Nutrient stoichiometry and land use rather than species richness determine plant functional diversity

Busch, Verena; Klaus, Valentin H.; Penone, Caterina; Schäfer, Deborah; Boch, Steffen; Prati, Daniel; Müller, Jörg; Socher, Stephanie A.; Niinemets, Ülo; Peñuelas, Josep; Hölzel, Norbert; Fischer, Markus; Kleinebecker, Till

doi:10.1002/ece3.3609

Cited by 28 publications

(32 citation statements)

References 91 publications

(171 reference statements)

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“…This is in line with the overall loss of species richness along increasing gradients of compound land‐use ( ρ = −0.415, p < 0.001), mowing ( ρ = −0.399, p < 0.001) and fertilization intensity ( ρ = −0.285, p < 0.001). Many studies corroborate our results, showing plant species richness decreasing strongly especially due to the intensification of fertilization (e.g., Kleinebecker et al., ; Zechmeister et al., ), mowing or combined effects (Busch et al., ; Socher et al., ).…”

Section: Discussionsupporting

confidence: 89%

“…All of them can have great impact on distribution, establishment and survival of grassland species (Allan et al., ; Díaz et al., ; Drobnik et al., ; Jongman, ). However, a previous study showed that the effects of climatic, topographic and edaphic parameters on community‐weighted mean values of plant traits were less important, whilst land use and nutrient stoichiometry had the greatest impact (Busch et al., ).…”

Section: Introductionmentioning

confidence: 97%

“…The assembly, coexistence and persistence of plant species along environmental gradients and the occupation of available ecological niches are based on the species’ responses to disturbance and stress (Silvertown, ). These responses are, for instance, driven by species‐specific life‐history traits and ecological strategies for acquiring and using resources or for tolerating or avoiding disturbance (Busch et al., ; Devictor et al., ; Hodgson, Wilson, Hunt, Grime, & Thompson, ).…”

Section: Introductionmentioning

confidence: 99%

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Will I stay or will I go? Plant species‐specific response and tolerance to high land‐use intensity in temperate grassland ecosystems

Busch

Klaus

Schäfer

et al. 2019

J Vegetation Science

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Aim: Intensification of land use strongly impacts plant communities by causing shifts in taxonomic and functional composition. Mechanisms of land use-induced biodiversity losses have been described for temperate grasslands, but a quantitative assessment of species-specific occurrence optima and maximum tolerance (niche breadth) to land-use intensity (LUI) in Central European grasslands is still lacking.Location: Temperate, managed permanent grasslands in three regions of Germany. Methods:We combined extensive field work with a null model-randomization approach, defined a "habitat niche" for each plant species based on occurrence and abundance across 150 grassland sites differing in LUI (i.e., amount of fertilizer, mowing/grazing intensity and a compound index of these), and assessed their realized niche breadth (tolerance). Underlying mechanisms driving species' responses to LUI were assessed by relating plant functional traits, Ellenberg indicator values (EIV), Grime's ecological strategies (CSR) and Briemle utilization numbers.Results: Out of 151 plant species, 34% responded negatively, whereas 10% responded positively to high LUI. This pattern was mainly driven by species' response to fertilization and mowing frequency; grazing intensity response was less pronounced.Positively reacting species, displaying broader niches, were associated with competition-related functional traits, high EIV for nutrient supply and moisture and high mowing tolerance under spatiotemporally variable conditions. Negatively responding species, displaying relatively narrow niches confined to spatiotemporally homogeneous low LUI sites, were associated with a nutrient-retentive strategy, under nutrientpoor, base-rich soil conditions. Conclusion: Our analyses of individual species' reactions clearly demonstrate that species responding negatively to high LUI display little tolerance towards intensive fertilization and mowing, leading to plant diversity loss; whereas grazing partly thwarts these effects by creating new habitat niches and promoting ruderal species.Our approach can be applied to other habitat types and biogeographical regions in | 675 Additional supporting information may be found online in the Supporting Information section at the end of the article. Appendix S1. Main geographic and environmental characteristics of the Biodiversity Exploratory Regions Appendix S2. Ecological relevance of selected life history traits and ecological strategy types Appendix S3. Exploratory statistic values of all analysed variables and parameters over all species and sites Appendix S4. Correlation analysis of all analysed parameters with abundance-weighted mean niches and abundance-weighted niche breadth Appendix S5. Exploratory statistic values of species responding negatively, neutrally and positively to high intensity land-use Appendix S6. Complete list of plant species-specific abundanceweighted niche values and abundance-weighted niche breadths Appendix S7. Distribution of plant functional traits among "Winner", "Neutral" and "Loser" spec...

