Researchers: Thomas Harter, Marsha Campbell-Matthews, Roland Meyer

Funding:

California Dairy Research Foundation
UC Sustainable Agriculture Research and Education Program
UC Analytical Laboratory

Video-Links / Blogs:
UC Groundwater Scientist Studies Aquifers Beneath Valley Dairies
___________(alternative link on YouTube)
Water: Can we blame the cows for pollutants in groundwater? (Part 1)
Water: Can we blame the cows for pollutants in groundwater? (Part 2)

California is the largest dairy producing state in the United States. Environmentally sustainable management of these dairies is critical to the economic health of California's agricultural community. Dairies are potentially a major contributor of nitrate and salts to groundwater. In particular the dairy areas of Stanislaus and Merced Counties have had a long-standing history of nitrate and salt problems in their groundwater (Lowry, 1987). The area is more susceptible to groundwater nitrate contamination than other areas, because soils are predominantly sandy and depth to groundwater is mostly shallow (Page and Boulding, 1973). Dairy operators are actively looking for solutions to ensure that their manure management practices have no negative impact on groundwater quality. Our research project is part of that effort and pursues the following objectives:

• implement a groundwater monitoring program to characterize shallow groundwater quality underneath a number of cooperating dairies in central California,
• develop specific recommendations for improvements in dairy nutrient management that are likely to have significant impact on groundwater quality,
• develop strategies to improve current groundwater quality,
• educate regulatory agency staff and dairy operators about potential pathways of manure nutrients in the subsurface below dairies and about their potential role in safeguarding ground water quality.

The groundwater monitoring project was begun in collaboration with the Regional Water Quality Control Board which initially installed the monitoring well network. Monitoring wells are strategically placed a) upgradient and downgradient from fields receiving manure water, b) near ponds, and c) in the corral area. Groundwater levels in this area typically vary from 5 to 15 feet below ground surface. Well water sampled from the monitoring wells is representative only of the uppermost 5 to 10 feet of groundwater (shallowest groundwater). Nitrate levels in the shallowest groundwater under these dairies often exceed the maximum allowed nitrate level (Harter et al., 1999). We sample the 45 monitoring wells on 5 dairies in Stanislaus and Merced County on a monthly basis. The cooperating dairies are well managed and both their operation and their geographic environment are representative for many dairies in the San Joaquin Valley. In 1998/99, we added on an extensive manure nutrient management component to the project and expanded our monitoring well network. We are developing nutrient management practices that will allow operators to fertilize crops with liquid manure only without significant reduction in crop yield, while minimizing the nitrogen and salt losses to shallow groundwater. Groundwater monitoring data are analyzed to determine which management practices are the major cause for the elevated levels of nitrate in groundwater and how long it will take until improved management practices significantly improve shallow groundwater quality. Also, non-dairy nitrate sources are considered and we are planning to also look at regional groundwater impacts as funding becomes available.

References:

VanderSchans, M. L., T. Harter, A. Leijnse, M. C. Mathews, R. D. Meyer, 2009. Characterizing sources of nitrate leaching from an irrigated dairy farm in Merced County, California, J. of Contam. Hydrology 110:9-21, (pdf file for personal use only).

Harter, T., 2009. Agricultural impacts on groundwater nitrate, Southwest Hydrology 8(4):21-23 (Jul/Aug 2009) . (free public access)

Horn, J. and T. Harter, 2009. Domestic well capture zone and influence of the gravel pack length. Ground Water 47(2):277-286. (pdf file for personal use only)

Watanabe, N., T. Harter, and B. A. Bergamaschi, 2008. Environmental occurrence and shallow groundwater detection of the antibiotic Monensin from dairy farms. J. Environ. Qual. 37:S-78–S-85 (2008). doi:10.2134/jeq2007.0371. (pdf file for personal use only)

Chomycia, J.C., P.J. Hernes, T. Harter, and B.A. Bergamaschi, 2008. Land management impacts on dairy-derived dissolved organic carbon in ground water. J. Env. Qual. 37(2), 333-343. doi:10.2134/jeq2007.0183.

Harter, T., E.R. Atwill, L.L. Hou, B.M. Karle, and K.W. Tate, 2008. Developing risk models of Cryptosporidium transport in soils from vegetated, tilted soilbox experiments. J. Env. Qual. 37(1), 245-258. doi:10.2134/jeq2006.0281.(pdf file for personal use only)

Harter, T. (ed.), 2007. Groundwater Quality Protection: Managing Dairy Manure in the Central Valley of California. University of California Agriculture and Natural Resources Publication 9004(Downloadable from the web; also see Chang et al., 2005, below), 178 pp.

Singleton, M. J., B. K. Esser, J. E. Moran, G. B. Hudson, W. W. McNab, and T. Harter, 2007. Saturated zone denitrification: Potential for natural attenuation of nitrate contamination in shallow groundwater under dairy operations. Env. Sci. & Technol. 41 (3), 759-765.

