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Impacts of climate change on tropical agroforestry systems: a systematic review for identifying future research priorities

Impacts of climate change on tropical agroforestry systems: a systematic review for identifying future research priorities
Impacts of climate change on tropical agroforestry systems: a systematic review for identifying future research priorities
Climate change is expected to adversely affect the crop yields and food security for many smallholder farmers in the tropics unless adaptive measures are implemented. Agroforestry ecosystem services, such as micro-climate buffering, have received growing attention from the academic and policy communities for alleviating the negative impacts of climate change on smallholders. These benefits imply that agroforestry could offer a suitable measure for adaptation to climate change. However, whether agroforestry systems themselves succumb to the adverse effects of climate change is often less studied in the agroforestry literature. Consequently, less is known about how climate change will impact agroforests. We conducted a systematic review, which included an evidence quality assessment, to examine the impacts of climate change on tropical agroforestry systems (TAFS). Based primarily on studies undertaking biophysical approaches, we found that climate change negatively impacts TAFS by reducing tree growth, intensifying tree-crop resource competition and reducing crop yields. However, the impacts on smallholder farmers are less clear due to limited evidence in the relevant literature. We found that the evidence supporting our findings is mostly “robust”, although “least robust” strength evidence was also commonly found. We conclude that to improve understanding of how climate change could affect the performance of TAFS as a social ecological system, more interdisciplinary studies are required. Furthermore, to improve the quality of evidence in the research field, studies should explore using mountain elevation gradients for climate analog analysis to perform the most robust study designs. We provide an interdisciplinary conceptual model, which considers the interactions and feedbacks between TAFS components noted from our review to predict the response of ecosystem services provisioning and farmers' wellbeing to climate change, to guide interdisciplinary studies using climate analog analysis.
climate resilience, drought, ecosystem services (ES), global warming, homegardens
2624-893X
Watts, Martin
542ac943-dbed-4d9d-83ec-aa1812eee62a
Hutton, Craig
9102617b-caf7-4538-9414-c29e72f5fe2e
Mata Guel, Erik
18ba3ca3-ad4d-4472-846e-556ff7eee800
Suckall, Natalie
6403cd8a-dab8-4fed-9136-ab293700d4fe
Peh, Kelvin S.-H.
0bd60207-dad8-43fb-a84a-a15e09b024cc
Watts, Martin
542ac943-dbed-4d9d-83ec-aa1812eee62a
Hutton, Craig
9102617b-caf7-4538-9414-c29e72f5fe2e
Mata Guel, Erik
18ba3ca3-ad4d-4472-846e-556ff7eee800
Suckall, Natalie
6403cd8a-dab8-4fed-9136-ab293700d4fe
Peh, Kelvin S.-H.
0bd60207-dad8-43fb-a84a-a15e09b024cc

Watts, Martin, Hutton, Craig, Mata Guel, Erik, Suckall, Natalie and Peh, Kelvin S.-H. (2022) Impacts of climate change on tropical agroforestry systems: a systematic review for identifying future research priorities. Frontiers in Forests and Global Change, 5, [880621]. (doi:10.3389/ffgc.2022.880621).

Record type: Review

Abstract

Climate change is expected to adversely affect the crop yields and food security for many smallholder farmers in the tropics unless adaptive measures are implemented. Agroforestry ecosystem services, such as micro-climate buffering, have received growing attention from the academic and policy communities for alleviating the negative impacts of climate change on smallholders. These benefits imply that agroforestry could offer a suitable measure for adaptation to climate change. However, whether agroforestry systems themselves succumb to the adverse effects of climate change is often less studied in the agroforestry literature. Consequently, less is known about how climate change will impact agroforests. We conducted a systematic review, which included an evidence quality assessment, to examine the impacts of climate change on tropical agroforestry systems (TAFS). Based primarily on studies undertaking biophysical approaches, we found that climate change negatively impacts TAFS by reducing tree growth, intensifying tree-crop resource competition and reducing crop yields. However, the impacts on smallholder farmers are less clear due to limited evidence in the relevant literature. We found that the evidence supporting our findings is mostly “robust”, although “least robust” strength evidence was also commonly found. We conclude that to improve understanding of how climate change could affect the performance of TAFS as a social ecological system, more interdisciplinary studies are required. Furthermore, to improve the quality of evidence in the research field, studies should explore using mountain elevation gradients for climate analog analysis to perform the most robust study designs. We provide an interdisciplinary conceptual model, which considers the interactions and feedbacks between TAFS components noted from our review to predict the response of ecosystem services provisioning and farmers' wellbeing to climate change, to guide interdisciplinary studies using climate analog analysis.

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Accepted/In Press date: 4 August 2022
Published date: 22 August 2022
Additional Information: Funding Information: The research for this article was funded by the Economic and Social Research Council South Coast Doctoral Training Partnership (Grant Number ES/P000673/1). Publisher Copyright: Copyright © 2022 Watts, Hutton, Mata Guel, Suckall and Peh.
Keywords: climate resilience, drought, ecosystem services (ES), global warming, homegardens
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Identifiers

Local EPrints ID: 469183
URI: http://eprints.soton.ac.uk/id/eprint/469183
DOI: doi:10.3389/ffgc.2022.880621
ISSN: 2624-893X
PURE UUID: 1a5b469c-662e-4ebd-ab10-bc00bdfacb69
ORCID for Craig Hutton: ORCID iD orcid.org/0000-0002-5896-756X
ORCID for Kelvin S.-H. Peh: ORCID iD orcid.org/0000-0002-2921-1341

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Date deposited: 08 Sep 2022 17:09
Last modified: 17 Mar 2024 03:30

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Contributors

Author: Martin Watts
Author: Craig Hutton ORCID iD
Author: Erik Mata Guel
Author: Natalie Suckall
Author: Kelvin S.-H. Peh ORCID iD

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