2023, Volume 25, Issue 4
Strategic Study of CAE >> 2023, Volume 25, Issue 4 doi: 10.15302/J-SSCAE-2023.04.016
Research Status and Development Mechanism of Herbaceous Plant Germplasm Resources in Arid and Cold Regions of Western China
1. Pratacultural College, Gansu Agricultural University, Lanzhou 730070, China;
2. Key Laboratory of Grassland Ecosystem of Ministry of Education, Lanzhou 730070, China;
3. State Key Laboratory of Aridland Crop Science, Lanzhou 730070, China
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Abstract
The drought and cold climate of the Loess Plateau, Qinghai–Tibet Plateau, and Inner Mongolia–Xinjiang Plateau has bred rich herbaceous plant germplasm resources, forming a herbaceous plant germplasm resource bank in arid and cold regions of Western China. Actively developing herbaceous plant germplasm resources in the arid and cold regions is conducive to improving the germplasm innovation and utilization level and better supporting the development of grass seed industry in Western China. This study analyzes the current situation regarding the collection, protection, research, and utilization of herbaceous plant germplasm resources in China and abroad, and identifies the major problems faced by the development of these resources in the arid and cold regions of Western China. Based on the advantages of the region, an innovative development mechanism for the herbaceous plant germplasm resources in the arid and cold regions of Western China is proposed. Specifically, the advantages of herbaceous plant germplasm resources should be transformed as disciplinary and industrial advantages the soonest possible, the innovation and utilization ofherbaceous plant germplasm resources should be promoted, the exploitation and utilization of herbaceous plant germplasm resources should be guided from decentralized development to systematic integration, and a mechanism for tracking and promoting herbaceous plant germplasm innovation should be established. Furthermore, the construction of a science and technology park for herbaceous plant germplasm innovation and utilization is proposed in order to build a seed industry capital and innovation highland of Western China.
Keywords
arid and cold regions of western China ; herbaceous plant ; germplasm resources ; innovation and utilization ; seed industry
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References
[ 1 ]
李秀香 . 我国草资源利用与草产业发展问题研究 [J]. 企业经济 , 2020 , 39 9 : 5 – 13 .
Li X X . Research on the use of grass resources and the development of grass industry in China [J]. Enterprise Economy , 2020 , 39 9 : 5 – 13 .
[ 2 ]
杨青川 , 孙彦 . 中国苜蓿育种的历史、现状与发展趋势 [J]. 中国草地学报 , 2011 , 33 6 : 95 – 101 .
Yang Q C , Sun Y . The history, current situation and development of alfalfa breeding in China [J]. Chinese Journal of Grassland , 2011 , 33 6 : 95 – 101 .
[ 3 ]
李志勇 , 王宗礼 , 师文贵 . 牧草种质资源描述规范和数据标准 [M]. 北京 : 中国农业出版社 , 2005 .
Li Z Y , Wang Z L , Shi W G . Description specification and data standard of grass germplasm resources [M]. Beijing : China Agricultural Press , 2005 .
[ 4 ]
王惠知 , 毛丽萍 , 王雨涵 , 等 . 基于最适取样策略的老芒麦种质指纹图谱构建及遗传多样性分析 [J]. 中国草地学报 , 2021 , 43 1 : 1 – 7 .
Wang H Z , Mao L P , Wang Y H , al e t . DNA fingerprint construction based on the optimal sampling strategy and genetic diversity analysis of Elymus sibiricus germplasm [J]. Chinese Journal of Grassland , 2021 , 43 1 : 1 – 7 .
[ 5 ]
谢华玲 , 杨艳萍 , 董瑜 , 等 . 苜蓿国际发展态势分析 [J]. 植物学报 , 2021 , 56 6 : 740 – 750 .
Xie H L , Yang Y P , Dong Y , al e t . Analysis on international development trend of alfalfa [J]. Chinese Bulletin of Botany , 2021 , 56 6 : 740 – 750 .
