about
Recurrent camouflaged invasions and dispersal of an Asian freshwater gastropod in tropical AfricaPhytoplankton Diversity Effects on Community Biomass and Stability along Nutrient Gradients in a Eutrophic LakeQuantifying drylands' drought resistance and recovery: the importance of drought intensity, dominant life history and grazing regime.Stability and complexity in model meta-ecosystemsConceptualising the interactive effects of climate change and biological invasions on subarctic freshwater fish.Species-level and community-level responses to disturbance: a cross-community analysis.Ecosystem-level effects of a globally spreading invertebrate invader are not moderated by a functionally similar native.Experimental evidence for strong stabilizing forces at high functional diversity of aquatic microbial communities.Single gene locus changes perturb complex microbial communities as much as apex predator loss.Bounds on Transient Instability for Complex EcosystemsEnvironmental context and magnitude of disturbance influence trait-mediated community responses to wastewater in streamsThe Relationship between Phytoplankton Evenness and Copepod Abundance in Lake Nansihu, China.Biodiversity increases functional and compositional resistance, but decreases resilience in phytoplankton communities.Loss of predator species, not intermediate consumers, triggers rapid and dramatic extinction cascades.Stability of an adaptive hybrid community.Localised Effects of a Mega-Disturbance: Spatiotemporal Responses of Intertidal Sandy Shore Communities to the 2010 Chilean EarthquakeDemystifying computer science for molecular ecologists.Resilience in ecotoxicology: Toward a multiple equilibrium concept.Invaded grassland communities have altered stability-maintenance mechanisms but equal stability compared to native communities.Persistence of a stage-structured food-web.Weighting and indirect effects identify keystone species in food webs.Synchronisation and stability in river metapopulation networks.Life history traits and functional processes generate multiple pathways to ecological stability.Robustness of rigid and adaptive networks to species loss.Decomposing multiple dimensions of stability in global change experiments.How ecosystems recover from pulse perturbations: A theory of short- to long-term responses.Evolution, plasticity and evolving plasticity of phenology in the tree species Alnus glutinosa.On the complex dynamics of savanna landscapes.A quantitative framework for assessing ecological resilience.Eco-evolutionary dynamics, density-dependent dispersal and collective behaviour: implications for salmon metapopulation robustness.Eco-evolutionary feedbacks promote fluctuating selection and long-term stability of antagonistic networks.Defining invasiveness and invasibility in ecological networksEcosystem change and establishment of an invasive snail alter gastropod communities in long-lived Lake MalawiA trophic interaction framework for identifying the invasive capacity of novel organismsThe effects of space and diversity of interaction types on the stability of complex ecological networksFunctional and structural stability are linked in phytoplankton metacommunities of different connectivityCan monitoring data contribute to the biodiversity-ecosystem function debate? Evaluating data from a highly dynamic ecosystemTemporal variability of a single population can determine the vulnerability of communities to perturbationsWater-level fluctuations regulate the structure and functioning of natural lakesNutrient enrichment alters the consequences of species loss
P2860
Q28651645-8296191E-7FB5-4CC0-9895-D7E4581C02B5Q30363916-DB812D46-AD79-4609-BB77-4CC2935F004FQ30870500-87EA25EF-EB1B-45C0-8C5D-7E9220A9C305Q33363766-EDA33AC4-07B4-4A20-8E4D-AE5F60AE72C4Q33817127-82FCCD42-39CF-40D0-86A6-0BC0DDE03040Q35233051-08DE5018-C5CD-4CD7-A0DD-0A0D332CC599Q35641025-A0D5FD02-03AE-4034-9691-B48BA2E77A9DQ35734537-55DBEB5C-4708-4306-B36F-D712B7CB2B2FQ35768627-1A99741F-EF81-4B86-AEFD-0F73519E6E2BQ36057883-EE3DF7F6-6918-48F9-95A8-94B267B028D4Q36102463-358A3075-70C8-43F6-9BB4-8A241085936CQ36121869-8894E0C3-CCD8-48FC-AF5D-9587E2A7D9A5Q36212122-4E33035F-1D29-424F-A242-F7DD8D92703DQ36324113-19F72280-D5EC-492C-AC65-0F86973B31FEQ37023717-A8063FAF-FCA9-4796-A0B5-5C8DE50E0DD5Q38379067-1722D525-9672-4128-8147-D484EEB4261EQ38396682-5B1B90E5-47E9-4300-B1DD-D400C28FE078Q39298387-40DEA457-2915-46AF-A646-CE07665619DFQ39596502-E679842E-2876-452F-9B72-04E6C5BA6BDEQ41478523-FB3D993E-06D0-4CCE-9108-684C684B9CDFQ42398877-911C337E-C365-4D28-A889-7F6FC1A1C5A8Q45395882-4A8B276C-83B1-49EB-8920-EF775751ADD4Q46145222-AA5464EA-E02E-4F4D-A06E-DE119C9E51B8Q46245945-11C605BB-9744-4200-9FB8-172690D00BC8Q46268254-F7A37B6F-C170-439F-966A-CB78CAF7B4BEQ46292007-613F9DA0-A286-491B-8CF8-C1FAF1122A68Q46651464-7920149D-340F-4E9B-85A2-21E4D108B41EQ47555236-A0EC63F9-E457-480A-9292-3ACF3CFD900BQ47716938-C7CDAAC4-BABD-4297-8824-18853FF20C17Q51144574-555E5068-D5C6-43B9-B33C-3145B529DCC7Q51147361-11BF9C64-19C4-4673-84B0-A6A0BD24F378Q56410906-410F98DB-69F6-49D7-B5E9-92E1CF2D0FC0Q56440041-999EF80A-90C5-4758-A7A6-54E153F68636Q56924108-C2594D4D-3B25-489E-ACCD-FB5A3DA56748Q57018946-30D3B2B7-63CB-4199-AA3C-F41034062586Q57068413-AD4C0587-E29A-476D-AD81-B2A4E356EACDQ57068515-369C2128-C870-435E-B8E3-5727E04A7410Q57232119-4B05D76F-FFEC-4A46-8255-4CAEACC33D02Q57232120-88C2A7FD-FF3B-4837-AB13-D3D7BE62D25EQ57232124-249CA5C6-8CE1-416E-92E0-85804680E93B
P2860
description
2013 nî lūn-bûn
@nan
2013年の論文
@ja
2013年学术文章
@wuu
2013年学术文章
@zh-cn
2013年学术文章
@zh-hans
2013年学术文章
@zh-my
2013年学术文章
@zh-sg
2013年學術文章
@yue
2013年學術文章
@zh
2013年學術文章
@zh-hant
name
On the dimensionality of ecological stability.
@en
On the dimensionality of ecological stability.
@nl
type
label
On the dimensionality of ecological stability.
@en
On the dimensionality of ecological stability.
@nl
prefLabel
On the dimensionality of ecological stability.
@en
On the dimensionality of ecological stability.
@nl
P50
P356
P1433
P1476
On the dimensionality of ecological stability.
@en
P2093
Mafalda Viana
Mark C Emmerson
P304
P356
10.1111/ELE.12086
P407
P50
P577
2013-02-18T00:00:00Z