Gradient-based LASER Land Leveling Increases the Water Use Efficiency, Growth, and Yield of Cotton Crop under Changing Climate

Q4 Agricultural and Biological Sciences

Proceedings of the Pakistan Academy of Sciences: Part B Pub Date : 2023-06-23 DOI:10.53560/ppasb(60-2)813

Shahid Saleem, Iqbal Hussain, Hafeez Ullah, M. Iqbal, Umair Aslam, Muhammad Anis Uddin Nasir, Abdul Khaliq, Syed Ahtisham Masood, H. Rauf, Adnan Noor Shah, Fida Hussain

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Abstract

Increasing water shortage has compelled farmers to develop plans for efficient use of water resources. The improvement in water use efficiency at the field level is very important and can redress water scarcity. LASER land leveling is increasing quickly in the world to increase water use efficiency. However, in developing countries, the practice of LASER leveling is to level land or field with zero (0 %) gradient due to unawareness of gradient-based land leveling while a small gradient (e.g., 0.1 %) is usually kept during land leveling in developed countries of the world. But farmers of developing countries are not well, therefore, an experiment was conducted in farmers’ fields covering an area of 3 acres in south Punjab of Pakistan to assess the LASER leveling with a 0 % and 0.05 % grade and general farmer’s practice of leveling. Land leveling with LASER using a 0.05 % gradient considerably decreased the amount of irrigation water and/or enhanced water use efficiency by increasing crop yield followed by LASER leveling with a 0 % gradient. Similarly, with a 0.05 % gradient, bolls per plant and final cotton yield increased considerably followed by a 0 % gradient while minimum bolls per plant and cotton yield were obtained from the farmer’s practice of leveling. LASER land leveling with a 0.05 % gradient resulted in higher net benefit due to increased yield and a considerable decrease in irrigation amount that significantly improved use efficiency. The outcomes suggest that benefits from land leveling with LASER keeping a 0.05 % gradient are significantly higher when compared with 0 % gradient and/or farmers’ practice of leveling.

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基于梯度的激光土地平整在气候变化下提高棉花的水分利用效率、生长和产量

日益严重的水资源短缺迫使农民制定有效利用水资源的计划。提高农田水分利用效率是解决水资源短缺问题的重要途径。为了提高水资源利用效率，激光土地平整技术在世界范围内得到迅速发展。然而，在发展中国家，由于没有意识到基于梯度的土地平整，激光平整的做法是将零(0%)梯度的土地或田地平整，而在世界发达国家，在土地平整过程中通常保持一个小的梯度(例如0.1%)。但是发展中国家的农民不太好，因此，在巴基斯坦旁遮普省南部3英亩的农民田间进行了一项实验，以评估激光平整率为0%和0.05%的等级以及一般农民的平整做法。使用0.05%坡度的激光平整土地，通过提高作物产量，大大减少了灌溉水量和/或提高了水的利用效率，然后使用0%坡度的激光平整。同样，当梯度为0.05%时，单株铃数和最终棉花产量显著增加，随后梯度为0%，而单株最小铃数和棉花产量则通过农民的整平实践获得。以0.05%坡度进行激光平整的土地，由于产量增加，净效益更高，灌溉量大幅减少，利用效率显著提高。结果表明，与坡度为0%和/或农民进行平整相比，激光保持0.05%坡度平整的土地收益明显更高。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Proceedings of the Pakistan Academy of Sciences: Part B Agricultural and Biological Sciences-Agricultural and Biological Sciences (all)

CiteScore

0.60

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0.00%

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