[ 6 ]
燕丽萍 , 夏阳 , 梁慧敏 , 等 . 转BADH基因苜蓿T1代遗传稳定性和抗盐性研究 [J]. 草业学报 , 2009 , 18 6 : 65 – 71 .
Yan L P , Xia Y , Liang H M , al e t . A study on salt tolerance and the genetic stability of T1 generation transgenic alfalfa with the BADH gene [J]. Acta Prataculturae Sinica , 2009 , 18 6 : 65 – 71 .
[ 7 ]
徐云远 , 贾敬芬 , 牛炳韬 . 空间条件对3种豆科牧草的影响 [J]. 空间科学学报 , 1996 S1 : 136 – 141 .
Xu Y Y , Jia J F , Niu B T . The influences of space conditions on three legume forages [J]. Chinese Journal of Space Science , 1996 S1 : 136 – 141 .
[ 8 ]
韩蕾 , 孙振元 , 钱永强 , 等 . " 神舟"三号飞船搭载对草地早熟禾生物学特性的影响 [J]. 草业科学 , 2004 , 21 5 : 17 – 19 .
Han L , Sun Z Y , Qian Y Q , al e t . Changes in biological characteristics of Poa pratensis carried by Shenzhou-3 spaceship [J]. Pratacultural Science , 2004 , 21 5 : 17 – 19 .
[ 9 ]
严欢 , 张新全 . 2种牧草种子空间诱变效应研究 [J]. 安徽农业科学 , 2008 , 36 2 : 486 – 487 .
Yan H , Zhang X Q . Study on the space mutagenic effect of two herbage seeds [J]. Journal of Anhui Agricultural Sciences , 2008 , 36 2 : 486 – 487 .
[10]
南志标 , 王彦荣 , 傅华 , 等 . 乡土草抗逆生物学 [M]. 北京 : 科学出版社 , 2021 .
Nan Z B , Wang Y R , Fu H , al e t . Resistance biology of native grass [M]. Beijing : Science Press , 2021 .
[11]
陈志宏 , 李新一 , 洪军 . 我国草种质资源的保护现状、存在问题及建议 [J]. 草业科学 , 2018 , 35 1 : 186 – 191 .
Chen H J , Li Y X , Hong J . Current situation, problems, and suggestions for forage germplasm resources conservation in China [J]. Pratacultural Science , 2018 , 35 1 : 186 – 191 .
[12] G Loskutov I. Vavilov Institute (VIR): Historical aspects of international cooperation for plant genetic resources [J]. Genetic Resources and Crop Evolution, 2020, 67: 2237–2253.
[13]
林克剑 , 刘志鹏 , 罗栋 , 等 . 饲草种质资源研究现状、存在问题与发展建议 [J]. 植物学报 , 2023 , 58 2 : 241 – 247 .
Li K J , Liu Z P , Luo D , al e t . The current status, problems and suggestions for the research on forage germplasm resources [J]. Chinese Bulletin of Botany , 2023 , 58 2 : 241 – 247 .
[14]
李晨 . 打造一个现代化的国家牧草种质库 [N]. 中国科学报 , 2021-12-14 03.
Li C . Build a modern national forage germplasm bank [N]. China Science Daily , 2021-12-14 03.
[15] Kamal N, Renhuldt N T, Bentzer J, al et. The mosaic oat genome gives insights into a uniquely healthy cereal crop [J]. Nature, 2022, 606(7912): 113–119.
[16] Zhang J Y, Broeckling C D, Blancaflor E B, al et. Overexpression of WXP1, a putative Medicago truncatula AP2 domain-containing transcriptionfactor gene, increase cuticular wax accumulate on and enhances drought tolerance in transgenic alfalfa (Medicago sativa) [J]. The Plant Journal, 2005, 42(5): 689–707.
