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Home > Archive>Volume 26, Issue 1, 2025 >14-26. DOI:10.13430/j.cnki.jpgr.20240422002
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Research Progress of Response Mechanism of Zanthoxylum bungeanum Maxim. to Low Temperature Stress
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Affiliation:

College of Horticulture and Gardening,Yangtze University/Hubei Key Laboratory of Spices & Horticultural Plant Germplasm Innovation & Utilization, Jingzhou 434025,Hubei

Fund Project:

Hubei Provincial Natural Science Foundation Project (2023AFB1001); Hubei Provincial Key R&D Initiative Projects (2022BBA0061, 2021BBA096)

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    Abstract:

    Pepper (Zanthoxylum bungeanum Maxim.) is an important economic crop, integrating flavoring, medicine, oil extraction and ornamental, which has a long history and is widely planted in China. China is the origin of pepper and has found 45 species, 13 varieties, rich resources. Pepper like sunshine and have strong survival ability. However, pepper makes the cultivation and promotion of the limitations for its relatively poor low temperature resistance. Low temperature is the main environmental factor, which seriously affects the yield and quality of pepper and impedes the sustainable development of pepper industry. In this paper, we reviewed the current research status at home and abroad from four aspects, including the growth morphology, evaluation of cold tolerance, physiological and biochemical changes, and molecular response mechanism of pepper. The results showed that there are two methods to characterize the low-temperature tolerance of pepper:Natural identification in the field and indoor low-temperature treatment. Related studies on physiological changes in pepper mainly focused on four aspects:water content, biofilm structure(relative conductivity, malondialdehyde), antioxidant enzymes (superoxide dismutase,peroxidase) and osmotic regulating substances (soluble sugars, soluble proteins, free proline). The exploration of molecular response mechanisms in pepper has revealed multiple metabolic pathways that work together in response to low-temperature stress in pepper.Finally, this paper analyzes and looks forward to the current research direction of pepper in response to low-temperature stress, in order to lay a foundation for further identification and evaluation of Zanthoxylum bungeanum germplasm resources, research on cold resistance and the creation and cultivation of cold resistant germplasm.

    Reference
    [1] Fei X T, Shi Q Q, Yang T X, Fei Z X, Wei A Z. Expression stabilities of ten candidate reference genes for RT-qPCR in Zanthoxylum bungeanum Maxim.. Molecules, 2018, 23 (4): 802
    [2] Yan H, Zhou F, Liu Y, Zhang Y W, Xu H, Zhang J M, Wang J, Jiang S J, Qin D G, Wang T. Zanthoxylum bungeanum Maxim.:A review of its phytochemistry, pharmacology, and pharmacokinetics. Natural Product Communications, 2023, 18 (10): 1934578X231209153
    [3] 况觅, 李珊蓉, 吕玉奎. 青花椒实用栽培管理技术.彩图版. 北京: 中国农业出版社, 2021:1-3Kuang M, Li S R, Lv Y K. Practical cultivation and management techniques of green pepper. Color illustrated edition. Beijing: China Agricultural Press, 2021:1-3
