4.8 Article

Large ecosystem-scale effects of restoration fail to mitigate impacts of land-use legacies in longleaf savannas

出版社

NATL ACAD SCIENCES
DOI: 10.1073/pnas.2020935118

关键词

ecological restoration; land-use legacy; longleaf pine; restoration ecology

资金

  1. Department of Energy, Aiken, SC [DE-EM0003622]
  2. Foundation for Food and Agriculture, Pollinator Health Fund Grant [549058]
  3. Strategic Environmental Research and Development Program [RC-1695]

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Ecological restoration is a global priority, but the legacies of past land-use activities can have long-lasting effects on restoration outcomes. This study found that restoration effects were greater than legacy effects, but restoration did not completely mitigate the legacy effects, especially in soil-related properties.
Ecological restoration is a global priority, with potential to reverse biodiversity declines and promote ecosystem functioning. Yet, successful restoration is challenged by lingering legacies of past land-use activities, which are pervasive on lands available for restoration. Although legacies can persist for centuries following cessation of human land uses such as agriculture, we currently lack understanding of how land-use legacies affect entire ecosystems, how they influence restoration outcomes, or whether restoration can mitigate legacy effects. Using a large-scale experiment, we evaluated how restoration by tree thinning and land-use legacies from prior cultivation and subsequent conversion to pine plantations affect fire-suppressed longleaf pine savannas. We evaluated 45 ecological properties across four categories: 1) abiotic attributes, 2) organism abundances, 3) species diversity, and 4) species interactions. The effects of restoration and land-use legacies were pervasive, shaping all categories of properties, with restoration effects roughly twice the magnitude of legacy effects. Restoration effects were of comparable magnitude in savannas with and without a history of intensive human land use; however, restoration did not mitigate numerous legacy effects present prior to restoration. As a result, savannas with a history of intensive human land use supported altered properties, especially related to soils, even after restoration. The signature of past human land-use activities can be remarkably persistent in the face of intensive restoration, influencing the outcome of restoration across diverse ecological properties. Understanding and mitigating land-use legacies will maximize the potential to restore degraded ecosystems.

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