[1] Repo-Carrasco R, Espinoza C, Jacobsen S E. Nutritional Value and Use of the Andean Crops Quinoa (Chenopodium quinoa) and Ka?iwa (Chenopodium pallidicaule)[J].Food Reviews international.2003,19(1):179-189.
[2] White P, Diaz C, Dias C, et al. Nutritive Values of crops, Nutrient content and protein Quality of Quinoa and ca?ihua, edible seed products of the Andes mountains[J].in Journal of Agricultural Food Chemistry,1955,3(6):351-355.
[3] 陈毓荃,高爱丽,贡布扎西.南美藜种子蛋白质研究[J].西北农业学报,1996,5(3):43-48.
[4] Kozio M J. Chemical composition and nutritional evaluation of quinoa (Chenopodium quinoa Willd.) [J]. J Food Compos Anal,1992,5(1):35-68.
[5] Lindeboom N. Studies on the characterization, biosynthesis and isolation of starch and protein from quinoa(Chenopodium quinoa Willd)[D].Saskatchewan: University of Saskatchewan,2005.
[6] James A, Lilian E. Quinoa (Chenopodium quinoa Willd): composition, chemistry, nutritional, and functional propertie[J].Adv Food NutrRes,2009,58:1-31.
[7] 朱剑宏.南美藜的化学组成和营养价值[J].成都大学学报:自然科学版,2002,21(2):24-28.
[8] 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,2014,15(1):222-227.
[9] 贡布扎西,旺姆.西藏南美黎营养品质评价[J].西南农业学报,1995,1(21):85-88.
[10] Woodward F I. Ecophysiological studies on the shrub Vaccinium myrtillus L. taken from a wide altitudinal range[J].Oecologia, 1986,70:580-586.
[11] Catherine M. Hulshof, Cyrille Violle, Marko j. et al. Intra-specific and inter-specific variation in specific leaf area the importance of abiotic and biotic drivers of species diversity across elevation and latitude [J]. Jourmal of Vegetation Science 2013,1(28):921-931.
[12] F.Stuart Chapin lll,Keith Van Cleve, et al. Relationship of ion absorption to growth rate in taiga trees[J].Oecologia, 1986,5(69):238-242.
[13] Heaney A, Proctor J. Chemical elements in litter at arange of altitudes on Volcan Barva, Costa Rica [A]. In: ProctorJ, ed. Nutrients in Tropical Forest and Savanna Ecosystems. Oxford: Blackwell Scientific Publications, 1989:255-271.
[14] Kao W Y, Tsai T T, Chen W H. A comparative study of Miscanthus floridulus (Labill) Warb and M. transmorriso-nensisHayata: Photosynthetic gas exchange, leaf characteristics and growth in controlled environments[J]. Ann. Bot., 1998,81:295-299.
[15] 史作民,程瑞梅,刘世荣.高山植物叶片δ13C的海拔响应及其机理[J].生态学报,2004,24(12):2901-2906.
[16] 张运达,王凤琴,姚一萍.海拔、纬度、温度对向日葵脂肪及脂肪酸、粗蛋白及氨基酸含量的影响[J].中国油料作物学报,1993(01):46-48.
[17] 舒世德.贵州大麦地方品种的品质特点及其与生态条件的关系[J].贵州农业科学,1994(03):56-59.
[18] 古世禄,古晓红,耿聚平.不同土壤与海拔高度对谷子(粟)粗蛋白氨基酸组成的影响[J].生态农业研究,2000, 8(3):32-35.
[19] 龚顺良,周玉萍.高寒山区海拔高度对不同生态类型玉米籽粒营养成分的影响[J].贵州农业科学,2005, 33(6):35-37.
[20] 胡明祥,孟祥勋,李爱萍,等.贵州不同海拔高度及播种期对大豆子粒化学成份的影响—I.大豆子粒粗蛋白和脂肪含量[J].大豆科学,1993(1):56-59.
[21] 张宇,文涛,杨文钰.不同海拔高度对大叶碎米荠算营养成分和生理特性影响的研究[J].四川农业大学,2006:28-35.
[22] 黄家雄,吕玉兰,程金焕,等.不同海拔对小粒种咖啡品质影响的研究[J].热带农业科学,2012,32(8):4-7.
[23] 郑顺林,张仪,李世林,等.不同海拔高度对紫色马铃薯产量、品质及花青素含量的影响[J].西南农业学报,2013,26(4):1420-1424.
[24] 王寅秀,赵岩,陈文学,等.海拔高度对人参多糖量的影响[J].中草药,2011,42(4):796-799.
[25] 孙年喜,彭锐,伍晓丽.不同海拔青篙生长及青篙素累积的动态变化研究[J].重庆中草药研究, 2008,10(3):78-81.
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