石力匀,冯叶,赵宗胜,王佳妮,代挽玉,焦明丽,何松林,王政,尚文倩,申玉晓

• 1:河南农业大学风景园林与艺术学院
• 2:河南科技学院园艺园林学院

摘要(Abstract)：

从温度、光照、水分、盐及重金属5个非生物胁迫方面入手，对月季应答非生物胁迫的形态及生理生化变化、分子调控的研究现状进行综述，阐述非生物胁迫对月季生长发育影响，为深入阐释月季应答非生物胁迫的调控机制提供参考，也为高抗月季品种的培育和应用提供理论依据。提出相关研究应利用组学方法和先进的生物技术多维度解析月季应答非生物胁迫的分子调控网络，挖掘非生物胁迫应答关键基因，通过转基因技术培育抗性强的月季优势品种。

关键词(KeyWords)： 月季;非生物胁迫;形态变化;生理调节;分子调控

Abstract:

Keywords:

基金项目(Foundation): 国家自然科学基金项目(32172618,32102419)

作者(Author): 石力匀,冯叶,赵宗胜,王佳妮,代挽玉,焦明丽,何松林,王政,尚文倩,申玉晓

DOI: 10.16445/j.cnki.1000-2340.20231204.001

参考文献(References)：

• [1] 王昊宁，周佩，刘燕，等.月季TIFY基因家族的全基因组分析[J].河南农业大学学报，2022,56(6):990-997.WANG H N,ZHOU P,LIU Y,et al.Genome-wide analysis of the TIFY gene family in Rose[J].Journal of Henan Agricultural University,2022,56(6):990-997.
• [2] 吴林，刘燃，吴冬琴，等.响应月季花朵衰老的RhRRs基因筛选及表达特性分析[J].西南大学学报(自然科学版),2020,42(3):35-42.WU L,LIU R,WU D Q,et al.Screening and expression analysis of RhRRs responding to rose flower senescence[J].Journal of Southwest University (Natural Science Edition),2020,42(3):35-42.
• [3] 彭勇政，刘智媛，朱晓非，等.5个月季品种高温处理后生理指标变化及其耐热性评价[J].上海交通大学学报(农业科学版),2019,37(5):53-58.PENG Y Z,LIU Z Y,ZHU X F,et al.Physiological index changes and heat tolerance evaluation of five rose cultivars after high temperature treatment[J].Journal of Shanghai Jiao Tong University (Agricultural Science),2019,37(5):53-58.
• [4] 马海燕.不同品种月季生理形态及耐热性研究[J].现代园艺，2022,45(22):6-7.MA H Y.Study on physiological morphology and heat tolerance of different varieties of rose[J].Contemporary Horticulture,2022,45(22):6-7.
• [5] 刘柳，赵梦雨，刘曙光，等.高温胁迫对月季叶片电阻抗参数的影响[J].现代园艺，2020,43(13):3-4.LIU L,ZHAO M Y,LIU S G,et al.Effect of high temperature stress on electrical impedance parameters of rose leaves[J].Xiandai Horticulture,2020,43(13):3-4.
• [6] 赵冰雪，张永春，周琳，等.月季高温胁迫研究进展[J].北方园艺，2021(10):124-131.ZHAO B X,ZHANG Y C,ZHOU L,et al.Research progress on high temperature stress of Rosa hybrida[J].Northern Horticulture,2021(10):124-131.
• [7] 伍成厚，温志，郑育芬，等.基于叶绿素荧光参数Fv/Fm的月季耐热性评价[J].安徽农业科学，2022,50(23):106-110.WU C H,WEN Z,ZHENG Y F,et al.Evaluation of heat resistance of Rosa chinensis based on chlorophyll fluorescence parameter Fv/Fm[J].Journal of Anhui Agricultural Sciences,2022,50(23):106-110.
• [8] 林立，张椿芳，张金炜，等.10个月季品种的耐热性评价[J].现代农业研究，2021,27(7):110-111.LIN L,ZHANG C F,ZHANG J W,et al.Heat resistance evaluation of 10 rose varieties[J].Modern Agriculture Research,2021,27(7):110-111.