    [4] Zhang M M, Wang J L, Zhu L, Li T, Jiang W D, Zhou J, Peng W. Zanthoxylum bungeanum Maxim. (Rutaceae):A systematic review of its traditional uses, botany, phytochemistry, pharmacology, pharmacokinetics, and toxicology. International Journal of Molecular Sciences, 2017, 18 (10): 2172
    [5] Zhuo Z H, Xu D P, Pu B, Wang R L, Ye M. Predicting distribution of Zanthoxylum bungeanum Maxim. in China. BMC Ecology, 2020, 20: 1-10
    [6] Airaki M, Leterrier M, Mateos R M, Valderrama R, Chaki M, Basorro J B, Del Rio L A, Palma J M, Corpas F J. Metabolism of reactive oxygen species and reactive nitrogen species in pepper (Capsicum annuum L.) plants under low temperature stress. Plant, Cell & Environment, 2012, 35 (2): 281-295
    [7] Allen D J, Ort D R. Impacts of chilling temperatures on photosynthesis in warm-climate plants. Trends in Plant Science, 2001, 6 (1): 36-42
    [8] Hu Z R, Liu A, Bi A Y, Amombo E, Gitau M H, Huang X B, Chen L, Fu J M. Identification of differentially expressed proteins in bermudagrass response to cold stress in the presence of ethylene. Environmental and Experimental Botany, 2017, 139: 67-78
    [9] Adolf A, Liu L, Ackah M, Li Y, Du Q X, Zheng D Y, Guo P, Shi Y X, Lin Q, Qiu C Y, Zhao W G. Transcriptome profiling reveals candidate genes associated with cold stress in mulberry. Brazilian Journal of Botany, 2021, 44: 125-137
    [10] Song C B, Yin Y W, Zhou C J, Yang Z F. Cold sensitivity evaluation in different peach cultivars under low temperature stress through lipid remodeling. Postharvest Biology and Technology, 2024, 209: 112715
    [11] 徐远, 杨树华, 贾瑞冬, 赵鑫, 何连球, 孟文慧, 周苗新, 葛红.弯刺蔷薇枝条越冬抗寒生理与蛋白组学分析.植物遗传资源学报, 2020, 21 (6) : 1568-1576Xu Y, Yang S H, Jia R D, Zhao X, He L Q, Meng W H, Zhou M X, Ge H. Physiological and proteomics analysis on freezing tolerance of rosa beggeriana branches during overwintering. Journal of Plant Genetic Resources, 2020, 21 (6) : 1568-1576
    [12] Hou L, Wu Q, Zhu X, Li X, Fan X, Hui M, Ye Q, Liu G, Liu X. Transcription factor VvDREB2A from Vitis vinifera improves cold tolerance. International Journal of Molecular Sciences, 2023, 24 (11): 9381
    [13] An J P, Wang X F, Zhang X W, Xu H F, Bi S Q, You C X, Hao Y J. An apple MYB transcription factor regulates cold tolerance and anthocyanin accumulation and undergoes MIEL1-mediated degradation. Plant Biotechnol Journal, 2020, 18 (2): 337-353
    [14] 杜朝金, 李贻沛, 尹拓, 杨娜, 杨秀瑶, 张梦洁, 韩沛辰, 奚登贤, 刘小珍, 张汉尧.低温胁迫下四倍体黄肉中华猕猴桃转录组分析.植物遗传资源学报, 2023,24 (1): 296-306Du C J, Li Y P, Yin T, Yang N, Yang X Y, Zhang M J, Han P C, Xi D X, Liu X Z, Zhang H Y. Transcriptome analysis of cold-treated tetraploid yellow-fleshed actinidia chinensis planch. Journal of Plant Genetic Resources, 2023, 24 (1): 296-306
    [15] Sun Y J, He Y H, Irfan R A , Liu X M, Yu Q Q, Zhang Q, Yang D G. Exogenous brassinolide enhances the growth and cold resistance of Maize (Zea mays L.) seedlings under chilling stress. Agronomy, 2020, 10 (4): 488
    [16] 唐璇, 吕树伟, 范芝兰, 陈文丰, 潘大建, 李晨.水稻耐冷性鉴定研究进展.植物遗传资源学报, 2023, 24 (2): 325-331Tang X, Lv S W, Fan Z L, Chen W F, Pan D J, Li C. Advances on the identification of rice cold tolerance. Journal of Plant Genetic Resources, 2023, 24 (2) : 325-331
