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Showing 1–20 of 20 results
Advanced filters: Author: Cesar Terrer Clear advanced filters

  • Elevated atmospheric CO2 has stimulated plant growth, yet the future land carbon sink may be constrained in part by nutrient availability. Here the authors review plant nutrient acquisition strategies and the need for better representation in models to improve predictions of land carbon uptake.

    • Trevor W. Cambron
    • Joshua B. Fisher
    • César Terrer
    Reviews
    Nature Climate Change
    Volume: 15, P: 935-946

  • A global synthesis of experiments reveals that increases in plant biomass under conditions of elevated CO2 mean that plants need to mine the soil for nutrients, which decreases soil’s ability to store carbon. In forests, elevated CO2 generally seems to greatly increase plant biomass, but not soil carbon. In grasslands, by contrast, it causes small changes in biomass and large increases in soil carbon.

    • César Terrer
    News & Views
    Nature

  • Elevated CO2 increases plant biomass, providing a negative feedback on global warming. Nutrient availability was found to drive the magnitude of this effect for the majority of vegetation globally, and analyses indicated that CO2 will continue to fertilize plant growth in the next century.

    • César Terrer
    • Robert B. Jackson
    • Oskar Franklin
    Research
    Nature Climate Change
    Volume: 9, P: 684-689

  • Mycorrhizas—mutualistic relationships formed between fungi and most plant species—are functionally linked to soil carbon stocks. Here the authors map the global distribution of mycorrhizal plants and quantify links between mycorrhizal vegetation patterns and terrestrial carbon stocks.

    • Nadejda A. Soudzilovskaia
    • Peter M. van Bodegom
    • Leho Tedersoo
    ResearchOpen Access
    Nature Communications
    Volume: 10, P: 1-10

  • This study provides a nuanced understanding of the trade-offs and synergies between carbon sequestration goals and water security, and offers a data–model integrated framework to guide ecosystem restoration strategies under water resource constraints.

    • Shouzhang Peng
    • César Terrer
    • Kailiang Yu
    Research
    Nature Water
    Volume: 2, P: 1071-1081

  • Grazing has been shown to have diverse effects on soil carbon, with local variation. This study assesses carbon changes related to grazing globally and finds that, although grazing has reduced soil carbon stocks, managing intensity could increase carbon uptake in both soils and vegetation.

    • Shuai Ren
    • César Terrer
    • Dan Liu
    Research
    Nature Climate Change
    Volume: 14, P: 380-386

  • Fire impacts soil organic carbon stocks, in addition to aboveground biomass, yet changes are not well constrained. This study shows that more soil carbon is lost from drier ecosystems than humid ones and that the carbon sink is increasing in savannah–grassland regions with declining burned area.

    • Adam F. A. Pellegrini
    • Peter B. Reich
    • Robert B. Jackson
    ResearchOpen Access
    Nature Climate Change
    Volume: 13, P: 1089-1094

  • Using observed data, Guo et al. present a comprehensive assessment of soil organic carbon density and stock in global urban greenspaces. This study elucidates the global distribution of soil organic carbon in urban greenspaces and provides a baseline for future projection.

    • Hongbo Guo
    • Enzai Du
    • Robert B. Jackson
    ResearchOpen Access
    Nature Communications
    Volume: 15, P: 1-9

  • Using tree community data from 29 tropical and temperate sites that have experienced multi-decadal alterations in fire frequency, the authors show repeated burning generally reduces stem density and basal area, with most pronounced effects in savanna ecosystems and in sites with strong wet seasons or strong dry seasons.

    • Adam F. A. Pellegrini
    • Tyler Refsland
    • Robert B. Jackson
    Research
    Nature Ecology & Evolution
    Volume: 5, P: 504-512

  • Spatial patterns in the phosphorus and nitrogen limitation in natural terrestrial ecosystems are reported from analysis of a global database of the resorption efficiency of nutrients by leaves.

    • Enzai Du
    • César Terrer
    • Robert B. Jackson
    Research
    Nature Geoscience
    Volume: 13, P: 221-226

  • Despite worldwide prevalence, post-agricultural landscapes remain one of the least constrained human-induced land carbon sinks. To appraise their role in rebuilding the planet’s natural carbon stocks through ecosystem restoration, we need to better understand their spatial and temporal legacies.

    • Stephen M. Bell
    • Samuel J. Raymond
    • César Terrer
    Comments & OpinionOpen Access
    Nature Communications
    Volume: 14, P: 1-4

  • The terrestrial biosphere stores carbon in a land carbon sink, offsetting emissions of carbon into the atmosphere. This Review demonstrates that the magnitude of the land carbon sink has increased over time, but that its stability in the future is less clear and depends on climate impacts and effective implementation of nature-based solutions.

    • Sophie Ruehr
    • Trevor F. Keenan
    • César Terrer
    Reviews
    Nature Reviews Earth & Environment
    Volume: 4, P: 518-534

  • Integrating natural selection and other organizing principles into next-generation vegetation models could render them more theoretically sound and useful for earth system applications and modelling climate impacts.

    • Oskar Franklin
    • Sandy P. Harrison
    • I. Colin Prentice
    Reviews
    Nature Plants
    Volume: 6, P: 444-453