外源CO和H2S对NaCl胁迫下加工番茄幼苗光合及叶绿素荧光动力学的影响OA北大核心CSTPCD
Synergism of CO and H2S to alleviate NaCl stress through improvement of photosynthetic efficiency and optimization of energy distribution of PSII
[目的]研究一氧化碳(CO)和硫化氢(H2S)调控作物幼苗抗盐能力的机理,为缓解盐渍土中NaCl对作物的胁迫提供理论和技术.[方法]以加工番茄品系KT-7 为试验材料,采用无土栽培方法进行CO和H2S叶面喷施试验.CO供体为氯化血红素溶液(hemin 15 μmol/L),H2S供体为硫氢化钠溶液(NaHS,50 μmol/L),并因处理需要使用了H2S清除剂次牛磺酸溶液(HT,100 μmol/L)和血红素加氧酶抑制剂锌原卟啉溶液(ZnPPⅨ,25 μmol/L).试验共设 6 个处理,除对照根部浇灌营养液,叶面喷施清水外(CK0),其余 5 个处理均根部浇灌200 mmol/L NaCl溶液,叶面分别喷施清水(CK1)、CO、H2S、CO+HT、H2S+ZnPPⅨ.幼苗长至四叶一心时,连续 6 天进行NaCl浇灌和叶面喷施处理,然后测定幼苗形态学指标,用Li-6800 便携式光合测定仪测定光合参数,用Imaging-PAM荧光成像系统测定叶绿素荧光系数,植物效率仪测定叶绿素荧光动力学曲线(OJIP曲线).[结果]胁迫 6 天后,加工番茄幼苗的各项形态学参数、净光合速率(Pn)、实际光化学效率[Y(Ⅱ)]和光系统Ⅱ(PSⅡ)性能指标[PIABS和PI(CSM)]显著下降,OJIP曲线产生形变,并出现K点.CO和H2S处理均有效提高了加工番茄幼苗的光合色素含量、光合参数、PSⅡ的综合性能和受体侧的电子传递效率;提升了OJIP曲线中的J点、I点、P点,降低了ΔK,从而缓解了OJIP曲线的形变;CO处理的Pn、表观CO2 利用率(CUEapp)、Y(Ⅱ)和电子传递速率(ETR)分别较CK1 上升了 75.63%、100%、60.00%和 57.72%,H2S处理分别上升了65.95%、100%、55.00%和 52.68%,CO和H2S处理均降低了非光化学淬灭和热耗散的比例,减少了PSⅡ供体侧放氧复合体(OEC)的损伤.CO+HT处理缓解NaCl胁迫的效果和CO处理相似,而H2S+ZnPPⅨ处理则不能缓解NaCl胁迫,其光合色素含量、Pn、Fv/Fm、Y(Ⅱ)、qL、ETR、PIABS和PI(CSM)较H2S处理显著下降,热耗散比率则较H2S处理显著升高.[结论]外源施用CO和H2S均可通过提高光合效率,优化PSⅡ能量分配比率,保护光合电子传递链免受盐害损伤,显著提高番茄幼苗的抗盐能力.CO的作用位点可能在H2S下游,具有协同H2S提高加工番茄耐盐性的作用.
[Objectives]We studied the mechanism of carbon monoxide(CO)and hydrogen sulfide(H2S)on alleviating NaCl stress to crop seedlings,to provide a theoretical basis and technology for efficient crop production in the secondary salinized soil.[Methods]A soilless cultivation experiment was carried out using a processing tomato strain KT-7 as the test material.The donor for carbon monoxide(CO)was hemin solution(15 μmol/L),and for H2S was hypotaurine solution(50 μmol/L).In addition,zinc protoporphyrin solution(25 μmol/L)was used for heme oxygenase inhibitor,and H2S scavenger hypotaurine solution(HT,100 μmol/L)was used as the requirement of the treatments.There were 6 treatments in the experiment,except for CK0(irrigating normal nutrient solution and foliar spraying clean water),the other five treatments were all irrigated with a nutrient solution containing 200 mmol/L NaCl,and foliar sprayed clean water(CK1),CO,CO+HT,H2S,and H2S+ZnPPⅨ,respectively.When the seedlings were at the stage of 4 leaves-1-sprout,NaCl stress and foliar spraying were carried out for consecutive six days then the morphological indicators were investigated,Li-6800 portable photosynthetic system was used to measure the photosynthetic parameters.The Imaging-PAM modulated fluorescence imaging system was used to determine the fluorescence parameters of chlorophyll,and the plant efficiency meter was used to measure the leaf green fluorescence kinetic curve(OJIP).[Results]After 6 days of NaCl stress,the net photosynthetic rate(Pn),actual photochemical efficiency[Y(Ⅱ)]and PSⅡperformance indicators(PIABS and PI(CSM))of the seedling leaves decreased significantly,the OJIP curve was deformed,and the K point appeared.Both CO and H2S treatments improved the photosynthetic pigment content,photosynthetic parameters,comprehensive performance of PSⅡand electron transfer efficiency on the receptor side,revised the deformation of the OJIP curve by raised the J point,I point,and P point,and falling ΔK.Compared with CK,the Pn,apparent CO2 utilization rate(CUEapp),Y(Ⅱ)and electron transfer rate(ETR)increased by 75.63%,100%,60.00%and 57.72%in CO treatment,and increased by 65.95%,100%,55.00%and 52.68%in H2S treatment.Both the CO and H2S treatments reduced the proportion of non-photochemical quenching and heat dissipation,and reduced the damage of the PSII donor side oxygen evolving complex(OEC).The CO+HT treatment was recorded similar parameters with CO treatment,while H2S+ZnPPⅨtreatment was recorded significantly lower pigment content,Pn,Fv/Fm,Y(Ⅱ),qL,ETR,PIABS and PI(CSM),but significantly higher heat dissipation ratio,compared to those in H2S treatment.[Conclusions]Both exogenous CO and H2S are conducive to optimize the PSⅡenergy distribution ratio,and protect the photosynthetic electron transport chain from salt damage.CO maybe act in the downstream of H2S involving in the photosynthesis,and intensify the effect of H2S on improving the salt tolerance of tomato seedlings.
骆霞;滕元旭;崔辉梅
石河子大学农学院/特色果蔬栽培生理与种质资源利用兵团重点实验室,新疆石河子 832003
一氧化碳硫化氢加工番茄NaCl胁迫叶绿素荧光
carbon monoxidehydrogen sulfideprocessing tomatoNaCl stresschlorophyll fluorescence
《植物营养与肥料学报》 2024 (003)
538-549 / 12
国家自然科学基金项目(31860551);兵团财政科技计划项目(2021AB018).
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