    [17] 王伟平, 宋子超, 薄凯亮, 董邵云, 魏爽, 苗晗, 李锦斌, 张圣平, 顾兴芳. 黄瓜核心种质幼苗耐低温性评价及GWAS分析.植物遗传资源学报, 2019, 20 (6): 1606-1612Wang W P, Song Z C, Bo K L, Dong S Y, Wei S, Miao H, Li J B, Zhang S P, Gu X F. Evaluation and genome-wide association study(GWAS)of low-temperature tolerance at seeding stage in cucumber core germplasm. Journal of Plant Genetic Resources, 2019, 20 (6): 1606-1612
    [18] Zhang J Q, Tao J P, Song L X, Zhang R R, Liu H, Zhao T M, Zhu W M, Xiong A S. Identification of key regulatory factors of molecular marker TGS377 on chromosome 1 and its response to cold stress in tomato. Agronomy, 2022, 12 (12): 2985
    [19] Wang L H, Chen H, Chen G Y, Luo G B, Shen X Y, Yang B O, Bie Z L. Transcription factor SlWRKY50 enhances cold tolerance in tomato by activating the jasmonic acid signaling. Plant Physiology, 2024, 194(2): 1075-1090
    [20] 刘贝贝, 陈利娜, 李好先, 张杰, 牛娟, 曹尚银.果树响应低温胁迫的分子机制及抗寒性鉴定方法研究进展.北方园艺, 2017 (15):174-179Liu B B, Chen L N, Li H X, Zhang J, Niu J, Cao S Y. Research progress on molecular mechanisms of fruit tree response to low temperature stress and identification methods of cold resistance. Northern Horticulture, 2017 (15):174-179
    [21] Shi L, Dong X, Fu H, Chai X Y, Bao S Q, Ren Y, Hu K, Li Q, Chen Z X. Differences in physiological characteristics of green prickly ash germplasm resources in response to low-temperature stress. Horticulturae, 2023, 9(11): 1242
    [22] 金君, 韦欣霈, 宋任锋, 钟宛如, 辛树权.软枣猕猴桃抗寒性研究进展.北方园艺, 2023 (12): 137-143Jin J, Wei X P, Song R F, Zhong W R, Xin S Q. Research progress on cold resistance of Actinidia arguta. Northern Horticulture, 2023 (12): 137-143
    [23] 张向荣.植物抗寒性机理研究综述.现代园艺, 2009(12):2-4Zhang X R. Review on mechanism of cold resistance in plants. Modern Horticulture , 2009(12):2-4
    [24] 张晓波. 月季抗寒性研究进展.辽宁农业科学, 2022 (2): 63-66Zhang X B. Research progress on cold resistance of Chinese rose. Liaoning Agricultural Sciences, 2022 (2): 63-66
    [25] 刘方方, 万映秀, 曹文昕,张琪琪, 李耀,李炎, 张平治. 小麦倒春寒抗性鉴定研究进展. 植物遗传资源学报, 2021, 22 (5) : 1193-1199Liu F F, Wan Y X, Cao W X, Zhang Q Q, Li Y, Li Y, Zhang P Z. Advances on identification of wheat cold tolerance in spring. Journal of Plant Genetic Resources, 2021, 22 (5): 1193-1199
    [26] Shi P J, Chen Z H, Reddy G V, Hui C, Huang J G, Xiao M. Timing of cherry tree blooming:Contrasting effects of rising winter low temperatures and early spring temperatures. Agricultural and Forest Meteorology, 2017, 240:79-80
    [27] 闵艳娥, 李小功, 赵爱香, 赵淑芹, 杨春.渭南地区猕猴桃树冻害发生的因素及关键防治措施.农业科技通讯, 2019 (2):264-265Min Y E, Li X G, Zhao A X, Zhao S Q, Yang C. Factors and key control measures of kiwi tree frost damage in Weinan area. Agricultural Science and Technology Bulletin, 2019 (2): 264-265
    [28] 董志胜, 宋海萍, 刘存臻.山地石榴树冻害的机理分析及综合防治技术.农业科技通讯, 2021 (8): 334-335Dong Z S, Song H P, Liu C Z. Mechanism analysis and comprehensive control technology of frost damage of mountain pomegranate. Agricultural Science and Technology Communication, 2021 (8): 334-335
    [29] 原双进, 王锐, 原野, 薛卫鹏. 花椒冻害的评价与防控技术. 陕西林业科技, 2018, 46 (4): 77-79,119Yuan S J, Wang R, Yuan Y, Xue W P. Evaluation and prevention of freezing injury to Zanthoxylum bungeanum. Shaanxi Forest Science and Technology, 2018, 46 (4): 77-79, 119
