Tillage, crop residue management and nitrogen application impacts on soil properties under maize–wheat (Zea mays–Triticum aestivum) cropping system

Q4 Agricultural and Biological Sciences

Indian Journal of Agronomy Pub Date : 2024-07-14 DOI:10.59797/ija.v69i2.5498

R. S. Ghuman, HARMEET SINGH, K. B. Singh

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Abstract

Tillage intensity, crop residue retention and nitrogen application can significantly impact the soil properties and crop productivity. We studied the effect of tillage (deep tillage [DT] vs. shallow tillage [ST]) in main plots and residue management viz. conventional tillage without residue (CT-R), conventional tillage with residue (CT+R), minimum tillage without residue (MT-R) and minimum tillage with residue (MT+R) in sub plots and fertilizer-N at 75, 100 and 125% N (viz. N75, N100 and N125) in sub-sub plots. Field treatments were established in maize-wheat (Zea mays-Triticum aestivum) cropping system during 2016-2019 at two different locations in north-western India and were arranged in split-split plot design. The soil penetration resistance was significantly lower under deep tillage (3.4 to 3.7%) as compared to shallow tillage. CT+R recorded lowest penetration resistance as compared to other tillage and residue combinations but other soil properties like OC, available NPK, soil aggregation, infiltration rate did not differ significantly. The addition of crop residue both under minimum and conventional tillage significantly increased the soil microorganism count and dehydrogenase enzyme activity at both locations. CT-R recorded lowest microorganism count and dehydrogenase enzyme activity. The available soil nitrogen, microorganism count and dehydrogenase enzyme activity significantly increased with increasing nitrogen doses at both locations and were highest under 125% N level as compared to 75% and 100% levels. In both crops, the grain yield was not significantly affected by tillage and crop residue combinations while the different levels of nitrogen fertilizer significantly affected the grain yield. From soil health and sustainability point of view, CT+R treatment with 100% recommended dose of nitrogen in maize-wheat crop rotation seemed beneficial.

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玉米-小麦（玉米-小麦）种植系统下耕作、作物残茬管理和施氮对土壤性质的影响

耕作强度、作物残茬保留和氮肥施用会对土壤性质和作物产量产生重大影响。我们研究了主地块中耕作（深耕 [DT] 与浅耕 [ST]）的影响，子地块中残留物管理（即无残留物常规耕作 (CT-R)、有残留物常规耕作 (CT+R)、无残留物最小耕作 (MT-R) 和有残留物最小耕作 (MT+R)）以及 75%、100% 和 125% 氮肥施用量（即 N75、N100 和 N125）的影响。2016-2019 年期间，在印度西北部两个不同地点的玉米-小麦（玉米-小麦）种植系统中建立了田间处理，并采用分割小区设计。与浅耕相比，深耕的土壤渗透阻力明显较低（3.4% 至 3.7%）。与其他耕作和残留物组合相比，CT+R 的土壤渗透阻力最低，但其他土壤特性，如 OC、可利用的氮磷钾、土壤团粒结构、渗透率等没有显著差异。在最小耕作和常规耕作条件下，添加作物残茬都能显著增加两地的土壤微生物数量和脱氢酶活性。CT-R 的微生物数量和脱氢酶活性最低。随着施氮量的增加，两地的土壤可利用氮、微生物数量和脱氢酶活性都明显增加，与 75% 和 100% 的施氮量相比，125% 的施氮量下的土壤可利用氮、微生物数量和脱氢酶活性最高。在这两种作物中，耕作和作物残留物组合对谷物产量的影响不大，而不同氮肥水平对谷物产量的影响则很大。从土壤健康和可持续发展的角度来看，在玉米-小麦轮作中施用推荐剂量为 100%的氮肥进行 CT+R 处理似乎是有益的。

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来源期刊

Indian Journal of Agronomy Agricultural and Biological Sciences-Agronomy and Crop Science

CiteScore

0.50

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0.00%

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期刊介绍： Indian Journal of Agronomy welcomes concise articles presenting original research data based on field experiments on all aspects of agronomy in different crops and related cropping systems. • The journal publishes only full length comprehensive articles based on new approaches/findings in English only. • Review articles are also considered but these are normally solicited by Editorial Board. However, the authors who wish to contribute a review on their own based on their standing in the relevant field may contact the Secretary or Chief Editor with a broad outline before submitting the manuscript.