Foliar-applied boron improves flag leaf reserves translocation, pollen viability and yield of aromatic monsoon rice

S. Rana, M. Islam, Md Bari, M. Mia, Md Rahman
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Abstract

The planting of monsoon rice (locally known as aman rice) may be delayed due to late heavy rainfall in many regions of South and Southeast Asia resulting in high spikelet sterility with substantial yield loss due to low temperatures during the reproductive stage. Therefore, the study evaluated the performance of foliar-applied boron in mitigating that problem towards sustainable aman rice production. A field experiment was laid out in a randomized complete block design where different levels of boron viz. 0, 50, 100, 150, 200, and 250 ppm were foliar-sprayed at 33 and 47 days after transplanting (DAT) to a popular aromatic rice cultivar Kataribhog grown in late monsoon. Data were collected on phenology, SPAD value at variable dates, pollen viability, boron concentration in leaves and grains, and yield traits and yield. The pollen viability increased by 81.6% for 200 ppm boron. Boron decreased flag leaf weight but increased panicle weight. Simultaneously, it decreased flag leaf SPAD value and subsequent increase in grain yield, which indicates profound flag leaf reserves translocation into the grain. Foliar-applied B at 200 ppm showed a 32.4 and 40.9% increase of B in leaf and grain, respectively, and improved yield attributes resulting in increased grain yield by 47.0%. The grain yield had strong positive relations with the B content in leaf and grain, and yield contributing characters. The results conclude that foliar-applied appropriate dose of B can reduce spikelet sterility, individual grain weight and eventually enhance grain formation towards increasing yield in late sown aromatic monsoon rice.
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叶面施硼提高了芳香季风稻旗叶储备转运、花粉活力和产量
由于南亚和东南亚许多地区的晚强降雨,季风稻(当地称为阿曼稻)的种植可能会推迟,导致小穗高度不育,并由于繁殖阶段的低温造成大量产量损失。因此,本研究评价了叶面施硼在缓解这一问题、促进水稻可持续生产方面的表现。采用完全随机区组设计,在晚季候风栽培的香稻品种Kataribhog上,分别于定植后33和47 d喷施0、50、100、150、200和250 ppm不同浓度的硼。采集物候、不同日期SPAD值、花粉活力、叶片和籽粒硼浓度、产量性状和产量等数据。当硼含量为200ppm时,花粉活力提高了81.6%。硼降低了旗叶重,但增加了穗重。同时,降低旗叶SPAD值,增加籽粒产量,表明旗叶储备向籽粒转运的程度较深。200 ppm叶面施B,叶片和籽粒中B含量分别增加了32.4和40.9%,改善了产量性状,籽粒产量提高了47.0%。籽粒和叶片中B含量及产量贡献性状与籽粒产量呈正相关。结果表明,叶面施用适当剂量的B能降低晚播芳香季风稻的小穗不育性,降低单粒重,最终促进籽粒形成,达到增产的目的。
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15
审稿时长
12 weeks
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