July 29, 2020, Colorado State University
A new report focuses on how agricultural systems are impacted by climate change and offers a list of 20 indicators that provide a broad look at what’s happening across the country.
Agricultural production is highly sensitive to weather and climate, which affect when farmers and land managers plant seeds or harvest crops. These conditions also factor into decision-making, when people decide to make capital investments or plant trees in an agroforestry system.
A new report from the U.S. Department of Agriculture focuses on how agricultural systems are impacted by climate change and offers a list of 20 indicators that provide a broad look at what’s happening across the country.
The report, “Climate Indicators for Agriculture,” is co-authored by Colorado State University’s Peter Backlund, associate director of the School of Global Environmental Sustainability.
Backlund said the research team started with the scientific fact that climate change is underway.
“We looked at the U.S. agricultural system and examined the climate stresses,” he said. “This report outlines data that farmers and land managers can use to understand how climate change is affecting their operations, and, hopefully, guide the development of effective adaptation.”
In the report, the authors outline how the changes taking place in agriculture affect the system that many people make their livelihoods from.
“We want to help farmers, ranchers and land managers adapt better under climate change, which requires understanding what is actually happening on the ground. These indicators offer ways to measure the impacts of change,” said Backlund.
20 climate indicators, based on robust data
The climate indicators described in the report are arranged in five categories, including physical (extreme precipitation and nighttime air temperature), crop and livestock (animal heat stress and leaf wetness duration), biological (insect infestation in crops, crop pathogens), phenological (timing of budbreak in fruit trees, disease vectors in livestock) and socioeconomic (crop insurance payments, heat-related mortality of agricultural workers).
Backlund said the research team chose these indicators based on the strength of their connection to climate change and availability of long-term data, which is needed to identify how impacts are changing over time and whether adaptive actions are having the desired effect.
“There had to be a measurement of a variable strongly coupled with climate,” he said. “As we go forward, we will better understand the impact of climate change by using these indicators.”
Researchers opted to include nighttime air temperatures as opposed to general temperature because nighttime temperatures have a big effect on the way plants develop.
Some of the indicators have national data, while others are more regional. Heat stress on livestock, a huge issue for feedlot operators, will be of interest to farmers and ranchers in states including Colorado.
“Heat interferes with the rate of reproduction and rate of weight gain,” Backlund said. “This presses on the whole operation; it’s not just that a few more animals will die from getting too hot.”
The crop insurance payment indicator offers insight on the repercussions of climate events.
“You can see if you have a big climate event, like drought, one region will be much more affected than another,” he said. “If farmers have good irrigation, they’ll be much more capable in dealing with periods of low rainfall.”
Backlund said the indicator covering weed range and intensity was also notable. As carbon dioxide concentrations increase, researchers are seeing extreme northern migrations and expanded ranges for weeds.
Cite This Page:
Colorado State University. “Report provides new framework for understanding climate risks, impacts to US agriculture.” ScienceDaily. ScienceDaily, 29 July 2020. <www.sciencedaily.com/releases/2020/07/200729205009.htm