• [9] 覃泳智，周智丽，刘海涛，等.外源水杨酸对高温胁迫微型月季生理指标的影响[J].南方农业学报，2018,49(10):2028-2033.QIN Y Z,ZHOU Z L,LIU H T,et al.Effects of exogenous salicylic acid on physiological indexes in miniature rose under high temperature stress[J].Journal of Southern Agriculture,2018,49(10):2028-2033.
• [10] 陈芳芳，郝福玲，汪天，等.Ca2+处理对不同藤本月季品种的耐热性影响[J].安徽农业大学学报，2013,40(3):400-405.CHEN F F,HAO F L,WANG T,et al.Effects of Ca2+ treatment on heat tolerance of different Rosa hybrida varieties[J].Journal of Anhui Agricultural University,2013,40(3):400-405.
• [11] WANG K X,SHEN Y X,WANG H,et al.Effects of exogenous salicylic acid (SA),6-benzylaminopurine (6-BA),or abscisic acid (ABA) on the physiology of Rosa hybrida ‘carolla’ under high-temperature stress[J].Horticulturae,2022,8(9):851-864.
• [12] 叶小梅，卢忠华，蔡丽萍，等.4种引进月季品种叶片耐热性生理生化指标初探[J].广东林业科技，2007,23(1):80-82.YE X M,LU Z H,CAI L P,et al.Preliminary study on the physiological and biochemical indices of heat to-lerance of rose leaves[J].Guangdong Forestry Science and Technology,2007,23(1):80-82.
• [13] 李健，蒋昌华，郑艳君，等.高温胁迫下10个月季品种的耐热性[J].中南林业科技大学学报，2010,30(12):88-91.LI J,JIANG C H,ZHENG Y J,et al.Heat tolerance of ten varieties in Rosa chinensis under high temperature stress[J].Journal of Central South University of Forestry & Technology,2010,30(12):88-91.
• [14] 陈碧露，罗素梅，刘小平，等.不同品种月季的耐热性鉴定[J].江苏农业科学，2020,48(13):178-180.CHEN B L,LUO S M,LIU X P,et al.Identification of heat tolerance of different Chinese rose varieties[J].Jiangsu Agricultural Sciences,2020,48(13):178-180.
• [15] SHEKHAWAT K,ALMEIDA-TRAPP M,GARCíA-RAMíREZ G X,et al.Beat the heat:Plant-and microbe-mediated strategies for crop thermotolerance[J].Trends in Plant Science,2022,27(8):802-813.
• [16] DANG F F,WANG Y N,YU L,et al.CaWRKY40,a WRKY protein of pepper,plays an important role in the regulation of tolerance to heat stress and resistance to Ralstonia solanacearum infection[J].Plant,Cell & Environment,2013,36(4):757-774.
• [17] LI J B,ZHAO S,YU X,et al.Role of Xanthoceras sorbifolium MYB44 in tolerance to combined drought and heat stress via modulation of stomatal closure and ROS homeostasis[J].Plant Physiology and Biochemistry,2021,162:410-420.
• [18] HUANG J Y,ZHAO X B,BüRGER M,et al.Two interacting ethylene response factors regulate heat stress response[J].The Plant Cell,2021,33(2):338-357.
• [19] ZHU J K.Abiotic stress signaling and responses in plants[J].Cell,2016,167(2):313-324.
• [20] ZHANG X,HU Y H,JIANG C H,et al.Isolation of the Chinese rose sHSP gene promoter and its differential regulation analysis in transgenic Arabidopsis plants[J].Molecular Biology Reports,2012,39(2):1145-1151.
• [21] JIANG C H,BI Y K,ZHANG R Y,et al.Expression of RcHSP70,heat shock protein 70 gene from Chinese rose,enhances host resistance to abiotic stresses[J].Scientific Reports,2020,10(1):2445-2457.
• [22] XU J Y,ZHANG B L,JIANG C H,et al.RceIF5A,encoding an eukaryotic translation initiation factor 5A in Rosa chinensis,can enhance thermotolerance,oxidative and osmotic stress resistance of Arabidopsis thaliana[J].Plant Molecular Biology,2011,75(1/2):167-178.
