about
Multivariate Meta-Analysis of Brain-Mass Correlations in Eutherian MammalsCollapse of an ecological network in Ancient EgyptFood-web structure and ecosystem services: insights from the SerengetiEffects of altered offshore food webs on coastal ecosystems emphasize the need for cross-ecosystem management.The assembly, collapse and restoration of food webs.The Serengeti food web: empirical quantification and analysis of topological changes under increasing human impact.Consumer-resource dynamics: quantity, quality, and allocation.Modifying modifiers: what happens when interspecific interactions interact?The ecological and evolutionary implications of merging different types of networks.Contrasting ecosystem-effects of morphologically similar copepodsComplexity of multitrophic interactions in a grassland ecosystem depends on plant species diversity.More than a meal… integrating non-feeding interactions into food webs.Spatially variable synergistic effects of disturbance and additional nutrients on kelp recruitment and recovery.Correlated loss of ecosystem services in coupled mutualistic networks.One hundred years of population ecology: Successes, failures and the road ahead.Integrating Ecosystem Engineering and Food Web Ecology: Testing the Effect of Biogenic Reefs on the Food Web of a Soft-Bottom Intertidal Area.Soil networks become more connected and take up more carbon as nature restoration progresses.Nutritional indicators and their uses in ecology.Indirect effects of ecosystem engineering combine with consumer behaviour to determine the spatial distribution of herbivory.Simple rules describe bottom-up and top-down control in food webs with alternative energy pathways.Effects of trophic similarity on community composition.Ecosystem assembly rules: the interplay of green and brown webs during salt marsh succession.Ecosystem engineering strengthens bottom-up and weakens top-down effects via trait-mediated indirect interactions.Synergistic impacts of habitat loss and fragmentation on model ecosystems.How habitat-modifying organisms structure the food web of two coastal ecosystems.The multilayer nature of ecological networks.The role of metal ions in biological oxidation - the past and the presentUnder niche construction: an operational bridge between ecology, evolution, and ecosystem scienceSoil and Freshwater and Marine Sediment Food Webs: Their Structure and FunctionThe effects of space and diversity of interaction types on the stability of complex ecological networksREVIEW: Predictive ecology in a changing worldCascading predator control interacts with productivity to determine the trophic level of biomass accumulation in a benthic food webThe role of recruitment and behaviour in the formation of mussel-dominated assemblages: an ontogenetic and taxonomic perspectiveSize-dependent loss of aboveground animals differentially affects grassland ecosystem coupling and functionsNet-Net Auto Machine Learning (AutoML) Prediction of Complex EcosystemsFoundation species enhance food web complexity through non-trophic facilitationIntegrating ecosystem engineering and food webs
P2860
Q28598196-0D30B5F4-1C4F-4942-BE4F-1E4A24FE5343Q28654388-27BDB142-A642-4F36-8B36-48144058A8ACQ28754327-20515615-6D75-4CDB-862F-7C8A2D436347Q30461407-9E0AD621-075E-4E32-9195-09955C0D2D7AQ33447101-35A8D84F-88A9-4D5D-884A-F99040826D51Q33771087-4FFAD176-C46D-470D-96C3-F7526FD15903Q33809254-AA9B2D70-8144-4B61-B4EE-C23275AB5B43Q33895743-65FFDB44-C1CE-4C67-979D-6C11F039E877Q34032835-5B0A2DE4-E367-46A2-956C-71A0F6066428Q34090956-59C380C4-C1A7-480B-9E9C-930B223A10BFQ34146835-2C42B84D-4B26-42FD-A5F1-204A20CDA502Q34152934-17C2149E-2494-412F-95D6-AFF104C81BC7Q35113547-152F3571-7BAB-425C-BD3E-7F912B9FA242Q35164727-6A7AED33-A242-4BCB-B5B9-EA841E5F4F6EQ35558273-7FF4013C-18E5-4F07-A08F-7B003BF9BA7CQ35818893-528A2463-7FFD-43A6-BAE6-444B0A8449E3Q36273724-142A6B6D-4DC8-4ED4-AB73-488B635075CFQ38080939-094BB697-3609-44DE-9B11-F11FA5C1001BQ38686567-933A49A5-A017-41AD-AEBF-06D4F2E9047AQ39597212-89E72C34-EF79-4E4B-8C44-4D179ED5A357Q46828465-92D07446-0265-4768-A820-2824BC3E0941Q50486855-1709BAC8-0BDC-46D7-A9D3-825FD0F15C46Q51178565-D83A2358-2488-454F-91AF-FFE462A4AEB1Q51265683-601B7D61-86CB-49C7-98B2-6B9EB991D3D6Q51302022-31F1C339-2EC2-402E-8A49-C3DD198C1C83Q54686781-E0956BD0-322E-4188-90BB-82FBC7935664Q55980796-6B9F2094-A7CD-44AF-AD83-77D301436B19Q56430924-73A0DCB9-1E58-4A4B-8D4C-E1F1823ECDEAQ56996758-73AC59AD-2BD0-425D-827F-6950965DE303Q57018946-91ED7D8F-5537-407C-8419-40933EBE64E7Q57051490-5C1BB4F9-D50B-447E-BE96-C9622A39E1E0Q57068588-7C6D8D70-64E9-4214-AA07-1D2A8B6C463DQ58346331-979CEBE2-BA77-4C6E-8A01-5E0EF0423EFEQ58751922-1ECABC80-CD49-4553-B1A2-15126ED65131Q58771042-8B36A358-7B9E-43D3-98B8-A9CAAF2C98F3Q58782550-D37D41D6-167A-4921-B1EE-49EE29DAE832Q58800364-563FE31F-CA8F-443E-86E5-CE953BAF042C
P2860
description
2009 nî lūn-bûn
@nan
2009 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
2009 թվականի հունիսին հրատարակված գիտական հոդված
@hy
2009年の論文
@ja
2009年論文
@yue
2009年論文
@zh-hant
2009年論文
@zh-hk
2009年論文
@zh-mo
2009年論文
@zh-tw
2009年论文
@wuu
name
Parallel ecological networks in ecosystems
@ast
Parallel ecological networks in ecosystems
@en
Parallel ecological networks in ecosystems
@nl
type
label
Parallel ecological networks in ecosystems
@ast
Parallel ecological networks in ecosystems
@en
Parallel ecological networks in ecosystems
@nl
prefLabel
Parallel ecological networks in ecosystems
@ast
Parallel ecological networks in ecosystems
@en
Parallel ecological networks in ecosystems
@nl
P2093
P2860
P50
P356
P1476
Parallel ecological networks in ecosystems
@en
P2093
B Klemens Eriksson
Michel Loreau
Neil Rooney
P2860
P304
P356
10.1098/RSTB.2008.0222
P407
P577
2009-06-01T00:00:00Z
2009-06-27T00:00:00Z