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Showing 1–8 of 8 results
Advanced filters: Author: Eric Arets Clear advanced filters

  • Wood density is a key control on tree biomass, and understanding its spatial variation improves estimates of forest carbon stock. Sullivan et al. measure >900 forest plots to quantify wood density and produce high resolution maps of its variation across South American tropical forests.

    • Martin J. P. Sullivan
    • Oliver L. Phillips
    • Joeri A. Zwerts
    ResearchOpen Access
    Nature Communications
    Volume: 16, P: 1-12

  • Tree mortality has been shown to be the dominant control on carbon storage in Amazon forests, but little is known of how and why Amazon forest trees die. Here the authors analyse a large Amazon-wide dataset, finding that fast-growing species face greater mortality risk, but that slower-growing individuals within a species are more likely to die, regardless of size.

    • Adriane Esquivel-Muelbert
    • Oliver L. Phillips
    • David Galbraith
    ResearchOpen Access
    Nature Communications
    Volume: 11, P: 1-11

  • The authors analyse tree responses to an extreme heat and drought event across South America to understand long-term climate resistance. While no more sensitive to this than previous lesser events, forests in drier climates showed the greatest impacts and thus vulnerability to climate extremes.

    • Amy C. Bennett
    • Thaiane Rodrigues de Sousa
    • Oliver L. Phillips
    ResearchOpen Access
    Nature Climate Change
    Volume: 13, P: 967-974

  • Inventory data from 90 lowland Amazonian forest plots and a phylogeny of 526 angiosperm genera were used to show that taxonomic and phylogenetic diversity are both predictive of wood productivity but not of biomass variation.

    • Fernanda Coelho de Souza
    • Kyle G. Dexter
    • Timothy R. Baker
    Research
    Nature Ecology & Evolution
    Volume: 3, P: 1754-1761

  • The Amazon rainforest is dominated by relatively few tree species, yet the degree to which this hyperdominance influences carbon cycling remains unknown. Here, the authors analyse 530 forest plots and show that ∼1% of species are responsible for 50% of the aboveground carbon storage and productivity.

    • Sophie Fauset
    • Michelle O. Johnson
    • Oliver L. Phillips
    ResearchOpen Access
    Nature Communications
    Volume: 6, P: 1-9