Nitrogen transformations and ammonia loss following injection and surface application of pig slurry: a laboratory experiment using slurry labelled with 15N-ammonium

D. R. CHADWICK; J. MARTINEZ; C. MAROL; F. BÉLINE

doi:10.1017/S0021859601008632

Abstract

A laboratory experiment was designed to determine the fate of 15N-labelled slurry ammonium (15NH4-N) and compare soil inorganic-N distribution following surface applied or injected pig slurry. A system of cylindrical volatilization chambers equipped to allow continuous trapping of ammonia (NH3) was used. Undisturbed soil columns were placed in the chambers prior to the application of slurry. A nitrogen balance including soil, air and plant analysis was established for both treatments, 8 days after application. Average cumulative emissions of NH3 were 15% and 11% of the total ammoniacal-N added with the surface and injected treatments, respectively. After 8 days 55% of the 15NH4-N applied through slurry injection was recovered in the soil inorganic-N pool: 37% as 15NH4-N and 18% as 15NO3-N. These figures compare with only 25% 15NH4-N recovered with the surface applied slurry treatment: 7% as 15NH-N and 17% as 15NO3-N. Immobilization into soil organic-N accounted for 8% of the 15NH4-N applied for the injected treatment and 6% of the surface applied slurry-15N. 15N uptake by the grass was 2% and 7% for the injected and surface applied treatments, respectively. The percentage of added 15N accounted for was 76% for the injected treatment and 53% for the surface applied slurry treatment.

Crossref Citations

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

Chantigny, Martin H. Angers, Denis A. Morvan, Thierry and Pomar, Candido 2004. Dynamics of Pig Slurry Nitrogen in Soil and Plant as Determined with15N. Soil Science Society of America Journal, Vol. 68, Issue. 2, p. 637.

Rodhe, Lena and Etana, Ararso 2005. Performance of Slurry Injectors compared with Band Spreading on Three Swedish Soils with Ley. Biosystems Engineering, Vol. 92, Issue. 1, p. 107.

Schröder, Jaap 2005. Revisiting the agronomic benefits of manure: a correct assessment and exploitation of its fertilizer value spares the environment. Bioresource Technology, Vol. 96, Issue. 2, p. 253.

Misselbrook, T.H. Powell, J.M. Broderick, G.A. and Grabber, J.H. 2005. Dietary Manipulation in Dairy Cattle: Laboratory Experiments to Assess the Influence on Ammonia Emissions. Journal of Dairy Science, Vol. 88, Issue. 5, p. 1765.

Giacomini, Sandro José Aita, Celso Jantalia, Claudia Pozzi Urquiaga, Segundo and Santos, Gabriel Franceschi dos 2009. Imobilização do nitrogênio amoniacal de dejetos líquidos de suínos em plantio direto e preparo reduzido do solo. Revista Brasileira de Ciência do Solo, Vol. 33, Issue. 1, p. 41.

Angers, D. A. Chantigny, M. H. MacDonald, J. D. Rochette, P. and Côté, D. 2010. Differential retention of carbon, nitrogen and phosphorus in grassland soil profiles with long-term manure application. Nutrient Cycling in Agroecosystems, Vol. 86, Issue. 2, p. 225.

Hoekstra, Nyncke J. Lalor, Stan T. J. Richards, Karl G. O’Hea, Norma Lanigan, Gary J. Dyckmans, Jens Schulte, Rogier P. O. and Schmidt, Olaf 2010. Slurry 15NH4-N recovery in herbage and soil: effects of application method and timing. Plant and Soil, Vol. 330, Issue. 1-2, p. 357.

Velasco-Velasco, Joel Parkinson, Robert and Kuri, Victor 2011. Ammonia emissions during vermicomposting of sheep manure. Bioresource Technology, Vol. 102, Issue. 23, p. 10959.

Hoekstra, N. J. Lalor, S. T. J. Richards, K. G. O’Hea, N. Dungait, J. A. J. Schulte, R. P. O. and Schmidt, O. 2011. The fate of slurry-N fractions in herbage and soil during two growing seasons following application. Plant and Soil, Vol. 342, Issue. 1-2, p. 83.

Dell, Curtis J. Meisinger, John J. and Beegle, Douglas B. 2011. Subsurface Application of Manures Slurries for Conservation Tillage and Pasture Soils and Their Impact on the Nitrogen Balance. Journal of Environmental Quality, Vol. 40, Issue. 2, p. 352.

Chadwick, Dave Sommer, Sven Thorman, Rachel Fangueiro, David Cardenas, Laura Amon, Barbara and Misselbrook, Tom 2011. Manure management: Implications for greenhouse gas emissions. Animal Feed Science and Technology, Vol. 166-167, Issue. , p. 514.

Mahmood, Tariq Ali, Rehmat Latif, Zahid and Ishaque, Wajid 2011. Dicyandiamide increases the fertilizer N loss from an alkaline calcareous soil treated with 15N-labelled urea under warm climate and under different crops. Biology and Fertility of Soils, Vol. 47, Issue. 6, p. 619.

Klop, G. Velthof, G. L. and van Groenigen, J. W. 2012. Application technique affects the potential of mineral concentrates from livestock manure to replace inorganic nitrogen fertilizer. Soil Use and Management, Vol. 28, Issue. 4, p. 468.

Gonzatto, Rogério Chantigny, Martin H. Aita, Celso Giacomini, Sandro J. Rochette, Philippe Angers, Denis A. Pujol, Stefen B. Zirbes, Emerson De Bastiani, Géssica G. and Ludke, Roberto C. 2016. Injection and Nitrification Inhibitor Improve the Recovery of Pig Slurry Ammonium Nitrogen in Grain Crops in Brazil. Agronomy Journal, Vol. 108, Issue. 3, p. 978.

Snider, David M. Wagner‐Riddle, Claudia and Spoelstra, John 2017. Stable Isotopes Reveal Rapid Cycling of Soil Nitrogen after Manure Application. Journal of Environmental Quality, Vol. 46, Issue. 2, p. 261.

Zhang, Jiuquan Varco, Jac J. and Adeli, Ardeshir 2017. Short-term and seasonal soil nitrogen dynamics and recovery by bermudagrass irrigated with 15N labelled swine lagoon effluent. Plant and Soil, Vol. 410, Issue. 1-2, p. 437.

Whalen, Joann K. Thomas, Ben W. and Sharifi, Mehdi 2019. Vol. 153, Issue. , p. 1.

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Rana, R.L. Andriano, A.M. Giungato, P. and Tricase, C. 2019. Carbon footprint of processed sweet cherries (Prunus avium L.): From nursery to market. Journal of Cleaner Production, Vol. 227, Issue. , p. 900.

Chalk, Phillip M. Inácio, Caio T. and Chen, Deli 2020. Vol. 160, Issue. , p. 187.

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Scotto di Perta, Ester Fiorentino, Nunzio Carozzi, Marco Cervelli, Elena and Pindozzi, Stefania 2020. A Review of Chamber and Micrometeorological Methods to Quantify NH3 Emissions from Fertilisers Field Application. International Journal of Agronomy, Vol. 2020, Issue. , p. 1.

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Nitrogen transformations and ammonia loss following injection and surface application of pig slurry: a laboratory experiment using slurry labelled with 15N-ammonium

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Nitrogen transformations and ammonia loss following injection and surface application of pig slurry: a laboratory experiment using slurry labelled with 15N-ammonium

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