- AdeliA., RoweD.E., ReadJ.J.. 2006. Effects of soil type on Bermudagrass response to broiler litter application. Agron. J., 98 (1): 148–155.
- BarrealM.E., Camps ArbestainM., MacíasF., and FertitaA.E.. 2001. Phosphate and sulfate retention by nonvolcanic soils with andic properties. Soil Science, 166(10): 691–707.
- BowdenC., SpargoJ., EvanyloG.. 2007. Mineralization and N fertilizer equivalent value of composts as assessed by Tall Fescue (Festuca arundinacea). Compost Sci. Util., 15 (2): 111–118.
- CodlingE.E., ChaneyR.L., SherwellJ.. 2002. Poultry litter ash as a potential phosphorus source for agricultural crops. J. Environ. Qual., 31: 954–961.
- CoggerC.G. 2005. Potential compost benefits for restoration of soil disturbed by urban development. Compost Sci. Util., 13 (4): 243–251.
- CoggerC.G. BarryA.I, FransenS.C., SullivanD.M.. 2001. Seven years of biosolids versus inorganic nitrogen applications to Tall Fescue. J. Environ. Qual., 30: 2188–2194.
- CooperbandL., BolleroG., and CoaleF.. 2002. Effect of poultry litter and compost on soil nitrogen and phosphorus availability and maize production. Nut. Cycling Agroec., 62(2): 185–194.
- CuevasG., MartínezF., and WalterI.. 2003. Field-grown maize (Zea mays L.) with composted sewage sludge. Effects on soil and grain quality. Spanish Journal of Agricultural Research, 1(3): 111–119.
- DeLauneP.B., MooreP. A. Jr., LemunyonJ.L.. 2006. Effect of chemical and microbial amendment on phosphorus runoff from composted poultry litter. J. Environ. Qual., 35: 1291–1298.
- EghballB., and PowerJ.. 1999. Phosphorus and nitrogen based manure and compost applications: maize production and soil phosphorus. Soil Sci. Soc. Am. J., 63: 895–901.
- EghballB., GintingD., and GilleyJ.E.. 2004. Residual effects of manure and compost applications on maize production and soil properties. Agron. J., 96(2): 442–447.
- FeltonG.K., CarrL.E., PriggeC.E., BouwkampJ.C.. 2004. Nitrogen and phosphorous dynamics in cocomposted yard trimmings and broiler litter. Compost Sci. Util., 12 (4): 349–355.
- FranzluebbersA.J. 2005. Soil organic carbon sequestration and agricultural greenhouse gas emissions in the southeastern USA. Soil and Tillage Res., 83: 120–147.
- FriendA.L., RobertsS.D., SchoenholtzS.H., MobleyJ.A., GerardP.D.. 2006. Poultry litter application to Loblolly Pine forests: growth and nutrient containment. J. Environ. Qual., 35: 837–848.
- GaschoG.J., HubbardR.K., BrennemanT.B., JohnsonA.W., SumnerD.R., and HarrisG.H.. 2001. Effects of broiler litter in an irrigated, double-cropped, conservation-tilled rotation. Agron. J., 93(6):1315–1320.
- GutserR., EbertsederT., WeberA., SchramiM.. 2005. Short-term and residual availability of nitrogen after long-term application of organic fertilizers on arable land. J. Plant Nutr Soil Sci., 168 (4): 439–446.
- INE: Instituto Nacional de Estadística. 2005. Beneficio de aves por tipo y especies. Santiago. Chile, [On line]. ISO. <www.ine.cl/ine/canales/chile_estadístico/compendio_estadístico/pdf/2005>.
- JensenL.S., PedersenI.S., HansenT.B., NielsenN.E.. 2000. Turnover and fate of 15Nlabelled cattle slurry ammonium-N applied in the autumn to winter wheat. Europ. J. Agronomy, 12(1): 23–35.
- JohnsonA.F., VietorD.M., RouquetteF.M., and HabyV.A.. 2004. Fate of phosphorus in dairy wastewater and poultry litter applied on grassland. J. Environ. Qual., 33(2):735–739.
- LindsayW.L., NorwellW.A.. 1978. Development of DTPA soil test for zinc, iron, manganese and copper. Soil Sci. Soc. Am. J., 42: 421–428.
- MazzarinoM. J., WalterI., CostaG., LaosF., RoselliL., and SattiP.. 1997. Plant response to fish farming wastes in volcanic soils. J. Environ. Qual., 26: 522–528.
