[1] Zhang Y F, Lin H M, Yang Z H, et al . Study on the effects of land cover on salt content and moisture content in saline or alkaline soil during thawing. Arid Zone Research, 2005, 22(1): 17-23. [2] Zhao K F, Li F C. Chinese Halophytes[M]. Beijing: Science Press, 1999. [3] Song J, Fan H, Zhao Y Y, et al . Effect of salinity on germination, seedling emergence, seedling growth and ion accumulation of a euhalophyte Suaeda salsa in an intertidal zone and on saline inland. Aquatic Botany, 2008, 88: 331-337. [4] Huang W, Li Z G, Qiao H L, et al . Interactive effect of sodium chloride and drought on growth and osmotica of Suaeda salsa . Chinese Journal of Eco-Agriculture, 2008, 16: 173-178. [5] Song J. Root morphology is related to the phenotypic variation in water logging tolerance of two populations of Suaeda salsa under salinity. Plant and Soil, 2009, 324: 231-240. [6] Zhao K F, Fan H, Jiang X Y, et al . Criticalday-length and photoinductive cycles for the induction of flowering in halophyte Suaeda salsa . Plant Science, 2002, 162(1): 27-31. [7] Zhao K F, Fan H, Jiang X Y, et al . Improvement and utilization of saline soil by planting halophytes. Chinese Journal of Applied and Environmental Biology, 2002, 8(1): 31-35. [8] Gao B, Song J, Liu J P, et al . Effects of salt stress on photosynthesis and ion accumulation patterns of Suaeda salsa under different habitats. Chinese Journal of Plant Ecology, 2010, 34(6): 671-677. [9] Liu Y, Zhou J C, Zhang X D, et al . Adaptations of dimorphic seeds and seedlings of Suaeda salsa to saline environments. Acta Ecologica Sinica, 2013, 33(17): 5162-5168. [10] Liu J P, Gao B, Li X, et al . The effects of salinity and drought interaction on seed germination and seedling growth of Suaeda salsa L. from different habitats. Acta Ecologica Sinica, 2010, 30(20): 5485-5490. [11] Xu D Q. Efficiency of Photosynthesis[M]. Shanghai: Shanghai Science and Technology Press, 2002: 29-35. [12] Zou Q. Experimental Instruction Manual[M]. Beijing: Chinese Agricultural Press, 2000: 129-174. [13] Ungar I A. Ecophysiology of Vascular Halophytes[M]. London: CRC Press, 1999. [14] Flowers T J, Hajibagheri M A, Clipson N J. Halophytes. Quarterly Review of Biology, 1986, 61: 313-317. [15] Schilmper A F. Saline Environment and Plant Growth[M]. India: Agrobotanical Publishers, 1986: 64-66. [16] Gao Y S, Wang S M, Gong H J, et al . Molecular biological research on the transport of ions in plants under salt stress. Acta Prataculturae Sinica, 2013, 12(5): 18-25. [17] Gao Y S, Wang S M, Zhang C L. Plant adaptive and regulatory mechanism under salt stress. Acta Prataculturae Sinica, 2003, 12(2): 1-6. [18] Wang J L, Ding T L, Wang B S. Succulent plants and their adaptions to drought and saline environment. Journal of Shandong Normal University (Natural Science), 2005, 20(4): 74-75. [19] Shi G W, Song J, Gao B, et al . The comparation on seedling emergence and salt tolerance of Suaeda salsa L. from different habitats. Acta Ecologica Sinica, 2009, 29(1): 138-143. [20] Storey R, Wyn Jones R G. Responses of Atriplex spongiosa and Suaeda maritime to salinity. Plant Physiology, 1979, 63: 156-162. [21] Flowers T J, Toke P T, Yeo A R. The