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Showing 1–13 of 13 results
Advanced filters: Author: Gabriel Yvon-Durocher Clear advanced filters
  • Warmer temperatures could increase the growth and metabolic rates of microbes. Here, the authors assemble a dataset of thermal performance curves for over 400 bacteria and archaea, showing that metabolic rates are likely to increase under warming, with implications for global carbon cycling.

    • Thomas P. Smith
    • Thomas J. H. Thomas
    • Samrāt Pawar
    ResearchOpen Access
    Nature Communications
    Volume: 10, P: 1-11
  • The sensitivity of ecosystem respiration to seasonal changes in temperature is shown to be remarkably similar for a wide range of ecosystem types spanning the globe; however, terrestrial and aquatic ecosystems differ markedly in their temperature sensitivity over annual timescales.

    • Gabriel Yvon-Durocher
    • Jane M. Caffrey
    • Andrew P. Allen
    Research
    Nature
    Volume: 487, P: 472-476
  • A seven-year experimental pond experiment reveals that warming can fundamentally alter the carbon balance of small ponds over a number of years, reducing their capacity to sequester CO2 and increasing emissions of CH4.

    • Gabriel Yvon-Durocher
    • Chris J. Hulatt
    • Mark Trimmer
    Research
    Nature Climate Change
    Volume: 7, P: 209-213
  • In artificial ponds exposed to seven years of experimental warming, energy transfer between two trophic levels of freshwater plankton decreased by 56% and the biomass of both levels was reduced.

    • Diego R. Barneche
    • Chris J. Hulatt
    • Gabriel Yvon-Durocher
    Research
    Nature
    Volume: 592, P: 76-79
  • Given the size differences between the autotrophs in aquatic and terrestrial systems, it is unclear whether the same metabolic scaling patterns apply in both groups. Here the authors unify previous datasets and show that plankton and trees follow similar power-law scaling of individual size distributions.

    • Daniel M. Perkins
    • Andrea Perna
    • Gabriel Yvon-Durocher
    ResearchOpen Access
    Nature Communications
    Volume: 10, P: 1-8
  • Glacier shrinkage intensifies phosphorus limitation but alleviates carbon limitation in glacier-fed streams, according to analyses of resource stoichiometry and microbial metabolism in glacier-fed streams from mountain regions.

    • Tyler J. Kohler
    • Massimo Bourquin
    • Tom J. Battin
    ResearchOpen Access
    Nature Geoscience
    Volume: 17, P: 309-315
  • Methane emissions are determined by the balance of microbial methane production relative to consumption. Warming drives larger increases in methane production than consumption in experimental ponds, suggesting that natural ecosystems may represent a positive feedback under climate change.

    • Yizhu Zhu
    • Kevin J. Purdy
    • Mark Trimmer
    Research
    Nature Climate Change
    Volume: 10, P: 685-690
  • Multiple plastid-derived signals have been proposed but not shown to move to the nucleus to promote plant acclimation to fluctuating light. Here the authors use a fluorescent hydrogen peroxide sensor to provide evidence that H2O2 is transferred directly from chloroplasts to nuclei to control nuclear gene expression.

    • Marino Exposito-Rodriguez
    • Pierre Philippe Laissue
    • Philip M. Mullineaux
    ResearchOpen Access
    Nature Communications
    Volume: 8, P: 1-11
  • Meta-analyses show that the temperature dependence of methane fluxes scales consistently across populations of methanogens, microbial communities and whole ecosystems, and that this temperature dependence is higher than for respiration and photosynthesis; this indicates that global warming may impact the relative contributions of CO2 and CH4 to total greenhouse gas emissions.

    • Gabriel Yvon-Durocher
    • Andrew P. Allen
    • Paul A. del Giorgio
    Research
    Nature
    Volume: 507, P: 488-491
  • The future of the land carbon sink depends on the temperature response of ecosystem respiration. This Review explores observational and experimental evidence for a unimodal temperature response of respiration and the implications for carbon sequestration predictions.

    • Shuli Niu
    • Weinan Chen
    • Yiqi Luo
    Reviews
    Nature Reviews Earth & Environment
    Volume: 5, P: 559-571