- MillnerJ.P., VillaverR., HardacreA.K.. 2005. The yield and nutritive value of maize hybrids grown for silage. New Zealand J. Agric. Research, 48: 101–108.
- MitchellC.C., TuS.X.. 2005. Long term evaluation of poultry litter as a source of nitrogen for cotton and maize. Agron. J., 97 (2): 399–407.
- NyakatawaE.Z., ReddyK.C., BrownG.F.. 2001. Residual effect of poultry litter applied to cotton in conservation tillage systems on succeeding rye and maize. Field Crops Res., 71 (3): 159–171.
- ParkinsonR.J., FullerM. P., GroenhofA. C.. 1999. An evaluation of greenwaste compost for the production of forage Maize (Zea mays L.). Compost Sci. Util., 7 (1): 72–80.
- PlénetD.S., LemaireG.. 2000. Relationships between dynamic of nitrogen uptake and dry matter accumulation in maize crops. Determination of critical N concentration. Plant Soil, 216: 65–82.
- PlénetD.S., EtchebestS., MollierA., PellerinS.. 2000. Growth analysis of maize field crops under phosphorus deficiency. Plant Soil, 233: 117–130.
- PreuschP.L., AdlerP.R., SikoraL.J., TworkoskiT.J.. 2002. Nitrogen and phosphorus availability in composted and uncomposted poultry litter. J. Environ. Qual., 31: 2051–2057.
- SainzH.R., EcheverríaH.E., and BarbieriP.A.. 2004. Nitrogen balance as affected by application time and nitrogen fertilizer rate in irrigated no-tillage maize. Agron. J. 96(6): 1622–1631.
- SAS Institute. 1990. SAS/STAT Software. Version 6.0. SAS Institute Inc., Cary, N. C., USA.
- SharpeR.R., SchombergH.H., HarperL.A., EndaleD.M., JenkinsM.B., and FranzluebbersA.J.. 2004. Ammonia volatilization from surface-applied poultry litter under conservation tillage management practices. J. Environ. Qual., 33(4): 1183–1188.
- SharpleyA. 1996. Availability of residual phosphorous in manured soils. Soil Sci. Soc. Am. J., 60:1459–1466.
- SimsJ.T., and WolfD.C.. 1994. Poultry waste management: agricultural and environmental issues. Adv. Agron., 52: 1–83.
- SimsJ.T., EdwardsA.C., SchoumansO.F., SimardR.R. 2000. Integrating soil phosphorus testing into environmentally based agricultural management practices. J. Environ. Qual., 29:60–71.
- SingerJ.W., KohlerK.A., LiebmanM., RichardT.L., CambardellaC.A., BuhlerD.D. 2004. Tillge and compost affect yield of maize, soybean and wheat and soil fertility. Agron J., 96: 531–537.
- SinghA., BicudoJ.R., TinocoA.L., TinocoI.F., GatesR.S., CaseyK.D., PescatoreA.J. 2004. Characterization of nutrients in built-up broiler litter using trench and random walk sampling methods. J. Appl. Poult. Res., 13: 426–432.
- TamboneF., GeneviniP., AdaniF.. 2007. The effects of short-term compost application on soil chemical properties and on nutritional status of Maize plant. Compost Sci. Util., 15 (3): 176–183.
- TysonS.C., CabreraM.L.. 1993. Nitrogen mineralization in soils amended with composted and uncomposted poultry litter. Commun. Soil Sci. Plant Anal., 24 (17&18): 2361–2374.
- USDA. 1994. Reference to Soil Taxonomy. USDA, Washington, D.C.
- VadasP.A., MeisingerJ.J., SikoraL.J., McMurtryJ.P., SeftonA.E.. 2004. Effect of poultry diet on phosphorus in runoff from soils amended with poultry manure and compost. J. Environ. Qual., 33: 1845–1854.
- WarrenJ.G., PhillipsS.B., MullinsG.L., KeaheyD., PennCh. J.. 2006. Environmental and production consequences of using alum-amended poultry litter as a nutrient source for maize. J. Environ. Qual., 35: 172–182.
Short-Term Effects of Poultry Litter Application On Silage Maize Yield and Soil Chemical Properties
Reprints and Corporate Permissions
Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?
To request a reprint or corporate permissions for this article, please click on the relevant link below:
Academic Permissions
Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?
Obtain permissions instantly via Rightslink by clicking on the button below:
If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.
Related research
People also read lists articles that other readers of this article have read.
Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.
Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.