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Showing 1–6 of 6 results
Advanced filters: Author: Rachel Hestrin Clear advanced filters

  • Rachel Hestrin et al. examine the synergies between mycorrhizal fungi and soil microbes that mediate plant nitrogen acquisition. They show that non-additive effects of fungi and soil microbes may be responsible for more than half of the nitrogen that arbuscular mycorrhizal plants derive from organic matter.

    • Rachel Hestrin
    • Edith C. Hammer
    • Johannes Lehmann
    ResearchOpen Access
    Communications Biology
    Volume: 2, P: 1-9

  • Fire-derived organic matter (OM) is present throughout the environment, and its impact on nutrient cycling remains poorly understood. Here, the authors show that this pyrogenic OM can retain large quantities of ammonia through covalent bond formation, thereby exerting an important control on nitrogen cycling.

    • Rachel Hestrin
    • Dorisel Torres-Rojas
    • Johannes Lehmann
    ResearchOpen Access
    Nature Communications
    Volume: 10, P: 1-8

  • Organic matter associated with reactive soil minerals is assumed to be the most persistent terrestrial carbon pool. This work introduces a novel mechanistic framework for the vulnerability of this vast carbon reservoir to disruption in the rhizosphere.

    • Tobias Bölscher
    • Zoe G. Cardon
    • Marco Keiluweit
    ReviewsOpen Access
    Nature Communications
    Volume: 16, P: 1-14

  • The dynamic qualities of fact-cycling mineral-associated organic matter depend on chemistry between minerals and organic matter, their interactions, and the destabilizing forces causing decomposition, according to a review of recent studies on mineral-associated organic matter across ecosystems

    • Andrea Jilling
    • A. Stuart Grandy
    • Em D. Whalen
    ReviewsOpen Access
    Communications Earth & Environment
    Volume: 6, P: 1-14

  • Soil microorganisms shape global element cycles in life and death. In this Review, Sokol and colleagues explore how the biogeochemical cycling of organic matter depends on both living and dead soil microorganisms, their functional traits, and their interactions with the soil matrix and other organisms. They also discuss incorporating microbial life and death into trait-based models that predict soil biogeochemical dynamics.

    • Noah W. Sokol
    • Eric Slessarev
    • Jennifer Pett-Ridge
    Reviews
    Nature Reviews Microbiology
    Volume: 20, P: 415-430