2007
DOI: 10.17221/3190-pse
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Relationship between soil organic matter lability and liming requirement in acid sandy-loam cambisols

Abstract: It is evident that the presence of organic matters in soil considerably influences by its microbial oxidation to CO 2 the requirement for calcareous compounds as well as the necessary amelioration dose of lime to reduce incurred soil acidity as the impact of balanced buffering CO 2 -HCO 3 -system, the more labile the organic matters are. If we take into consideration that the content of soil water per hectare of topsoil is, at the total weight of 6 × 10 6 kg, approximately, in analyzed sandy-loam soils 1.2 × 1… Show more

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Cited by 4 publications
(2 citation statements)
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“…labile, carbon are changed (Manna et al 2007;Bishop et al 2008;de Oliveira et al 2008); water stability of soil aggregates is increased (Grieve et al 2005); the consumption of Ca-compounds increases in relation to the degree of soil organic matter lability (Kolář et al 2007); nitrification increases (Dorland et al 2004); and few papers deal also with the problem of the relation between the labile soil organic matter and soil water (Kolář et al 2002). We are very sorry not to have found any paper solving the relation between the labile soil organic matter and its corresponding calcium carbonate equilibrium in soil water.…”
Section: Resultsmentioning
confidence: 99%
“…labile, carbon are changed (Manna et al 2007;Bishop et al 2008;de Oliveira et al 2008); water stability of soil aggregates is increased (Grieve et al 2005); the consumption of Ca-compounds increases in relation to the degree of soil organic matter lability (Kolář et al 2007); nitrification increases (Dorland et al 2004); and few papers deal also with the problem of the relation between the labile soil organic matter and soil water (Kolář et al 2002). We are very sorry not to have found any paper solving the relation between the labile soil organic matter and its corresponding calcium carbonate equilibrium in soil water.…”
Section: Resultsmentioning
confidence: 99%
“…It is a speculated elucidation that molasses may easily be putrefied to create differences in soil respiration compared with control and other organics. Decaying the behavior of organics in soil fluctuates depending upon the substance and soil type as the microbial activity is regulated by the substrate's molecular complexity and soil factors, i.e., soil pH and nutritious status [62,63].…”
Section: Discussionmentioning
confidence: 99%