Litcius/Paper detail

Soil organic matter protects US maize yields and lowers crop insurance payouts under drought

Daniel A. Kane, Mark A. Bradford, Emma Fuller, Emily E. Oldfield, Stephen A. Wood

2021Environmental Research Letters122 citationsDOIOpen Access PDF

Abstract

Abstract Higher levels of soil organic matter improve soil water retention, meaning they could mitigate agricultural yield losses from drought. Yet evidence to support such claims is mixed and incomplete. Using data from 12 376 county-years in the United States of America, we show that counties with higher soil organic matter are associated with greater yields, lower yield losses, and lower rates of crop insurance payouts under drought. Under severe drought, an increase of 1% soil organic matter was associated with a yield increase of 2.2 ± 0.33 Mg ha −1 (32.7 bu ac −1 ) and a 36 ± 4.76% reduction in the mean proportion of liabilities paid. Similar, yet smaller, effects were found for less severe levels of drought and this effect was reduced as soil clay content increased. Confirmatory pathway analyses indicate that this positive association of soil organic matter and yields under drought is partially explained by positive effects of soil organic matter on available water capacity and cation exchange capacity, but that soil organic matter may be imparting yield protection via mechanisms not fully captured by those metrics. Overall, our results suggest soil organic matter predicts yield resilience at regional scales in the United States. We argue that data on soil organic matter should be used in agricultural policy and financial planning, with our analyses providing quantitative evidence of the co-benefits of soil organic matter believed fundamental to advancing soil health and carbon sequestration initiatives.

Topics & Concepts

Organic matterEnvironmental scienceSoil organic matterSoil carbonAgronomyYield (engineering)Cation-exchange capacitySoil waterSoil scienceBiologyEcologyMaterials scienceMetallurgySoil Carbon and Nitrogen DynamicsSoil erosion and sediment transportClimate change impacts on agriculture