Crop farmers face new disease pressures as climate changes

Date:
August 5, 2021
Source:
University of Exeter
Summary:
Climate change will increase the burden of crop diseases in some
parts of the world and reduce it in others, new research suggests.



FULL STORY ========================================================================== Climate change will increase the burden of crop diseases in some parts
of the world and reduce it in others, new research suggests.


==========================================================================
As the planet warms, the impact of crop diseases is likely to fall
in tropical areas including Brazil, sub-Saharan Africa, India and
Southeast Asia.

At higher latitudes (further from the equator), disease risk will grow
-- with Europe and China "particularly vulnerable." The University of
Exeter study, published in Nature Climate Change, says these changes
will "closely track" variations in crop productivity expected under
global warming.

Models suggest that rising temperatures will boost yields of most crops
at high latitudes, while the tropics will see little or no gains.

The study also finds that the USA, Europe and China are likely to see
major changes in the mix of pathogens (diseases) affecting their crops.



========================================================================== "Plant pathogens already cause devastating production losses globally,"
said Professor Daniel Bebber, of Exeter's Department of Biosciences and
the Global Systems Institute.

"Our previous research has shown that crop pests and pathogens are moving
away from the equator, and this new study estimates risks from pathogens
in the coming decades.

"Our results show that climate-driven yield gains in temperate regions
will be tempered by the increased burden of crop protection.

"Rapid global dissemination by international trade and transport means pathogens are likely to reach all areas in which conditions are suitable
for them." Infection rates by plant pathogens are strongly determined
by conditions including temperature.



==========================================================================
The study used existing information on minimum, optimum and maximum
infection temperatures for 80 fungal and oomycete crop pathogens.

The authors compared current yields and future (2061-80) yield projections
for 12 major crops, using three crop models and four global climate
models under the RCP6.0 climate pathway.

Professor Sarah Gurr, a co-author on the study, said the changing pathogen
mix in each area could have a major impact.

"Plant-breeding and agrochemical companies focus on particular diseases,"
she said.

"In the UK, for example, wheat breeders focus on resistance to Septoria
tritici blotch, yellow rust and brown rust -- but those threats could
change." "Agriculture has to plan and prepare for the future -- and that future is almost here," said co-author Thomas Chaloner, a PhD student
funded by the South West Biosciences Doctoral Training Partnership
(SWBio DTP).

"We have only got a few decades, and crop breeding can take a long
time, so we need to think about resistance to pathogens that haven't
arrived yet.

"A lot of pathogens -- especially those currently found in tropical
areas - - are seriously under-researched.

"We need to invest in understanding these diseases, which could become increasingly prevalent in the key crop-growing areas of the world."
The study was supported by SWBio DTP, the Biotechnology and Biological
Sciences Research Council (BBSRC), CIFAR and Utrecht University.

========================================================================== Story Source: Materials provided by University_of_Exeter. Note: Content
may be edited for style and length.


========================================================================== Journal Reference:
1. Thomas M. Chaloner, Sarah J. Gurr, Daniel P. Bebber. Plant pathogen
infection risk tracks global crop yields under climate
change. Nature Climate Change, 2021; 11 (8): 710 DOI:
10.1038/s41558-021-01104-8 ==========================================================================

Link to news story: https://www.sciencedaily.com/releases/2021/08/210805115431.htm

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