[1] 黄昌勇.土壤学[M].北京:中国农业出版社,2000:291-312.[2] Kenneth B M.Salinity tolerance mechanism of six C4 turf grasses[J].Journal of the American Society for Horticultural Science,1994,119(4):779-784.[3] Allakhverdive S I,Sakamoto A,Nishiyama Y,et al.Ionic and osmotic effects of NaCl-induced inactivation of photosystems I and II in Synechococcus sp[J].Plant Physiology,2000,12(3):1047-1056.[4] 徐晨,凌风楼,徐克章.盐胁迫对不同水稻品种光合特性和生理生化特性的影响[J].中国水稻科学,2013,27(3):280-286.[5] Herralde F D,Biel C,Savé R,et al.Effect of water and salt stresses on the growth,gas exchange and water relations in Argyranthemum coronopifolium plants[J].Plant Science,1998,139:9-17.[6] Zhu J K.Regulation of ion homeostasis under salt stress[J].Current Opinion in Plant Biology,2003,6:441-445.[7] Zhu J K.Plant salt tolerance[J].Trends in Plant Science,2001,6:66-71.[8] 齐凯,安晓亮,叶世河.沙米生长特性调查[J].内蒙古林业科技,2010,36(1):17-21.[9] Chen G X,Zhao J C,Zhao X,et al.A psammophyte Agriophyllum squarrosum (L.) Moq.:a potential food crop[J].Genetic Resources and Crop Evolution,2014,61:669-676.[10] Zhao P S,Salvador C G,Shi Y,et al.Transcriptomic analysis of a psammophyte food crop,sand rice (Agriophyllum squarrosum) and identification of candidate genes essential for sandune adaptation[J].BMC Genomics,2014,15:872.[11] Zheng Y R,Gao Y,Ping A,et al.Germination characteristics of Agriophyllum squarrosum[J].Canadian Journal of Botany,2004,82(11):1662-1670.[12] Liu Z M,Yan Q L,Baskin C C,et al.Burial of canopy-stored seeds in the annual psammophyte Agriophyllum squarrosum Moq.(Chenopodiaceae) and its ecological significance[J].Plant and Soil,2006,288:71-80.[13] 王丽,闫德仁,孟显波.沙米种子萌发特性探讨[J].内蒙古林业科技,2009,35(1):27-29.[14] 马全林,张德魁,陈芳,等.流动沙丘先锋植物沙米的种子特征研究[J].种子,2008,27(11):72-76.[15] 韩向东.固沙先锋植物沙米的生物学特征研究[J].甘肃林业科技,2007,32(4):4-9.[16] Bai W M,Bao X M,Li L H.Effects of Agriophyllum squarrosum seed banks on its colonization in a moving sand dune in Hunshandake Sand Land of China[J].Journal of Arid Environments,2004,59:151-157.[17] 胡生新,马俊梅,高万林.流动沙丘先锋植物沙米的空间分布特征[J].甘肃科技,2010,26(14):46-50.[18] Volkov V,Wang B,Doming P J,et al.Thellungiella halophile,a salt-tolerant relative of Arabidopsis thaliana,possesses effective mechanisms to discriminate between potassium and sodium[J].Plant Cell and Environment,2004,27(1):1-14.[19] Vázquz M D,Poschenrieder C,Corrales I,et al.Change in apoplastic aluminumduring the initial growth response to aluminumby roots of a tolerant maize variety[J].Plant Physiology,1999,119(2):435-444.[20] 陈惠哲,Natalia L,朱德峰,等.盐胁迫下水稻幼苗期Na+和K+吸收与分配规律的初步研究[J].植物生态学报,2007,31(5):937-945.[21] Herralde F D,Biel C,Savé R,et al.Effect of water and salt stresses on the growth,gas exchange and water relations in Argyranthemum coronopifolium plants[J].Plant Science,1998,139:9-17.[22] Silva E C,Nogueira R J,Araújo F P,et al.Physiological responses to salt stress in young umbu plants[J].Environmental and Experimental Botany,2008,63:147-157.[23] Hasegawa P M,Bressan R A,Zhu J K,et al.Plant cellular and molecular responses to salinity[J].Annual Review of Plant Physiology and Plant Molecular Biology,2000,51:463-499.[24] 杨洪兵,韩振海,许雪峰.三种苹果属植物幼苗据Na+机理的研究[J].园艺学报,2004,31(2):143-148.[25] 赵可夫.中国盐生植物[M].北京:科学出版社,2013:1-103.[26] 马德源,战伟龑,杨洪兵,等.荞麦主要拒Na部位及其Na+/H+逆向转运活性的研究[J].中国农业科学,2011,44(1):185-191.[27] 赵昕,杨小菊,石勇,等.盐胁迫下荒漠共生植物红砂与珍珠的离子吸收与根茎叶中分配特征[J].生态学报,2014,34(4):963-972.[28] 杨小菊,赵昕,石勇,等.碟果虫实各器官矿质离子吸收与分配对NaCl盐胁迫的响应[J].中国沙漠,2013,33(6):1735-1742.[29] 杨小菊,赵昕,石勇,等.砂蓝刺头各器官矿质离子吸收与分配对NaCl盐胁迫的响应[J].草业学报,2013,22(4):116-122.[30] 杨小菊,赵昕,殷恒霞,等.盐胁迫对二穗短柄草幼苗生长及不同器官中盐离子稳态的影响[J].西北植物学报,2013.33(2):371-377.[31] 赵昕,张继伟,杨小菊,等.盐胁迫下珍珠猪毛菜根茎叶矿质离子的吸收与分配响应[J].干旱区研究,2014,31(6):1086-1092.[32] 张梅茹,马金彪,姚银安,等.盐角草(Salicornia europaea)对NaCl处理的生理响应[J].中国沙漠,2014,34(2):441-447.[33] 鲁艳,雷家强,曾凡江,等.NaCl处理对多枝怪柳(Tamarix ramosissima)生长及生理的影响[J].中国沙漠,2014,34(6):1509-1515. |