Residual Effect of Biochar and Legumes on Soil Fertility, Yield and Yield Components of Wheat

Journal of Soil, Plant and Environment Pub Date : 2023-11-28 DOI:10.56946/jspae.v2i2.275

Saqib Hussain Bangash, Farman Ullah, Sajjad Azam, Sharafat Hussain, Tasawar Hussain, Iza Fatima, Bibi Sherbano

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Abstract

Biochar and the use of legumes in cropping systems are considered sustainable approaches to boost crop yield and preserve soil fertility. In the current study, the effects of leftover biochar and previously planted legumes on wheat yield and soil N status were examined at various nitrogen (N) levels. The experiment included testing two levels of previously applied biochar (0 and 50 tons ha-1), three legumes under four levels of N (0, 60, 90, and 120 kg ha-1), cowpea (Vigna unguiculata) for fodder, Sesbenia (Sesbenia grandaflora) for green manuring, and mung bean (Vigna radiata) for grain. Results showed that biochar application enhanced wheat tiller m-2, spikes m-2, grains per spike, thousand grain weight, grain yield, biological yield, and soil total N status by 3%, 6.5%, 3.7%, 1.8%, 7.8%, 9.5%, and 11%, respectively. Moreover, applying nitrogen at a rate of 90 kg ha-1 increased the amount of wheat spike m-2 by 20%, grain spike-1 by 10%, grain yield by 70%, biological yield by 48%, harvest index by 27%, and the N content of the grain, straw, and soil by 13%, 14%, and 36% respectively. Meanwhile, 1000 grain weight resulted higher by 6.17%. Legumes that had been previously seeded outperformed fallow and increased spikes m-2, grain yield, biological yield, grain N content, and soil total N content by 8.2%, 11%, 6.78%, 25%, and 42%, respectively. It is determined that applying biochar to the summer gap left by legumes can increase soil fertility and wheat output.

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生物炭和豆科植物对土壤肥力、小麦产量和产量成分的残留效应

在种植系统中使用生物炭和豆科植物被认为是提高作物产量和保持土壤肥力的可持续方法。本研究考察了在不同氮（N）水平下，残留生物炭和先前种植的豆科植物对小麦产量和土壤氮状况的影响。实验包括测试两种水平的生物炭施用量（0 吨/公顷-1 和 50 吨/公顷-1）、四种氮施用量下的三种豆科植物（0、60、90 和 120 千克/公顷-1）、饲料用豇豆（Vigna unguiculata）、绿肥用芝麻（Sesbenia grandaflora）和谷物用绿豆（Vigna radiata）。结果表明，施用生物炭后，小麦分蘖米数、穗米数、每穗粒数、千粒重、籽粒产量、生物产量和土壤全氮状况分别提高了 3%、6.5%、3.7%、1.8%、7.8%、9.5% 和 11%。此外，施氮量为 90 kg ha-1 时，小麦穗数 m-2 增加了 20%，穗粒数-1 增加了 10%，籽粒产量增加了 70%，生物产量增加了 48%，收获指数增加了 27%，籽粒、秸秆和土壤中的氮含量分别增加了 13%、14% 和 36%。同时，千粒重提高了 6.17%。之前播种过的豆科植物的表现优于休耕，穗数 m-2、谷物产量、生物产量、谷物氮含量和土壤总氮含量分别增加了 8.2%、11%、6.78%、25% 和 42%。由此可以确定，在豆科植物留下的夏季空隙中施用生物炭可以提高土壤肥力和小麦产量。

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Journal of Soil, Plant and Environment

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