| Citation: |
CHEN Xiong-Wen, GAO Kun-Shan. RESPONSE OF PHOTOSYNTHESIS OF THE BLOOM-FORMING MARINE DIATOM SKELETONEMA COSTATUM TO CHANGES IN pH AND INORGANIC NITROGEN CONCENTRATIONS IN SEAWATER[J]. ACTA HYDROBIOLOGICA SINICA, 2004, 28(6): 635-639.
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Millie D F,Dionigi C P,Schofield O,et al.The importance of understanding the molecular,cellular,and ecophysiological bases of harmful algal blooms[J].J.Phycol.,1999,35:1353-1355[2] Zhou M J,Zhu M Y,Zhang J.Status of harmful algal blooms and related research activities in China [J].Chin.Bull.Life Sci.,2001,13(2):54-59[周名江,朱明远,张经.中国赤潮的发生趋势和研究进展.生命科学,2001,13(2):54-59][3] Paerl H W.Coastal eutrophication and harmful algal blooms:importance of atmospheric deposition and groundwater as "new" nitrogen and other nutrient sources [J].Limnol.Oceanogr.,1997,42:1154-1165[4] Riebesell U,Wolf-Gladrow D A,Smetacek V.Carbon dioxide limitation of marine phytoplankton growth rates[J].Nature,1993,361:249-251[5] Hein M,Jensen K S.CO2 increases oceanic primary production[J].Nature,1997,388:526-527[6] Raven J A,Johnston A M.Mechanisms of inorganic carbon acquisition in marine phytoplankton and their implications for the use of other resources[J.].Limnol.Oceanogr.,1991,36:1701-1714[7] Badger M R,Price G D.The role of carbonic anhydrase in photosynthesis[J].Annu.Rev.Plant Physiol.Plant Mol.Biol.,1994,45:369-392[8] Tortell P D,Reinfelder J R,Morel F M M.Active uptake of bicarbonate by diatoms[J].Nature,1997,390:243[9] Kaplan A,Reinhold L.CO2 concentrating mechanisms in photosynthetic microorganisms[J].Annu.Rev.Plant Physiol.Plant Mol.Biol.1999,50:539-570[10] Zou D,Gao K,Photosynthetic bicarbonate utilization in Porphyra haitanensis(Bangiales,Rhodophyta)[J].Chin.Sci.Bull.,2002,47(19):1629-1634[11] Hobson L A,Hanson C E,Holeton C.An ecological basis for extracellular carbonic anhydrase in marine unicellular algae[J].J.Phycol.,2001,37:717-723[12] Liang S,Qian H L,Qi Y Z.Problem on the red tide in Coastal China Sea[J].Ecologic Science,2000,19(4):44-50[梁松,钱宏林,齐雨藻.中国沿海的赤潮问题.生态科学,2000,19(4):44-50][13] Huo W Y,Yu Z M,Zou J Z,et al.Outbreak of Skeletonema costatum red tide and its relations to environmental factors in Jiao Zhou Bay[J].Oceanologia.Limnologia.Sinica.,2001,32(3):311-318[霍文毅,俞志明,邹景忠,等.胶州湾中肋骨条藻赤潮与环境因子的关系.海洋与湖沼,2001,32(3):311-318][14] Hong J C,Huang X Q,Jiang X S,et al.Analysis of environmental factors during occurrence of Skeletonema costatum red tide in Changjiang river Estuary-the nutrient state[J].Oceanologia.Limnologia,Sinica.1994,25(2):179-185[洪君超,黄秀清,蒋晓山,等.长江口中肋骨条藻赤潮发生过程环境要素分析-营养盐状况.海洋与湖沼,1994,25(2):179-185][15] Wilbur K M,Anderson N G.Electrometric and colorimetric determination of carbonic anhydrase[J].J.Biol.Chem.,1948,176:147-154[16] Moroney J V,Bartletts G,Samuelsson G.Carbonic anhydrase in plant and algae[J].Plant Cell Environ,2001,24:141-153[17] Jeffrey S W,Humphrey G F.New spectrophotometric equations for determining chlorophylls a,b,c1 and c2 in higher plants,algae and natural phytoplankton[J].Biochem.Physiol.der Pfanzen,1975,167:191-194[18] Jassby A D,Platt T.Mathematical formulation of the relationship between photosynthesis and light for phytoplankton[J].Limnol.Oceanogr,1976,21:540-547[19] Gao K,Aruga Y,Asada K,et al.Calcification in the articulated coralline alga Corallina pilulifera,with special reference to the effect of elevated CO2 concentration[J].Mar.Biol.,1993,117:129-132[20] Zhang Z B,Chen Z D,Liu L S,et al.Principles and application of marine chemistry-Marine chemistry in the coastal water of China[M].Beijing:Marine Press.1999,106-111[张正斌,陈镇东,刘莲生,等.