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Soils are fundamental to food production and for the , proactively managing and ensuring healthy, productive soils is in the face of weather and market uncertainties. Organic matter-rich soils that help farms鈥攂y, for example, reducing their need for additional fertilizers鈥攁lso benefit the ecosystems and watersheds that surround those agricultural businesses. Recent research by New Hampshire Agricultural Experiment Station (NHAES) scientists , and adds to the best practices food producers can use to increase carbon in soils by more frequent cuttings of legume-grass pasture lands鈥攁 practice that can more effectively cycle carbon and other nutrients into the soil.

鈥淭hese findings improve our understanding of how agricultural practices affect soil organic matter and demonstrate how agricultural soil can sequester carbon from the atmosphere, helping New Hampshire farmers to apply more sustainable management practices,鈥� said , a UNH postdoctoral researcher and lead author of the study. 鈥淢ore soil organic matter is associated with higher water-holding capacity and nutrient availability, reducing the need for synthetic fertilizers, which lowers production costs.鈥�

The research team assessed how the cutting frequency of pasture grasses and legumes impacted soil carbon levels and carbon cycling鈥�. By comparing the frequency of cuttings鈥攖hree times per year versus five times per year鈥攖he researchers found that increased cuttings resulted in an increase in areas where carbon is stored in the soil, or organic carbon pools. The more frequent cuttings increased the activity of the enzymes responsible for breaking down organic matter in the soil and ultimately improving soil quality and health.

鈥淲e know that soil organic matter is critical to the cycling of nutrients and can help buffer cropping systems against the effects of drought and extreme rainfall, both of which are occurring more frequently because of climate change.鈥� ~ Rich Smith, professor of Natural Resources and the Environment

, which, in addition to Teixeira, was co-authored by associate professor Ernakovich, professors Smith and Frey, and a team of other scientists in the UNH College of Life Sciences and Agriculture. The findings are particularly relevant to New Hampshire鈥檚 livestock producers who can more effectively plan and adjust their animals鈥� grazing schedules to bolster soil health and improve forage production.

According to Smith, identifying agricultural management practices that lead to an increase in and greater retention of soil carbon levels offers several advantages.

鈥淲e know that soil organic matter is critical to the cycling of nutrients and can help buffer cropping systems against the effects of drought and extreme rainfall, both of which are occurring more frequently because of climate change,鈥� described Smith. 鈥淎dditionally, we know that agricultural practices that take up and store more carbon in the soil will help reduce the amount of carbon in the atmosphere, which is the primary driver of climate change. So ultimately, there is the potential to create a positive feedback loop that will not only benefit farmers, but the environment and society at large.鈥�

鈥淚n the future, we hope to examine the importance of legume types and the ratio of legumes to grass to offer additional insight into the varying impacts of defoliation frequency,鈥� said Teixeira. 鈥淚t鈥檚 also important to determine the longevity of the effect of defoliation on soil health, as we are searching for management practices that are beneficial to soil health in the long term.鈥�

This material is based on work supported by the through joint funding from the (under Hatch award numbers 1026297, 7000871 and 1016134) and the state of New Hampshire. Additional funding came from (Project No. 2016鈥�51106-25713) and the (Project No. 2020鈥�51300-32196) programs, and from (CAPES)

This work is co-authored by Cristhian dos Santos Teixeira (G鈥�), Buck Castillo, Lukas Bernhardt (G鈥�), Nick Warren, Claudia Petry, Jessica Ernakovich, Rich Smith and Serita Frey.