CEREAL CROP RESIDUE AS AN ALLELOCHEMICAL SOURCE AND THE IMPORTANCE OF MINERAL FERTILIZERS IN ITS DEGRADATION

Soil Forming Factors and Processes from the Temperate Zone Pub Date : 2012-08-08 DOI:10.15551/FPPZT.V3I1.379

G. Lixandru

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Abstract

The authors has made several experiments, in pots and in the field, for studying the effect of wheat and barley straw applied in soils in normal and excessive quantities over the growth of bean, beet and parsley. The experiments showed that when applied in a dosage of over 9 t/ha the straw represented an important source of allelopathic compounds, that significantly decreased the crop yield This decrease was not accompanied by a decrease in the N % percentage in plants, as it usually happens in the case of N deficiency in nutrition, but, on the contrary, the N % content increased while the crop yield decreased. The conclusion was that the yield decrease due to large amount of straw applied to the soil was not generated by N deficiency in nutrition, but to the antiauxinuic action of allelochemicals at root level The N fertilizer favor microorganism’s development and decompose allelochemicals in order to obtain the carbon necessary for their growth Rhizobium was more sensitive at the noxious action of allelochemicals, as compared to the host plant. Cereal crop residue increased the N and organic carbon content in soil and K accessibility.

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谷类作物残渣作为化感化学源及矿质肥料在其降解中的重要性

作者通过盆栽和大田试验，研究了小麦和大麦秸秆在土壤中正常和过量施用对大豆、甜菜和欧芹生长的影响。试验表明，当施氮量超过9 t/ hm2时，秸秆是化感化合物的重要来源，显著降低了作物产量。这种降低并不伴随着植株氮素百分比的降低，而氮素含量的增加与作物产量的减少是相反的。综上所述，土壤大量施用秸秆导致的产量下降并非营养缺氮所致，而是与根系化感物质的抗衰老作用有关。氮肥有利于微生物的发育和分解化感物质以获得其生长所需的碳，根瘤菌对化感物质的有害作用比寄主植物更为敏感。谷类作物残茬增加了土壤氮、有机碳含量和钾的可及性。

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Soil Forming Factors and Processes from the Temperate Zone

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