2025-4-1- 11
Home > Archive>Volume 20, Issue 5, 2019 >1103-1109. DOI:10.13430/j.cnki.jpgr.20190513002
PDF HTML XML Export Cite reminder
In-situ Conservation of Wild Relatives of Crops
Author:
Affiliation:

Institute of Crop Sciences,Chinese Academy of Agricultural Sciences

Fund Project:

National Natural Science Foundation(31670211); Ministry of Agriculture Finance Special(2130136)

  • Article
    • | |
  • Metrics
    • |
  • Reference [32]
    • | | | |
  • Comments
    Abstract:

    Wild relatives are natural gene pools for crop germplasm innovation and improvement. 30% of global crop yield growth is contributed by the application of crop wild relatives. However, due to habitat destruction and pollution, overuse of resources, blinded introduction of varieties and climate change, the wild relatives of crops are under threat and a proportion of natural populations and population genetic diversity have been lost. In-situ conservation is an important strategy to protect wild relatives and their nature habitats as well as protect interaction between wild relatives and environment to maintain their evolutionary potential. Based on the summary of domestic and foreign policies and technical means of in-situ conservation, this paper summarizes the technical route of in-situ conservation, puts forward the problems and working focus of in-situ conservation of crop wild relatives in China. The large data related to genome, phenotype and environment should be closely integrated with in-situ conservation of crop wild relatives, which provide strong theoretical support for the in-situ conservation of crop wild relatives.

