fabri;Schima superba;Myzus persicae;Aphis citricidus;Quercus acutissima;Prenolepis naoroji;Cyclobalanopsis myrsinaefolia;coccid;Triadica cochinchinensis;Castanopsis carlesii;biodiversity;ecosystem functioning;Meliosma flexuosa;ant;Triadica sebifera;Rhus chinensis;Diphyllaphis quercus;Pochazia obapicula;Technomyrmex obscurior;Alniphyllum fortunei;Greenidea pallidipes;Liquidambar formosana;Interaction;Tuberculatus ceroerythros;Betula luminifera;Koelreuteria bipinnata
DOI:
doi:10.5061/dryad.847km00
摘要:
Multi-trophic interactions maintain critical ecosystem functions. Biodiversity is declining globally, while responses of trophic interacti
Data from: Species traits as drivers of food web structure
负责人:
Laigle, Idaline
关键词:
functional structure network structure interactions
DOI:
doi:10.5061/dryad.1sg4j
摘要:
ure is the result of 1) the match between consumer and resource traits, which determine the occurence of a trophic interaction between them, and 2) the distributi
Data from: Ecosystem function in predator-prey food webs - confronting dynamic models with empirical data
负责人:
Curtsdotter, Alva
关键词:
multi-trophic functioning predator-prey interactions species traits allometry body mass conservation biological control herbivore suppression agricultural pests
DOI:
doi:10.5061/dryad.41b5b06
摘要:
l. Despite this, our understanding of ecosystem function in multi-trophic communities is poor, and research has been limited to either manipulati
Data from: Functional diversity promotes phytoplankton resource use efficiency
负责人:
关键词:
causality test;nonlinear dynamical system;functional diversity;Biodiversity-ecosystem functioning;phytoplankton;Trait-based approach;Holocene;resource use efficiency
DOI:
doi:10.5061/dryad.271k5k0
摘要:
1.Understanding the relationship between biodiversity and ecosystem functioning (BEF) is a central topic in ecology. Multi?traits based
Data from: Contrasting patterns of insect herbivory and predation pressure across a tropical rainfall gradient
负责人:
关键词:
precipitation;Panama;community compensatory trend;species coexistence.;Herbivory;Janzen-Connell
DOI:
doi:10.5061/dryad.vq8h7
摘要:
support the need for a multi-trophic perspective to understand fully the processes contributing to diversity and ecosystem functioning.
Data from: Divergent effects of forest edges on host distribution and seed disperser activity influence mistletoe distribution and recruitment
负责人:
关键词:
edge effects;Campsidium valdivianum;trophic interactions;Seed dispersal;Host-parasite interaction;Tristerix corymbosus;Dromiciops gliroides
DOI:
doi:10.5061/dryad.sp698
摘要:
on, the habitat requirements, and the sensitivity to disturbances of all interacting partners. Hence, assessing the effects of such anthropogenic disturbances on multi

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