AI Article Synopsis

  • Winter cover crops (WCCs) can reduce nitrogen and sediment pollution while increasing soil organic carbon (SOC) sequestration in agricultural fields, with the Tuckahoe Watershed study revealing promising results.
  • The study confirmed that WCCs effectively lower both nitrate and sediment levels and can sequester between 0.45-0.92 MgC ha yr, with early planting providing greater benefits.
  • Implementing WCCs across Maryland's cropland could help meet 2.1-4.4% of the state's 2030 greenhouse gas reduction goals, but careful management is needed to balance water availability and ecosystem health.

Article Abstract

Winter cover crops (WCCs) are promising best management practices for reducing nitrogen and sediment pollution and increasing soil organic carbon (SOC) sequestration in agricultural fields. Although previous watershed studies assessed water quality benefits of growing WCCs in the Chesapeake Bay watershed, the SOC sequestration impacts remain largely unknown. Here, we designed six WCC scenarios in the Tuckahoe Watershed (TW) to understand potential synergies or tradeoffs between multiple impacts of WCCs. Besides corroborating the nitrate reduction benefits of WCCs that have been reported in previous studies, our results also demonstrated comparable reduction in sediment. We also found that the six WCC scenarios can sequester 0.45-0.92 MgC ha yr, with early-planted WCCs having more than 70% SOC sequestration benefits compared with their late-planted counterparts. With a linear extrapolation to all the cropland in Maryland, WCCs hold potential to contribute 2.1-4.4% toward Maryland's 2030 Greenhouse Gases reduction goal. Additionally, we showed that WCCs can noticeably increase evapotranspiration and decrease water yield and streamflow, potentially impacting aquatic ecosystem health and water supply. Overall, this study highlights the synergistic water quality and SOC sequestration benefits of WCCs in the Chesapeake Bay watershed. Meanwhile, sustainable adoption of WCCs into existing crop rotations will also require careful assessment of their impact on water availability.

Download full-text PDF

Source
http://dx.doi.org/10.1016/j.jenvman.2024.123104DOI Listing

Publication Analysis

Top Keywords

soc sequestration
16
water quality
12
sequestration benefits
12
wccs
9
synergistic water
8
soil organic
8
organic carbon
8
winter cover
8
cover crops
8
wccs chesapeake
8

Similar Publications

Want AI Summaries of new PubMed Abstracts delivered to your In-box?

Enter search terms and have AI summaries delivered each week - change queries or unsubscribe any time!