    Reference
    [1] DoebleySJ1. Plant science. Unfallen grains: how ancient farmers turned weeds into crops. Science.S2006SJun 2;312(5778):1318-9.
    [2] 董玉琛, 刘旭 (2008) 中国作物及其野生近缘植物. 中国农业出版社, 北京.Dong YC, Liu X (2008) Crops and Their Wild Relatives in China. China Agriculture Press, Beijing. (in Chinese)
    [3] 郑殿升.中国粮食作物的野生近缘植物及其保存概况.中国野生植物资源,2006(05):5-7.Zheng Diansheng.Wild relatives of Chinese food crops and their conservation profiles. Chinese Wild Plant Resources,2006(05):5-7
    [4] Zhu Q , Zheng X , Luo J , et al. Multilocus Analysis of Nucleotide Variation of Oryza sativa and Its Wild Relatives: Severe Bottleneck during Domestication of Rice[J]. Molecular Biology and Evolution, 2006, 24(3):875-888.
    [5] Zhang H, Mittal N, Leamy LJ, Barazani O, Song BH (2017) Back into the wild—Apply untapped genetic diversity of wild relatives for crop improvement. Evolutionary Applica-tions, 10, 5–24.
    [6]卢宝荣.杂交-渐渗的遗传进化效应与栽培作物野生近缘种多样性保护.科学通报,2014,59(06):479-492.Lu Baorong.Genetic evolution effects of hybridization-introgression and conservation of wild relatives of cultivated crops. Chinese Science Bulletin, 2014,59(06):479-492.
    [7] Pimentel D, Wilson C, McCullum C, Huang R, Dwen P, Flack J, Tran Q, Saltman T, Cliff B (1997) Economic and envi-ronmental benefits of biodiversity. BioScience, 47, 747–757.
    [8] Maxted N, Kell S, Toledo á, Dulloo E, Heywood V, Hodgkin T, Hunter D, Guarino L, Jarvis A, Ford-Lloyd B (2010) A global approach to crop wild relative conservation: Securing the gene pool for food and agriculture. Kew Bulletin, 65, 561–576.
    [9]杨庆文,秦文斌,张万霞,乔卫华,于寿娜,郭青.中国农业野生植物原生境保护实践与未来研究方向.植物遗传资源学报,2013,14(01):1-7.Yang Qingwen,Qin Wenbin,Zhang Wanxia,Qiao Weihua,Yu Shouna,Guo Qing.In-situ Conservation Practices and Future Development of Wild Relatives of Crops in China. Journal of Plant Genetic Resources, 2013,14(01):1-7
    [10] 于燕波,王群亮,Shelagh Kell,Nigel Maxted,Brian V.Ford-Lloyd,魏伟,康定明,马克平.中国栽培植物野生近缘种及其保护对策.生物多样性,2013,21(06):750-757.Yu Yanbo,Wang Qunliang, Shelagh Kell,Nigel Maxted,Brian V.Ford-Lloyd,Wei Wei,Kang Dingming,Ma Keping. Crop wild relatives and their conservation strategies in China. Biodiversity Science, 2013,21(06):750-757
    [11] Meilleur BA, Hodgkin T (2004) In situ conservation of crop wild relatives: Status and trends. Biodiversity and Conserva-tion, 13, 663–684.
    [12] Dulloo ME, Hunter D, Borelli T, Hamon S, Pamfil D, Sestras R (2010) Ex situ and in situ conservation of agricultural biodi-versity: Major advances and research needs. Notulae Bota-nicae Horti Agrobotanici Cluj-Napoca, 38, 114–122.
    [13] Jarvis DI, Myer L, Klemick H, Guarino L, Smale M, Brown AHD, Sadiki M, Sthapit B, Hodgkin T (2000) A Training Guide for In Situ Conservation On-Farm. Version 1. Inter-national Plant Genetic Resource Institute, Rome, Italy.
    [14] 郑殿升, 杨庆文. 中国作物野生近缘植物资源[J]. 植物遗传资源学报, 2014(1):1-11.Zheng D S , Yang Q W . Genetic Resources of Wild Relatives of Crops in China[J]. Journal of Plant Genetic Resources, 2014, 15(1):1-11(11).
    [15]徐海明.中国农业野生植物原生境保护实践研究[J].农业与技术,2016,36(08):22.Xu Haiming. Study on the practice of in situ conservation of Chinese agricultural wild plants. Agriculture and Technology, 2016,36(08):22.
    [16] Mu?oz-Rodríguez, Pablo, Draper Munt D , Moreno Saiz J C . Global strategy for plant conservation: inadequate\r, in situ\r, conservation of threatened flora in Spain[J]. Israel Journal of Plant Sciences, 2016:1-12.
    [17] Juozas Labokas, Nigel Maxted ,Shelagh Kell,Joana Magos Brehm,Jose ′ Maria Iriondo.Development of national crop wild relative conservation strategies in European countries. Genet Resour Crop Evol (2018) 65:1385–1403.
    [18]Phillips J1,SMagos BrehmSJ2,Svan Oort B3,SAsdal ?4,SRasmussen M5,SMaxted N2 .Climate change and national crop wild relative conservation planning. Ambio.2017 Oct;46(6):630-643. doi: 10.1007/s13280-017-0905-y. Epub 2017 Feb 18.
