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New Zealand Journal of Agricultural Research Volume 16, 1973 - Issue 3
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Original Articles

Some effects of cattle dung on soil properties, pasture production, and nutrient uptake

I. Dung as a source of phosphorus

C. During Ruakura Soil Research Station, Private Bag, Hamilton, New Zealand
&
W. C. Weeda Ruakura Soil Research Station, Private Bag, Hamilton, New Zealand
Pages 423-430 | Received 29 Nov 1972, Published online: 28 Nov 2012

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C. A. M. de Klein. (2001) An analysis of environmental and economic implications of nil and restricted grazing systems designed to reduce nitrate leaching from New Zealand dairy farms. II. Pasture production and cost/benefit analysis. New Zealand Journal of Agricultural Research 44:2-3, pages 217-235.
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C. During. (1993) Short-term residual value of phosphate fertiliser on grazed pasture. New Zealand Journal of Agricultural Research 36:2, pages 261-269.
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J. J. Dymock. (1993) A case for the introduction of additional dung-burying beetles (Coleoptera: Scarabaeidae) into New Zealand. New Zealand Journal of Agricultural Research 36:1, pages 163-171.
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C. During, J. Waller & M. B. O'Connor. (1993) A short-term phosphate fertiliser advice model for grazed pasture as applied to soils in northern North Island, New Zealand. New Zealand Journal of Agricultural Research 36:1, pages 151-155.
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J.D. Morton & D.B. Baird. (1990) Spatial distribution of dung patches under sheep grazing. New Zealand Journal of Agricultural Research 33:2, pages 285-294.
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W. M. H. Saunders. (1984) Mineral composition of soil and pasture from areas of grazed paddocks, affected and unaffected by dung and urine. New Zealand Journal of Agricultural Research 27:3, pages 405-412.
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W. C. Weeda. (1977) Effect of cattle dung patches on soil tests and botanical and chemical composition of herbage. New Zealand Journal of Agricultural Research 20:4, pages 471-478.
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A. J. Metson. (1974) I. Some factors governing the availability of soil magnesium: A review. New Zealand Journal of Experimental Agriculture 2:3, pages 277-319.
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C. During, W. C. Weeda & F. D. Dorofaeff. (1973) Some effects of cattle dung on soil properties, pasture production, and nutrient uptake. New Zealand Journal of Agricultural Research 16:3, pages 431-438.
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Articles from other publishers (34)

