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United States Department of Agriculture

Agricultural Research Service


Location: Environmentally Integrated Dairy Management Research

2012 Annual Report

1a. Objectives (from AD-416):
The overarching objective of our research project is to address current knowledge gaps in understanding and managing the nutrient cycles and pathogen transmission on modern dairy farms. Our specific research objectives are as follows: 1. Determine the effects of dairy cattle diet and dairy herd management (e.g. pasture, confinement, hybrid systems) on manure nutrient excretion, capture, recycling, and loss via gaseous emissions, leaching, and runoff. 2. Determine the effects of dairy manure management practices and cropping systems on crop production, soil properties, and loss of nutrients, sediment, and pathogens (e.g. Cryptosporidium parvum, Salmonella spp., and bovine diarrhea virus) in surface runoff or atmospheric emissions. 3. Determine the effects of timing and rate of dairy manure application on nutrient uptake and nutritional characteristics of fresh and harvested annual and perennial forages. 4. Develop crop management strategies to optimize the exchange of N, P, and K as manure and feed between neighboring dairy and cash grain farms. 5. Develop improved methods for detection and quantification of pathogens in manure, forages, and surface runoff and evaluate effects of management practices on pathogen transport and survival.

1b. Approach (from AD-416):
Improved management of dairy farms requires successfully managing its nutrient flows, both to maximize nutrient use by animals and crops to optimize profit, and to minimize nutrient loss to the environment. We will investigate most aspects of nutrient cycling throughout the dairy-farm system with a variety of methods and at different scales (replicated field plots, field-scale paired watersheds, feeding trials with replicated pens of heifers, etc.). We will also examine pathogen transport and viability at different points in the dairy farm system. Some experiments will investigate only one or two nutrient or pathogen pathways, while others will be more comprehensive, including, for example, surface runoff, gaseous emission, and plant removal. Our research team also has a longer-term goal, which is to integrate information across experiments to more completely describe, quantify, model, and manage the entire dairy-farm nutrient cycle. Achieving this goal will help ensure the existence of sustainable, profitable, environmentally benign dairy farming for coming decades.

3. Progress Report:
A five-year paired-watershed study to evaluate runoff losses of nitrogen (N), phosphorus (P), and pathogens from different manure/tillage/crop management systems was completed and data is being analyzed. The perennial forage phase of the experiment is being established. A series of rainfall simulation experiments to assess the effects of manure management and P supplementation of dairy heifer diets on runoff P losses was completed, and a journal article is in press. A runoff project comparing nutrient loss from different areas on a dairy farm was completed. Runoff samples have been analyzed and final results are being prepared. A preliminary model was developed for P loss in runoff from barnyards, and testing of the model is underway. The second year of runoff, leaching, and gas emission measurements from different barnyard surfaces was completed. Leachate and runoff samples are being analyzed for N and P. A new post-doc is processing gas emission data. The third year of a field trial to evaluate N availability and losses of ammonia and greenhouse gases from different methods and timing of liquid dairy manure application on corn was completed. Data analysis is in progress. A 2-year project on nutrient loss in runoff from pastures was completed. Runoff samples were analyzed and data were processed to estimate annual sediment and P loss in runoff. These and other data were used to validate the Annual P Loss Estimator (APLE) model, with excellent results. A study of four grazing-based dairy farms was conducted to determine relationships between nutrients (N and P) in feed, milk, and manure. Results showed differences compared to confinement-based farms. This information will help producers and consultants evaluate feed use efficiency and economic and environmental impacts of nutrient use on dairy farms. Data from these grazing farms are being compiled in APLE to estimate whole-farm P loss in runoff. In partnership with the University of Wisconsin, all summaries of studies evaluating supplementation of P for growing dairy replacement heifers have been completed and are now published. Plot studies evaluating the capacity of fall-grown oat to capture nutrients from manure or commercial fertilizer sources were conducted during Fall 2011, and will be repeated in Fall 2012-2014. Evaluation of the effects of manure application on subsequent silage fermentation characteristics of alfalfa were initiated in Summer 2012. Measurements of soil carbon and greenhouse gas emissions in a long-term (20-yr) cropping systems trial were completed. Studies are ongoing on the transport of manure-borne pathogens in Midwestern watersheds and groundwater aquifers in collaboration with researchers at the US Geological Survey Wisconsin Water Science Center, Iowa Water Science Center, Iowa State University, and the USEPA in Athens, GA. In addition, the microbiology laboratory launched a study on the effectiveness of anaerobic digestion in removing pathogens in dairy manure. The study is unique in that it is quantifying removal of actual bovine pathogens, not indicator species, in full-scale digesters on seven dairy farms in Wisconsin.

