Abstract
This study was conducted to determine the effect of composted dairy manure (CDM) addition on nitrogen (N) mineralization in perennial forage production system undergoing transition to organic management. A field experiment was carried out on a Gray Luvisol of northeastern Colorado (40°39′N, 104°59′W) in 2008 and 2009, using the in situ resin core method. CDM was top-dressed onto two mixtures of perennial grasses at 22.4 and 11.2 Mg ha−1 in 2008 and 2009, respectively. Additionally, a control with no CDM addition was included. In 2008, N mineralization was unchanged following the addition of CDM compared to unamended control, irrespective of grass mixture. In 2009, N mineralization was greater in CDM-amended plots than controls, but these differences were only marginally significant (P < 0.1). There were, in general, no significant total dry matter (DM) yield or N uptake differences between grass mixes that received CDM and those that did not regardless of year, but generally total DM yield declined in 2009 compared to 2008. No significant differences in N mineralization, total DM yield or N uptake between controls and CDM-amended soils suggests that CDM-derived N mineralization rates were considerably lower than expected and thus may not keep up with N demand of perennial forage grasses in the short term, as evidenced by low total DM yield in 2009. Thus, we suggest that high application rates of CDM, in addition to quality, may be needed for at least 3 years until a reserve of organic N pool that will mineralize over time is built, particularly for a soil in transition to organic management.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Basso B, Ritchie JT (2005) Impact of compost, manure and inorganic fertilizer on nitrate leaching and yield for a 6-year maize–alfalfa rotation in Michigan. Agric Ecosyst Environ 108:329–341
Bechini L, Marino P (2009) Short-term nitrogen fertilizing value of liquid dairy manures is mainly due to ammonium. Soil Sci Soc Am J 73:2159–2169
Cabrera ML, Gordillo RM (1995) Nitrogen release from land-applied animal manures. In Proceedings of the 1995 Georgia water resources conference, April 11–12, Athens, Georgia
Castellanos JZ, Pratt PF (1981) Mineralization of manure nitrogen — correlation with laboratory indexes. Soil Sci Soc Am J 45:354–357
Cogle AL, Strong WM, Saffigna PG, Ladd JN, Amato M (1987) Wheat straw decomposition in subtropical Australia: II. Effect of straw placement on decomposition and recovery of added 15N urea. Aust J Soil Res 25:473–479
Cusick PR, Kelling KA, Powell JM, Munoz GR (2006) Estimates of residual dairy manure nitrogen availability using various techniques. J Environ Qual 35:2170–2177
DeLuca TH, DeLuca DK (1997) Composting for feedlot manure management and soil quality. J Prod Agric 10:235–241
DiStefano JF, Gholz HL (1986) A proposed use of ion exchange resins to measure nitrogen mineralization and nitrification in intact soil cores. Commun Soil Sci Anal 17:989–998
Dougherty CT, Rhykerd CL (1985) The role of nitrogen in forage-animal production. In: Heath ME et al (eds) Forages: the science of grassland agriculture, 4th edn. Iowa State University Press, Ames, pp 318–325
Eghball B (2000) Nitrogen mineralization from field-applied beef cattle feedlot manure or compost. Soil Sci Soc Am J 64:2024–2030
Eghball B, Wienhold BJ, Gilley JE, Eigenberg RA (2002) Mineralization of manure nutrients. J Soil Water Conserv 57:470–473
Endelman JB, Reeve JR, Drost DT (2010) A new decay series for organic crop production. Agron J 102:457–463
ERS (2008) Table 4, Certified organic producers, pasture, and cropland. Available at http://www.ers.usda.gov/Data/Organic/ (accessed 22 February 2011). USDA, Economics Research Service, Washington, DC
Etheridge RD, Pesti GM, Foster EH (1998) A comparison of nitrogen values obtained utilizing the Kjeldahl nitrogen and Dumas combustion methodologies (Leco CNS 2000) on samples typical of an animal nutrition analytical laboratory. Anim Feed Sci Technol 73:21–28
Fox RH, Piekielek WP (1988) Fertilizer N equivalence of alfalfa, birdsfoot trefoil, and red clover for succeeding corn crops. J Prod Agric 1:313–317
Giblin AE, Laundre JA, Nadelhoffer KJ, Sahver GR (1994) Measuring nutrient availability in arctic soils using ion exchange resins: a field test. Soil Sci Soc Am J 58:1154–1162
Gilbertson CB, Norstadt FA, Mathure AC, Holt RF, Barnett AP, McCalla TM, Onstad CA, Young RA (1979) Animal waste utilization on cropland and pastureland: A manual for evaluation agronomic and environmental effects. USDA Utilization Research Report No. 6 and EPA-600/2-79-059, Washington, DC