mechanism of salt tolerance in halophytes. Annual Review of Physiology, 1977, 28: 89-121. [22] Yao J, Liu X B, Cui X, et al . Effects of NaCl stress on substance linked to osmotic adjustment and on photosynthetic physiology of Melilotoides ruthenica in the seeding stage. Acta Prataculturae Sinica, 2015, 24(5): 91-99. [23] Hao X Y, Han X, Li P, et al . Effects of elevated atmospheric CO 2 concentration on mung bean leaf photosynthesis and chlorophyll fluorescence parameters. Chinese Journal of Applied Ecology, 2011, 22(10): 2776-2780. [24] Xu D Q, Zhang Y Z, Zhang R X. Photo inhibition of photosynthesis in plant. Plant Physiology Communications, 1992, 28(4): 237-243. [25] Lu C M, Qiu N W, Lu Q T, et al . Does salt stress lead to increased susceptibility of photosystem II to photo inhibition and changes in photosynthetic pigment composition in halophyte Suaeda salsa grown outdoors. Plant Science, 2002, 163(5): 1063-1068. [26] Yin H L, Tian C Y. Photosynthetic characteristics of Suaeda salsa seedlings under different salt conditions. Arid Zone Research, 2014, 31(5): 850-855. [27] Liu J W, Tong D D, Guan L Y. Effects of NaCl stress on different SOD isozymes of alfalfa. Journal of Heilongjiang August First Land Reclamation University, 2006, 18(6): 4-7. [28] Bhandal T J, Malik C P. Potassium estimation, uptake and its role in the physiology and mechanism of flowering plants. Survey of Cell Biology, 1988, 110: 205-254. [29] Eshel A. The effect of NaCl and KCl on the growth and ionic composition of the halophytic C 4 succulent chenopods Salsa kali , Suaeda maritima and Suaeda aegyptiaca . Australian Journal of Plant Physiology, 1985, 12: 319-382. [30] Zhao K F. Physiology of Salt Resistance in Vascular Plants[M]. Beijing: China Science and Technology Press, 1993. [31] Wang B S, Lǜttge U, Ratajczak R. Effects of salt treatment and osmotic stress on V-ATPase and V-PPase in leaves of the halophyte Suaeda salsa . Journal of Experimental Botany, 2001, 52: 2355-2365. [1] 张永福, 蔺海明, 杨自辉, 等. 解冻期覆盖盐渍土地表对土壤盐分和水分的影响. 干旱区研究, 2005, 22(1): 17-23. [2] 赵可夫, 李法曾. 中国盐生植物[M]. 北京: 科学出版社, 1999. [7] 赵可夫, 范海, 江行玉, 等. 盐生植物在盐渍土壤改良中的作用. 应用与环境生物学报, 2002, 8(1): 31-35. [8] 高奔, 宋杰, 刘金萍, 等. 盐胁迫对不同生境盐地碱蓬光合及离子积累的影响. 植物生态学报, 2010, 34(6): 671-677. [9] 刘艳, 周家超, 张晓东, 等. 盐地碱蓬二型性种子及其幼苗对盐渍环境的适应性. 生态学报, 2013, 33(17): 5162-5168. [10] 刘金萍, 高奔, 李欣, 等. 盐旱互作对不同生境盐地碱蓬种子萌发和幼苗生长的影响. 生态学报, 2010, 30(20): 5485-5490. [11] 许大全. 光合作用效率[M]. 上海: 上海科学技术出版社, 2002: 29-35. [12] 邹奇. 植物生理学实验指导[M]. 北京: 中国农业出版社, 2000: 129-174. [16] 高永生, 王锁民, 宫海军, 等. 盐胁迫下植物离子转运的分子生物学研究. 草业学报, 2003, 12(5): 18-25. [17] 高永生, 王锁民, 张承烈. 植物盐适应性调节机制的研究进展. 草业学报, 2003, 12(2): 1-6. [18] 王家利, 丁同楼, 王宝山. 肉质植物及其对盐渍和干旱环境的适应. 山东师范大学学报(自然科学版), 2005, 20(4): 74-75. [19] 史功伟, 宋杰, 高奔, 等. 不同生境盐碱地碱蓬出苗及幼苗抗盐性的比较研究. 生态学报, 2009, 29(1): 138-143. [22] 姚佳, 刘信宝, 崔鑫, 等. 不同NaCl胁迫对苗期扁蓿豆渗透调节物质及光合生理的影响. 草业学报, 2015, 24(5): 91-99. [23] 郝兴宇, 韩雪, 李萍, 等. 大气CO 2 浓度升高对绿豆叶片光合作用及叶绿素荧光参数的影响. 应用生态学报, 2011, 22(10): 2776-2780. [24] 许大全, 张玉忠, 张荣铣. 植物光合作用的抑制. 植物生理学通讯, 1992, 28(4): 273-243. [26] 尹海龙, 田长彦. 不同盐度环境下盐地碱蓬幼苗光合生理生态特征. 干旱区研究, 2014, 31(5): 850-855. [27] 刘金文, 佟丹丹, 关利娅. NaCl胁迫对不同苜蓿品种超氧化物歧化酶同工酶的影响. 黑龙江八一农垦大学学报, 2006, 18(6): 4-7. [30] 赵可夫. 植物抗盐生理[M]. 北京: 中国科学技术出版社, 1993. |