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The soils of northern forests play a crucial role in storing carbon dioxide and preventing it from re-entering the atmosphere. However, a study led by Peter Reich of the University of Michigan has shown that, on a warming planet, more carbon is escaping the soil than is being added by plants. This is concerning as it suggests that as the world warms, soils will release more carbon into the atmosphere, contributing to climate change. Forests store around 40% of the Earth’s soil carbon, making it important to understand how rising temperatures affect carbon flow in order to better predict climate changes.

Reich’s experiment, believed to be the first of its kind, involved controlling both soil and above-ground temperatures in open air settings for over a dozen years. The sophisticated setup allowed researchers to study the effects of temperature on carbon flux in a more realistic manner. The research was costly and supported by various organizations, including the National Science Foundation and the U.S. Department of Energy. The study involved two different warming scenarios compared to ambient conditions, with soil respiration increasing by 7% in one case and 17% in the other. The respiration process involves the release of carbon dioxide by plant roots and soil microbes as they consume carbon-containing organic matter.

Microbes play a crucial role in the respired carbon dioxide process, similar to how humans release carbon dioxide when metabolizing food. The researchers found that while the amount of respired carbon dioxide increased in plots with higher temperatures, it was not as significant as it could have been due to drier soil conditions. Warmer temperatures can lead to faster water loss from plants and soils, resulting in decreased soil moisture. However, microbes prefer wetter soils, which constrain respiration in drier conditions. Despite the increase in carbon loss from forests, the impact may not be as severe as it could be if soil drying wasn’t occurring.

The study highlights the importance of long-term research projects to understand the effects of climate change on carbon flux in forest soils. Most previous studies have been short-term and focused on either soil or air temperature, but not both simultaneously. Reich’s experiment provided valuable insights into how temperature impacts carbon flow in forest soils and its implications for climate change. The findings suggest that as temperatures continue to rise, forests are likely to lose more carbon than desired, adding to the challenges posed by climate change. Addressing these issues will be crucial in developing strategies to mitigate the impact of climate change on forest ecosystems and the global environment as a whole.

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