[1]贾贝田,刘海朝,王怡杨,等.提升中药材品质 紧抓中医临床循证:张伯礼院士谈中医药高质量发展的关键[J].中国中西医结合杂志,2023,43(1):21-23.[2]万修福,王升,康传志,等.“十四五”期间中药材产业趋势与发展建议[J].中国中药杂志,2022,47(5):1144-1152.[3]孟祥才,沈莹,杜虹韦.道地药材概念及其使用规范的探讨[J].中草药,2019,50(24):6135-6141.[4]杨利民.中药材生态种植理论与技术前沿[J].吉林农业大学学报,2020,42(4):355-363.[5]黄璐琦,陈美兰,肖培根.中药材道地性研究的现代生物学基础及模式假说[J].中国中药杂志,2004,29(6):494-496,610.[6]赵露颖,施梦瑶,张巧艳,等.道地药材品质特征及形成机制研究进展[J].中草药,2022,53(21):6931-6947.[7]何冬梅,王海,陈金龙,等.中药微生态与中药道地性[J].中国中药杂志,2020,45(2):290-302.[8]杨利民.中药资源生态学及其科学问题[J].吉林农业大学学报,2008,30(4):506-510,537.[9]杨利民,张永刚,林红梅,等.中药材质量形成理论与控制技术研究进展[J].吉林农业大学学报,2012,34(2):119-124,129.[10]肖小河,夏文娟,陈善墉.中国道地药材研究概论[J].中国中药杂志,1995,20(6):323-326.[11]肖小河.中药材品质变异的生态生物学探讨[J].中草药,1989,20(8):42-46.[12]王永炎,张文生.中药材道地性研究状况与趋势[J].湖北民族学院学报(医学版),2006,23(4):1-4.[13]黄林芳,付娟,陈士林.中药材生态变异的学术探讨[J].中草药,2012,43(7):1249-1258.[14]袁媛,周骏辉,黄璐琦.黄芩道地性形成“逆境效应”的实验验证与展望[J].中国中药杂志,2016,41(1):139-143.[15]黄璐琦,郭兰萍,华国栋,等.道地药材的属性及研究对策[J].中国中医药信息杂志,2007,14(2):44-46.[16]何霖,李福兵,杨晓东.地理、人文与甘肃道地药材[J].中药与临床,2010,1(3):46-50.[17]游元元,李羿,钟世红,等.史地人文视角下的道地药材[J].南京中医药大学学报(社会科学版),2014,15(1):17-20.[18]黄璐琦,张瑞贤.“道地药材”的生物学探讨[J].中国药学杂志,1997,32(9):563-566.[19]曾凡琳,温美佳,王欢,等.道地药材气候生态位研究[J].时珍国医国药,2016,27(5):1227-1230.[20]黄林芳,郑司浩,武拉斌,等.基于化学成分及分子特征中药材肉苁蓉生态型研究[J].中国科学:生命科学,2014,44(3):318-328.[21]黄林芳,索风梅,宋经元,等.中国产西洋参品质变异及生态型划分[J].药学学报,2013,48(4):580-589.[22]KIM N H,JAYAKODI M,LEE S C,et al.Genome and evolution of the shade-requiring medicinal herb Panax ginseng[J].Plant Biotechnology Journal,2018,16(11):1904-1917.[23]XU J,CHU Y,LIAO B,et al.Panax ginseng genome examination for ginsenoside biosynthesis[J].GigaScience,2017,6(11):1-15.[24]YAN L,WANG X,LIU H,et al.The genome of Dendrobium officinale illuminates the biology of the important traditional Chinese orchid herb[J].Molecular Plant,2015,8(6):922-934.[25]ZHANG G Q,XU Q,BIAN C,et al.The Dendrobium catenatum Lindl.genome sequence provides insights into polysaccharide synthase,floral development and adaptive evolution[J].Scientific Reports,2016,1(6):19029.[26]FU Y,LI L,HAO S,et al.Draft genome sequence of the Tibetan medicinal herb Rhodiola crenulata[J].GigaScience,2017,6(6):1-5.[27]SHEN Q,ZHANG L,LIAO Z,et al.The genome of Artemisia annua provides insight into the evolution of Asteraceae family and artemisinin biosynthesis[J].Molecular Plant,2018,11(6):776-788.[28]ZHAO Q,YANG J,CUI M Y,et al.The reference genome sequence of Scutellaria baicalensis provides insights into the evolution of wogonin biosynthesis[J].Molecular Plant,2019,12(7):935-950.