Institute of Soil and Environmental Sciences, University of Agriculture, Faisalabad 38040, Pakistan.
Department of Environmental Sciences and Engineering, Government College University, Allama Iqbal Road, 38000 Faisalabad, Pakistan.
Chemosphere. 2018 May;199:468-476. doi: 10.1016/j.chemosphere.2018.02.030. Epub 2018 Feb 8.
Cadmium (Cd) stress is a serious concern in agricultural soils worldwide whereas little is known about the impact of farmyard manure (FYM) alone or combined with limestone, lignite and biochar on Cd concentrations in plants. Wheat was grown in Cd-contaminated field amended with control (T), FYM @ 0.1% (T), FYM + limestone @ 0.05% each (T), FYM + lignite @ 0.05% each (T), FYM + biochar @ 0.05% each (T) and subsequent rice was grown without additional use of amendments. Soil application of amendments increased straw and grain yield and thousand grain weight being maximum in FYM + limestone treatment. Wheat and rice straw yield increased by 19% and 10% in T than control respectively. Photosynthetic pigments increased with the supply of amendments than control. Amendments decreased Cd concentration, total Cd uptake in straw and grains and Cd harvest index of both crops and the maximum reduction in these parameters was recorded with where FYM + limestone (T). Cd concentration in wheat and rice straw decreased by 78.5% and 65% in T than control, respectively. The highest benefit to cost ratio was obtained in FYM + limestone (T). Ammonium bicarbonate - diethylenetriamine penta acetic acid (AB-DTPA) extractable Cd of the post-harvest soil reduced whereas Cd immobilization index and soil pH increased with the supply of all treatments than control being maximum in T The present study revealed that field management with FYM + limestone increased plant yield and reduced Cd concentrations in grains.
在全世界的农业土壤中,镉(Cd)胁迫是一个严重的问题,而单独使用农家肥(FYM)或与石灰、褐煤和生物炭结合使用对植物中 Cd 浓度的影响知之甚少。在受 Cd 污染的农田中种植小麦,用对照(T)、FYM @ 0.1%(T)、FYM + 石灰 @ 0.05%(T)、FYM + 褐煤 @ 0.05%(T)、FYM + 生物炭 @ 0.05%(T)进行改良,不再额外使用改良剂种植后续水稻。改良剂的土壤施用增加了秸秆和籽粒产量以及千粒重,在 FYM + 石灰处理中达到最大值。与对照相比,T 中分别增加了 19%和 10%的小麦和水稻秸秆产量。与对照相比,施用改良剂增加了光合色素。改良剂降低了两种作物秸秆和籽粒中的 Cd 浓度、总 Cd 吸收量和 Cd 收获指数,其中 FYM + 石灰(T)的这些参数降幅最大。与对照相比,T 中小麦和水稻秸秆中的 Cd 浓度分别降低了 78.5%和 65%。在 FYM + 石灰(T)中获得了最高的效益成本比。收获后土壤中碳酸氢铵-二乙三胺五乙酸(AB-DTPA)可提取的 Cd 减少,而 Cd 固定指数和土壤 pH 值随所有处理的供应而增加,T 中最大。本研究表明,田间管理 FYM + 石灰增加了植物产量,降低了籽粒中的 Cd 浓度。