    [30] 王军辉. 秦安县花椒品种受春季低温冻害特征研究. 甘肃林业科技, 2006 (2): 59-60,58Wang J H. Study on characteristics of Zanthoxylum varieties damaged by low temperature and freezing in spring in Qin 'an county. Journal of Gansu Forestry Science and Technology, 2006 (2): 59-60,58
    [31] 岳高峰, 马俊强, 祁萍, 韩志强, 李项龙, 马丽婷. 低温冻害对花椒产量及品质的影响. 江西农业学报, 2022, 34 (11): 143-148Yue G F, Ma J Q, Qi P, Han Z Q, Li X L, Ma L T. Effects of low temperature and freezing injury on yield and quality of Zanthoxylum bungeanum. Acta Agriculturae Jiangxi, 2022, 34 (11): 143-148
    [32] 李秀霞. 浅山干旱地区花椒晚霜冻害调查与防控. 农业科技与信息, 2014 (11): 16,18Li X X. Investigation and prevention of late frost damage of Zanthoxylum in arid area of shallow Mountain. Agricultural Science-Technology and Information,2014 (11):16,18
    [33] 雷雯, 张向荣, 张军.春季晚霜冻对凤县花椒冻害成因分析及防御建议——以2018年例. 农业与技术, 2020, 40 (9): 121-123Lei W, Zhang X R, Zhang J. Analysis on causes of frost damage of Sichuan pepper in late spring and prevention suggestions:A case study in 2018.Agriculture and Technology, 2020, 40 (9): 121-123
    [34] 吕小军, 杨途熙, 何小红, 魏安智, 冯世静, 王媛, 戚建华.冬季低温对花椒抗寒性生理指标的影响. 西北农业学报, 2013, 22 (7): 143-148Lv X J, Yang T X, He X H, Wei A Z, Feng S J, Wang Y, Qi J H. Influence of low temperature stress on the cold-resistance physiological indexes of Zanthoxylum zanthoxylum in winter. Acta Agriculturae Boreali-occidentalis Sinica, 2013, 22 (7): 143-148
    [35] 肖彩玲, 王有科, 贺春燕, 李玉珍, 张广忠. 低温胁迫下花椒新梢生理变化与抗寒性研究. 安徽农业科学, 2008(10): 3975-3977Xiao C L, Wang Y K, He C Y, Li Y Z, Zhang G Z. Studies on the relationship between the changes of mian physiological indices and cold-resistance in the new shoots of Dahongpao Zanthoxy-lum bungeanum under low temperature stress. Journal of Anhui Agricultural Sciences, 2008 (10): 3975-3977
    [36] 王美琴. 花椒枝条组织结构与抗寒性的关系. 甘肃科学学报, 2008(4): 45-47Wang M Q. Relationship between tissue structure and cold resistance of Zanthoxylum bungeanum branches. Journal of Gansu Sciences, 2008 (4): 45-47
    [37] 孙丙寅, 刘淑明. 不同种源花椒抗寒性比较研究 . 陕西林业科技, 2010 (2): 1-3Sun B Y, Liu S M. Comparison of cold tolerance of Zanthoxylum bungeanum different provenances. Shaanxi Forestrt Science and Technology, 2010 (2): 1-3
    [38] Zhang J, Yu L, Han N, Wang D M. Characterization of phenolic chemotypes, anatomy, and histochemistry of Zanthoxylum bungeanum Maxim.. Industrial Crops and Products, 2023, 193: 116149
    [39] 杨桂绒, 杨世宏, 刘亚宜. 低温冻害对宜川花椒生长的影响. 陕西林业科技, 2009 (1): 55-57Yang G R, Yang S H, Liu Y Y. Effects of freezing weather on the growth of Zanthoxylum bungeanum Maxim.. Shaanxi Forest Science and Technology, 2009 (1): 55-57
    [40] 刘胜元, 张春梅, 许平, 王华田, 刘秀梅. 基于导水率对花椒品种抗寒性的评价. 山东农业科学, 2021, 53 (12): 58-63Liu S Y, Zhang C M, Xu P, Wang H T, Liu X M. Evaluation on cold resistance of Zanthoxylum bungeanum cultivars based on hydraulic conductivity. Shandong Agricultural Sciences, 2021, 53 (12): 58-63
    [41] 刘淑明, 孙丙寅, 刘杜玲.不同种源花椒抗寒性研究(Ⅱ) . 西北农业学报, 2010, 19 (11): 119-124Liu S M, Sun B Y, Liu D L. Study on cold hardness of different provenances of Zanthoxylum bungeanum (Ⅱ). Acta Agriculturae Boreali-occidentalis Sinica, 2010, 19 (11): 119-124
    [42] 田介云.花椒幼苗低温胁迫下生理和分子响应机制研究.杨凌:西北农林科技大学, 2021Tian J Y. Physiological and molecular response mechanism of Zanthoxylum bungeanum seedlings under low temperature stress. Yangling:Northwest A&F University, 2021
