Climate change impacts on the ecology of 'Fusarium graminearum' species complex and susceptibility of wheat to 'Fusarium' head blight: a review

Vaughan, Martha; Backhouse, David; Del Ponte, Emerson M

doi:10.3920/wmj2016.2053

Author(s)

Vaughan, Martha

Backhouse, David

Del Ponte, Emerson M

Publication Date

2016

Abstract

'Fusarium' head blight (FHB) of wheat, caused mainly by a few members of the 'Fusarium graminearum' species complex (FGSC), is a major threat to agricultural grain production, food safety, and animal health. The severity of disease epidemics and accumulation of associated trichothecene mycotoxins in wheat kernels is strongly driven by meteorological factors. The potential impacts of change in climate are reviewed from the perspective of the FGSC life cycle and host resistance mechanisms influenced by abiotic pressures at the ecological, physiological and molecular level. Alterations in climate patterns and cropping systems may affect the distribution, composition and load of FGSC inoculum, but quantitative information is lacking regarding the differential responses among FGSC members. In general, the coincidence of wet and warm environment during flowering enhances the risk of FHB epidemics, but the magnitude and direction of the change in FHB and mycotoxin risk will be a consequence of a multitude of effects on key processes affecting inoculum dynamics and host susceptibility. Rates of residue decomposition, inoculum production and dispersal may be significantly altered by changes in crop rotations, atmospheric carbon dioxide concentration ([CO₂]), temperature and precipitation patterns, but the impact may be much greater for regions where inoculum is more limited, such as temperate climates. In regions of non-limiting inoculum, climate change effects will likely be greater on the pathogenic rather than on the saprophytic phase. Although the mechanisms by which abiotic stress influences wheat defences against 'Fusarium' species are unknown, available data would suggest that wheat may be more susceptible to 'Fusarium' infection under future climate conditions. Additional research in this area should be a priority so that breeding efforts and climate resilient management strategies can be developed.

Citation

World Mycotoxin Journal, 9(5), p. 685-700

ISSN

1875-0796

1875-0710

Link

https://hdl.handle.net/1959.11/19736

Language

en

Publisher

Wageningen Academic Publishers

Title

Climate change impacts on the ecology of 'Fusarium graminearum' species complex and susceptibility of wheat to 'Fusarium' head blight: a review

Type of document

Journal Article

Entity Type

Publication

Author(s)	Vaughan, Martha Backhouse, David Del Ponte, Emerson M
Publication Date	2016
Abstract	'Fusarium' head blight (FHB) of wheat, caused mainly by a few members of the 'Fusarium graminearum' species complex (FGSC), is a major threat to agricultural grain production, food safety, and animal health. The severity of disease epidemics and accumulation of associated trichothecene mycotoxins in wheat kernels is strongly driven by meteorological factors. The potential impacts of change in climate are reviewed from the perspective of the FGSC life cycle and host resistance mechanisms influenced by abiotic pressures at the ecological, physiological and molecular level. Alterations in climate patterns and cropping systems may affect the distribution, composition and load of FGSC inoculum, but quantitative information is lacking regarding the differential responses among FGSC members. In general, the coincidence of wet and warm environment during flowering enhances the risk of FHB epidemics, but the magnitude and direction of the change in FHB and mycotoxin risk will be a consequence of a multitude of effects on key processes affecting inoculum dynamics and host susceptibility. Rates of residue decomposition, inoculum production and dispersal may be significantly altered by changes in crop rotations, atmospheric carbon dioxide concentration ([CO₂]), temperature and precipitation patterns, but the impact may be much greater for regions where inoculum is more limited, such as temperate climates. In regions of non-limiting inoculum, climate change effects will likely be greater on the pathogenic rather than on the saprophytic phase. Although the mechanisms by which abiotic stress influences wheat defences against 'Fusarium' species are unknown, available data would suggest that wheat may be more susceptible to 'Fusarium' infection under future climate conditions. Additional research in this area should be a priority so that breeding efforts and climate resilient management strategies can be developed.
Citation	World Mycotoxin Journal, 9(5), p. 685-700
ISSN	1875-0796 1875-0710
Link	https://hdl.handle.net/1959.11/19736
Language	en
Publisher	Wageningen Academic Publishers
Title	Climate change impacts on the ecology of 'Fusarium graminearum' species complex and susceptibility of wheat to 'Fusarium' head blight: a review
Type of document	Journal Article
Entity Type	Publication

Climate change impacts on the ecology of 'Fusarium graminearum' species complex and susceptibility of wheat to 'Fusarium' head blight: a review

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