3.8 Article

Short-term impacts of cover crops in maritime potato (Solanum tuberosum) systems

Journal

AGROSYSTEMS GEOSCIENCES & ENVIRONMENT
Volume 5, Issue 2, Pages -

Publisher

WILEY
DOI: 10.1002/agg2.20263

Keywords

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Funding

  1. Northwest Potato Research Consortium
  2. Washington Potato Commission
  3. Northwest Agricultural Research Foundation
  4. U.S. Department of Agriculture (USDA) NIFA Hatch project [1014527]

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This study aimed to identify suitable winter cover crops for potato systems in western Washington and evaluate their effects by examining cover crop biomass, weed suppression, soil health, and potato yield. The results showed that brassica cover crops and annual ryegrass were appropriate cover crop options in the region, as they effectively increased soil organic carbon and nitrogen content without affecting potato yield and quality.
Cover cropping is a soil conservation practice widely investigated in agronomic crops, but less is known about cover crop implications in specialty cropping systems, particularly in a high disturbance system like potato (Solanum tuberosum L.). Brassica cover crops are popular in eastern Washington potato production, but brassica seed crop production in western Washington presents issues with use of brassica cover crops in the region's fresh-market potato systems. To identify winter cover crops compatible with regional restrictions and climatic challenges in western Washington potato systems, trials including a no-cover control, eight single species (including brassicas, grasses, and legumes), and a grass-legume mixture were conducted in Mount Vernon, WA, in 2018-2019 and 2019-2020. We examined cover crop and weed biomass production, potato yield and quality, and short-term soil health impacts by measuring permanganate oxidizable carbon (POXC) and inorganic nitrogen before cover crop incorporation and at midseason. Cover crop biomass and weed suppression varied by year, with annual ryegrass (Lolium multiflorum Lam.) producing the most biomass in both years despite poorer weather conditions and reduced cover crop biomass in other treatments in 2020, making it a good cover crop candidate for western Washington. Both POXC and inorganic nitrogen were greater at midseason but did not vary among cover crop treatments, suggesting that temporal variation influences POXC and inorganic nitrogen more than a single winter of cover crops. Potato yield and tuber wireworm damage varied by year, but not across cover crop treatments, and tuber symptoms resembling black scurf did not vary by year nor treatment.

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