    [43] 张健, 谢燕. 花椒低温冻害调查与分析. 陕西农业科学, 2019, 65 (9): 83-84Zhang J, Xie Y. Survey and analysis of low temperature damage in prickiy ash. Shaanxi Journal of Agricultural Sciences, 2019, 65 (9): 83-84
    [44] 田路. 壳寡糖对花椒幼苗抗寒性的影响. 杨凌:西北农林科技大学, 2019Tian L. Effect of chitosan oligosaccharides on cold resistance of Zanthoxylum bungeanum Maxim. seedlings. Yangling:Northwest Agriculture and Forestry University, 2019
    [45] 赵昌平.竹叶花椒光合特性及低温胁迫生理研究.成都: 四川农业大学, 2018Zhao C P. Study on photosynthetic characteristics and low temperature stress physiology of Zanthoxylum armatum. Chengdu:Sichuan Agricultural University, 2018
    [46] 毕君.山椒栽培机理及关键技术研究. 南京:南京林业大学, 2009Bi J. Study on mechanism and key technology of cultivation of Zanthoxylum piperitum DE Candolle. Nanjing:Nanjing Forestry University, 2009
    [47] 杨宇芳.花椒新梢抗寒性研究. 兰州: 甘肃农业大学, 2009Yang Y F. Cold resistance of Zanthoxylum bungeanum shoots.Lanzhou:Gansu Agricultural University, 2009
    [48] 刘冰, 王有科. 应用Logistic方程确定花椒枝条低温半致死温度. 甘肃农业大学学报, 2005 (4): 475-479Liu B, Wang Y K. Application of Logistic quation on determination of lethal dose 50 temperature of Zanthoxylum bungeanum shoots. Journal of Gansu Agricultural University, 2005(4): 475-479
    [49] 付豪.引种地生态地理因素对花椒种质资源表型性状及抗寒性的影响. 重庆:重庆三峡学院, 2023Fu H. Influence of eco-geographical factors at the introduction site on phenotypic traits and cold resistance of pepper germplasm resources.Chongqing : Chongqing Three Gorges University, 2023
    [50] 陈政, 李佩洪, 唐伟, 龚霞, 吴银民, 吴军. 日本无刺花椒抗寒性的初步研究. 现代园艺, 2020, 43 (9): 12-15Chen Z, Li P H, Tang W, Gong X, Wu Y M, Wu J. Preliminary study on cold resistance of prickly pepper in Japan. Contemporary Horticulture, 2020, 43 (9): 12-15
    [51] 刘胜元, 张明忠, 王华田, 刘秀梅, 战中才. 3个主栽花椒品种的抗寒性评价. 森林与环境学报, 2021, 41 (4): 388-395Liu S Y, Zhang M Z, Wang H T, Liu X M, Zhan Z C. Evaluation of the cold resistance capability of three different cultivars of Zanthoxylum bungeanum. Journal of Forest and Environment, 2021, 41 (4): 388-395
    [52] 刘玲. 花椒抗寒抗旱性研究. 杨凌:西北农林科技大学 , 2011Liu L. Research on cold and drought resistance of Zanthoxylum bungeanum.Yangling:Northwest Agriculture and Forestry University, 2011
    [53] 丁思悦, 王雨婷, 赵佳琪, 王文, 惠竹梅. 葡萄种质抗寒性鉴定及综合评价. 西北农林科技大学学报:自然科学版, 2024, 52 (6): 1-15Ding S Y, Wang Y T, Zhao J Q, Wang W, Hui Z M. Identification and comprehensive evaluation of cold resistance among grape germplasm. Journal of Northwest A&F University: Natural Science Edition, 2024, 52 (6): 1-15
    [54] 王天鹤, 代志国, 张丙秀, 冯思铭, 张臣. 越冬期软枣猕猴桃田间冻害调查及抗寒生理. 北方园艺, 2021 (19): 15-21Wang T H, Dai Z G, Zhang B X, Feng S M, Zhang C. Field freezing injury investigation and physiological characteristics of cold resistance of actinidia arguta during overwintering. Northern Horticulture, 2021(19): 15-21
    [55] 杨途熙, 魏安智, 李晓, 魏洲. 越冬过程中花椒抗寒性与组织水和渗透调节物质的变化. 植物生理学通讯, 2010, 46 (6): 579-582Yang T X, Wei A Z, Li X, Wei Z. Changes of resistance and tissue water and osmoregulation substances of Zanthoxylum bungeanum Maxim. during winter. Plant Physiology Journal, 2010, 46 (6): 579-582
    [56] 曹健冉, 赵滢, 艾军. 软枣猕猴桃枝条越冬抗寒性比较及其生理差异分析. 吉林农业大学学报, 2023, 45 (5): 558-563Cao J R, Zhao Y, Ai J. Comparison of cold resistance and its physiological differences of Actinidia arguta branches during wintering. Journal of Jilin Agricultural University, 2023, 45 (5): 558-563
