[1] 华栋,牛德中.1998.江苏盐田刚毛藻资源的综合利用[J].资源科学,20(6):56~60. [2] 庄树宏,陈礼学,王尊清.2003.长山列岛南部三岛岩相潮间带群落多样性格局[J].应用生态学报,14(5):747~752. [3] 陈洪柱.1997.盐田刚毛藻的防治及其综合利用[J].海湖盐与化工,26(3):32~33. [4] 邹定辉,高坤山.2003.低潮干出状态下潮间带海藻的某些光合生理特性[J].植物生理学通讯,39(5):525~530. [5] 郭延平,周慧芬,曾光辉,等.2003.高温胁迫对柑橘光合速率和光系统Ⅱ活性的影响[J].应用生态学报,14(6):867~870. [6] 韩博平,韩志国,付翔.2003.藻类光合作用机理与模型[M].北京:科学出版社. [7] 惠红霞,许兴,李守明.2004.盐胁迫抑制枸杞光合作用的可能机理[J].生态学杂志,23(1):5~9. [8] 湛江水产专科学校.1980.海洋饵料生物培养[M].北京:农业出版社. [9] Beer S, Vilenkin B, Weil A, et al. 1998. Measuring photosynthetic rates in seagrasses by pulse amplitude modulated (PAM) fluorometry[J]. Mar. Ecol. Prog. Ser., 174(3): 293 ~300. [10] Bell EC. 1995. Environmental and morphological influences on thallus temperature and desiccation of the intertidal alga Mastocarpus papillatus Ktzing[J]. J. Exp. Mar. Biol. Ecol., 191( 1 ): 29~55. [11] Davison IR, Pearson GA. 1996. Stress tolerance in intertidal seaweeds[J]. J. Phycol., 32(2): 197 ~211. [12] Hader DP, Herrmann H, Schafer J, et al. 1997. Photosynthetic fluorescence induction and oxygen production in two Mediterranean Cladophora species measured on site[J]. Aqua. Bot., 56(3 - 4) :253~264. [13] Kühl M, Chen M, Ralph PJ, et al. 2005. A niche for cyanobacteria containing chlorophyll d[J], Nature, 433 (7028): 820. [14] Lichtenthaler HK. 1996. Vegetation stress: An introduction to the stress concept in plants[J]. J. Plant Physiol., 148 ( 1 ): 4 ~14. [15] Osmond CB, Austin MP, Berry JA, et al. 1987. Stress physiology and the distribution of plants: The survival of plants in any ecosystem depends on theirphysiology reactions to various stresses of the environment[J]. Bioscience, 37(1): 38~ 48. [16] Parr LB, Perkins RG, Mason CF. 2002. Reduction in photosynthetic efficiency of Cladophora glomerata, induced by overlying canopies of Lemna spp. [J]. Water Res., 36(7): 1735~ 1742. [17] Platt T, Gallegos CL, Harrison WG. 1980. Photoinhibition of photosynthesis in natural assemblages of marine phytoplankton [J]. J.Mar. Res., 38:687~701. [18] Ralph PJ, Gademann R, Dennison WC. 1998. In situ seagrass photosynthesis measured using a submersible, pulse-amplitude modulated fluorometer[J]. Mar. Biol., 132(3) :367~ 373. [19] Schreiber U, Bilger W, Neubauer C. 1994. Chlorophyll fluorescence as a nonintrusive indicator for rapid assessment of in vivo photosynthesis[A] . In: Schulze ED, eds. Ecophysiology of Photosynthesis[C] . Berlin: Springer-Verlag, 49~ 70. [20] Schreiber U, Gademann R, Ralph PJ, et al. 1997. Assessment of photosynthetic performance of Prochloron in Lissoclinum patella in hospite by chlorophyll fluorescence measurements[J]. Plant Cell Physiol., 38(8) :945 ~951. [21] van Kooten O, Snel JFH. 1990. The use of chlorophyll fluorescence nomenclature in plant stress physiology [J]. Photosynth. Res., 25(2): 147~ 150. [22] White AJ, Critchley C. 1999.Rapid light curves:A new fluorescence method to assess the state of the photosynthetic apparatus[J]. Photosynth. Res., 59(1 ): 63 ~ 72. [23] Wu BG, Chen YZ, Zang RB, et al. 2001. Three-stage transformation of chlorophyll transient fluorescence pattern under sustained dehydration and the discovery of critical water content in seaweeds[J]. Act.Bot.Sin. ,43(11):1134~1139. |