• [23] ZHANG X,LU S C,JIANG C H,et al.RcLEA,a late embryogenesis abundant protein gene isolated from Rosa chinensis,confers tolerance to Escherichia coli and Arabidopsis thaliana and stabilizes enzyme activity under diverse stresses[J].Plant Molecular Biology,2014,85(4/5):333-347.
• [24] LI Z Q,XING W,LUO P,et al.Comparative transcriptome analysis of Rosa chinensis ‘Slater’s crimson China’ provides insights into the crucial factors and signaling pathways in heat stress response[J].Plant Physiology and Biochemistry,2019,142:312-331.
• [25] 马曙晓，席素亭，朱铮.外源水杨酸对低温胁迫月季苗生理指标的影响[J].北方园艺，2023(7):70-78.MA S X,XI S T,ZHU Z.Effects of exogenous salicylic acid on physiological indexes in rose seedling under low temperature stress[J].Northern Horticulture,2023(7):70-78.
• [26] 冯博，寇亚平，贾瑞冬，等.叶面喷施ALA对切花月季“卡罗拉”周年生产及冬季耐低温胁迫的影响[J].安徽农业科学，2022,50(19):46-50.FENG B,KOU Y P,JIA R D,et al.Effects of ALA on annual production and winter cold tolerance of cut rose ‘carola’[J].Journal of Anhui Agricultural Sciences,2022,50(19):46-50.
• [27] 马俊丽，吉乃喆，陈洪菲.低温胁迫对月季生理生化指标的影响试验初报[J].南方农业，2020,14(34):64-68.MA J L,JI N Z,CHEN H F.Preliminary report on the effect of low temperature stress on the physiological and biochemical indexes of rose[J].South China Agriculture,2020,14(34):64-68.
• [28] 李松，李枝林，唐开学，等.五个切花月季品种的抗寒生理分析测定[J].西南农业学报，2012,25(4):1232-1237.LI S,LI Z L,TANG K X,et al.Physiological analysis and determination of cold tolerance of five cut rose cultivars[J].Southwest China Journal of Agricultural Sciences,2012,25(4):1232-1237.
• [29] 张晓波.月季抗寒性研究进展[J].辽宁农业科学，2022(2):63-66.ZHANG X B.Research progress on cold resistance of Chinese rose[J].Liaoning Agricultural Sciences,2022(2):63-66.
• [30] 张双群，于烁烁，孟庆瑞.4个藤本月季品种的抗寒性研究[J].林业与生态科学，2019,34(2):181-189.ZHANG S Q,YU S S,MENG Q R.Study of cold resistance of 4 climbing rose varieties[J].Forestry and Ecological Sciences,2019,34(2):181-189.
• [31] 牟开萍，李维芳，杨文新，等.20个月季品种的抗寒性综合评价[J].草原与草坪，2021,41(6):58-66.MOU K P,LI W F,YANG W X,et al.Comprehensive evaluation on the cold resistance of 20 Rosa chinensis cultivars[J].Grassland and Turf,2021,41(6):58-66.
• [32] 刘峰，李豪，王安，等.14种切花月季抗寒性比较与评价[J].湖北农业科学，2018,57(7):75-79.LIU F,LI H,WANG A,et al.Comparison and evaluation on cold-tolerance of fourteen cut rose cultivars[J].Hubei Agricultural Sciences,2018,57(7):75-79.
• [33] 吴丹，毛东海，赵小英.植物低温响应的分子机制研究进展[J].生命科学研究，2022,26(1):67-75.WU D,MAO D H,ZHAO X Y.Advances in molecular mechanism of plant responses to low temperature[J].Life Science Research,2022,26(1):67-75.
• [34] 翟俊峰，王法微，王南，等.月季CBF转录因子基因的克隆及表达分析[J].园艺学报，2012,39(8):1596-1602.ZHAI J F,WANG F W,WANG N,et al.Cloning and expression profiling of the transcription factor CBF gene from Rosa hybrida[J].Acta Horticulturae Sinica,2012,39(8):1596-1602.
• [35] DOS REIS M V,ROUHANA L V,SADEQUE A,et al.Genome-wide expression of low temperature response genes in Rosa hybrida L.[J].Plant Physiology and Biochemistry,2020,146:238-248.