    [57] Jooste M, Rohwer A E, Kidd M, Huysamer M. Comparison of antioxidant levels and cell membrane composition during fruit development in two plum cultivars (Prunus salicina Lindl.) differing in chilling resistance.Scientia Horticulturae, 2014, 180: 176-189
    [58] 潘晓雪, 张现伟, 李经勇, 雷开荣.渝17S对低温胁迫的响应及耐冷机制初步研究.植物遗传资源学报, 2021, 22 (1) : 205-213Pan X X, Zhang X W, Li J Y, Lei K R. The effect of low temperature stress on the growth of ‘Yu17S’ and a preliminary study of cold-resistance mechanisms. Journal of Plant Genetic Resources, 2021, 22 (1) : 205-213
    [59] Shu P, Li Y J, Xiang L T, Sheng J P, Shen L. Ethylene enhances tolerance to chilling stress in tomato fruit partially through the synergistic regulation between antioxidant enzymes and ATP synthases. Postharvest Biology and Technology, 2022, 193: 112065
    [60] Yu J, Cang J, Lu Q W, Fan B, Xu Q H, Li W N, Wang X T. ABA enhanced cold tolerance of wheat‘dn1’via increasing ROS scavenging system. Plant Signaling Behavior, 2020, 15 (8): 1780403
    [61] 包崇来, 杜黎明, 胡天华, 朱琴妹, 胡海娇, 何群燕, 毛伟海. 茄子耐低温材料的筛选及其耐低温生理响应研究. 植物遗传资源学报, 2013, 14 (6) : 1161-1166Bao C L, Du L M, Hu T H, Zhu Q M, Hu H J, He Q Y, Mao W H. Screen of low-temperature tolerant cultivar and analysis of physiological mechanism in eggplant. Journal of Plant Genetic Resources, 2013, 14 (6): 1161-1166
    [62] Liu S Y, Liu X M, Han X Y, Wang H T, Xu P, Zhang C M . Comparative patterns of physiological responses to cold resistance of Zanthoxylum bungeanum Maxim. ???????, 2023, 41(5): 508-521
    [63] Attia M S, Osman M S, Mohamed A S, Mahgoub H A, Garada M O, Abdelmouty E S, Latef A A H A. Impact of foliar application of chitosan dissolved in different organic acids on isozymes, protein patterns and physio-biochemical characteristics of tomato grown under salinity stress. Plants, 2021, 10 (2): 388
    [64] 孙浩, 李大勇, 郭伟珍, 武军凯, 李莹, 赵京献. 不同花椒品种抗早霜能力测定.河北林业科技, 2024 (2): 6-11,20Sun H, Li D Y, Guo W Z, Wu J K, Li Y, Zhao J X. Determination of early frost resistance of different Zanthoxylum bungeanum varieties. Journal of Hebei Forestry Science and Technology, 2024 (2): 6-11,20
    [65] Rahemi A, Fisher H, Carter K, Taghavi T. Mitigating grapevine winter damage in cold climate areas. Horticultural Science, 2022, 49 (2): 59-70
    [66] Liu R X, Rong Y Z, Tian X, Hashem A, Allah E F A, Zou Y N, Wu Q S. Mycorrhizal fungal effects on plant growth, osmolytes, and CsHsp70s and CsPIPs expression in leaves of cucumber under a short-term heat stress. Plants, 2023, 12 (16): 2917
    [67] Lin Q F, Wang J Y, Gong J X, Zhang Z L, Wang S, Sun J,Li Q Q, Gu X, Jiang J H, Qi S L. The Arabidopsis thaliana trehalose-6-phosphate phosphatase gene AtTPPI improve chilling tolerance through accumulating soluble sugar and JA. Environmental and Experimental Botany, 2023, 205: 105117
    [68] 李飞. KH2PO4对青花椒幼苗抗寒性的影响. 成都:四川农业大学, 2013Li F. The effects of KH2PO4 on the cold resistance characteristics of Qinghuajiao. Chengdu:Sichuan Agricultural University, 2013
