Jordi Sardans1,2, Mireia Bartrons1,2,3, Olga Margalef1,2, Albert Gargallo-Garriga1,2, Ivan A Janssens4, Phillipe Ciais5, Michael Obersteiner6, Bjarni D Sigurdsson7, Han Y H Chen8, Josep Peñuelas1,2. 1. Global Ecology Unit CREAF-CEAB-UAB, CSIC, Cerdanyola del Vallès, 08193, Catalonia, Spain. 2. CREAF, Cerdanyola del Vallès, 08193, Catalonia, Spain. 3. BETA Technological Centre (Tecnio), Aquatic Ecology Group, University of Vic-Central University of Catalonia, Catalonia, 08500, Vic, Spain. 4. Research Group of Plant and Vegetation Ecology (PLECO), Department of Biology, University of Antwerp, B-2610, Wilrijk, Belgium. 5. Laboratoire des Sciences du Climat et de l'Environnement, IPSL, 91191, Gif-sur-Yvette, France. 6. International Institute for Applied Systems Analysis (IIASA), Ecosystems Services and Management, Schlossplatz 1, A-2361, Laxenburg, Austria. 7. Agricultural University of Iceland, Hvanneyru, 311, Borgarnes, Iceland. 8. Faculty of Natural Resources Management, Lakehead University, 955 Oliver Road, Thunder Bay, ON, P7G 1A6, Canada.
Abstract
Plant invasion is an emerging driver of global change worldwide. We aimed to disentangle its impacts on plant-soil nutrient concentrations. We conducted a meta-analysis of 215 peer-reviewed articles and 1233 observations. Invasive plant species had globally higher N and P concentrations in photosynthetic tissues but not in foliar litter, in comparison with their native competitors. Invasive plants were also associated with higher soil C and N stocks and N, P, and K availabilities. The differences in N and P concentrations in photosynthetic tissues and in soil total C and N, soil N, P, and K availabilities between invasive and native species decreased when the environment was richer in nutrient resources. The results thus suggested higher nutrient resorption efficiencies in invasive than in native species in nutrient-poor environments. There were differences in soil total N concentrations but not in total P concentrations, indicating that the differences associated to invasive plants were related with biological processes, not with geochemical processes. The results suggest that invasiveness is not only a driver of changes in ecosystem species composition but that it is also associated with significant changes in plant-soil elemental composition and stoichiometry.
Plant invasion is an emerging driver of global change worldwide. We aimed to disentangle its impacts on plant-soil nutrient concentrations. We conducted a meta-analysis of 215 peer-reviewed articles and 1233 observations. Invasive plant species had globally higher N and P concentrations in photosynthetic tissues but not in foliar litter, in comparison with their native competitors. Invasive plants were also associated with higher soil C and Nn class="Species">stocks anpan>d N, P, anpan>d K availabilities. The differenpan>ces in N anpan>d P concenpan>trations in photosynpan>thetic tissues anpan>d in soil total C anpan>d N, soil N, P, anpan>d K availabilities betweenpan> invasive anpan>d native species decreased whenpan> the enpan>vironmenpan>t was richer innutrienpan>t resources. The results thus suggested higher nutrienpan>t resorption efficienpan>cies in invasive thanpan> innative species innutrienpan>t-poor enpan>vironmenpan>ts. There were differenpan>ces in soil total N concenpan>trations but not in total P concenpan>trations, indicating that the differenpan>ces associated to invasive planpan>ts were related with biological processes, not with geochemical processes. The results suggest that invasivenpan>ess is not only a driver of chanpan>ges in ecosystem species composition but that it is also associated with significanpan>t chanpan>ges in planpan>t-soil elemenpan>tal composition anpan>d stoichiometry.
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