[29]MOCHIDA K,SAKURAI T,SEKI H,et al.Draft genome assembly and annotation of Glycyrrhiza uralensis,a medicinal legume[J].The Plant Journal:For Cell and Molecular Biology,2017,89(2):181-194.[30]SUN W,LENG L,YIN Q,et al.The genome of the medicinal plant Andrographis paniculata provides insight into the biosynthesis of the bioactive diterpenoid neoandrographolide[J].The Plant Journal:For Cell and Molecular Biology,2019,97(5):841-857.[31]LI L,JOSEF B A,LIU B,et al.Three-dimensional evaluation on ecotypic diversity of traditional Chinese medicine:A case study of Artemisia annua L[J].Frontiers in Plant Science,2017(8):1225.[32]谢彩香,索风梅,贾光林,等.人参皂苷与生态因子的相关性[J].生态学报,2011,31(24):7551-7563.[33]YUAN Y,HAO J D,YANG B,et al.Climate change affected the best producing area of Chinese herbal medicine Scutellaria baicalensis Georgi[J].Journal of Traditional Chinese Medical Sciences,2010(15):241-248.[34]CHENG L,HAN M,YANG L M,et al.Changes in the physiological characteristics and baicalin biosynthesis metabolism of Scutellaria baicalensis Georgi under drought stress[J].Industrial Crops and Products,2018,122:473-482.[35]程林.干旱胁迫黄芩生理生态变化及其黄芩苷生物合成的分子生态机制[D].长春:吉林农业大学,2018.[36]谭勇,梁宗锁,董娟娥,等.水分胁迫对菘蓝生长发育和有效成分积累的影响[J].中国中药杂志,2008,33(1):19-22.[37]黎开强,吴卫,郑有良,等.温度对川贝母生理指标、鳞茎产量及总生物碱含量的影响[J].中国中药杂志,2008,33(16):1948-1951.[38]周洁,郭兰萍,张霁,等.药用植物对干旱胁迫的响应及受控实验[J].中国中药杂志,2010,35(15):1919-1924.[39]马莹,郭娟,毛亚平,等.药用植物有效成分生物合成途径解析及其应用[J].中华中医药杂志,2017,32(5):2079-2083.[40]黄涵签,王潇晗,付航,等.柴胡属药用植物资源研究进展[J].中草药,2017,48(14):2989-2996.[41]霍梦逸,刘新,林於,等.柴胡挥发油中有效解热成分的研究[J].药物分析杂志,2013,33(7):1202-1209.[42]杨庆珍,刘德旺,王冬梅,等.黄芪生态型与品质的相关性研究[J].中草药,2014,45(16):2395-2399.[43]李卫萍,魏长玲,张琛武,等.紫苏栽培种质的形态分类及化学型关系研究[J].中国中药杂志,2019,44(3):454-459.[44]黄璐琦,郭兰萍.环境胁迫下次生代谢产物的积累及道地药材的形成[J].中国中药杂志,2007,32(4):277-280.[45]张春荣,桑雪雨,渠萌,等.基于转录组测序揭示适度干旱胁迫对甘草根基因表达的调控[J].中国中药杂志,2015,40(24):4817-4823.[46]渠萌.适度干旱胁迫对甘草黄酮类化合物积累及相关基因表达的调控[D].广州:广东药学院,2015.[47]张文婷.淡黄花百合响应热胁迫的分子机制和遗传转化研究[D].武汉:华中农业大学,2020.[48]江海燕,杜菊花,史俐莎,等.植物高温胁迫响应分子机制研究[J].分子植物育种,2021,19(3):1022-1030.[49]HE J,YAO L,PECORARO L,et al.Cold stress regulates accumulation of flavonoids and terpenoids in plants by phytohormone,transcription process,functional enzyme,and epigenetics[J].Critical Reviews in Biotechnology,2023,43(5):680-697.[50]陈顺钦,袁媛,罗毓健,等.光照对黄芩黄酮类活性成分积累及其相关基因表达的影响[J].中国中药杂志,2010,35(6):682-685.[51]杨兆春,袁媛,陈敏,等.PEG胁迫对黄芩黄酮类有效成分积累及相关基因表达的影响[J].中国中药杂志,2011,36(16):2157-2161.