Hanselman TA, Graetz DA, Obreza TA (2004) A comparison of in situ methods for measuring net nitrogen mineralization rates of organic soil amendments. J Environ Qual 33:1098–1105
Hart SC, Stark JM, Davidson EA, Firestone MK (1994) Nitrogen mineralization, immobilization, and nitrification. In Weaver RL (ed) Methods of soil analysis, Part 2. Soil Sci Soc Am, Madison, pp 985–1018
Honeycutt CW (1999) Nitrogen mineralization from soil organic matter and crop residues: field validation of laboratory predictions. Soil Sci Soc Am J 63:134–141
Hurisso TT, Davis GJ, Brummer EJ, Stromberger EM, Stonaker HF, Kondratieff CB, Booher RM, Goldhamer AD (2011) Earthworm abundance and species composition in organic forage production systems of northern Colorado receiving different soil amendments. Appl Soil Ecol 48:219–226
Kaboneka S, Sabbe WE, Mauromoustakos A (1997) Carbon decomposition kinetics and nitrogen mineralization from corn, soybean and wheat residues. Commun Soil Sci Plant Anal 28:1359–1373
Klausner SD, Kanneganti VR, Bouldin DR (1994) An approach for estimating a decay series for organic nitrogen in animal manure. Agron J 86:897–903
Kolberg RL, Rouppet B, Westfall DG, Peterson GA (1997) Evaluation of an in situ soil nitrogen mineralization method in dryland agroecosystems. Soil Sci Soc Am J 61:504–508
Larney FJ, Sullivan DM, Buckley KE, Eghball B (2006) The role of composting in recycling manure nutrients. Can J Soil Sci 86:597–611
Lynch DH, Voroney RP, Warman PR (2004) Nitrogen availability from composts for humid region perennial grass and legume–grass forage production. J Environ Qual 33:1509–1520
Manning P, Saunders M, Bardgett RD, Bonkowski M, Bradford MA, Ellis RJ, Kandeler E, Marhan S, Tscherko D (2008) Direct and indirect effects of nitrogen deposition on litter decomposition. Soil Biol Biochem 40:688–698
Martz FA, Gerrish J, Belyea R, Tate V (1999) Nutrient content, dry matter yield, and species composition of cool-season pasture with management-intensive grazing. J Dairy Sci 82:1538–1544
McBride WD, Greene C (2009) Characteristics, costs, and issues for organic dairy farming. USDA-ERS Economic Res. Rep. 82. Available at http://www.ers.usda.gov/Publications/ERR82/ (accessed 6 January 2010). USDA-ERS, Washington, DC
Miller D (2010) Teff grass: crop overview and forage production guide. Available at http://www.producerschoiceseed.com/docs/TeffGrassManagementGuide.pdf (accessed 15 November 2010
Mohr RM, Entz MH, Janzen H, Bullied WJ (1999) Plant-available nitrogen supply as affected by method and timing of alfalfa termination. Agron J 91:622–630
Motavalli PP, Kelling KA, Converse JC (1989) First-year nutrient availability from injected dairy manure. J Environ Qual 18:180–185
Muñoz GR, Kelling KA, Rylant KE, Zhu J (2008) Field evaluation of nitrogen availability from fresh and composted manure. J Environ Qual 37:944–955
NRCS, Soil Survey of Larimer County Area, Colorado (1980) Available at http://soils.usda.gov/survey/online_surveys/colorado/larimer/Text-Part%201.pdf (accessed 20 February 2011). Soil Survey, U.S. Gov. Print. Office, Washington, DC
USDA (2009) National Organic Program. Title 7 Code of Federal Regulations, Part 205. Available at http://ecfr.gov (accessed 16 September 2012). USDA, Washington, DC
Westermann DT, Crothers SE (1993) Nitrogen fertilization of wheat no-till planted in alfalfa stubble. J Prod Agric 6:404–408
White SL, Benson GA, Washburn SP, Green JT (2002) Milk production and economic measures in confinement or pasture systems using seasonally calved Holstein and Jersey cows. J Dairy Sci 85:95–104
Wienhold BJ, Varvel GE, Wilhelm WW (2009) Container and installation time effects on soil moisture, temperature, and inorganic nitrogen retention for an in situ nitrogen mineralization method. Commun Soil Sci Plant Anal 40:2044–2057
Wolf DD, Brown RH, Blaser RE (1979) Physiology of growth and development. In: Buckner RC, Bush PP (eds) Tall fescue. Agron Monogr 20. ASA, CSSA, SSSA, Madison, p 92I
Acknowledgements
The authors thank Aurora Organic Dairy for financial support; Addy Elliott and Kathy Doesken for discussions regarding experimental setup; Nolan Doesken for climatic data; Colin Pinney for lab analyses; James ZumBrunnen for statistical guidance; and two anonymous reviewers.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Hurisso, T.T., Davis, J.G., Brummer, J.E. et al. Short-term nitrogen mineralization during transition from conventional to organic management is unchanged by composted dairy manure addition in perennial forage systems. Org. Agr. 2, 219–232 (2012). https://doi.org/10.1007/s13165-013-0037-z
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s13165-013-0037-z