Amanda E. Shine, Martha Mamo, Gandura O. Abagandura, Walter Schacht & Jerry Volesky. (2022) Temporal changes in the nutrient content of cattle dung in the Nebraska Sandhills ecosystem. Nutrient Cycling in Agroecosystems 124:3, pages 407-422.
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Hidetoshi Kakihara & Shin‐ichiro Ogura. (2022) Effect of soil acidification on regrowth of orchardgrass ( Dactylis glomerata ) under application of grazing cattle dung, cattle manure compost, and chemical fertilizer . Grassland Science 68:3, pages 255-262.
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Hidetoshi Kakihara & Shin‐ichiro Ogura. (2021) Relationship between orchardgrass ( Dactylis glomerata ) dominance and the soil chemical characteristics of nonallophanic Andosol under cutting and cattle grazing . Grassland Science 68:2, pages 165-173.
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Nadira Naznin Rakhi & Abdullah-Al-Jubayer. 2022. Animal Manure. Animal Manure 159 184 .
Oksana Y. Buzhdygan, Britta Tietjen, Svitlana S. Rudenko, Volodymyr A. Nikorych & Jana S. Petermann. (2020) Direct and indirect effects of land-use intensity on plant communities across elevation in semi-natural grasslands. PLOS ONE 15:11, pages e0231122.
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Anish Subedi, Dorcas Franklin, Miguel Cabrera, Amanda McPherson & Subash Dahal. (2020) Grazing Systems to Retain and Redistribute Soil Phosphorus and to Reduce Phosphorus Losses in Runoff. Soil Systems 4:4, pages 66.
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Francine D. da Silva, Pedro A. de A. Nunes, Christian Bredemeier, Monica Cadenazzi, Lúcio P. Amaral, Fernando M. Pfeifer, Ibanor Anghinoni & Paulo C. de F. Carvalho. (2020) Spatiotemporal Distribution of Cattle Dung Patches in a Subtropical Soybean-Beef System under Different Grazing Intensities in Winter. Agronomy 10:9, pages 1423.
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Hui Chu, Chunping Zhang, Quanmin Dong, Zhanhuan Shang, A. Allan Degen, Xiaoxia Yang, Yang Yu, Zengzeng Yang & Yanfen Zhang. (2019) The effect of grazing intensity and season on the soil seed bank and its relation with above-ground vegetation on the alpine steppe. Agriculture, Ecosystems & Environment 285, pages 106622.
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Nariyasu WATANABE, Rena YOSHITOSHI, Jihyun LIM, Kensuke KAWAMURA & Seiichi SAKANOUE. (2019) Detection of Steer Defecation Events using an Accelerometer. Japan Agricultural Research Quarterly: JARQ 53:4, pages 311-319.
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Shuangyuan Liu, Rongbo Zheng, Xuelian Guo, Xue Wang, Li Chen & Yawen Hou. (2018) Effects of yak excreta on soil organic carbon mineralization and microbial communities in alpine wetlands of southwest of China. Journal of Soils and Sediments 19:3, pages 1490-1498.
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Steven J. Granger, Yuguo Yang, Verena Pfahler, Chris Hodgson, Andrew C. Smith, Kate Le Cocq, Adrian L. Collins, Martin S. A. Blackwell & Nicholas J. K. Howden. (2018) The stable oxygen isotope ratio of resin extractable phosphate derived from fresh cattle faeces. Rapid Communications in Mass Spectrometry 32:9, pages 703-710.
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D. F. Liang, K. C. Niu & S. T. Zhang. (2017) Interacting effects of yak dung deposition and litter quality on litter mass loss and nitrogen dynamics in Tibetan alpine grassland. Grass and Forage Science 73:1, pages 123-131.
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H. A. DeRamus, T. J. Clement, C. Y. Jeong & J. C. Berry. (2015) Comparison of Beef Cattle Grazing Management Practices and their Effects on Runoff Water Quality in Louisiana. Global Journal of Agricultural Innovation, Research & Development 2:1, pages 1-15.
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S. R. Aarons, C. J. P. Gourley & M. C. Hannah. (2015) Between and within paddock soil chemical variability and forage production gradients in grazed dairy pastures. Nutrient Cycling in Agroecosystems 102:3, pages 411-430.
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Sharon R. Aarons & Cameron J. P. Gourley. (2012) The role of riparian buffer management in reducing off-site impacts from grazed dairy systems. Renewable Agriculture and Food Systems 28:1, pages 1-16.
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Manoel Eduardo Rozalino Santos, Dilermando Miranda da Fonseca, Simone Pedro da Silva, Victor Valério de Carvalho, Roberson Machado Pimentel & Ronan Lopes Albino. (2010) Características estruturais do pasto de capim-braquiária de acordo com a localização das fezes. Revista Brasileira de Zootecnia 39:10, pages 2116-2124.
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Sharon Rose Aarons, Catherine R. O’Connor, Hossein M. Hosseini & Cameron J. P. Gourley. (2008) Dung pads increase pasture production, soil nutrients and microbial biomass carbon in grazed dairy systems. Nutrient Cycling in Agroecosystems 84:1, pages 81-92.
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Fuli Wang. (2008) Modeling the Spatial Distribution of Nitrogen Leaching from Dairy Farmland. Vadose Zone Journal 7:2, pages 439-452.
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G.W. Yeates, R.A. Skipp, R.A.J. Gray, L.-Y. Chen & T.S. Waghorn. (2007) Impact on soil fauna of sheep faeces containing a range of parasite control agents. Applied Soil Ecology 35:2, pages 380-389.
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Mariana C. Rufino, Edwin C. Rowe, Robert J. Delve & Ken E. Giller. (2006) Nitrogen cycling efficiencies through resource-poor African crop–livestock systems. Agriculture, Ecosystems & Environment 112:4, pages 261-282.
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Larry G. Bundy, Hubert Tunney & Ardell D. Halvorson. 2005. Phosphorus: Agriculture and the Environment. Phosphorus: Agriculture and the Environment 683 727 .
Sérgio Pereira Braz, Domicio do Nascimento Júnior, Reinaldo Bertola Cantarutti, Carlos Eugênio Martins, Dilermando Miranda da Fonseca & Rodrigo Amorim Barbosa. (2003) Caracterização da distribuição espacial das fezes por bovinos em uma pastagem de Brachiaria decumbens. Revista Brasileira de Zootecnia 32:4, pages 787-794.
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Thomas J. Sauer & David W. Meek. (2003) Spatial Variation of Plant-Available Phosphorus in Pastures with Contrasting Management. Soil Science Society of America Journal 67:3, pages 826-836.
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S. L. White, R. E. Sheffield, S. P. Washburn, L. D. King & J. T. GreenJr.Jr.. (2001) Spatial and Time Distribution of Dairy Cattle Excreta in an Intensive Pasture System. Journal of Environmental Quality 30:6, pages 2180-2187.
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Harry H. Schomberg, John A. Stuedemann, Alan J. Franzluebbers & Stanley R. Wilkinson. (2000) Spatial Distribution of Extractable Phosphorus, Potassium, and Magnesium as Influenced by Fertilizer and Tall Fescue Endophyte Status. Agronomy Journal 92:5, pages 981-986.
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Masae Shiyomi, Shigeo Takahashi & Hiromitsu Kirita. (2000) Roles of plant biomass and vegetational heterogeneity, and energy-matter cycling in grassland sustainability. Ecological Modelling 132:1-2, pages 135-149.
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J.P Lumaret & N. Kadiri. (1995) The influence of the first wave of colonizing insects on cattle dung dispersal. Pedobiologia 39:6, pages 506-517.
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P. H. WILLIAMS & R. J. HAYNES. (2006) Effect of sheep, deer and cattle dung on herbage production and soil nutrient content. Grass and Forage Science 50:3, pages 263-271.
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M.L. Nguyen & K.M. Goh. (1994) Sulphur cycling and its implications on sulphur fertilizer requirements of grazed grassland ecosystems. Agriculture, Ecosystems & Environment 49:2, pages 173-206.
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R.J. Haynes & P.H. Williams. 1993. Advances in Agronomy Volume 49. Advances in Agronomy Volume 49 119 199 .
J. David Leaver. (2009) Milk production from grazed temperate grassland. Journal of Dairy Research 52:2, pages 313-344.
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B. D. Kansal, B. Singh, K. L. Bajaj & G. Kaur. (1981) Effect of different levels of nitrogen and farmyard manure on yield and quality of spinach (Spinacea oleracea L.). Qualitas Plantarum Plant Foods for Human Nutrition 31:2, pages 163-170.
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D.A. Mays, S.R. Wilkinson & C.V. Cole. 1980. The Role of Phosphorus in Agriculture. The Role of Phosphorus in Agriculture 805 846 .
I. R. RICHARDS & KAREN M. WOLTON. (2006) The spatial distribution of excreta under intensive cattle grazing. Grass and Forage Science 31:2, pages 89-92.
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