Relationship of ryegrass growth to extractable phosphorus inacidic soil amended with phosphate rock, coal combustion by-product, limestone, and cellulose

An improved management of phosphorus (P) is crucial for increasing crop production and improving environmental quality of acid infertile soils. Laboratory analyses and greenhouse experiments were conducted to evaluate effects of phosphate rock (PR), coal combustion by-product (BP), limestone, and ce...

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Bibliographic Details
Published inCommunications in soil science and plant analysis Vol. 30; no. 3/4; pp. 457 - 470
Main Authors He, Z.L, Baligar, V.C, Martens, D.C, Ritchey, K.D, Elrashidi, M.A
Format Journal Article
LanguageEnglish
Published 1999
Subjects
acid soils
byproducts
cellulose
coal
combustion
dry matter accumulation
limestone
Lolium
nutrient availability
nutrient uptake
phosphorus
phosphorus availability efficiency
phosphorus utilization efficiency
rock phosphate
soil test values
use efficiency
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Summary:An improved management of phosphorus (P) is crucial for increasing crop production and improving environmental quality of acid infertile soils. Laboratory analyses and greenhouse experiments were conducted to evaluate effects of phosphate rock (PR), coal combustion by-product (BP), limestone, and cellulose application on the relationship between soil test P and crop growth in acidic soil. Application of PR, BP, limestone, and cellulose increased soil pH, exchangeable calcium (Ca) and magnesium (Mg), and extractable P, and decreased free aluminum (Al) ion in the acid soil. Addition of BP or limestone increased P availability efficiency [PAE, mg dry matter yield (DMY) of plant per mg soil extractable P by Olsen-P procedure] and P utilization efficiency (PUE, mg DMY of plant per mg P in the plant). There was significant positive correlation between the PAE and BP rates applied alone (r(2) = 0.979, p < 0.01) or with either PR (r(2) = 0.972, p < 0.01) or PR plus cellulose (r(2) = 0.985, p < 0.01). The PUE of ryegrass was significantly correlated with BP rates alone (r = 0.957, p < 0.01) or with either PR (r(2) = 0.906, p < 0.01) or PR plus limestone (r(2) = 0.699). The increase in PAE and PUE of ryegrass caused by BP and limestone reflected more plant root growth from increased availability of Ca and Mg and higher soil pH.
ISSN:0010-3624
1532-2416