    [19]刘旭,郑殿升,董玉琛,朱德蔚,方嘉禾,费砚良,贾敬贤,蒋尤泉,杨庆文,王述民,黎裕,曹永生.中国农作物及其野生近缘植物多样性研究进展[J]. 植物遗传资源学报. 2008(04)Liu Xu,Zheng Diansheng,Dong Yushen,Zhu Dewei,Fang Jiahe,Fei Yanliang,Jia Jingxian,Jiang Youquan,Yang Qingwen,Wang Shumin,Li Yu,Cao Yongsheng. Advances in research on diversity ofChinese crops and their wild relatives, Journal of Plant Genetic Resources.2008(04)
    [20]侯向阳,高卫东.作物野生近缘种的保护与利用[J].生物多样性,1999(04):327-331.Hou Xiangyang,Gao Weidong. Protection and utilization of crop wild relatives. Chinese Biodiversity, 1999(04):327-331
    [21]Yang QW, Wang JC, Wang QH. Incentive Practices in the Conservation of Wild Relatives of Crops in China. China Agriculture Press. 2015
    [22] USDA-ARS National Genetic Resources Program. 2012. GRIN (Germplasm Resources Information Network) taxonomy for plants. National Germplasm Resources Laboratory, Beltsville, MD. http://www.ars-grin.gov/~sbmljw/cgi-bin/index.pl?language=en (accessed 1 Jan. 2012).
    [23] Flora of North America Association (FNA). 2008a. Flora of North America. Flora of North America Association, Harvard University Herbaria, Cambridge, MA. http:// floranorthamerica.org/ (accessed 1 Jan. 2011)
    [24] Flora of North America Association (FNA). 2008b. Flora of North America – Introduction. Flora of North America Association, Harvard University Herbaria, Cambridge, MA. http://fl oranorthamerica.org/introduction (accessed 1 Jan. 2011).
    [25] Colin K. Khoury,*Stephanie Greene, John Wiersema, Nigel Maxted, Andy Jarvis, and Paul C. Struik.An Inventory of Crop Wild Relatives of the United States. Crop Science,VOL. 53, July–August 2013
    [26] Nigel Maxted,Alvina Avagyan,Lothar Frese,José Iriondo,Joana Magos Brehm,Alon Singer and Shelagh Kell.ECPGR Concept for in situ conservation of crop wild relatives in Europe, ECPGR
    [27] Aguirre-Gutiérrez, Jesús, Van Treuren R , Hoekstra R , et al. Crop wild relatives range shifts and conservation in Europe under climate change[J]. Diversity and Distributions, 2017.
    [28] Ford-Lloyd, B. V., Schmidt, M., Armstrong, S. J., Barazani, O., Engels, J., Hadas, R., … Khoshbakht, K. (2011). Crop wild relatives—Undervalued, underutilized and under threat? BioScience, 61, 559–565.
    [29] Maxted N, Kell S, Toledo á, Dulloo E, Heywood V, Hodgkin T, Hunter D, Guarino L, Jarvis A, Ford-Lloyd B (2010) A global approach to crop wild relative conservation: Securing the gene pool for food and agriculture. Kew Bulletin, 65, 561–576.
    [30] 黎 磊1 ,陈家宽1,2*.气候变化对野生植物的影响及保护对策. 生物多样性,2014, 22 (5): 549–563Lei Li1, Jiakuan Chen 1,2*.Influence of climate change on wild plants and the conservation strategies.Biodiversity Science, 2012, 20 (6): 641–642
    [31] 黎裕,李英慧,杨庆文,张锦鹏,张金梅,邱丽娟,王天宇.基于基因组学的作物种质资源研究:现状与展望.2015,48(17):3333—3353Li Yu,Li Yinghui,Yang Qingwen,Zhang Jinpeng,Zhang Jinmei,Qiu Lijuan,Wang Tianyu, Genomics—Based Crop Germplasm Resea rch :Advances and Perspectives, 2015,48(17):3333—3353
    [32]WolkovichSEM1,SCook BI,SAllen JM,SCrimmins TM,SBetancourt JL,STravers SE,SPau S,SRegetz J,SDavies TJ,SKraft NJ,SAult TR,SBolmgren K,SMazer SJ,SMcCabe GJ,SMcGill BJ,SParmesan C,SSalamin N,SSchwartz MD,SCleland EE.Warming experiments underpredict plant phenological responses to climate change.Nature. 2012 May 2;485(7399):494-7. doi: 10.1038/nature11014.
    Related
    Cited by
    Comments
    Comments
    分享到微博
    Submit
Get Citation

Copy
Share
Article Metrics
  • Abstract:1941
  • PDF: 3281
  • HTML: 0
  • Cited by: 0
History
  • Received:May 13,2019
  • Revised:July 22,2019
  • Adopted:June 05,2019
  • Online: September 17,2019
Article QR Code
You are the 601647th visitor 京ICP备09069690号-23
® 2025 All Rights Reserved
Supported by:Beijing E-Tiller Technology Development Co., Ltd.
Firefox, Chrome, IE10, IE11 are recommended. Other browsers are not recommended.