• [36] 李玲.切花月季在阳光温室的栽培研究[D].北京：北京林业大学，2003.LI L.Study on cultivation technique of cut rose in heliogreenhouse[D].Beijing:Beijing Forestry University,2003.
• [37] SHI L Y,KIM W S.Effect of drought stress during supplemental lighting on diurnal photosynthesis of cut rose ‘Charming Black’[J].Horticulture,Environment,and Biotechnology,2015,56(5):582-587.
• [38] 侯维，马旭辉，张皓月，等.夏季遮荫对月季叶片PSⅡ活性和抗氧化系统的影响[J].浙江农业学报，2016,28(9):1530-1537.HOU W,MA X H,ZHANG H Y,et al.Effects of shading on photosystem Ⅱ activity and antioxidant system of Rosa hybrida leaves in summer[J].Acta Agriculturae Zhejiangensis,2016,28(9):1530-1537.
• [39] KLEINE T,KINDGREN P,BENEDICT C,et al.Genome-wide gene expression analysis reveals a critical role for CRYPTOCHROME1 in the response of Arabidopsis to high irradiance[J].Plant Physiology,2007,144(3):1391-1406.
• [40] HUANG J Y,ZHAO X B,CHORY J.The Arabidopsis transcriptome responds specifically and dynamically to high light stress[J].Cell Reports,2019,29(12):4186-4199.
• [41] JOURDAN N,MARTINO C F,EL-ESAWI M,et al.Blue-light dependent ROS formation by Arabidopsis cryptochrome-2 may contribute toward its signaling role[J].Plant Signaling & Behavior,2015,10(8):e1042647.
• [42] MAIER A,HOECKER U.COP1/SPA ubiquitin ligase complexes repress anthocyanin accumulation under low light and high light conditions[J].Plant Signaling & Behavior,2015,10(1):e970440.
• [43] CONSENTINO L,LAMBERT S,MARTINO C,et al.Blue-light dependent reactive oxygen species formation by Arabidopsis cryptochrome may define a novel evolutionarily conserved signaling mechanism[J].The New Phytologist,2015,206(4):1450-1462.
• [44] BRELSFORD C C,MORALES L O,NEZVAL J,et al.Do UV-a radiation and blue light during growth prime leaves to cope with acute high light in photoreceptor mutants of Arabidopsis thaliana?[J].Physiologia Plantarum,2019,165(3):537-554.
• [45] SUN J J,LU J,BAI M J,et al.Phytochrome-interacting factors interact with transcription factor CONSTANS to suppress flowering in rose[J].Plant Physiology,2021,186(2):1186-1201.
• [46] 李晓庆，闫冬佳，王松，等.遮光对3个藤本月季品种生长和生理特性的影响[J].森林与环境学报，2021,41(6):576-583.LI X Q,YAN D J,WANG S,et al.Effect of shading on growth and physiological characteristics of three climbing rose varieties[J].Journal of Forest and Environment,2021,41(6):576-583.
• [47] ZIESLIN N,MOR Y.Light on roses:a review[J].Scientia Horticulturae,1990,43(1/2):1-14.
• [48] 孙兆法，李世润，李长生，等.6-苄氨基腺嘌呤在切花月季秋冬栽培中的应用[J].河北农业科学，1998,2(1):22-26.SUN Z F,LI S R,LI C S,et al.Application of 6-benzylamino adenine in cut rose production during autumn and winter season[J].Journal of Hebei Agricultural Sciences,1998,2(1):22-26.
• [49] 张勇，程怡，王清明，等.遮荫对月季光合特性及生长发育的影响[J].西北植物学报，2014,34(1):162-168.ZHANG Y,CHENG Y,WANG Q M,et al.Effects of shading on growth and photosynthetic characteristics of Rosa hybrida[J].Acta Botanica Boreali-Occidentalia Sinica,2014,34(1):162-168.
• [50] 张建旗，杨永花，汉梅兰，等.不同月季品种耐阴性比较研究[J].草原与草坪，2012,32(4):56-59.ZHANG J Q,YANG Y H,HAN M L,et al.Study on shade-tolerance of different rose varieties[J].Grassland and Turf,2012,32(4):56-59.
