参考文献/References:
[1]杨发荣,黄杰,魏玉明,等.藜麦生物学特性及应用[J].草业科学,2017,34(3):607-613.[2]李娜娜,丁汉凤,郝俊杰,等.藜麦在中国的适应性种植及发展展望[J].中国农学通报,2017,33(10):31-36.
[3]肖正春,张广伦.藜麦及其资源开发利用[J].中国野生植物资源,2014,33(2):62-66.
[4]Jacobsen 〖JP2〗S E,Stolen O.Quinoa- morphology,physiology and prospects for its production as a new crop in Europe[J].〖JP〗European Journal of Agronomy,1993,2:19-29.
[5]Bhargava A,Srivastava S.Quinoa:Botany,production and uses[M].Wallingford:CABI Publisher,2013:48-61.
[6]Jacobsen S E.Adaptation of quinoa (Chenopodium quinoa) to Northern European agriculture:Studies on developmental pattern[J].Euphytica,1997,96:41-48.
[7]Pulvento C,Riccardi M,Lavini A,et al.Yield and quality characteristics of quinoa grown in open field under different saline and non- saline irrigation regimes[J].Journal of Agricultural Science,2012,198:254-263.
[8]Garcia M,Raes D,Jacobsen S E.Evapotranspiration analysis and irrigation requirements of quinoa (Chenopodium quinoa) in the Bolivian highlands[J].Agricultural Water Management,2003,60:119-134.
[9]高琪,蔡志全.藜麦种质资源及抗旱和耐盐的研究进展[J].安徽农业科学,2019,47(13):1-3,7.
[10]张崇玺,贡布扎西,旺姆.南美黎(Chenopodium quinoa)苗期低温冻害试验研究[J].西藏农业科技,1994,16(4):49-54.
[11]刘洋,熊国富,闫殿海,等“粮食之母”“超级食物”—藜麦“落户”青海[J].青海农林科技,2014(4):95-98.
[12]Vargas D B, Elzinga J A, Rojas-Beltran A, et al.Development and use of microsatellite markers for genetic diversity analysis of canahua (Chenopodium pallidicaule Aellen) [J].Genetic Resources and Crop Evolution,2011,58:727-739.
[13]Bhargava A S, Ohri D.Genetic variability and interrelationship among various morphological and quality traits in quinoa(Chenopodium quinoa Willd.) [J].Field Crops Research,2007,101:104-116.
[14]王晨静,赵习武,陆国权,等.藜麦特性及开发利用研究进展[J].浙江农林大学学报,2014,31(2):296-301.
[15]〖JP3〗Anabalon R L,Thomet I M.Comparative analysis of genetic and morphologic diversity among quinoa accessions(Chenopodium〖JP〗 quinoa Willd.) of the south of Chile and highland accessions[J].Journal of Plant Breeding and Crop Science,2009,1:210-216.
[16]Bhargava A S,Ohri D.Gynomonoecy in Chenopodium quinoa Willd.(Chenopodiaceae):Variation in inflorescence and floral types in some accessions[J].Biologia,2007,62:19-23.
[17]Spehar C R,Santos R L D.Agronomic performance of quinoa selected in the Brazilian Savannah[J].Pesquisa Agropecuária Brasileira,2005,40(6):609-612.
[18]Atul Bhargava,Deepak Ohri.Origin of genetic variability and improvement of quinoa (Chenopodium quinoa Willd.)[J].Gene Pool Diversity and Crop Improvement,2016,10:241-270.
[19]〖JP2〗Diana Y G V,Luigi R,Khawla K,et al.Chemical and nutritional characterization of Chenopodium pallidicaule(canihua)and Chenopodium quinoa(quinoa)seeds[J].Emirates Journal of Food &Agriculture,〖JP〗2014,26(7):609-615.
[20]Razzaghi F,Ahmadi S H,JacobsenS E,et al.Effects of salinity and soil-drying on radiation use efficiency,water productivity and yield of quinoa(Chenopodium quinoa Willd.)[J].Journal of Agronomy and Crop Science,2012,198(3):173-184.
[21]袁飞敏,权有娟,刘德梅,等.藜麦植株形态及花器结构的初步观察[J].甘肃农业大学学报,2018,53(4):49-53.
[22]Jensen C R,Jacobsen S E,Andersen M N,et al.Leaf exchange anwater relation characteristics of field quinoa(Chenopodium quinoa Willd.) during soil drying[J].European Journal of Agronomy,2000,13(1):11-25.
[23]Yang A,Akhtar S S,Amjad M,et al.Growth and physiological responses of quinoa to drought and temperature stress[J].Journal of Agronomy and Crop Science,2016,202(6):445-453.
