Unprecedented response of wheat to irrigation levels and various rates of Nano-black carbon

Journal of Soil, Plant and Environment Pub Date : 2021-12-23 DOI:10.56946/jspae.v1i1.3

Imran

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引用次数: 9

Abstract

In Khyber-Pakhtunkhwa, Pakistan, wheat yield is subjected to availability of water and proper rate of Nano-black carbon in soil. Delay in rain and unsuitable soil health cause severe yield reduction. Therefore this experiment was conducted to compare Irrigation levels in relation to different rate of Nano-black carbon to find out high yielding fact that could enhance wheat productivity and food security. Three different-irrigation-levels (250-mm, 275-mm and 300-mm), were compared in early growth establishment in three repeats with five different rates of Nano-black carbon (5Mg ha-1, 10Mg ha-1, 15Mg ha-1, 20Mg ha-1 and 25Mg ha-1). All the other agronomic practices were kept similar for each replicate. Data was recoded on different growth parameters such as days to emergence, emergence m-2, plant height, spike length, number of spikes m-2, thousand grain weight and grain yield. The study confirmed that almost all Irrigation levels were prominent but significant reduction in different parameters was observed with variation in Nano-black carbon application that could ultimately effect soil health and productivity. From this experiment we concluded that proper rate of Nano-black carbon can significantly enhance the development of roots system which may ultimately increase the shoot growth and final yield. The present study revealed that wheat Irrigation levels (250 mm) can properly save water and increase wheat productivity in combination with Nano-black carbon addition. Different Irrigation levels retorted differently to different Nano-black carbon showing that potential did exist in Nano-black carbon for water storage and improvement of soil health under drought stress condition.

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小麦对灌溉水平和不同纳米黑碳含量的空前反应

在巴基斯坦的开伯尔-普赫图赫瓦省，小麦产量取决于土壤中水分的供应和纳米黑碳的适当含量。延迟降雨和不适宜的土壤健康造成严重的减产。因此，本试验旨在通过比较不同纳米黑碳用量与灌溉水平的关系，找出提高小麦产量和粮食安全的高产因素。采用5Mg ha-1、10Mg ha-1、15Mg ha-1、20Mg ha-1和25Mg ha-1 5种不同浓度(250 mm、275 mm和300 mm)的纳米黑碳，在3个重复的生长初期进行了比较。所有其他农艺做法在每个重复中保持相似。对出苗期、出苗期m-2、株高、穗长、穗数m-2、千粒重、籽粒产量等不同生长参数进行数据编码。该研究证实，几乎所有的灌溉水平都是显著的，但观察到不同参数的显著减少，纳米黑碳施用的变化可能最终影响土壤健康和生产力。本试验结果表明，适当的纳米黑碳用量可以显著促进根系发育，最终提高植株的生长和产量。研究表明，小麦灌溉水平(250 mm)与纳米黑碳配合施用可有效节约水分，提高小麦产量。不同灌溉水平对不同纳米黑碳的还原效果不同，表明纳米黑碳在干旱胁迫条件下具有储水和改善土壤健康的潜力。

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

Journal of Soil, Plant and Environment Agricultural Sciences-Environmental Sciences

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期刊介绍： Journal of Soil, Plant and Environment is an open peer-reviewed journal that considers articles and review articles on all aspects of agricultural sciences. Aim and Scope Journal of Soil, Plant and Environment (ISSN: 2957-9082) is an international journal dedicated to the advancements in agriculture throughout the world. The goal of this journal is to provide a platform for scientists, students, academics and engineers all over the world to promote, share, and discuss various new issues and developments in different areas of agricultural sciences. All manuscripts must be prepared in English and are subject to a rigorous and fair peer-review process. Accepted papers will appear online within 3 weeks followed by printed hard copy. Journal of Soil, Plant and Environment (ISSN: 2957-9082) publishes original papers including but not limited to the following fields: Soil–plant relationships; crop science; soil science; biometry; crop, soil, pasture, and range management; crop, forage, and pasture production and utilization; turfgrass; agroclimatology; agronomic models; integrated pest management; integrated agricultural systems; and various aspects of entomology, weed science, animal science, plant pathology, and agricultural economics as applied to production agriculture. We are also interested in: 1) Short Reports– 2-5 pages where the paper is intended to present either an original idea with theoretical treatment or preliminary data and results; 2) Book Reviews – Comments and critiques of recently published books in agricultural sciences.