• [51] 冯永军，董桂敏，赵占富，等.植物生长调节物质对切花月季生长发育的影响[J].河北农业大学学报，2002,25(增刊1):138-140.FENG Y J,DONG G M,ZHAO Z F,et al.The effects of plant growth regulators on the growth and development of cut roses (Rosa hybrida)[J].Journal of Agricultural University of Hebei,2002,25(Suppl 1):138-140.
• [52] LIU Y,WEI H B,MA M D,et al.Arabidopsis FHY3 and FAR1 regulate the balance between growth and defense responses under shade conditions[J].The Plant Cell,2019,31(9):2089-2106.
• [53] FRASER D P,PANTER P E,SHARMA A,et al.Phytochrome A elevates plant circadian-clock components to suppress shade avoidance in deep-canopy shade[J].Proceedings of the National Academy of Sciences of the United States of America,2021,118(27):e2108176118.
• [54] 于永军，翁惠琴，王李，等.不同人工补光处理对2个微型月季品种生长的影响[J].安徽农业科学，2020,48(2):70-72.YU Y J,WENG H Q,WANG L,et al.Effects of different artificial light treatments on the growth of two miniature Chinese rose cultivars[J].Journal of Anhui Agricultural Sciences,2020,48(2):70-72.
• [55] 吴宗梅，葛少阔，严吴炜，等.功能性LED灯补光对微型月季越夏生长的影响[J].安徽农业科学，2022,50(9):45-48.WU Z M,GE S K,YAN W W,et al.Effect of functional LED lamp on Rosa chinensis minima growth in summer[J].Journal of Anhui Agricultural Sciences,2022,50(9):45-48.
• [56] 王超，刘凤栾，马男，等.光触媒复剂对月季光合作用特性的影响[J].中国农业大学学报，2012,17(3):69-73.WANG C,LIU F L,MA N,et al.Effects of photocatalyst on photosynthesis improvement of rose[J].Journal of China Agricultural University,2012,17(3):69-73.
• [57] 谭雪红，郭小平，王亮.土壤水分胁迫对大叶黄杨和月季光合生理特性的影响[J].水土保持通报，2010,30(4):73-77.TAN X H,GUO X P,WANG L.Soil water stress on photosynthetic physiological characteristics in Rosa chinensis jacq and Euonymus japonicus L[J].Bulletin of Soil and Water Conservation,2010,30(4):73-77.
• [58] LIN Y Q,CHEN G M,XU H Q,et al.The waterlogging tolerance of cut rose by field observation and variety selection in Sanya[J].Agricultural Science & Technology,2013,14(11):1532-1535.
• [59] SHI L Y,KIM W S.Shoot growth and physiological disorder of cut rose ‘charming black’ as affected by drought stress during nocturnal supplemental lighting[J].Horticulture,Environment,and Biotechnology,2014,55(2):91-96.
• [60] 苏克锋，李合伟，高磊，等.干旱胁迫对两种树状月季光合特性及茎流的影响[J].北方园艺，2022(9):73-79.SU K F,LI H W,GAO L,et al.Effects on photosynthetic characteristics and stem flow of two types of tree roses under drought stress[J].Northern Horticulture,2022(9):73-79.
• [61] SHI L Y,WANG Z,KIM W S.Effect of drought stress on shoot growth and physiological response in the cut rose ‘charming black’ at different developmental stages[J].Horticulture,Environment,and Biotechnology,2019,60(1):1-8.
• [62] 谢利娟，张华，崔士超.月季切花品种间失水胁迫耐性与抗氧化酶和内肽酶之间的关联[J].林业科学，2010,46(7):84-91.XIE L J,ZHANG H,CUI S C.Involvement of antioxidant enzymes and endoprotease in tolerance to water de-ficit stress in cut roses[J].Scientia Silvae Sinicae,2010,46(7):84-91.
• [63] 张翠梅.不同抗旱性紫花苜蓿响应干旱的生理及分子机制研究[D].兰州：甘肃农业大学，2019.ZHANG C M.Physiological and molecular mechanisms of response to drought stress in different drought-resistant alfalfa (Medicago sativa L.) varieties[D].Lanzhou:Gansu Agricultural University,2019.
• [64] 李婷婷.芍药对干旱胁迫的响应及PM19L和MYB108基因功能的初步研究[D].扬州：扬州大学，2021.LI T T.Study on the response of Paeonia lactiflora pall.to drought stress and the function of PM19L and MYB108 gene[D].Yangzhou:Yangzhou University,2021.
