Study Reveals Intensive Grassland Management Hampers the Recovery of Soil Food Webs From Drought

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New research led by a team of scientists from The University of Manchester has shown that intensive grassland management impairs the capacity of soils to buffer extreme droughts, which are becoming more frequent and intense.

New research led by a team of scientists from The University of Manchester has shown that intensive grassland management impairs the capacity of soils to buffer extreme droughts, which are becoming more frequent and intense.

The study investigated how management of grasslands across northern England modifies the transfer of recently photosynthesised carbon by plants to roots and soil organisms and the transfer of soil nitrogen to plant and soil organisms following a severe drought.

The team found that intensive management reduced the below-ground transfer of carbon photosynthesised by plants to roots and soil biota after drought. This impairs the capacity of carbon transfer belowground to recover whereas under extensive, more traditional grassland management, this below-ground transfer of plant carbon to soil biota was less disrupted and hence more able to buffer the effects of extreme drought.

Dr Chomel, the lead author of the paper, said: “Soils contain a vast diversity of organisms crucial to key soil processes like carbon and nitrogen cycling. Our study shows that interactions between plants and soil organisms are vital for helping soil to resist to climate extremes, such as drought, which are already more common.”

Read more at University of Manchester

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