Thursday, January 23, 2014
The impacts of human responses to climate
A press release from Princeton's Woodrow Wilson School: ....[A] Princeton University research team has created a model to evaluate how a human response to climate change may alter the agricultural utility of land. The study, featured in Conservation Biology, provides a readily transferable method for conservation planners trying to anticipate how agriculture will be affected by such adaptations.
"Humans can transform an ecosystem much more rapidly and completely than it can be altered by shifting temperature and precipitation patterns," said Lyndon Estes, lead author and associate research scholar in the Woodrow Wilson School of International and Public Affairs. "This model provides an initial approach for understanding how agricultural land-use might shift under climate change, and therefore which currently natural areas might be converted to farming."
...Before determining how climate change could impact the crops, the team first needed to determine which areas have been or might be farmed for maize and wheat. They created a land-use model based on an area's potential crop output and simulated how much of each crop was grown from 1979 to 1999 – the two decades for which historical weather data was available. They also calculated the ruggedness of each area of land, which is related to the cost of farming it. Taking all factors into account, the model provides an estimate of whether the land is likely to be profitable or unprofitable for farming.
...They found that most conservation lands currently have low agricultural utility because of their rugged terrain, which makes them difficult to farm, and that they are likely to stay that way under future climate-change scenarios. The researchers did pinpoint several areas that could become more valuable for farming in the future, putting them at greater risk of conversion. However, some areas were predicted to decrease value for farming, which could make them easier to protect and conserve.
"While studying the direct response of species to climatic shifts is important, it’s only one piece of a complicated puzzle. A big part of that puzzle relates to how humans will react, and history suggests you don’t need much to trigger a change in the way land is used that has a fairly long-lasting impact. " said Estes. "We hope that conservation planners can use this approach to start thinking about human climate change adaptation and how it will affect areas needing protection."...
Female figurine. Terracotta. 2700-2000. From a series of figurines of Mature Harappan sites : Mohenjodaro, Harappa, Dholavira, Banawali and Kalibangan. National Museum, New Delhi. Shot by Ismoon, Wikimedia Commons, under the Creative Commons CC0 1.0 Universal Public Domain Dedication.
"Humans can transform an ecosystem much more rapidly and completely than it can be altered by shifting temperature and precipitation patterns," said Lyndon Estes, lead author and associate research scholar in the Woodrow Wilson School of International and Public Affairs. "This model provides an initial approach for understanding how agricultural land-use might shift under climate change, and therefore which currently natural areas might be converted to farming."
...Before determining how climate change could impact the crops, the team first needed to determine which areas have been or might be farmed for maize and wheat. They created a land-use model based on an area's potential crop output and simulated how much of each crop was grown from 1979 to 1999 – the two decades for which historical weather data was available. They also calculated the ruggedness of each area of land, which is related to the cost of farming it. Taking all factors into account, the model provides an estimate of whether the land is likely to be profitable or unprofitable for farming.
...They found that most conservation lands currently have low agricultural utility because of their rugged terrain, which makes them difficult to farm, and that they are likely to stay that way under future climate-change scenarios. The researchers did pinpoint several areas that could become more valuable for farming in the future, putting them at greater risk of conversion. However, some areas were predicted to decrease value for farming, which could make them easier to protect and conserve.
"While studying the direct response of species to climatic shifts is important, it’s only one piece of a complicated puzzle. A big part of that puzzle relates to how humans will react, and history suggests you don’t need much to trigger a change in the way land is used that has a fairly long-lasting impact. " said Estes. "We hope that conservation planners can use this approach to start thinking about human climate change adaptation and how it will affect areas needing protection."...
Female figurine. Terracotta. 2700-2000. From a series of figurines of Mature Harappan sites : Mohenjodaro, Harappa, Dholavira, Banawali and Kalibangan. National Museum, New Delhi. Shot by Ismoon, Wikimedia Commons, under the Creative Commons CC0 1.0 Universal Public Domain Dedication.
Labels:
agriculture,
conservation,
history,
impacts,
land use,
modeling
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