MWCNTs Alleviated saline-alkali stress by optimizing photosynthesis and sucrose metabolism in rice seedling.

Plant signaling & behavior Pub Date : 2023-12-31 Epub Date: 2023-12-06 DOI:10.1080/15592324.2023.2283357
Zhenhua Xu, Haiying Liu, Yanmin Yu, Dawei Gao, Chunxu Leng, Shuli Zhang, Ping Yan
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Abstract

Saline and alkali stress affects the growth and development, survival rate, and final yield of rice, while new nano materials can have a positive effect on rice growth. In order to investing the effects of carboxymethyl multi walled carbon nanotubes (MWCNTs) on the growth and development of rice seedlings under salt alkali stress, rice seedlings were cultured using rice variety "Songjing 3" using nutrient solution water culture method. The effects of MWCNTs on water absorption capacity, leaf photosynthesis, and sucrose metabolism of rice seedlings under 50 mmol/L saline-alkali stress (1NaCl: 9Na2SO4: 9NaHCO3: 1Na2CO3) conditions were investigated. The results showed that MWCNTs can improve the water use ability of roots and leaves, especially the water absorption ability of roots, which provides a guarantee for the improvement of rice biomass and the enhancement of leaf photosynthetic capacity under adverse conditions. After treatment with MWCNTs, the photosynthetic rate (Pn), stomatal conductance (gs), and transpiration rate (Tr) of leaves increased significantly, and the photochemical quenching value (qP), photochemical quantum efficiency value (Fv/Fm), and electron transfer rate value (ETR) of chlorophyll fluorescence parameters increased significantly, which is beneficial to the improvement of the PSII photosynthetic system. MWCNTs treatment promoted the increase of photosynthetic pigment content in leaves under salt and alkali stress, improved the ratio of Chla and Chlb parameters, increased the activities of key photosynthetic enzymes (RUBPCase and PEPCase) in leaves, increased the value of total lutein cycle pool (VAZ), and significantly enhanced the deepoxidation effect of lutein cycle (DEPS), which can effectively alleviate the stomatal and non stomatal constraints on leaf photosynthesis caused by salt and alkali stress. MWCNTs treatment significantly enhanced the activities of sucrose phosphate synthase (SPS) and sucrose synthase (SS) under salt and alkali stress, and decreased the activities of soluble acid invertase (SAInv) and alkaline/neutral invertase (A/N-Inv), indicating that MWCNTs promoted sucrose synthesis while inhibiting sucrose decomposition, thereby promoting sucrose accumulation in rice leaves. This study can provide theoretical and experimental basis for the application of MWCNTs to the production of rice under salt and alkali stress, and can find a new way for rice production in saline and alkaline lands.

通过优化水稻幼苗的光合作用和蔗糖代谢缓解盐碱胁迫。
盐碱胁迫会影响水稻的生长发育、成活率和最终产量,而新型纳米材料可以对水稻生长产生积极影响。为了研究羧甲基多壁碳纳米管(MWCNTs)对盐碱胁迫下水稻秧苗生长发育的影响,采用营养液水培法,以水稻品种 "松景 3 号 "为材料,培养水稻秧苗。研究了在 50 mmol/L 盐碱胁迫(1NaCl:9Na2SO4:9NaHCO3:1Na2CO3)条件下,MWCNTs 对水稻秧苗吸水能力、叶片光合作用和蔗糖代谢的影响。结果表明,MWCNTs 能提高根系和叶片的水分利用能力,尤其是根系的吸水能力,为逆境条件下水稻生物量的提高和叶片光合能力的增强提供了保障。经 MWCNTs 处理后,叶片的光合速率(Pn)、气孔导度(gs)和蒸腾速率(Tr)显著提高,叶绿素荧光参数的光化学淬灭值(qP)、光化学量子效率值(Fv/Fm)和电子传递速率值(ETR)显著增加,有利于改善 PSII 光合系统。MWCNTs处理促进了盐碱胁迫下叶片光合色素含量的增加,改善了Chla和Chlb参数的比值,提高了叶片中关键光合酶(RUBPCase和PEPCase)的活性,增加了叶黄素循环总池(VAZ)值,显著增强了叶黄素循环深氧化效应(DEPS),可有效缓解盐碱胁迫对叶片光合作用的气孔和非气孔约束。在盐碱胁迫下,MWCNTs处理能显著提高蔗糖磷酸合成酶(SPS)和蔗糖合成酶(SS)的活性,降低可溶性酸转化酶(SAInv)和碱性/中性转化酶(A/N-Inv)的活性,表明MWCNTs在促进蔗糖合成的同时抑制了蔗糖的分解,从而促进了水稻叶片中蔗糖的积累。该研究可为将 MWCNTs 应用于盐碱胁迫下的水稻生产提供理论和实验依据,为盐碱地水稻生产找到一条新途径。
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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