Agroforestry potential for adaptation to climate change: A soil‐based perspective

Agricultural systems face several challenges that threaten their capacity to feed the world while maintaining a healthy and functional environment. Climate change, together with soil degradation, biodiversity loss, resource scarcity and invasive species, is a major threat to agricultural systems wor...

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Published in	Soil use and management Vol. 39; no. 3; pp. 1006 - 1032
Main Authors	Rolo, Víctor, Rivest, David, Maillard, Émilie, Moreno, Gerardo
Format	Journal Article
Language	English
Published	Bedfordshire Wiley Subscription Services, Inc 01.07.2023
Subjects	administrative management Agroforestry agroforestry systems Biodiversity Biodiversity loss Breeding Climate adaptation Climate change Climate change adaptation Climate effects climate resilient agriculture Components Environmental impact Farming systems Farms Introduced species Invasive species Organic carbon soil soil biota Soil degradation soil nutrients soil organic carbon soil organic matter Soil properties soil water Soils trees
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Abstract	Agricultural systems face several challenges that threaten their capacity to feed the world while maintaining a healthy and functional environment. Climate change, together with soil degradation, biodiversity loss, resource scarcity and invasive species, is a major threat to agricultural systems worldwide. In this context, new practices have been proposed to circumvent or minimize these threats. Yet, these mostly focus on the farm or plant level (e.g., breeding for stress‐tolerant species), while frequently overlooking belowground components (e.g., soil organic carbon accrual). By interlinking above‐ and below‐ground components, the likelihood of limiting the negative effects of current threats to agricultural systems can be maximized. This review explores current knowledge regarding agroforestry and its effects on belowground components as a key property in the reducing effects of climate change. We first review tree effects on key soil properties of agricultural systems. We synthesize evidence regarding agroforestry systems response to current environmental threats that are related to climate change. We continue by discussing how soil processes play a fundamental role in the capacity of agroforestry systems to cope with climate change. We conclude by proposing options on how resilience of agroforestry systems could be further enhanced.
AbstractList	Agricultural systems face several challenges that threaten their capacity to feed the world while maintaining a healthy and functional environment. Climate change, together with soil degradation, biodiversity loss, resource scarcity and invasive species, is a major threat to agricultural systems worldwide. In this context, new practices have been proposed to circumvent or minimize these threats. Yet, these mostly focus on the farm or plant level (e.g., breeding for stress‐tolerant species), while frequently overlooking belowground components (e.g., soil organic carbon accrual). By interlinking above‐ and below‐ground components, the likelihood of limiting the negative effects of current threats to agricultural systems can be maximized. This review explores current knowledge regarding agroforestry and its effects on belowground components as a key property in the reducing effects of climate change. We first review tree effects on key soil properties of agricultural systems. We synthesize evidence regarding agroforestry systems response to current environmental threats that are related to climate change. We continue by discussing how soil processes play a fundamental role in the capacity of agroforestry systems to cope with climate change. We conclude by proposing options on how resilience of agroforestry systems could be further enhanced.
Author	Maillard, Émilie Moreno, Gerardo Rolo, Víctor Rivest, David
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Snippet	Agricultural systems face several challenges that threaten their capacity to feed the world while maintaining a healthy and functional environment. Climate...
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SubjectTerms	administrative management Agroforestry agroforestry systems Biodiversity Biodiversity loss Breeding Climate adaptation Climate change Climate change adaptation Climate effects climate resilient agriculture Components Environmental impact Farming systems Farms Introduced species Invasive species Organic carbon soil soil biota Soil degradation soil nutrients soil organic carbon soil organic matter Soil properties soil water Soils trees
Title	Agroforestry potential for adaptation to climate change: A soil‐based perspective
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