• [65] 张玉，冷海楠，曹宏杰，等.干旱胁迫对植物的影响研究[J].黑龙江科学，2022,13(14):22-24.ZHANG Y,LENG H N,CAO H J,et al.Study on the influence of drought stress on botany[J].Heilongjiang Science,2022,13(14):22-24.
• [66] ZHANG S,FENG M,CHEN W,et al.In rose,transcription factor PTM balances growth and drought survi-val via PIP2;1 aquaporin[J].Nature Plants,2019,5(3):290-299.
• [67] LI W,FU L F,GENG Z W,et al.Physiological characteristic changes and full-length transcriptome of rose (Rosa chinensis) roots and leaves in response to drought stress[J].Plant and Cell Physiology,2021,61(12):2153-2166.
• [68] JIA X,FENG H,BU Y H,et al.Comparative transcriptome and weighted gene co-expression network analysis identify key transcription factors of Rosa chinensis ‘old blush’ after exposure to a gradual drought stress followed by recovery[J].Frontiers in Genetics,2021,12:690264.
• [69] DAI F W,ZHANG C Q,JIANG X Q,et al.RhNAC2 and RhEXPA4 are involved in the regulation of dehydration tolerance during the expansion of rose petals[J].Plant Physiology,2012,160(4):2064-2082.
• [70] JIANG X Q,ZHANG C Q,Lü P T,et al.RhNAC3,a stress-associated NAC transcription factor,has a role in dehydration tolerance through regulating osmotic stress-related genes in rose petals[J].Plant Biotechnology Journal,2014,12(1):38-48.
• [71] LIU J T,FAN Y W,ZOU J,et al.A RhABF2/Ferritin module affects rose (Rosa hybrida) petal dehydration tolerance and senescence by modulating iron levels[J].The Plant Journal,2017,92(6):1157-1169.
• [72] 陈冠铭，林亚琼，许惠秋.三亚切花月季耐涝性田间观测与品种选择研究[J].安徽农业科学，2012,40(28):13759-13761.CHEN G M,LIN Y Q,XU H Q.Variety selection and field observation of the waterlogging tolerance of cut rose in Sanya[J].Journal of Anhui Agricultural Sciences,2012,40(28):13759-13761.
• [73] 吉乃喆.月季远缘杂交与四种蔷薇属植物耐涝性评价[D].北京：北京林业大学，2016.JI N Z.Studies on distant hybridization of rose and waterlogging-enduring evaluation of four Rosa plants[D].Beijing:Beijing Forestry University,2016.
• [74] 尹婷辉，林瑞君，孙林，等.华南22种园林植物耐涝性筛选[J].浙江林业科技，2022,42(1):31-40.YIN T H,LIN R J,SUN L,et al.Experiment on waterlogging stress of 22 garden plant species in Shenzhen[J].Journal of Zhejiang Forestry Science and Technology,2022,42(1):31-40.
• [75] LUAN H Y,GUO B J,SHEN H Q,et al.Overexpression of barley transcription factor HvERF2.11 in Arabidopsis enhances plant waterlogging tolerance[J].International Journal of Molecular Sciences,2020,21(6):1982-1994.
• [76] BARNAWAL D,BHARTI N,MAJI D,et al.1-Aminocyclopropane-1-carboxylic acid (ACC) deaminase-containing rhizobacteria protect Ocimum sanctum plants during waterlogging stress via reduced ethylene generation[J].Plant Physiology and Biochemistry,2012,58:227-235.
• [77] YANG S H,CHOI D.Characterization of genes encoding ABA 8’-hydroxylase in ethylene-induced stem growth of deepwater rice (Oryza sativa L.)[J].Biochemical and Biophysical Research Communications,2006,350(3):685-690.
• [78] CHENG Y,GU M,CONG Y,et al.Combining ability and genetic effects of germination traits of Brassica napus L.under waterlogging stress condition[J].Agricultural Sciences in China,2010,9(7):951-957.
