Harvey E, Gounand I, Fronhofer EA, et al. Metaecosystem dynamics drive community composition in experimental, multi-layered spatial networks. Oikos. 2020;129:402–412.
[2]
Gounand I, Little CJ, Harvey E, et al. Global quantitative synthesis of ecosystem functioning across climatic zones and ecosystem types. Global Ecology and Biogeography. 2020;29:1139–1176.
[3]
Mächler E, Little CJ, Wüthrich R, et al. Assessing different components of diversity across a river network using eDNA. Environmental DNA. 2019;1:290–301.
[4]
Harvey E, Altermatt F. Regulation of the functional structure of aquatic communities across spatial scales in a major river network. Ecology. 2019;100:e02633.
[5]
Harvey E. Toward an empirical synthesis on the niche versus stochastic debate. PCIEcology. 2019;1:100023.
[6]
Firn J, McGree JM, Harvey E, et al. Leaf nutrients, not specific leaf area, are consistent indicators of elevated nutrient inputs. Nature Ecology & Evolution. 2019;1.
[7]
Santschi F, Gounand I, Harvey E, et al. Leaf litter diversity and structure of microbial decomposer communities modulate litter decomposition in aquatic systems. Functional Ecology. 2018;32:522–532.
[8]
Masahiro R, Harvey E, Robinson CT, et al. Nonlinear higher order abiotic interactions explain riverine biodiversity. J Biogeogr. 2018;45:628–639.
[9]
MacDougall AS, Harvey E, McCune JL, et al. Context-dependent interactions and the regulation of species richness in freshwater fish. Nature Communications. 2018;9:973.
[10]
Harvey E, MacDougall AS. Non-interacting impacts of fertilization and habitat area on plant diversity via contrasting assembly mechanisms. Diversity and Distributions. 2018;24:509–520.
[11]
Harvey E, Gounand Isabelle, Fronhofer Emanuel A., et al. Disturbance reverses classic biodiversity predictions in river-like landscapes. Proceedings of the Royal Society B: Biological Sciences. 2018;285:20182441.
[12]
Gounand I, Little CJ, Harvey E, et al. Cross-ecosystem carbon flows connecting ecosystems worldwide. Nature Communications. 2018;9:4825.
[13]
Gounand I, Harvey E, Little CJ, et al. On Embedding Meta-ecosystems into a Socioecological Framework: A Reply to Renaud et al. Trends in Ecology & Evolution. 2018;33:484–486.
[14]
Harvey E, Gounand I, Little CJ, et al. Upstream trophic structure modulates downstream community dynamics via resource subsidies. Ecol Evol. 2017;7:5724–5731.
[15]
Gounand I, Harvey E, Little CJ, et al. Meta-Ecosystems 2.0: Rooting the Theory into the Field. Trends in Ecology & Evolution. 2017;33:36–46.
[16]
Gounand I, Harvey E, Ganesanandamoorthy P, et al. Subsidies mediate interactions between communities across space. Oikos. 2017;126:972–979.
[17]
Harvey E, Gounand I, Ward CL, et al. Bridging ecology and conservation: from ecological networks to ecosystem function. J Appl Ecol. 2016;54:371–379.
[18]
Harvey E, Gounand I, Ganesanandamoorthy P, et al. Spatially cascading effect of perturbations in experimental meta-ecosystems. Proc R Soc B. 2016;283:20161496.
[19]
Gray SM, Poisot T, Harvey E, et al. Temperature and trophic structure are driving microbial productivity along a biogeographical gradient. Ecography. 2016;39:981–989.
[20]
Harvey E, MacDougall AS. Spatially Heterogeneous Perturbations Homogenize the Regulation of Insect Herbivores. The American Naturalist. 2015;186:623–633.
[21]
Harvey E, MacDougall AS. Habitat Loss and Herbivore Attack in Recruiting Oaks. The American Midland Naturalist. 2015;173:218–228.
[22]
Séguin A, Harvey É, Archambault P, et al. Body size as a predictor of species loss effect on ecosystem functioning. Scientific Reports. 2014;4:4616.
[23]
Harvey E, MacDougall AS. Trophic island biogeography drives spatial divergence of community establishment. Ecology. 2014;95:2870–2878.
[24]
Harvey E, Séguin A, Nozais C, et al. Identity effects dominate the impacts of multiple species extinctions on the functioning of complex food webs. Ecology. 2013;94:169–179.