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Effect of phosphate rock,coal combustion by-product,lime, and cellulose on ryegrass in an acidic soil
Authors:Baligar  V  He  ZL  Martens  DC  Ritchey  KD  Kemper  WD
Institution:(1) Usda-Ars-Aswcrl, Beaver, Wv, 25813 - 0400, Usa;(2) Department of Land Use and Applied Chemistry, Zhejiang Agricultural University, Hangzhou, China;(3) Department of Crop and Soil Environmental Sciences, Virginia Polytechnic Institute and State University, Va, 24061–-0404, USA and;(4) Nps-Usda-Ars, Beltsville, Md 20705–2350, USA
Abstract:Remediation of soil acidity is crucial for increasing crop production and improving environmental quality of acid infertile soils. Soil incubation and greenhouse pot experiments were carried out to examine the interactions between phosphate rock (PR), coal combustion by-product (BP), dolomitic lime (L), and cellulose (C) in an acidic soil and their effects on ryegrass (Lolium perenne L. cv lsquoLinnrsquo) growth. BP and PR application increased plant P content and dry matter yield (DMY) of shoots and roots by improving soil Ca availability and reducing Al toxicity. Application of BP at low rates (5 to 10 g BP kg-1) with PR appeared to decrease both plant P content and DMY compared to PR application alone. The reduced DMY is due to an increased Al concentration in soil solution as a result of displacement of sorbed Al by Ca of BP. Increases in DMY were obtained by addition of lime along with PR and BP at low rates or by increasing BP application rates above 15 g kg-1. This improved plant response was likely related to alleviation of Al toxicity by CaCO3 contained in the BP. In addition to raising the pH to an acceptable level for plant growth, the dolomitic lime supplied needed Mg for plants, thereby maintaining a good balance between available Ca and Mg for plants in the BP- and PR-amended soils. The addition of cellulose to the BP- and PR-amended soils reduced water-soluble Al and increased DMY. Plant growth increased PR dissolution by 2.4 to 243% in a soil with low available P. Use of BP at moderate rates with PR and dolomitic lime appears to be the best combination in increasing crop yields on infertile acidic soils.
Keywords:aluminium  cellulose  coal combustion by-product  lime  Lolium perenne  phosphate rock  phosphorus  ryegrass  Ultisol
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