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Section: Discussionsupporting

confidence: 89%

Section: Introductionmentioning

confidence: 97%

Section: Introductionmentioning

confidence: 99%

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Will I stay or will I go? Plant species‐specific response and tolerance to high land‐use intensity in temperate grassland ecosystems

Busch

Klaus

Schäfer

et al. 2019

J Vegetation Science

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“…For example, the typically negative relationships between N:P ratios and the diversities of zoo-and phytoplankton (He et al, 2013) are associated with the shortened pathways and lower transfer rates of matter and energy along trophic webs under P limitation (Elser et al, 2000). Nutrient limitation and high N:P ratios are consistently associated with shifts from fast-to slow-growing species in all types of media (Busch et al, 2018;Penuelas et al, 2013), and soil microbial and decomposer faunal compositions are consistently associated with soil and litter N:P ratios (Barantal, Schimann, Fromin, & Hättenschwiler, 2014;Delgado-Baquerizo et al, 2017;Eo & Park, 2016;Lee et al, 2015Lee et al, , 2017Leflaive et al, 2008;Ren et al, 2017;Su et al, 2015).…”

Section: Aquatic Ecosystemsmentioning

confidence: 99%

Anthropogenic global shifts in biospheric N and P concentrations and ratios and their impacts on biodiversity, ecosystem productivity, food security, and human health

Peñuelas

Janssens

Ciais

et al. 2020

Global Change Biology

190

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The availability of carbon (C) from high levels of atmospheric carbon dioxide (CO2) and anthropogenic release of nitrogen (N) is increasing, but these increases are not paralleled by increases in levels of phosphorus (P). The current unstoppable changes in the stoichiometries of C and N relative to P have no historical precedent. We describe changes in P and N fluxes over the last five decades that have led to asymmetrical increases in P and N inputs to the biosphere. We identified widespread and rapid changes in N:P ratios in air, soil, water, and organisms and important consequences to the structure, function, and biodiversity of ecosystems. A mass‐balance approach found that the combined limited availability of P and N was likely to reduce C storage by natural ecosystems during the remainder of the 21st Century, and projected crop yields of the Millennium Ecosystem Assessment indicated an increase in nutrient deficiency in developing regions if access to P fertilizer is limited. Imbalances of the N:P ratio would likely negatively affect human health, food security, and global economic and geopolitical stability, with feedbacks and synergistic effects on drivers of global environmental change, such as increasing levels of CO2, climatic warming, and increasing pollution. We summarize potential solutions for avoiding the negative impacts of global imbalances of N:P ratios on the environment, biodiversity, climate change, food security, and human health.

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“…Management effects are likely to be indirect via shaping the aboveground vegetation by applying certain management techniques such as mowing and grazing, which will influence seed banks differently as time and manner of harvest (biomass removal) decide whether seed set is successful and species can contribute seeds to the seed bank or not (Bekker et al, 1997;Wellstein et al, 2007). Fertilization might have two opposing effects on soil seed banks, as on the one hand the addition of further nutritional resources enables plants to invest more in sexual reproduction, but on the other hand fertilization also shifts the aboveground community towards highly productive grass, which are known to poorly contribute to a persistent seed bank (Busch et al, 2017;Thompson and Grime, 1979). Thus, not just presence or absence of a factor, i.e.…”

Section: Introductionmentioning

confidence: 99%

Effects of mowing, grazing and fertilization on soil seed banks in temperate grasslands in Central Europe

Klaus

Schäfer

Prati

et al. 2018

Agriculture, Ecosystems & Environment

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Highlights (max 85 characters incl. spaces per point)-Grassland management has complex, direct and indirect effects on soil seed banks-Grazing increased species richness of soil seed banks-Mowing and fertilization decreased species richness and seedling density-Seed banks are indirectly influenced by factors shaping the aboveground vegetation-Grazed grasslands might be more resilient towards soil disturbances than mown ones

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Nutrient stoichiometry and land use rather than species richness determine plant functional diversity

Cited by 28 publications

References 91 publications

Will I stay or will I go? Plant species‐specific response and tolerance to high land‐use intensity in temperate grassland ecosystems

Will I stay or will I go? Plant species‐specific response and tolerance to high land‐use intensity in temperate grassland ecosystems

Anthropogenic global shifts in biospheric N and P concentrations and ratios and their impacts on biodiversity, ecosystem productivity, food security, and human health

Effects of mowing, grazing and fertilization on soil seed banks in temperate grasslands in Central Europe

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