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Whole-Farm Nitrogen Balance on Western Dairy Farms¹

R. A. Spears^*, R. A Kohn and A. J. Young^*

^* Animal, Dairy, and Veterinary Sciences Department, 4815 Old Main Hill, Utah State University, Logan 84322-4815
Department of Animal and Avian Sciences, Animal Science Center, University of Maryland, College Park 20742-2311

Corresponding author: A. J. Young; e-mail: alleny{at}ext.usu.edu.

Environmental legislation has made it necessary for livestock producers to be able to quantify and adjust the N balance on their farms. Whole-farm N balance and efficiencies were computed for 41 commercial dairies in Utah and Idaho using the University of Maryland Nutrient Balancer. The average N balance, or unaccounted for N, was 81 tonnes per year for the average herd size of 466 cows with 35.8% of the inputs accounted for in the outputs. The major inputs for farms that grew crops (n = 23, herd size = 284 total cows) were imported feed (57.4% of all inputs) and nitrogen fixation (30% of inputs). The major outputs were animal products (primarily milk and some meat, 80% of outputs). For farms that grew no crops (n = 18, herd size = 700 total cows), 98% of the inputs were from imported feed. Of the outputs, 57% of the N was in animal products and 42.9% in manure and compost. Whole-farm balance per product for those farms that grew crops was most affected by herd N utilization efficiency (kg feed N per kg product N), crop N utilization efficiency, and availability of manure N applied to crops, while manure N storage efficiency was of lesser importance. For farms that grew no crops, whole-farm N balance per product was most affected by herd N utilization efficiency and manure N storage efficiency. Maximizing conversion of feed N to product N was the best way to reduce whole-farm N balance.

Key Words: nitrogen balance • commercial dairies • western United States

Abbreviation key: CNMP = comprehensive nutrient management plan, HNUE = herd nitrogen utilization efficiency, MNSE = manure nitrogen storage efficiency

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