    [69] Han X, Yao F, Xue T T, Wang Z L, Wang Y, Wang Z L, Cao X, Hui M, Wu D, Li Y H, Wang H, Li H. Sprayed biodegradable liquid film improved the freezing tolerance of cv. Cabernet Sauvignon by up-regulating soluble protein and carbohydrate levels and alleviating oxidative damage. Frontiers in Plant Science, 2022, 13: 1021483
    [70] 何西凤, 杨途熙, 魏安智, 杨恒, 张睿. 自然越冬过程中花椒抗寒性生理指标的变化.东北林业大学学报, 2009, 37(5): 67-69He X F, Yang T X, Wei A Z, Yang H, Zhang R. Changes of physiological indexes of Zanthoxylum bungeanum related to cold resistance during natural overwintering. Journal of Northeast Forestry University, 2009, 37 (5): 67-69
    [71] Wang W L, Wang X, Lv Z S, Khanzada A, Huang M, Cai J, Zhou Q, Huo Z Y, Jiang D. Effects of cold and salicylic acid priming on free proline and sucrose accumulation in winter wheat under freezing stress. Journal of Plant Growth Regulation, 2021, 41 (6): 1-14
    [72] Tian J Y, Ma Y, Tian L, Huang C, Chen M, Wei A Z. Comparative physiology and transcriptome response patterns in cold-tolerant and cold-sensitive varieties of Zanthoxylum bungeanum Maxim.. Industrial Crops and Products, 2021, 167: 113562
    [73] 任利明, 谢芳, 丁飞, 张硕新. 褪黑素对花椒幼苗低温伤害的缓解效应. 西北林学院学报,2023, 38 (4):34-43Ren L M, Xie F, Ding F, Zhang S X. The mitigative effect of melatonin on seedlings under chilling stress. Journal of Northwest Forestry University, 2023, 38 (4): 34-43
    [74] Li Q, Cai Y M, Gu L Q, Yu X H, Wang Y, Zhang G L, Zhao Y Q, Abdullah S, Li P. Transcriptome reveals molecular mechanism of cabbage response to low temperature stress and functional study of BoPYL8 gene. Scientia Horticulturae, 2024, 323: 112523
    [75] 杨玲, 董美琳, 肖全鑫, 卢艳芬. ‘金冠’苹果PP2C基因克隆及低温胁迫下的表达.北京农学院学报, 2023, 38 (2): 1-5Yang L, Dong M L, Xiao Q X, Lu Y F. Cloning and expression of PP2C gene in 'Golden Crown' apple under low temperature stress. Journal of Beijing University of Agriculture, 2023, 38 (2): 1-5
    [76] 任利明.褪黑素对花椒低温胁迫调控机理研究. 杨凌:西北农林科技大学 , 2022Ren L M. Regulation mechanism of melatonin on Zanthoxylum bungeanum under chilling stress.Yangling:Northwest Agriculture and Forestry University, 2022
    [77] 桂慧颖. 生长调节剂对汉源葡萄青椒花芽分化与产量的影响.成都:四川农业大学, 2019Gui H Y, Effects of plant growth regulators on flower bud differentiation and yield of Z. armatum ‘Hanyuan Putao Qingjiao’.Chengdu: Sichuan Agricultural University, 2019
    [78] 司志国, 王琳.磷酸二氢钾对花椒抗寒性及产量的影响.林业科技, 2013, 38(2): 39-40Si Z G, Wang L. Effect of potassium dihydrogen phosphate on cold hardiness and yield of Zanthoxylum bungeanum. Forestry Science & Technology, 2013, 38(2): 39-40
    [79] 南月政,蔡麟阁.碧护对花椒晚霜冻害及生长结果的影响.林业实用技术, 2014(4): 41-42Nan Y Z, Cai L G. Influence of biocare on late frost damage and growth results of peppers. Forest Science and Technology, 2014 (4): 41-42
    [80] Tian J Y, Ma Y, Chen Y B, Chen X, Wei A Z. Plant hormone response to low-temperature stress in cold-tolerant and cold-sensitive varieties of Zanthoxylum bungeanum Maxim..Frontiers in Plant Science, 2022, 13: 847202
    [81] 崔均涛. 外源物质对低温下柱花草的生理响应及相关基因表达影响. 广州:仲恺农业工程学院, 2021Cui J T. Effects of exogenous substances on physiological response and related gene expression of Stylosanthes under low temperature. Guangzhou:Zhongkai College of Agricultural Engineering, 2021
