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Improving intercropping: a synthesis of research in agronomy, plant physiology and ecology

Authors :
Brooker, Rob W
Bennett, Alison E
Cong, Wen-Feng
Daniell, Tim J
George, Timothy S
Hallett, Paul D
Hawes, Cathy
Iannetta, Pietro P M
Jones, Hamlyn G
Karley, Alison J
Li, Long
McKenzie, Blair M
Pakeman, Robin J
Paterson, Eric
Schöb, Christian
Shen, Jianbo
Squire, Geoff
Watson, Christine A
Zhang, Chaochun
Zhang, Fusuo
Zhang, Junling
White, Philip J
Brooker, Rob W
Bennett, Alison E
Cong, Wen-Feng
Daniell, Tim J
George, Timothy S
Hallett, Paul D
Hawes, Cathy
Iannetta, Pietro P M
Jones, Hamlyn G
Karley, Alison J
Li, Long
McKenzie, Blair M
Pakeman, Robin J
Paterson, Eric
Schöb, Christian
Shen, Jianbo
Squire, Geoff
Watson, Christine A
Zhang, Chaochun
Zhang, Fusuo
Zhang, Junling
White, Philip J
Source :
Brooker, Rob W; Bennett, Alison E; Cong, Wen-Feng; Daniell, Tim J; George, Timothy S; Hallett, Paul D; Hawes, Cathy; Iannetta, Pietro P M; Jones, Hamlyn G; Karley, Alison J; Li, Long; McKenzie, Blair M; Pakeman, Robin J; Paterson, Eric; Schöb, Christian; Shen, Jianbo; Squire, Geoff; Watson, Christine A; Zhang, Chaochun; Zhang, Fusuo; Zhang, Junling; White, Philip J (2015). Improving intercropping: a synthesis of research in agronomy, plant physiology and ecology. New Phytologist, 206(1):107-117.
Publication Year :
2015

Abstract

Intercropping is a farming practice involving two or more crop species, or genotypes, growing together and coexisting for a time. On the fringes of modern intensive agriculture, intercropping is important in many subsistence or low-input/resource-limited agricultural systems. By allowing genuine yield gains without increased inputs, or greater stability of yield with decreased inputs, intercropping could be one route to delivering ‘sustainable intensification’. We discuss how recent knowledge from agronomy, plant physiology and ecology can be combined with the aim of improving intercropping systems. Recent advances in agronomy and plant physiology include better understanding of the mechanisms of interactions between crop genotypes and species – for example, enhanced resource availability through niche complementarity. Ecological advances include better understanding of the context-dependency of interactions, the mechanisms behind disease and pest avoidance, the links between above- and below-ground systems, and the role of microtopographic variation in coexistence. This improved understanding can guide approaches for improving intercropping systems, including breeding crops for intercropping. Although such advances can help to improve intercropping systems, we suggest that other topics also need addressing. These include better assessment of the wider benefits of intercropping in terms of multiple ecosystem services, collaboration with agricultural engineering, and more effective interdisciplinary research.

Details

Database :
OAIster
Journal :
Brooker, Rob W; Bennett, Alison E; Cong, Wen-Feng; Daniell, Tim J; George, Timothy S; Hallett, Paul D; Hawes, Cathy; Iannetta, Pietro P M; Jones, Hamlyn G; Karley, Alison J; Li, Long; McKenzie, Blair M; Pakeman, Robin J; Paterson, Eric; Schöb, Christian; Shen, Jianbo; Squire, Geoff; Watson, Christine A; Zhang, Chaochun; Zhang, Fusuo; Zhang, Junling; White, Philip J (2015). Improving intercropping: a synthesis of research in agronomy, plant physiology and ecology. New Phytologist, 206(1):107-117.
Notes :
application/pdf, info:doi/10.5167/uzh-104491, English
Publication Type :
Electronic Resource
Accession number :
edsoai.ocn980365586
Document Type :
Electronic Resource