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酸胁迫对海南绿橙生理代谢及抗氧化调控基因表达的影响

赵亚范鸿雁李少卡颜彩缤白丽黄海杰肖敏

华北农学报2026，Vol.41Issue(1)：86-96,11.

华北农学报2026，Vol.41Issue(1)：86-96,11.DOI:10.7668/hbnxb.20195886

酸胁迫对海南绿橙生理代谢及抗氧化调控基因表达的影响

Impact of Acid Stress on Physiological Metabolism and Antioxidant Regulatory Gene Expression in Hainan Green Sweet Orange

赵亚 ¹范鸿雁 ¹李少卡 ¹颜彩缤 ¹白丽 ¹黄海杰 ¹肖敏¹

作者信息

1. 海南省农业科学院热带果树研究所,海南省热带果树野外科学观测研究站,农业农村部海口热带果树科学观测实验站,海南省热带果树生物学重点实验室,农业农村部热带果蔬遗传资源评价利用重点实验室(部省共建),海南海口 571100
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摘要

Abstract

This study aimed to investigate the effects of acidic soil on the growth metabolism and photosynthesis of Hainan green sweet orange(Citrus sinensis L.)and to elucidate its antioxidant regulatory mechanisms under acid stress.A pot experiment was conducted to analyze the physiological metabolic changes,antioxidant responses,and expression patterns of key antioxidant enzyme regulatory genes in green sweet orange under acid stress.The results showed that the plant height growth,leaf area and fresh weight of green sweet orange plants decreased significantly under a strongly acidic soil environment,with the most serious effect of pH 3.5 treatment;the weakly acidic(pH 6.5)soil could promote the growth of plants,which manifested as positive growth in the amount of each growth index.Strong acid treatment significantly impaired photosynthesis and normal growth metabolism of green sweet or-ange leaves,manifested as negative growth in transpiration rate(Tr)and stomatal conductance(Gs)were significantly reduced.Superoxide dismutase(SOD)and phenylalanine ammonia-lyase(PAL)activities increased by 6.60-fold and 5.90-fold at 24 h post-treatment under pH 3.5.The malondialdehyde(MDA)content in leaves treated with pH 3.5 increased by 6.47-fold compared to the initial time point(0 h),significantly higher than that under pH 6.5.Princi-pal component analysis(PC A)and redundancy analysis(RDA)revealed a significant negative correlation between enzyme activity and physiological-biochemical indices(R2=0.82).Gene expression analysis demonstrated that Cs-SOD and CsPAL reached peak levels at 24,48 h post-stress respectively and remained upregulated within 72 h,showing 2.33-fold and 2.64-fold increases compared to 0 h,respectively.In summary,strongly acidic soil inhibits the growth and development of green sweet orange by reducing photosynthetic pigment content and metabolic effi-ciency.SOD and PAL serve as key antioxidant enzymes in response to acid stress,with CsSOD and CsPAL genes dy-namically regulating enzymatic activity to mitigate stress.

关键词

绿橙/酸胁迫/生理代谢/光合代谢/抗氧化酶/调控基因

Key words

Green sweet orange/Acid stress/Physiological metabolism/Photosynthetic metabolism/Antioxidant enzyme/Regulatory gene

分类

农业科技

引用本文复制引用

赵亚,范鸿雁,李少卡,颜彩缤,白丽,黄海杰,肖敏..酸胁迫对海南绿橙生理代谢及抗氧化调控基因表达的影响[J].华北农学报,2026,41(1):86-96,11.

基金项目

海南省自然科学基金项目(324QN349) （324QN349）

海南省农业科学院农业科技创新专项(柑橘)(HAAS2024MLXX04) （柑橘）

华北农学报

ISSN：1000-7091

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