源库关系的改变影响水稻对CO₂浓度升高的产量响应：一项开放式空气CO₂浓度增高研究

Alterations in Source-Sink Relations Affect Rice Yield Response to Elevated CO: A Free-Air CO Enrichment Study.

作者信息

Gao Bo, Hu Shaowu, Jing Liquan, Niu Xichao, Wang Yunxia, Zhu Jianguo, Wang Yulong, Yang Lianxin

机构信息

Key Laboratory of Crop Genetics and Physiology of Jiangsu Province, Yangzhou University, Yangzhou, China.

Jiangsu Co-Innovation Center for Modern Production Technology of Grain Crops of Jiangsu Province, Yangzhou University, Yangzhou, China.

出版信息

Front Plant Sci. 2021 Jul 2;12:700159. doi: 10.3389/fpls.2021.700159. eCollection 2021.

DOI:10.3389/fpls.2021.700159

PMID:34276751

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8283783/

Abstract

To understand the effects of source-sink relationships on rice yield response to elevated CO levels (eCO), we conducted a field study using a popular cultivar grown in a free-air CO enrichment environment in 2017-2018. The source-sink ratio of rice was set artificially via source-sink treatments (SSTs) at the heading stage. Five SSTs were performed in 2017 (EXP1): cutting off the flag leaf (LC1) and the top three functional leaves (LC3), removing one branch in every three branches of a panicle (SR1/3) and one branch in every two branches of a panicle (SR1/2), and the control (CK) without any leaf cutting or spikelet removal. The eCO significantly increased grain yield by 15.7% on average over all treatments; it significantly increased grain yield of CK, LC1, LC3, SR1/3, and SR1/2 crops by 13.9, 18.1, 25.3, 12.0, and 10.9%, respectively. The yield response to eCO was associated with a significant increase of panicle number and fully-filled grain percentage (FGP), and the response of crops under different SSTs was significantly positively correlated with FGP and the average grain weight of the seeds. Two SSTs (CK and LC3) were performed in 2018 (EXP2), which confirmed that the yield response of LC3 crops (25.1%) to eCO was significantly higher than that of CK (15.9%). Among the different grain positions, yield response to eCO of grains attached to the lower secondary rachis was greater than that of grains attached to the upper primary rachis. Reducing the source-sink ratio via leaf-cutting enhanced the net photosynthetic rate response of the remaining leaves to eCO and increased the grain filling ability. Conversely, spikelet removal increased the non-structural carbohydrate (NSC) content of the stem, causing feedback inhibition and photosynthetic down-regulation. This study suggests that reducing the source-sink ratio by adopting appropriate management measures can increase the response of rice to eCO.

摘要

为了解源库关系对水稻产量响应大气CO₂浓度升高（eCO）的影响，我们于2017 - 2018年在自由空气CO₂浓度增高环境下，使用一个 popular 品种进行了田间试验。在抽穗期通过源库处理（SSTs）人为设置水稻的源库比。2017年进行了5种SSTs处理（EXP1）：剪掉剑叶（LC1）和顶部3片功能叶（LC3），每穗每3个小枝去除1个小枝（SR1/3）和每穗每2个小枝去除1个小枝（SR1/2），以及不进行任何叶片修剪或小穗去除的对照（CK）。在所有处理中，eCO使籽粒产量平均显著提高了15.7%；它使CK、LC1、LC3、SR1/3和SR1/2作物的籽粒产量分别显著提高了13.9%、18.1%、25.3%、12.0%和10.9%。产量对eCO的响应与穗数和饱粒率（FGP）的显著增加有关，不同SSTs处理下作物的响应与FGP和种子平均粒重显著正相关。2018年进行了2种SSTs处理（EXP2），即CK和LC3，这证实了LC3作物对eCO的产量响应（25.1%）显著高于CK（15.9%）。在不同粒位中，着生于下部二次枝梗的籽粒对eCO的产量响应大于着生于上部一次枝梗的籽粒。通过剪叶降低源库比增强了剩余叶片对eCO的净光合速率响应，并提高了籽粒充实能力。相反，去除小穗增加了茎中非结构性碳水化合物（NSC）含量，导致反馈抑制和光合下调。本研究表明，通过采取适当管理措施降低源库比可提高水稻对eCO的响应。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3c4d/8283783/cd4f6c0412dd/fpls-12-700159-g001.jpg

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源库关系的改变影响水稻对CO₂浓度升高的产量响应：一项开放式空气CO₂浓度增高研究

Alterations in Source-Sink Relations Affect Rice Yield Response to Elevated CO: A Free-Air CO Enrichment Study.

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