Dietary effects on the composition of pig slurry and on the plant utilization of pig slurry nitrogen

P. SØRENSEN; J. A. FERNÁNDEZ

doi:10.1017/S0021859603003113

Abstract

The composition of animal manure is influenced by the diet fed. Efforts are made to decrease nitrogen emission from pig production by optimizing diet composition. This normally results in a lower proportion of N excreted in urine relative to faeces, and may also influence the turnover and utilization of manure N after field application. The effects of pig feed composition on the excretion of urinary and faecal N, on the dynamics of manure N in soil and on the potential utilization of manure N in the field was studied. Growing pigs and sows were fed 12 different diets with variable contents of fibre and protein (with or without synthetic amino acids). Slurries consisting of a mixture of faeces and urine were stored according to common agricultural practice in Northern Europe. The plant availability of N in the resultant slurries originating from animals fed known diets was tested in small field plots with barley, under conditions with minimal N losses. Separate plots were fertilized with increasing amounts of mineral N. Nitrogen uptake in barley was determined and the utilization of slurry N was compared with that of mineral fertilizer N. The net release of mineral N and C from the slurries in soil was also measured in a parallel incubation study.

The mineral fertilizer equivalent of pig slurry N was 72–100% and significantly influenced by feed fibre composition, but not significantly influenced by the protein content. There was a significant positive correlation between enzyme-digestible organic matter in the pig diet (measurement used for feed evaluation) and the plant availability of pig slurry N (R2=0·90). The ammonium content of stored pig slurry could not be used for prediction of the N availability since the net mineralization of pig slurry N was variable, but there was a significant negative correlation between the pig slurry C/N ratio and the plant availability of slurry N (R2=0·86).

Increased dietary concentration of fermentable structural carbohydrates (e.g. by including sugar beet pulp in the diet) reduces the excretion of N in urine without affecting the availability of slurry total N, whereas an increased concentration of dietary fibre with a low fermentability (straw) results in less urinary N, but also a lower plant availability of slurry N.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Sørensen, Peter and Thomsen, Ingrid K. 2005. Production of Nitrogen‐15‐Labeled Pig Manure for Nitrogen Cycling Studies. Soil Science Society of America Journal, Vol. 69, Issue. 5, p. 1639.

Cole, N.A. Schwartz, R.C. and Todd, R.W. 2005. Assimilation Versus Accumulation of Macro- and Micronutrients in Soils: Relations to Livestock and Poultry Feeding Operations. Journal of Applied Poultry Research, Vol. 14, Issue. 2, p. 393.

Velthof, Gerard L. Nelemans, Jaap A. Oenema, Oene and Kuikman, Peter J. 2005. Gaseous Nitrogen and Carbon Losses from Pig Manure Derived from Different Diets. Journal of Environmental Quality, Vol. 34, Issue. 2, p. 698.

Pecson, Brian M. and Nelson, Kara L. 2005. Inactivation of Ascaris suum Eggs by Ammonia. Environmental Science & Technology, Vol. 39, Issue. 20, p. 7909.

Dourmad, Jean-Yves and Jondreville, Catherine 2007. Impact of nutrition on nitrogen, phosphorus, Cu and Zn in pig manure, and on emissions of ammonia and odours. Livestock Science, Vol. 112, Issue. 3, p. 192.

Wu, Zhonghong and Powell, J. Mark 2007. Dairy Manure Type, Application Rate, and Frequency Impact Plants and Soils. Soil Science Society of America Journal, Vol. 71, Issue. 4, p. 1306.

Eriksen, Jørgen Sørensen, Peter and Elsgaard, Lars 2008. The Fate of Sulfate in Acidified Pig Slurry during Storage and Following Application to Cropped Soil. Journal of Environmental Quality, Vol. 37, Issue. 1, p. 280.

Vu, Van Thi Khanh Prapaspongsa, Trakarn Poulsen, Hanne Damgaard and Jørgensen, Henry 2009. Prediction of manure nitrogen and carbon output from grower-finisher pigs. Animal Feed Science and Technology, Vol. 151, Issue. 1-2, p. 97.

Sørensen, Peter and Eriksen, Jørgen 2009. Effects of slurry acidification with sulphuric acid combined with aeration on the turnover and plant availability of nitrogen. Agriculture, Ecosystems & Environment, Vol. 131, Issue. 3-4, p. 240.

Monteiro, Divanildo Outor Pinheiro, Victor Manuel Carvalho Mourão, José Luís Medeiros and Rodrigues, Miguel António Machado 2010. Strategies for mitigation of nitrogen environmental impact from swine production. Revista Brasileira de Zootecnia, Vol. 39, Issue. suppl spe, p. 317.

TRAN, M. T. VU, T. K. V. SOMMER, S. G. and JENSEN, L. S. 2011. Nitrogen turnover and loss during storage of slurry and composting of solid manure under typical Vietnamese farming conditions. The Journal of Agricultural Science, Vol. 149, Issue. 3, p. 285.

Siegfried, Konrad Dietz, Herbert Schlecht, Eva and Buerkert, Andreas 2011. Nutrient and carbon balances in organic vegetable production on an irrigated, sandy soil in northern Oman. Journal of Plant Nutrition and Soil Science, Vol. 174, Issue. 4, p. 678.

Meade, G. Pierce, K. O’Doherty, J.V. Mueller, C. Lanigan, G. and Mc Cabe, T. 2011. Ammonia and nitrous oxide emissions following land application of high and low nitrogen pig manures to winter wheat at three growth stages. Agriculture, Ecosystems & Environment, Vol. 140, Issue. 1-2, p. 208.

DELIN, S. STENBERG, B. NYBERG, A. and BROHEDE, L. 2012. Potential methods for estimating nitrogen fertilizer value of organic residues. Soil Use and Management, Vol. 28, Issue. 3, p. 283.

Webb, J. Sørensen, Peter Velthof, Gerard Amon, Barbara Pinto, Miriam Rodhe, Lena Salomon, Eva Hutchings, Nicholas Burczyk, Piotr and Reid, Joanne 2013. Vol. 119, Issue. , p. 371.

CrossRef

Siegfried, Konrad Dietz, Herbert Amthauer Gallardo, Daniel Schlecht, Eva and Buerkert, Andreas 2013. Effects of manure with different C/N ratios on yields, yield components and matter balances of organically grown vegetables on a sandy soil of northern Oman. Organic Agriculture, Vol. 3, Issue. 1, p. 9.

Jensen, Lars S. 2013. Animal Manure Recycling. p. 295.

Jørgensen, Henry Prapaspongsa, Trakarn Vu, Van Thi Khanh and Poulsen, Hanne Damgaard 2013. Models to quantify excretion of dry matter, nitrogen, phosphorus and carbon in growing pigs fed regional diets. Journal of Animal Science and Biotechnology, Vol. 4, Issue. 1,

Cho, Sungback Hwang, Okhwa and Park, Sungkwon 2015. Effect of Dietary Protein Levels on Composition of Odorous Compounds and Bacterial Ecology in Pig Manure. Asian-Australasian Journal of Animal Sciences, Vol. 28, Issue. 9, p. 1362.

Sørensen, Peter Thomsen, Ingrid K. and Schröder, Jaap J. 2017. Empirical model for mineralisation of manure nitrogen in soil. Soil Research, Vol. 55, Issue. 6, p. 500.

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Dietary effects on the composition of pig slurry and on the plant utilization of pig slurry nitrogen

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