[52]YUAN Y,LIU Y,WU C,et al.Water deficit affected flavonoid accumulation by regulating hormone metabolism in Scutellaria baicalensis Georgi roots[J].PLoS One,2012,7(10):e42946.[53]秦双双,陈顺钦,黄璐琦,等.水分胁迫对黄芩内源激素与有效成分相关性的影响[J].中国实验方剂学杂志,2010,16(7):99-101.[54]YUAN Y,WU C,LIU Y,et al.The Scutellaria baicalensis R2R3-MYB transcription factors modulates flavonoid biosynthesis by regulating GA metabolism in transgenic tobacco plants[J].PLoS One,2013,8(10):e77275.[55]YUAN Y,QI L,YANG J,et al.A Scutellaria baicalensis R2R3-MYB gene,SbMYB8,regulates flavonoid biosynthesis and improves drought stress tolerance in transgenic tobacco[J].Plant Cell,Tissue and Organ Culture (PCTOC),2015,120(3):961-972.[56]LU X,SHEN Q,ZHANG L,et al.Promotion of artemisinin biosynthesis in transgenic Artemisia annua by overexpressing ADS,CYP71AV1 and CPR genes[J].Industrial Crops and Products,2013,49:380-385.[57]LV Z,ZHANG F,PAN Q,et al.Branch pathway blocking in Artemisia annua is a useful method for obtaining high yield Artemisinin[J].Plant and Cell Physiology,2016,57(3):588-602.[58]MA Y N,XU D B,LI L,et al.Jasmonate promotes artemisinin biosynthesis by activating the TCP14-ORA complex in Artemisia annua[J].Science Advances,2018,4(11):s9357.[59]HAO X,ZHONG Y,NTZMANN H W,et al.Light-induced artemisinin biosynthesis is regulated by the bzip transcription factor AaHY5 in Artemisia annua[J].Plant and Cell Physiology,2019,60(8):1747-1760.[60]YAN T,CHEN M,SHEN Q,et al.Homeodomain protein 1 is required for jasmonate-mediated glandular trichome initiation in Artemisia annua[J].The New Phytologist,2017,213(3):1145-1155.[61]FU X,SHI P,HE Q,et al.AaPDR3,a PDR transporter 3,is involved in sesquiterpene β-caryophyllene transport in Artemisia annua[J].Frontiers in Plant Science,2017(8):723.[62]张涛.人参及其皂苷生物合成对低温的生理生态响应机制研究[D].长春:吉林农业大学,2019.[63]杨林林.北柴胡中柴胡皂苷合成积累对水分调控响应的分子生态机制研究[D].长春:吉林农业大学,2020.[64]YANG L L,YANG L,YANG X,et al.Drought stress induces biosynthesis of flavonoids in leaves and saikosaponins in roots of Bupleurum chinense DC[J].Phytochemistry,2020,177:112434.[65]YANG L L,YANG L,LAN Y M,et al.Exogenous abscisic acid reduces saikosaponin accumulation by inhibiting saikosaponin synthesis pathway gene expression under drought stress in Bupleurum chinense DC[J].Industrial Crops and Products,2020,154:112686.[66]郭兰萍,王铁霖,杨婉珍,等.生态农业:中药农业的必由之路[J].中国中药杂志,2017,42(2):231-238.[67]郭兰萍,周良云,莫歌,等.中药生态农业:中药材GAP的未来[J].中国中药杂志,2015,40(17):3360-3366.