Agricultural managed aquifer recharge — water quality factors to consider

Hannah Waterhouse; Sandra Bachand; Daniel Mountjoy; Joseph Choperena; Philip A.M. Bachand; Helen E. Dahlke; William R. Horwath

doi:10.3733/ca.2020a0020

California Agriculture (Oct 2020)

Agricultural managed aquifer recharge — water quality factors to consider

Hannah Waterhouse,
Sandra Bachand,
Daniel Mountjoy,
Joseph Choperena,
Philip A.M. Bachand,
Helen E. Dahlke,
William R. Horwath

Affiliations

Hannah Waterhouse: H. Waterhouse is Postdoctoral Scholar, Department of Environmental Science, Policy, and Management, UC Berkeley, and was previously Ph.D. Candidate, UC Davis
Sandra Bachand: S. Bachand is Co-Founder and President, Bachand and Associates, Davis
Daniel Mountjoy: D. Mountjoy is Director of Resource Stewardship, Central Valley Groundwater Recharge, Sustainable Conservation, San Francisco.
Joseph Choperena: J. Choperena is Project Director, Central Valley Groundwater Recharge, Sustainable Conservation, San Francisco.
Philip A.M. Bachand: P.A.M. Bachand is Founder and President, Bachand and Associates, Davis
Helen E. Dahlke: H.E. Dahlke is Asscociate Professor, Department of Land, Air and Water Resources, UC Davis
William R. Horwath: W.R. Horwath is Professor, Department of Land, Air and Water Resources, UC Davis

DOI: https://doi.org/10.3733/ca.2020a0020
Journal volume & issue: Vol. 74, no. 03
pp. 144 – 154

Abstract

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The resilience and productivity of California's agriculture is threatened by groundwater overdraft, reduction in aquifer water quality, increased land subsidence damage to infrastructure and an irreversible reduction in groundwater storage capacity. Intentionally flooding agricultural fields during winter — a practice referred to as agricultural managed aquifer recharge (AgMAR) — can help counteract overdraft. However, the potential for AgMAR to exacerbate nitrate/salt leaching and contamination of at-risk aquifers remains a critical concern. To quantify the risk of groundwater contamination with AgMAR, we took 30-foot-long soil cores in 12 almond orchards, processing tomato fields and wine grape vineyards on low- and high-permeability soils, measured nitrate and total dissolved solids concentrations and calculated stored nitrate-N. Wine grape vineyards on permeable soils had the least nitrate leaching risk observed. However, almond orchards and tomato fields could be leveraged for AgMAR if dedicated recharge sites were established and clean surface water used for recharge. Historical land use, current nitrogen management and soil permeability class are the main factors to consider before implementing AgMAR.

Published in California Agriculture

ISSN: 0008-0845 (Print); 2160-8091 (Online)
Publisher: University of California Agriculture and Natural Resources
Country of publisher: United States
LCC subjects: Agriculture: Agriculture (General)
Website: http://calag.ucanr.edu/

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