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

I. Stavi, Chi Xu, Eli Argaman
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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.
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世界旱地气候智慧型林业:挑战与机遇综述
土地退化和荒漠化在世界旱地普遍存在。这些过程在很大程度上受到气候变化的影响,一方面是长期严重干旱,另一方面是高强度暴雨和毁灭性洪水。与此同时,土地使用的变化和管理不善导致土壤侵蚀加速、土壤有机碳库枯竭和大片旱地退化。林业已被公认为恢复退化旱地和获得一系列管理、供应、支持和文化生态系统服务的有效手段。具体而言,林业被广泛认为是控制土壤侵蚀、有机碳固存、改善小气候和缓解气候变化的有效手段。然而,事实证明,旱地的林业往往会带来巨大的环境挑战,导致生态系统功能和健康状况恶化。本文的目的是回顾旱地造林和再造林带来的挑战和机遇,并强调需要实现建立和管理这些土地利用的气候智能战略。特别是旱地林业项目中常见的树种入侵和化感作用,危害了当地植被群落的物种丰富度和多样性。此外,与树木入侵性相关的挑战需要预测潜在入侵物种的分布,并在预测的气候变化情景下预测其对受援生态系统的影响。在有限的水资源条件下,化感作用是显著的,预计将由全球干旱地区的扩大和干旱加剧决定。因此,明智的树种选择不仅要注重高水分利用效率、低可燃性、高抗虫性和快速生长的树种,还要注重低入侵性和化感能力。本文的见解可供参与旱地环境开发的土地管理者、利益相关者和政策制定者使用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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