• [79] ZHANG J Y,HUANG S N,CHEN Y H,et al.Identification and characterization of two waterlogging responsive alcohol dehydrogenase genes (AdADH1 and AdADH2) in Actinidia deliciosa[J].Molecular Breeding,2017,37(4):1-13.
• [80] XU X W,CHEN M Y,JI J,et al.Comparative RNA-seq based transcriptome profiling of waterlogging response in cucumber hypocotyls reveals novel insights into the de novo adventitious root primordia initiation[J].BMC Plant Biology,2017,17(1):129-141.
• [81] 张玉秀，张媛雅，孙涛，等.植物重金属转运蛋白P1B-ATPase结构和功能研究进展[J].生物工程学报，2010,26(6):715-725.ZHANG Y X,ZHANG Y Y,SUN T,et al.Structure and function of heavy metal transporter P1B-ATPase in plant:A review[J].Chinese Journal of Biotechnology,2010,26(6):715-725.
• [82] 景璐.8种园林花卉植物耐盐性基础研究[D].呼和浩特：内蒙古农业大学，2010.JING L.The basic studies on evaluation of salt tolerance of 8 ornamental plant species[D].Hohhot:Inner Mongolia Agricultural University,2010.
• [83] 贾晓丽.干旱、盐胁迫对月季的生理生化特性及观赏品质的影响[D].石河子：石河子大学，2020.JIA X L.Effects of drought and salt stress on physiological and biochemical characteristics and ornamental qua-lity of rose[D].Shihezi:Shihezi University,2020.
• [84] 杨永花，张志霞，廖伟彪，等.四种藤本月季耐盐性的比较[J].甘肃农业大学学报，2007,42(2):81-83.YANG Y H,ZHANG Z X,LIAO W B,et al.Comparison of saline resistance of four climbing rose cultivars[J].Journal of Gansu Agricultural University,2007,42(2):81-83.
• [85] 裘丽珍，黄有军，黄坚钦，等.不同耐盐性植物在盐胁迫下的生长与生理特性比较研究[J].浙江大学学报(农业与生命科学版),2006,32(4):420-427.QIU L Z,HUANG Y J,HUANG J Q,et al.Comparative study on vegetal and physiological characteristics of different salt-tolerant plants under salt stress[J].Journal of Zhejiang University (Agriculture and Life Sciences),2006,32(4):420-427.
• [86] 李荣华，阎旭东，李宪友，等.筛选月季耐盐品种NaCl浓度的确定[J].现代农村科技，2017(2):75-76.LI R H,YAN X D,LI X Y,et al.Determination of NaCl concentration for screening salt-tolerant rose varieties[J].Xiandai Nongcun Keji,2017(2):75-76.
• [87] 刘政，胡孙田，沈晓飞，等.外源褪黑素处理对月季幼苗盐胁迫的缓解效应[J].浙江农林大学学报，2020,37(5):957-962.LIU Z,HU S T,SHEN X F,et al.Alleviation of exogenous melatonin on rose seedlings under salt stress[J].Journal of Zhejiang A & F University,2020,37(5):957-962.
• [88] 包颖，魏琳燕，陈超.水杨酸和茉莉酸甲酯对盐胁迫下月季品种月月粉生理特性的影响[J].云南农业大学学报(自然科学),2020,35(6):1040-1045.BAO Y,WEI L Y,CHEN C.Effects of exogenous salicylic acid and methyl jasmonate on the physiological characteristics of Rosa chinensis ‘old blush’ under salt stress[J].Journal of Yunnan Agricultural University (Natural Science),2020,35(6):1040-1045.
• [89] 朱思雅，段建维，许彬，等.独角金内酯对盐胁迫下月季植株生长的影响[J].现代园艺，2022,45(1):13-15.ZHU S Y,DUAN J W,XU B,et al.Effects of strigolactone on the growth of rose plants under salt stress[J].Contemporary Horticulture,2022,45(1):13-15.
• [90] 赵怀玉，林鸿宣.植物响应盐碱胁迫的分子机制[J].土壤与作物，2020,9(2):103-113.ZHAO H Y,LIN H X.Molecular mechanism of plants in responses to salt and alkali stress[J].Soils and Crops,2020,9(2):103-113.
• [91] 柯勇超，刘昱，赵燕春，等.园林植物盐胁迫生理和分子机制研究进展[J].