Range and severity of a plant disease increased by global warming

Evans, N. J.; Baierl, Andreas; Semenov, Mikhail A.; Gladders, P.; Fitt, Bruce D.L.

doi:10.1098/rsif.2007.1136

Cited by 181 publications

(211 citation statements)

References 33 publications

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“…The increase in temperature associated with climate change may increase the severity of crop disease epidemics (Evans et al 2008). The most important oilseed rape disease in the UK is phoma stem canker (Leptosphaeria maculans), which causes severe losses each year despite expenditure of more than £12 million on fungicides .…”

Section: Introductionmentioning

confidence: 99%

“…Globally, losses from phoma stem canker exceed £500 million per season . Although phoma stem canker currently causes severe epidemics on winter oilseed rape in France (latitude 42-518 N; Fitt et al 2006) and England (latitude 50-558 N), the disease does not cause yield loss further north, in Scotland (latitude 55 -598 N; Evans et al 2008). Although the initial phoma leaf spotting phase of the disease (West et al 2001) occurs in autumn in all these regions, colder winters in Scotland mean that L. maculans is unable to spread along the leaf petiole and colonize the stem rapidly enough to cause damaging cankers (Evans et al 2008).…”

Section: Introductionmentioning

confidence: 99%

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North–South divide: contrasting impacts of climate change on crop yields in Scotland and England

Butterworth

Semenov

Barnes

et al. 2009

J. R. Soc. Interface.

104

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Effects of climate change on productivity of agricultural crops in relation to diseases that attack them are difficult to predict because they are complex and nonlinear. To investigate these crop-disease-climate interactions, UKCIP02 scenarios predicting UK temperature and rainfall under high-and low-CO 2 emission scenarios for the 2020s and 2050s were combined with a crop-simulation model predicting yield of fungicide-treated winter oilseed rape and with a weather-based regression model predicting severity of phoma stem canker epidemics. The combination of climate scenarios and crop model predicted that climate change will increase yield of fungicide-treated oilseed rape crops in Scotland by up to 0.5 t ha 21 (15%). In contrast, in southern England the combination of climate scenarios, crop, disease and yield loss models predicted that climate change will increase yield losses from phoma stem canker epidemics to up to 50 per cent (1.5 t ha 21) and greatly decrease yield of untreated winter oilseed rape. The size of losses is predicted to be greater for winter oilseed rape cultivars that are susceptible than for those that are resistant to the phoma stem canker pathogen Leptosphaeria maculans. Such predictions illustrate the unexpected, contrasting impacts of aspects of climate change on crop-disease interactions in agricultural systems in different regions.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

North–South divide: contrasting impacts of climate change on crop yields in Scotland and England

Butterworth

Semenov

Barnes

et al. 2009

J. R. Soc. Interface.

104

View full text Add to dashboard Cite

show abstract

“…In addition, this pattern of climate change factors is not equally distributed over the globe. It is anticipated that a general shift of a milder climate toward the poles will improve the potential of crop production Evans et al 2008). By contrast, hotter and drier conditions in many already semi-arid areas of the world will limit the possibilities for agriculture (Luo et al 2009).…”

Section: Pest Evolution Under Climate Changementioning

confidence: 99%

Robust cropping systems to tackle pests under climate change. A review

Lamichhane¹,

Barzman²,

Booij³

et al. 2014

Agron. Sustain. Dev.

115

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Agriculture in the twenty-first century faces the challenge of meeting food demands while satisfying sustainability goals. The challenge is further complicated by climate change which affects the distribution of crop pests (intended as insects, plants, and pathogenic agents injurious to crops) and the severity of their outbreaks. Increasing concerns over health and the environment as well as new legislation on pesticide use, particularly in the European Union, urge us to find sustainable alternatives to pesticide-based pest management. Here, we review the effect of climate change on crop protection and propose strategies to reduce the impact of future invasive as well as rapidly evolving resident populations. The major points are the following: (1) the main consequence of climate change and globalization is a heightened level of unpredictability of spatial and temporal interactions between weather, cropping systems, and pests; (2) the unpredictable adaptation of pests to a changing environment primarily creates uncertainty and projected changes do not automatically translate into doom and gloom scenarios; (3) faced with uncertainty, policy, research, and extension should prepare for worst-case scenarios following a "no regrets" approach that promotes resilience vis-à-vis pests which, at the biophysical level, entails uncovering what currently makes cropping systems resilient, while at the organizational level, the capacity to adapt needs to be recognized and strengthened; (4) more collective approaches involving extension and other stakeholders will help meet the challenge of developing more robust cropping systems; (5) farmers can take advantage of Web 2.0 and other new technologies to make the exchange of updated information quicker and easier; (6) cooperationThe views expressed by Stephen R. H. Langrell are purely his own and may not in any circumstances be regarded as stating an official position of the European Commission.

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“…Importantly, climate change is expected to have a profound impact on global agriculture in the next decades. Apart from changes in water availability, temperature, and soil degradation, it is expected that climate change will also have indirect consequences such as more frequent outbreaks of some plant diseases and/or pests (Evans et al, 2008), partially due to changes in the plant's defensive capacity . In addition to the selection of resistant crop varieties and crop rotation, the use of pesticides represents an effective strategy against these threats.…”

mentioning

confidence: 99%

Using Green <I>Vaccination</I> to Brighten the Agronomic Future

Luna¹

2016

Outlook Pest Man

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Range and severity of a plant disease increased by global warming

Cited by 181 publications

References 33 publications

North–South divide: contrasting impacts of climate change on crop yields in Scotland and England

North–South divide: contrasting impacts of climate change on crop yields in Scotland and England

Robust cropping systems to tackle pests under climate change. A review

Using Green <I>Vaccination</I> to Brighten the Agronomic Future

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