Assessment of Late Sown Wheat (Triticum aestivum L.) Genotypes under High Temperature Stress Conditions

IF 0.5 Q4 AGRONOMY Journal of Agriculture and Environment for International Development Pub Date : 2023-06-30 DOI:10.3126/aej.v24i01.58076

Suman Bohara, Basistha Acharya, Surakshya Bohora, Jharana Upadhyaya

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Abstract

In recent years, climate change has led to an increase in extreme weather conditions, including high-temperature stress. High temperature stress is the term for an increase in temperature (> 30°C) following anthesis during grain development. Wheat is particularly vulnerable to high temperature stress, and its productivity is severely affected. With the objective of identifying wheat genotypes tolerant to heat stress in terms of grain yield, a total of fifty wheat genotypes were evaluated under heat stress conditions at Directorate of Agricultural Research, Lumbini Province, Khajura, Banke in 2021/22. There was highly significant difference (<0.001) among genotypes for yield. The association between the grain yield (GY) and the biomass yield (BM), thousand grain weight (TGW), and spike number per meter square (SPMS), was highly significant and positive. The highest harvest index value of 0.59 and the highest grain yield were achieved from 20HTWYT#36 (4133 kg/ha), followed by Bandganga (3992 kg/ha), 20HTWYT#23 (3978 kg/ha), 20HTWYT#11 (3943 kg/ha), and 20HTWYT#05 (3758 kg/ha) exhibiting higher tolerance to high temperature stress and indicating the potential for this genotypes to be used as domain specific varieties suitable for heat stress conditions of Banke district and forbreeding climate resilient varieties in the future.

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晚播小麦(Triticum aestium L.)评价高温胁迫条件下的基因型

近年来，气候变化导致极端天气条件增加，包括高温压力。高温胁迫是指在籽粒发育过程中开花后温度升高(约30°C)。小麦特别容易受到高温胁迫，其产量受到严重影响。为了从籽粒产量方面鉴定耐热胁迫的小麦基因型，在2021/22年度，在孟加拉国兰比尼省Khajura农业研究局对50种小麦基因型在热胁迫条件下进行了评估。基因型间产量差异极显著(<0.001)。籽粒产量(GY)与生物量(BM)、千粒重(TGW)和每平方米穗数(SPMS)呈极显著正相关。收获指数最高的品种为20HTWYT#36 (4133 kg/ha)，产量最高，其次为班甘加(3992 kg/ha)、20HTWYT#23 (3978 kg/ha)、20HTWYT#11 (3943 kg/ha)和20HTWYT#05 (3758 kg/ha)，具有较强的耐高温性，表明该基因型可作为适合班克地区热胁迫条件的特定领域品种和未来选育气候适应型品种的潜力。

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来源期刊

Journal of Agriculture and Environment for International Development AGRONOMY-

CiteScore

1.00

自引率

0.00%

发文量

审稿时长

16 weeks

期刊介绍： The Journal of Agriculture and Environment for International Development is an international, multidisciplinary journal dealing with agricultural production, food security, environment, remote sensing and natural resources evaluation, economics and social science, rural development and soil science. The Journal publishes scientific, technical and extensional papers concerning activities devoted to Developing Countries and Countries in transition. The language of the Journal is English. Starting from 2015, papers in other languages will not be accepted.