[17]
曹一化 , 刘旭 . 国家自然科技资源平台植物种质资源共性描述规范 [M]. 北京 : 中国农业出版社 , 2005 .
Cao Y H , Liu X . Common description specification for plant germplasm resources of national natural science and technology resources platform [M]. Beijing : China Agricultural Press , 2005 .
[18]
苏东 , 于林清 , 周延林 , 等 . 四倍体苜蓿家系的建立及遗传变异分析 [J]. 草地学报 , 2011 , 19 4 : 657 – 662 .
Su D , Yu L Q , Zhou Y L , al e t . Establishment of a tetraploid alfalfa family and analysis of its genetic variability [J]. Acta Agrestia Sinica , 2011 , 19 4 : 657 – 662 .
[19]
中华人民共和国农业农村部 . 十四五全国饲草产业发展规划 [EBOL]. 2022-02-16 [ 2023-06-19 ]. https:www.gov.cnzhengcezhengceku2022-0301content_5676205.htm .
Ministry of Agriculture and Rural Affairs of the People´s Republic of China . The 14th Five-Year national forage industry development plan [EBOL]. 2022-02-16 [ 2023-06-19 ]. https:www.gov.cnzhengcezhengceku2022-0301content_5676205.htm .
link1
[20]
刘志鹏 , 周强 , 刘文献 , 等 . 中国牧草育种中的若干科学问题 [J]. 草业学报 , 2021 , 30 12 : 184 – 193 .
Liu Z P , Zhou Q , Liu W X , al e t . Some scientific issues of forage breeding in China [J]. Acta Prataculturae Sinica , 2021 , 30 12 : 184 – 193 .
[21]
康文娟 , 刘畅 , 师尚礼 . 苜蓿与根瘤菌专一性共生及可遗传性共生体选育 [J]. 草原与草坪 , 2022 , 42 5 : 1 – 7 .
Kang W J , Liu C , Shi S L . Specific symbiosis and breeding of heritable symbionts between alfalfa and rhizobia [J]. Grassland and Turf , 2022 , 42 5 : 1 – 7 .
[22] Cunningham S M, Nadeau P, Castonguay Y, al et. Raffinose and stachyose accumulation, galactinol synthase expression, and winter injury of contrasting alfalfa germplasma [J]. Crop Science, 2003, 43(2): 562–570.
[23] Harrison S J, Curtis M D, Mclntyre C, al et. Differential expression of peroxidase isogenes during the early stages of infection of the tropical forage legume stylosanthes humilis by collectlotrichum gloeosporioides [J]. Molecular Plant-microbe Interactions: MPMI. 1995, 8(3): 398–406.
[24] Liu Z H, Zhang H M, Li G L, al et. Enhancement of salt tolerance in alfalfa transformed with the gene encoding for betaine aldehyde dehydrogenase [J]. Euphytica, 2011, 178: 363–372.
[25]
杨青川 , 康俊梅 , 张铁军 , 等 . 苜蓿种质资源的分布、育种与利用 [J]. 科学通报 , 2016 , 61 2 : 261 – 270 .
Yang Q C , Kang J M , Zhang T J , al e t . Distribution, breeding and utilization of alfalfa germplasm resources [J]. Chinese Science Bulletin , 2016 , 61 2 : 261 – 270 .
[26]
蒋倩倩 . 多年生黑麦草 LpCKX1 基因CRISPRCas9靶向编辑载体的构建及遗传转化体系的建立 [D]. 烟台 : 烟台大学 硕士学位论文 , 2020 .
Jiang Q Q . Construction of CRISPRCas9 targeted editing vectors for LpCKX1 gene and the establishment of genetic transformation systemin Lolium perenne [D]. Yantai : Yantai University Master´s thesis , 2020 .
[27]
王志锋 , 徐安凯 , 周艳春 , 等 . 34份苜蓿品种产草量和品质动态研究 [J]. 吉林农业科学 , 2006 , 31 6 : 48 – 50 .
