地表下滴灌施氮与作物秸秆掺入相结合提高了冲积土中玉米的生长和产量

Q4 Agricultural and Biological Sciences

Indian Journal of Agronomy Pub Date : 2024-07-14 DOI:10.59797/ija.v69i2.5499

Arjun Singh, A. Dass, S. Dhar, S. Sudhishri, K. Shekhawat, M. C. Meena, Kadagonda Nithinkumar, Ayekpam Dollina Devi

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引用次数: 0

摘要

在新德里的印度农业研究所（ICAR-Indian Agricultural Research Institute）进行了一项为期两年的田间试验，目的是对地表下滴灌施肥（SSDF）玉米[Pusa HQPM 1' 改良型：双重生物强化]的氮肥灌溉计划和作物残留物管理进行标准化。试验采用 3 次重复的分小区设计。共有 8 个主田处理，包括不同的氮地表下滴灌施肥水平（0、50、75、100% RDN）和一个常规玉米种植处理，其中 RDN（150 千克/公顷）按建议施用。在地表下滴灌施肥条件下，每剂氮分为 3 次和 4 次滴灌施肥。子地块处理包括青箬竹残留物（3 吨/公顷）和不施青箬竹残留物。磷肥和钾肥（分别为 60 千克 P2 O5/公顷和 40 千克 K2 O/公顷）由 SSDF 在所有地块平均施用。结果显示，不同阶段的植株高度随 SSDF-N 的施肥量和施肥方式以及作物残留物的掺入量而有统计学差异。100% RDN-4S 的植株高度和叶面积最高，与 100% RDN-3S 和 75% RDN-4S 的植株高度和叶面积持平。常规玉米种植不如 "RDN100 "和 75%，但与 50%RDN相当。与常规处理和对照处理相比，"RDN100 "和 75%RDN 的氮吸收率明显更高。同样，100%'RDN-4' &3 S 和 75% RDN-4S 的玉米籽粒产量最高，两者不相上下。总之，可以得出结论，地表下氮肥灌溉不仅能改善玉米的生长和产量，还能帮助节省 25-50% 的宝贵肥料。

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Sub-surface drip fertigation of nitrogen coupled with crop residue incorporation enhanced the growth and yield of maize in an alluvial soils

A two-year field experiment was conducted at ICAR-Indian Agricultural Research Institute, New Delhi, to standardize the N-fertigation schedule and crop residue management in sub-surface drip fertigated (SSDF) maize [Pusa HQPM 1’ improved: double bio-fortified]. The experiment was laid-out in a split-plot design with 3 replications. There were 8 main-plot treatments comprising different N sub-surface drip fertigation levels (0, 50, 75, 100% RDN) with one conventional cultivation of maize, where RDN (150 kg/ha) was applied as per recommendation. Under sub-surface fertigation of N, each dose of N was divided into 3-and 4-splits, for fertigation. Sub-plot treatments included greengram residue (3 t/ha) and no greengram residue incorporation. P and K (60 kg P2 O5 /ha and 40 kg K2 O/ha respectively) fertilizers were supplied equally in all the plots by SSDF. Results revealed that plant height at various stages statistically varied with levels and splits of SSDF-N and crop residue incorporation. The highest plant height and leaf area were recorded with 100% RDN-4S which remained at par with 100% RDN-3S and 75% RDN-4S. Conventional maize cultivation was inferior to ‘RDN100’ and 75%, however on par with 50% RDN. The nitrogen uptake was found significantly superior in 100 and 75%RDN over conventional and control treatments. Similarly, the grain yield of maize was highest under 100% ‘RDN-4’ &3 S, and 75% RDN-4S, which were at par with one another. Overall, it could be concluded that sub-surface fertigation of N not only improved the growth and yield of maize but also helped in 25–50% saving of valuable fertilizer.

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来源期刊

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

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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.