    [82] Zhao R R, Sheng J P, Lv S N, Zheng Y, Zhang J, Yu M M, Shen L. Nitric oxide participates in the regulation of LeCBF1 gene expression and improves cold tolerance in harvested tomato fruit. Postharvest Biology and Technology, 2011, 62 (2): 121-126
    [83] Xu M J, Dong J F, Zhang M, Xu X B, Sun L N. Cold-induced endogenous nitric oxide generation plays a role in chilling tolerance of loquat fruit during postharvest storage. Postharvest Biology and Technology, 2011, 65: 5-12
    [84] Zhao Y T, Zhu X, Hou Y Y, Wang X Y, Li X H. Postharvest nitric oxide treatment delays the senescence of winter jujube (Zizyphus jujuba Mill. cv. Dongzao) fruit during cold storage by regulating reactive oxygen species metabolism. Scientia Horticulturae, 2020, 261: 09009
    [85] Cai H F, Han S, Yu M L, Ma R J, Yu Z F. Exogenous nitric oxide fumigation promoted the emission of volatile organic compounds in peach fruit during shelf life after long-term cold storage. Food Research International, 2020, 133: 09
    [86] Feng Y Q, Fu X, Han L J, Xu C X, Liu C Y, Bi H G, Ai X Z. Nitric oxide functions as a downstream signal for melatonin-induced cold tolerance in cucumber seedlings. Frontiers in Plant Science, 2021, 12: 686545
    [87] 梁刚, 赵崇宇, 苏凯, 刘春生, 肖坤, 李刚, 武军凯, 肖啸, 张立彬, 张晨光. 外源ABA对低温胁迫下21世纪与久硕桃枝条抗寒性的影响. 果树学报, 2023, 40 (10): 2136-2148Liang G, Zhao C Y, Su K, Liu C S, Xiao K, Li G, Wu J K, Xiao X, Zhang L B, Zhang C G. Effects of exogenous ABA on the cold resistance of branches of 21st century and Jiushuo peaches. Journal of Fruit Science, 2023, 40 (10): 2136-2148
    [88] 王楚侨, 罗斓, 罗弦, 贾永霞, 黄一梅. 外源EBR对低温胁迫下火龙果苗抗氧化系统及脂肪酸不饱和度的影响.热带作物学报, 2023, 44 (1): 103-112Wang C Q, Luo L, Luo X, Jia Y X, Huang Y M. Effects of exogenous EBR on antioxidant system and fatty acid unsaturation of pitaya seedling under low temperature stress. Chinese Journal of Tropical Crops, 2023, 44 (1): 103-112
    [89] 沈子奇, 向世鹏, 许金亮, 范敏, 张云萍, 谢鹏飞, 李强. 喷施外源EBR和H2O2对烤烟幼苗抗低温胁迫的影响. 云南农业大学学报:自然科学版, 2022, 37 (4): 623-629Shen Z Q, Xiang S P, Xu J L, Fan M, Zhang Y P, Xie P F, Li Q. Effects of spraying exogenous EBR and H2O2 on the resistance of tobacco seedlings to low temperature stress. Journal of Yunnan Agricultural University: Natural Science, 2022, 37 (4): 623-629
    [90] 石欣隆, 薛娴, 杨月琴, 张梦圆, 张新友. 2, 4-表油菜素内酯对低温胁迫下花生幼苗生长及生理特性的影响. 中国油料作物学报, 2023, 45 (2): 341-348Shi X L, Xue X, Yang Y Q, Zhang M Y, Zhang X Y. Effects of 2, 4-epbrassinolide on growth and physiological characteristics of peanut seedlings under low temperature stress. Chinese Journal of Oil Crop Sciences, 2023, 45 (2): 341-348
    [91] 赵芳芳, 郭学良, 刘研, 汪月宁, 殷梦婷, 代红军.冬前喷施EBR对‘美乐’葡萄枝条生理特性及萌芽的影响. 西北农业学报, 2022, 31 (3): 328-334Zhao F F, Guo X L, Liu Y, Wang Y N, Yin M T, Dai H J. Effects of brassinolide on physiological characteristics of ‘Merlot’ grape branches under low temperature stress. Acta Agriculturae Boreali-occidentalis Sinica, 2022, 31 (3): 328-334
    [92] 范小玉, 赵跃锋. 2, 4-表油菜素内酯对低温胁迫下茄子幼苗生长及生理特性的影响. 北方园艺, 2021 (22): 7-13Fan X Y, Zhao Y F. Effects of 2, 4-epbrassinolipids on growth and physiological characteristics of eggplant seedlings under low temperature stress. Northern Horticulture, 2021 (22): 7-13
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  • Received:April 22,2024
  • Online: January 07,2025
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