Heat stress for cattle may cost billions by century's end, study finds
Date:
March 10, 2022
Source:
Cornell University
Summary:
Climate change poses a potentially devastating economic threat
to low- income cattle farmers in poor countries due to increasing
heat stress on the animals. Globally, by the end of this century
those producers may face financial loss between $15 and $40
billion annually.
FULL STORY ========================================================================== Climate change poses a potentially devastating economic threat to
low-income cattle farmers in poor countries due to increasing heat stress
on the animals.
Globally, by the end of this century those producers may face financial
loss between $15 and $40 billion annually.
========================================================================== Farmers in tropical regions -- including large parts of South America,
Asia and Africa -- are likely to suffer significantly, particularly
when compared with producers in the world's wealthier temperate zones, according to a study by an international team of scientists and economists published in the Lancet Planetary Health.
The researchers, including Mario Herrero, professor of sustainable food
systems at Cornell University, and lead author Philip Thornton, of the International Livestock Research Institute and CGIAR; published "Impacts
of Heat Stress on Global Cattle Production During the 21st Century."
Escalating demand for livestock products in low- and middle-income
countries, along with steadily increasing global average temperatures, is
an uncomfortable mix, the researchers said. If livestock are to adapt to
new thermal environments and increase their productivity, infrastructural investments or adjustments -- such as switching to more heat-tolerant
cattle breeds, and improving shade, ventilation and cooling systems --
will be required.
In the paper's high greenhouse-gas emission scenario, cattle production
losses from heat stress are estimated to be $39.94 billion annually,
or 9.8% of the value of production of meat and milk from cattle in 2005
-- the scientists' baseline year. The low-emission scenario projects
production losses at $14.9 billion annually, or 3.7% of the 2005 value.
By the end of the century, dairy and beef production in the United States
is projected to decline by 6.8%, while India -- a major dairy production country - - is projected to lose more than 45% of its dairy farming due
to heat stress increases.
"Resource-poor farmers in low-income countries depend heavily on their livestock for their livelihoods," Thornton said. "The adaptation needs
are even higher in these countries, and those farmers are the ones
where the hit is even more severe." With climate change, farming and sustainability, Herrero suggested there is a need to create equitable adaptation practices "by design and to think intentionally on reaching
the vulnerable sectors of global society," he said.
"We cannot just hope that the poor will not be affected." Technological development is key to bringing equity and social justice to poor farmers throughout the world. "Sustainability is not only about the environment
and protecting biodiversity, but the human component is fundamental to sustainability," Herrero said. "We need to deal with climate change,
leaving no one behind. That's the only truth." Herrero is a fellow in
the Cornell Atkinson Center for Sustainability.
========================================================================== Story Source: Materials provided by Cornell_University. Original written
by Blaine Friedlander. Note: Content may be edited for style and length.
========================================================================== Journal Reference:
1. Philip Thornton, Gerald Nelson, Dianne Mayberry, Mario
Herrero. Impacts
of heat stress on global cattle production during the 21st century:
a modelling study. The Lancet Planetary Health, 2022; 6 (3):
e192 DOI: 10.1016/S2542-5196(22)00002-X ==========================================================================
Link to news story:
https://www.sciencedaily.com/releases/2022/03/220310143737.htm
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