4. Accomplishments

Review Publications
Martinson, K., Coblentz, W.K., Sheaffer, C. 2011. The effect of harvest moisture and bale wrapping on forage quality, temperature, and mold in orchardgrass hay. Journal of Equine Veterinary Science. 31:711-716.

Coblentz, W.K., Bertram, M.G., Martin, N.P., Berzaghi, P. 2012. Planting date effects on the nutritive value of fall-grown oat cultivars. Agronomy Journal. 104:312-323.

Vadas, P.A., Jokela, W.E., Franklin, D.H., Endale, D.M. 2011. The effect of rain and runoff when assessing timing of manure application and dissolved phosphorus loss in runoff. Journal of the American Water Resources Association. 47(4):877-886.

Jokela, W.E., Posner, J.L., Hedtcke, J.L., Balser, T.C., Read, H.W. 2011. Midwest cropping system effects on soil properties and on a soil quality index. Agronomy Journal. 103:1552–1562.

Bjelland, D.W., Weigel, K.A., Hoffman, P.C., Esser, N.M., Coblentz, W.K. 2011. The effect of feeding dairy heifers diets with and without supplemental Phosphorus on growth, reproductive efficiency, health, and lactation performance. Journal of Dairy Science. 94:6233-6242.

Bass, A.E., Philipp, D., Coffey, K.P., Caldwell, J.D., Rhein, R.T., Young, A.N., Coblentz, W.K. 2011. Chemical composition, intake by sheep, and in situ disappearance in cannulated cows of bermudagrass hayed at two moisture concentrations and treated with a non-viable lactobacillus-lactic acid preservative. Animal Feed Science And Technology. 171:43-51.

Vadas, P.A. 2010. Modeling phosphorus transformations and runoff loss for surface-applied manure. In: He, Z., editor. Environmental Chemistry of Animal Manure. New York, NY:Nova Science Publishers. p. 130-138.

Panuska, J.C., Good, L.W., Vadas, P.A., Busch, D., Ozkaynak, A. 2011. Sediment and particulate phosphorus characteristics in grassed waterways from row crop corn and alfalfa fields collected using manual University of Exeter and automatic sampling. Hydrological Processes. 25:2329-2338.

Powell, J.M., Broderick, G.A. 2011. Trans-disciplinary soil science research: impacts of dairy nutrition on manure chemistry and the environment. Soil Science Society of America Journal. 40:907-914. DOI:10.2134/jeq2010.0492.

Powell, J.M., Aguerre, M.J., Wattiaux, M.A. 2011. Dietary crude protein and tannin impact dairy manure chemistry and ammonia emissions from soils. Journal of Environmental Quality. 40:1767-1774. DOI:10.2134/jeq2011.0085.

Millen, H., Gonnering, J., Berg, R., Spencer, S.K., Jokela, W.E., Pearce, J.M., Borchardt, J.S., Borchardt, M.A. 2012. Glass wool filters for concentrating waterborne viruses and agricultural zoonotic pathogens. Journal of Visualized Experiments. DOI: 10.3791/3930.

Fortuna, A., Honeycutt, C.W., Vandemark, G.J., Griffin, T.S., Larkin, R.P., He, Z., Wienhold, B.J., Sistani, K.R., Albrecht, S.L., Woodbury, B.L., Torbert III, H.A., Powell, J.M., Hubbard, R.K., Eigenberg, R.A., Wright, R.J., Allredge, R.J. 2012. Links among nitrification, nitrifier communities and edaphic properties in contrasting soils receiving dairy slurry. Journal of Environmental Quality. 41:262-272.

Gibson, K.E., Schwab, K.J., Spencer, S.K., Borchardt, M.A. 2012. Measuring and mitigating inhibition during real-time, quantitative PCR analysis of viral nucleic acid extracts from large-volume environmental water samples. Water Research. 46:4281-4291.

Last Modified: 10/19/2017
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