[24]Gonzlez J A,Gallardo M,Hilal M,et al.Physiological responses of quinoa(Chenopodium quinoa Willd.)to drought and waterlogging stresses:Dry matter partitioning[J].Botanical Studies,2009,50(1):35-42.
[25]Onales-Alatorre E,Pottosin I,Shabala L,et al.Differential activity of plasma and vacuolar membrane transporters contributes to genotypic differences in salinity tolerance in a halophyte species,Chenopodium quinoa[J].International Journal of Molecular Sciences,2013,14(5):9267-9285.
[26]Fuentes F,Bhargav A.Morphological analysis of quinoa germplasm grown under lowland desert conditions[J].Journal of Agronomy and Crop Science,2011,197(2):124-134.
[27]Gonzlez J A,Bruno M,Valoy M,et al.Genotypic variation of gas exchange parameters and leaf stable carbon and nitrogen isotopes in tenquinoa cultivars grown under drought[J].Journal of Agronomy and Crop Science,2011,197(2):81-93.
[28]Fuentes F,Martinez E A,Hinrichsen P V,et al.Assessment of genetic diversity patterns in Chilean quinoa(Chenopodium quinoa Willd)germplasm using multiplex fluorescent microsatellite markers[J].Conservation Genetics,2009,10(2):369-377.
[29]黄杰,杨发荣.藜麦在甘肃的研发现状及前景[J].甘肃农业科技,2015(1):49-52.
[30]黄杰,杨发荣,李敏权,等.13个藜麦材料在甘肃临夏旱作区适应性的初步评价[J].草业学报,2016,25(3):191-201.
[31]闫书耀,路世竑.高寒山区藜麦绿色配套栽培技术[J].农民致富之友,2015(10):178-178.
[32]周海涛,刘浩,么杨,等.藜麦在张家口地区试种的表现与评价[J].植物遗传资源学报,2014,28(2):222-227.
[33]李艳波,董琼.格尔木市地区藜麦引种试验初报[J].粮油作物,2015(4):29-30.
[34]李成祖.格尔木市藜麦引种栽培技术试验研究[J].农业科技通讯杂志,2015(6):94-96.
[42]梅丽,郭自军,王立臣,等.15份藜麦资源在北京地区的生态适应性评价[J].中国农业大学学报,2019,24(9):27-36.
[36]刘瑞芳,贠超,申为民,等安阳地区藜麦品种对比试验[J].现代农业科技,2016(9):44-49.
[37]刘瑞芳,贠超,刘庆生,等.安阳地区藜麦种植常见问题探讨[J].中国种业,2015(3):9-12.
[38]王元,张忠福,王建梅.山丹县藜麦引种试验总结[J].农艺农技,2018(7):11-12.
[39]张建山.乌兰县引种藜麦试验研究初报[J].青海农技推广,2016(1):55-58.
[40]闫丽艳,史俊玲,靳宇华,等.藜麦高产栽培技术试验示范总结[J].吉林农业,2017(2):81-82.
[41]李星.藜麦在吉林西部的适应性及饲用潜力研究[D].长春:东北师范大学,2019.
[42]王占贤,宋满刚,李金在.鄂尔多斯地区藜麦引种试验初报[J].粮油农资,2017(12):9-10.
[43]张延磊,瞿国文.新疆藜麦种植技术及新品种引进试验[J].农业工程技术,2019(11):77,81.
[44]和金玉.香格里拉市藜麦产业发展现状及对策[J].云南农业,2019(8):39.
[45]叶君,吴晓华,李元清,等.基于表型性状的藜麦种质资源遗传多样性分析[J].北方农业学报,2020,48(1):1-6.
[46]杨发荣.藜麦新品种陇藜1号的选育及应用前景[J].甘肃农业科技,2015(12):1-5.
[47]包头市种子管理站.关于2015年包头市非主要农作物登记通过品种的公示[EB/OL].2015-12-30.http://www.btagri.gov.cn/Article/Disp.asp?id=14431.
[48]Aubrecht E,Biacs P A.Characterization of buckwheat grain proteins and its processed[J].Acta Aliment,2001,28:261-268.
[49]Marmouzi M,Madani E N,Charrouf Z Y,et al.Proximate analysis,fatty acids and mineralcomposition of processed Moroccan Chenopodium quinoa Wild.and antioxidant properties according to the polarity[J].Phytotherapie,2015,13:110-117.
[50]王黎明,马宁,李颂,等.藜麦的营养价值及其应用前景[J].食品工业科技,2014,35(1):381-385.
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