Climate-smart forestry in the world’s drylands: A review of challenges and opportunities

Ilan Stavi, Chi Xu, Eli Argaman

Research output: Contribution to journalReview articlepeer-review

2 Scopus citations

Abstract

Land degradation and desertification are widespread across the world’s drylands. These processes are substantially affected by climatic change, with long-term and severe droughts on the one hand, and high intensity rainstorms and devastating floods on the other hand. Simultaneously, land-use change and mismanagement practices have led to processes of accelerated soil erosion, depletion of soil organic carbon pools, and the degradation of extensive drylands. Forestry has been accepted as an effective means for restoring degraded drylands, and for attaining a range of regulating, provisioning, supporting, and cultural ecosystem services. Specifically, forestry is widely perceived as an effective means for soil erosion control, organic carbon sequestration, microclimate improvement, and climate change mitigation. However, forestry in drylands often proves to generate substantial environmental challenges, resulting in deterioration of ecosystem functions and health. The objective of this essay is to review the challenges and opportunities induced by dryland afforestation and reforestation, and highlight the need to attain climate-smart strategies for establishing and managing these land-uses. Particularly, tree species invasion and allelopathy, which are common in dryland forestry projects, jeopardize species richness and diversity of native vegetation communities. Further, the challenges linked with tree invasiveness necessitate predicting the distribution of potentially invasive species and foreseeing their impacts on the recipient ecosystems under projected climate change scenarios. The effect of allelopathy is significant under limited water availability conditions and is expected to be determined by the expanding drylands and intensifying aridity worldwide. Therefore, judicious selection of tree species should not only focus on ones with high water-use efficiency, low flammability, high pest resistance, and fast growth, but also on low invasiveness and allelopathic capacities. Insights of this essay may be used by land managers, stakeholders, and policy makers involved in environmental development of drylands.

Original languageEnglish
Pages (from-to)67-90
Number of pages24
JournalAnthropocene Review
Volume11
Issue number1
DOIs
StatePublished - 1 Apr 2024

Keywords

  • agroforestry and silvopasture
  • climatic change adaptation
  • earthworks engineering; geo-ecosystem functioning
  • land restoration
  • plant-soil relations
  • water runoff harvesting
  • “natural” versus anthropogenic impacts

ASJC Scopus subject areas

  • Global and Planetary Change
  • Ecology
  • Geology

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