Searcy, K.E., A. I. Packman, E. R. Atwill, and T. Harter, 2006. Deposition of Cryptosporidium oocysts in streambeds. Applied and Environmental Microbiology, 72(3):1810-1816. (pdf file for personal use only)

Chang, A., T. Harter, J. Letey, D. Meyer, R. D. Meyer, M. Campbell-Mathews, F. Mitloehner, S. Pettygrove, P. Robinson, R. Zhang, 2006. Managing Dairy Manure in the Central Valley of California; University of California Committee of Experts on Dairy Manure Management Final Report to the Regional Water Quality Control Board, Region 5, Sacramento, June 2005. 178 pp. (pdf file for personal use only)

Harter, T.,  Y. S. Onsoy, K. Heeren, M. Denton, G. Weissmann, J. W. Hopmans, W. R. Horwath, 2005. Deep vadose zone hydrology demonstrates fate of nitrate in eastern San Joaquin Valley, California Agriculture 59(2):124-132. (pdf file for personal use only)

Harter, T. and J. Menke, 2005. Cow numbers and water quality - is there a magic number? A groundwater perspective. (revised from: Harter T., 2004, Proceedings, National Alfalfa Symposium, San Diego, December 13-15, 2004. 13 pages). (pdf file for personal use only)

Kolodziej, E. P., T. Harter, D. L. Sedlak, 2004. Dairy wastewater, aquaculture, and spawning fish as sources of steroid hormones in the aquatic envionrment, Env. Science and Technol. 38, p. 6377-6384. (pdf file for personal use only)

Campbell-Mathews, 2004. Principles of recycling dairy manures through forage crops. Proceedings, National Alfalfa Symposium, San Diego, December 13-15, 2004. 8 pages. (pdf file for personal use only)

Harter, Thomas, H. Davis, Marsha C. Mathews, Roland D. Meyer, 2002. Shallow groundwater quality on dairy farms with irrigated forage crops, Journal of Contaminant Hydrology 55 (3-4), pp. 287-315. (pdf file for personal use only)

Harter, T., R. D. Meyer, M. C. Mathews, 2002. Nonpoint source pollution from animal farming in semi-arid regions: Spatio-temporal variability and groundwater monitoring strategies; in: Ribeiro, L. (Ed.), 2002, Future Groundwater Resources at Risk, Proceedings of the 3rd International Conference, Lisbon, Portugal, June 2001; pp. 363-372. (pdf file for personal use only)

Mathews, M. C., E. Swenson, T. Harter, R. D. Meyer, 2001. Matching dairy lagoon nutrient application to crop nitrogen uptake using a flow meter and control valve. ASAE Paper Number 01-2105, 2001 ASAE Annual International Meeting, Sacramento, CA, July 30-August 1, 2001. (pdf file for personal use only)

Harter, T., M. C. Mathews, R. D. Meyer, 2001. Effects of dairy manure nutrient management on shallow groundwater nitrate: a case study. ASAE Meeting Presentation, ASAE Paper Number 01-2192, 2001 ASAE Annual International Meeting, Sacramento, CA, July 30-August 1, 2001; 2001. (pdf file for personal use only)

Harter, T., H. Davis, M. C. Mathews, R. D. Meyer, 2001. Monitoring shallow groundwater nitrogen loading from dairy facilities with irrigated forage crops. ASAE Meeting Presentation, ASAE Paper Number 01-2103, 2001 ASAE Annual International Meeting, Sacramento, CA, July 30-August 1, 2001. (pdf file for personal use only)

Brune, D. E., C. M. Drapcho, D. E. Radcliff, T. Harter, R. Zhang, 1999. Electromagnetic survey to rapidly assess water quality in agricultural watersheds, ASAE Paper No. 99-2176 ASAE 1999Annual International Meeting, ASAE, 2950 Niles Rd., St. Joseph, MI 49085-9659.

Harter T., R. D. Meyer, M. Campbell-Mathews, 1999, Shallow groundwater quality under dairies in Merced and Stanislaus County, Proceedings, 1999 California Plant and Soil Conference, California Chapter of American Society of Agronomy, pp. 122-127.

Campbell-Mathews, M., R. D. Meyer, T. Harter, 1999. Using dairy lagoon water to replace commercial fertilizer, Proceedings, 1999 California Plant and Soil Conference, California Chapter of American Society of Agronomy, pp. 133-138.

Lowry, P., Hilmar Ground Water Study, CVRWQCB Files. 56+ pp., 1987.

Page, R. W., G. O. Balding, Geology and Quality of Water in the Modesto-Merced Area, San Joaquin Valley, California, U. S. Geological Survey Water Resources Investigations 6-73, 85 pp., 1973.

Archived information:

Dairy Environmental Quality related websites
Research project: Integrating Forage Production with Dairy Manure Management