Wang Z F , Xu A K , Zhou Y C , al e t . Study on grass yield and quality dynamics of 34 alfalfa varieties [J]. Journal of Northeast Agricultural Sciences , 2006 , 31 6 : 48 – 50 .
[28]
易自力 , 陈智勇 , 蒋建雄 , 等 . 多年生黑麦草遗传转化体系的建立及其转化植株的获得 [J]. 草业学报 , 2006 , 15 4 : 99 – 103 .
Yi Z L , Chen Z Y , Jiang J X , al e t . Establishment of a transformation system and acquisition of transgenic plants for Lolium pernne [J]. Acta Prataculturae Sinica , 2006 , 15 4 : 99 – 103 .
[29]
牟彤 , 张晓莹 , 王金刚 , 等 . 狼尾草农杆菌转化体系的优化和转基因植株的获得 [J]. 作物杂志 , 2013 1 : 45 – 48 .
Mou T , Zhang X Y , Wang J G , al e t . The optimization of pennisetum agrobacterium -mediated transformation system and obtaining of transgenic plants [J]. Crops , 2013 1 : 45 – 48 .
[30]
于林清 , 刘荣霞 , 苏东 , 等 . 利用SSR和EST-SSR技术研究不同秋眠级苜蓿遗传多样性 [J]. 中国草地学报 , 2009 , 31 6 : 52 – 58 .
Yu L Q , Liu R X , Su D , al e t . Genetic diversity of fall dormancy alfalfa basedon SSR and EST-SSR [J]. Chinese Journal of Grassland , 2009 , 31 6 : 52 – 58 .
[31]
王树彦 , 云锦凤 , 徐军 , 等 . 加拿大披碱草与老芒麦及其杂种的生长规律和形态特性 [J]. 草地学报 , 2004 , 12 4 : 294 – 297 .
Wang S Y , Yun J F , Xu J , al e t . Growth and morphology characters of Elymus canadensis , Elymus sibiricus and their hybrids [J]. Acta Agrestia Sinica , 2004 , 12 4 : 294 – 297 .
[32]
赵桂琴 . 早熟禾的人工杂交及杂种优势预测研究 [J]. 草业学报 , 2002 , 11 1 : 51 – 55 .
Zhao G Q . Studies on artificial emasculation and heterosis forecast in Poa [J]. Acta Prataculturae Sinica , 2002 , 11 1 : 51 – 55 .
[33] Liu H, Zwer P, Wang H B, al et. A fast generation cycling system for oat and triticale breeding [J]. Plant Breeding, 2016, 135(5): 574–579.
[34]
张荟荟 , 梁维维 , 张学洲 , 等 . 新疆野生老芒麦种质资源形态及生长特性分析 [J]. 草地学报 , 2021 , 29 4 : 701 – 708 .
Zhang H H , Liang W W , Zhang X Z , al e t . Analysis on morphology and growth characteristics of wild Elymus sibiricus L. germplasm resources in Xinjiang [J]. Acta Agrestia Sinica , 2021 , 29 4 : 701 – 708 .
[35]
刘艳芝 , 韦正乙 , 邢少辰 , 等 . HAL1基因转化苜蓿再生植株及其耐盐性 [J]. 吉林农业科学 , 2008 , 33 6 : 21 – 24 .
Liu Y Z , Wei Z Y , Xing S C , al e t . Transgeneic alfalfa with HAL1 gene and its salt tolerance [J]. Journal of Northeast Agricultural Sciences , 2008 , 33 6 : 21 – 24 .
[36]
任卫波 , 韩建国 , 张蕴微 . 几种牧草种子空间诱变效应研究 [J]. 草业科学 , 2006 , 23 3 : 72 – 76 .
Ren W B , Han J G , Zhang Y W . A study of the effect of space mutagenesis of grass seeds [J]. Pratacultural Science , 2006 , 23 3 : 72 – 76 .
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