Higher Grain-Filling Rate in Inferior Spikelets of Tolerant Rice Genotype Offset Grain Yield Loss under Post-Anthesis High Night Temperatures

IF 5.6 2区 农林科学 Q1 AGRONOMY
Nitin Sharma , Bhupinder Singh , Subbaiyan Gopala Krishnan , Haritha Bollinedi , Pranab Kumar Mandal , Milan Kumar Lal , Prakash Kumar Jha , P.V.Vara Prasad , Anjali Anand
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Abstract

Increased nighttime respiratory losses decrease the amount of photoassimilates available for plant growth and yield. We hypothesized that the increased respiratory carbon loss under high night temperatures (HNT) could be compensated for by increased photosynthesis during the day following HNT exposure. Two rice genotypes, Vandana (HNT-sensitive) and Nagina 22 (HNT-tolerant), were exposed to HNT (4 °C above the control) from flowering to physiological maturity. They were assessed for alterations in the carbon balance of the source (flag leaf) and its subsequent impact on grain filling dynamics and the quality of spatially differentiated sinks (superior and inferior spikelets). Both genotypes exhibited significantly higher night respiration rates. However, only Nagina 22 compensated for the high respiration rates with an increased photosynthetic rate, resulting in a steady production of total dry matter under HNT. Nagina 22 also recorded a higher grain-filling rate, particularly at 5 and 10 d after flowering, with 1.5- and 4.0-fold increases in the translocation of 14C sugars to the superior and inferior spikelets, respectively. The ratio of photosynthetic rate to respiratory rate on a leaf area basis was negatively correlated with spikelet sterility, resulting in a higher filled spikelet number and grain weight per plant, particularly for inferior grains in Nagina 22. Grain quality parameters such as head rice recovery, high-density grains, and gelatinization temperature were maintained in Nagina 22. An increase in the rheological properties of rice flour starch in Nagina 22 under HNT indicated the stability of starch and its ability to reorganize during the cooling process of product formation. Thus, our study showed that sink adjustments between superior and inferior spikelets favored the growth of inferior spikelets, which helped to offset the reduction in grain weight under HNT in the tolerant genotype Nagina 22.
耐寒水稻基因型下位小穗的较高籽粒充实率抵消了开花后高夜温条件下的籽粒产量损失
夜间呼吸损失的增加会降低植物生长和产量所需的光同化物的数量。我们假设,在夜间高温(HNT)条件下,呼吸碳损失的增加可以通过白天光合作用的增加来补偿。两种水稻基因型 Vandana(对 HNT 敏感)和 Nagina 22(对 HNT 耐受)从开花期到生理成熟期都暴露在 HNT(比对照温度高 4 °C)下。对它们进行了评估,以确定源(旗叶)碳平衡的变化及其随后对谷粒灌浆动态和空间上有差异的汇(上穗和下穗)质量的影响。两种基因型的夜间呼吸速率都明显较高。然而,只有 Nagina 22 通过提高光合速率来补偿高呼吸速率,从而在 HNT 条件下保持稳定的总干物质产量。Nagina 22 的籽粒充实率也较高,特别是在花后 5 d 和 10 d,14C 糖分向上部和下部小穗的转移分别增加了 1.5 倍和 4.0 倍。按叶面积计算的光合速率与呼吸速率之比与小穗不育率呈负相关,从而导致每株的灌浆穗数和粒重增加,尤其是长稻 22 的劣质穗。纳吉纳 22 的谷粒质量参数,如头米回收率、高密度谷粒和糊化温度都保持不变。在 HNT 条件下,Nagina 22 中米粉淀粉流变特性的增加表明淀粉的稳定性及其在产品形成的冷却过程中重组的能力。因此,我们的研究表明,上等穗和下等穗之间的穗沉调整有利于下等穗的生长,这有助于抵消耐逆基因型 Nagina 22 在 HNT 条件下的粒重减少。
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来源期刊
Rice Science
Rice Science Agricultural and Biological Sciences-Agronomy and Crop Science
CiteScore
8.90
自引率
6.20%
发文量
55
审稿时长
40 weeks
期刊介绍: Rice Science is an international research journal sponsored by China National Rice Research Institute. It publishes original research papers, review articles, as well as short communications on all aspects of rice sciences in English language. Some of the topics that may be included in each issue are: breeding and genetics, biotechnology, germplasm resources, crop management, pest management, physiology, soil and fertilizer management, ecology, cereal chemistry and post-harvest processing.
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