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At what temperature the weather becomes a problem - Climate change leads to increasing heat strain for humans, animals and crops

Corporate Communications Center

phone: +49 8161 5403 - email: presse@tum.de - web: www.tum.de

This text on the web: https://www.tum.de/nc/en/about-tum/news/press-releases/details/36780/

High resolution images: https://mediatum.ub.tum.de/1616096

A t what temperature the weather becomes a problem

Climate change leads to increasing heat strain for humans, animals and crops

When extreme heat becomes more frequent and temperatures remain high for extended periods of time, as it is currently the case in Canada and the American Northwest, physiological stress increases in humans, animals and crops. Prof. Senthold Asseng, director of the World Agricultural Systems Center at the Technical University of Munich (TUM), provides an overview of thresholds and adaptation strategies.

"We have studied which temperatures are preferable and which are harmful in humans, cattle, pigs, poultry, and agricultural crops and found that they are surprisingly similar," says Senthold Asseng, Professor of Digital Agriculture at TUM. According to the study, preferable temperatures range from 17 to 24 degrees Celsius.

When does it become too hot for humans?

At high humidity, mild heat strain for humans begins at about 23 degrees Celsius and at low humidity at 27 degrees Celsius. "If people are exposed to temperatures above 32 degrees Celsius at extremely high humidity or above 45 degrees Celsius at extremely low humidity for a lengthy period of time, it can be fatal," says Prof. Asseng. "During extreme heat events with temperatures far above 40 degrees Celsius, such as those currently being observed on the U.S North West Coast and in Canada, people require technical support, for example in the form of air-conditioned spaces."

To mitigate increasing heat strain, Prof. Asseng cites a variety of strategies, including increasing natural shade from trees or structural shading. Cities and buildings can be made more temperature-passive, for example, by using roof and wall insulation or by using lighter, reflective roof and wall colors to reduce heat strain.

How do high temperatures affect livestock?

In cattle and pigs, heat strain occurs at 24 degrees Celsius with high humidity and at 29 degrees Celsius with low humidity. The milk yield from cows can decrease by 10 to 20 percent when exposed to heat stress, and the fattening performance in pigs is also reduced. The comfortable temperature range for poultry is 15 to 20 degrees. Chickens experience mild heat strain at 30 degrees Celsius. At 37 degrees Celsius and above, they experience severe heat stress and their egg laying rate declines.

Heat stress overall leads to reduced growth in cattle and dairy cows, pigs, chickens and other livestock, which means both lower yields and reproductive performance. "There are examples of evolutionary adaptations to warm weather in terrestrial mammals. Transylvanian naked chickens are more heat tolerant than other varieties of chickens because of a complex genetic mutation that suppresses feather growth. They are naturally air-conditioned because they lack feathers on their necks," says Prof. Asseng.

How do crops react to high temperature?

"In crops, the optimal temperature zone and temperature thresholds seem to be more diverse due to differences between species and varieties," explains Prof. Asseng.

Cold-temperate crops such as wheat, for example, do better at cooler temperatures, while warm-temperature crops such as corn are sensitive to frost but can tolerate warmer temperatures. Strategies to reduce heat stress in crop production include changes in planting dates to avoid heat stress later in the season, irrigation (if feasible), switching to more heat-resistant crops, and breeding to increase heat tolerance.

How is climate change affecting life on Earth?

"By the end of the century, 45 to 70 percent of the global land area could be affected by climate conditions in which humans cannot survive without technological support, such as air conditioning. Currently, it's 12 percent," says Prof. Asseng. This means that in the future, 44 to 75 percent of the human population will be chronically stressed by heat. A similar increase in heat stress is expected for livestock, poultry, agricultural crops and other living organisms.

"Genetic adaptation to a changing climate often takes many generations. The time available is too short for many higher forms of life. If current climate trends persist, many living things could be severely affected or even disappear completely from Earth due to temperature change," concludes Prof. Asseng.

Publication:

Asseng, S., Spänkuch, D., Hernandez-Ochoa, I. M. & J. Laporta (2021): The upper temperature thresholds of life. In: The Lancet Planetary Health. Volume 5, Issue 6, June 2021, Pages e378-e385. DOI: https://doi.org/10.1016/S2542-5196(21)00079-6

More information:

In February 2021, Prof. Senthold Asseng became the new director of the World Agricultural Systems Center at TUM. He also heads the Chair of Digital Agriculture at the TUM School of Life Sciences since December 2020. His research interests lie in the development of mathematical modeling and computer simulation of agricultural and biological systems in the context of climate variability, climate change and sustainability. This will involve investigating adaptation strategies to improve food security in sustainable agricultural systems in the context of climate change.

This study was supported by the Consortium of International Agricultural Research Centers (CGIAR) research program on wheat agri-food systems (CRP WHEAT) and the CGIAR Platform for Big Data in Agriculture, the Bill & Melinda Gates Foundation, the World Bank, and the Government of Mexico through the Sustainable Modernization of Traditional Agriculture (MasAgro) project.

High resolution images: https://mediatum.ub.tum.de/1616096

Contact:

Prof. Dr. Senthold Asseng

Technical University of Munich

Chair of Digital Agriculture

Phone: +49 8161 71-6153

senthold.asseng@tum.de

The Technical University of Munich (TUM) is one of Europe’s leading research universities, with more than 600 professors, 45,000 students, and 11,000 academic and non-academic staff. Its focus areas are the engineering sciences, natural sciences, life sciences and medicine, combined with economic and social sciences. TUM acts as an entrepreneurial university that promotes talents and creates value for society. In that it profits from having strong partners in science and industry. It is represented worldwide with the TUM Asia campus in Singapore as well as offices in Beijing, Brussels, Mumbai, San Francisco, and São Paulo. Nobel Prize winners and inventors such as Rudolf Diesel, Carl von Linde, and Rudolf Mößbauer have done research at TUM. In 2006, 2012, and 2019 it won recognition as a German "Excellence University." In international rankings, TUM regularly places among the best universities in Germany. www.tum.de

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