海洋化学原理和应用-中国近海的海洋化学.北京:海洋出版社.1999,106-111][21] Tortell P D.Evolutionary and ecological perspectives on carbon acquisition in phytoplankton[J].Limnol.Oceanogr.,2000,45:744-750[22] Wu T,Song L,Liu Y.Characterization of carboxysomal carbonic anhydrase in cyanobacterium Anabaena sp.PCC7120[J].Acta Hydrobiologica Sinica,1999,23(5):409-413[吴天福,宋立荣,刘永定.蓝藻Anabaena sp.PCC7120羧体碳酸酐酶的鉴定.水生生物学报,1999,23(5):409-413][23] MacIntyre H L,Kana T M,Anning T,et al.Photoacclimation of photosynthesis irradiance response curves and photosynthetic pigments in microalgae and cyanobacteria[J].J.Phycol.,2002,38:17-38[24] Xia J,Gao K.Effects of high CO2 concentration on growth and photosynthesis of Spirulina maxima[J].Acta Hydrobiologica Sinica,2001,25(5):474-480[夏建荣,高坤山.高浓度CO2对极大螺旋藻生长和光合作用的影响.水生生物学报,2001,25(5):474-480][25] Ibelings B W,Maberly S C.Photoinhibition and the availability of inorganic carbon restrict photosynthesis by surface blooms of cyanobacteria[J].Limnol.Oceanogr.,1998,43:408-419[26] Portielje R,Lijklema L.Carbon dioxide fluxes across the air-water interface and its impact on carbon availability in aquatic systems[J].Limnol.Oceanogr.,1995,40:690-699[27] Falkowski P G,Raven J A.Aquatic photosynthesis[M].Malden:Blackwell Science 1997,128-162[28] Sunda W G,Huntsman S A.Interrelated influence of iron,light and cell size on marine phytoplankton growth[J].Nature,1997,390:389-391
Millie D F,Dionigi C P,Schofield O,et al.The importance of understanding the molecular,cellular,and ecophysiological bases of harmful algal blooms[J].J.Phycol.,1999,35:1353-1355[2] Zhou M J,Zhu M Y,Zhang J.Status of harmful algal blooms and related research activities in China [J].Chin.Bull.Life Sci.,2001,13(2):54-59[周名江,朱明远,张经.中国赤潮的发生趋势和研究进展.生命科学,2001,13(2):54-59][3] Paerl H W.Coastal eutrophication and harmful algal blooms:importance of atmospheric deposition and groundwater as "new" nitrogen and other nutrient sources [J].Limnol.Oceanogr.,1997,42:1154-1165[4] Riebesell U,Wolf-Gladrow D A,Smetacek V.Carbon dioxide limitation of marine phytoplankton growth rates[J].Nature,1993,361:249-251[5] Hein M,Jensen K S.CO2 increases oceanic primary production[J].Nature,1997,388:526-527[6] Raven J A,Johnston A M.Mechanisms of inorganic carbon acquisition in marine phytoplankton and their implications for the use of other resources[J.].Limnol.Oceanogr.,1991,36:1701-1714[7] Badger M R,Price G D.The role of carbonic anhydrase in photosynthesis[J].Annu.Rev.Plant Physiol.Plant Mol.Biol.,1994,45:369-392[8] Tortell P D,Reinfelder J R,Morel F M M.Active uptake of bicarbonate by diatoms[J].Nature,1997,390:243[9] Kaplan A,Reinhold L.CO2 concentrating mechanisms in photosynthetic microorganisms[J].Annu.Rev.Plant Physiol.Plant Mol.Biol.1999,50:539-570[10] Zou D,Gao K,Photosynthetic bicarbonate utilization in Porphyra haitanensis(Bangiales,Rhodophyta)[J].Chin.Sci.Bull.,2002,47(19):1629-1634[11] Hobson L A,Hanson C E,Holeton C.An ecological basis for extracellular carbonic anhydrase in marine unicellular algae[J].J.Phycol.,2001,37:717-723[12] Liang S,Qian H L,Qi Y Z.Problem on the red tide in Coastal China Sea[J].Ecologic Science,2000,19(4):44-50[梁松,钱宏林,齐雨藻.中国沿海的赤潮问题.生态科学,2000,19(4):44-50][13] Huo W Y,Yu Z M,Zou J Z,et al.Outbreak of Skeletonema costatum red tide and its relations to environmental factors in Jiao Zhou Bay[J].Oceanologia.Limnologia.Sinica.,2001,32(3):311-318[霍文毅,俞志明,邹景忠,等.胶州湾中肋骨条藻赤潮与环境因子的关系.海洋与湖沼,2001,32(3):311-318][14] Hong J C,Huang X Q,Jiang X S,et al.Analysis of environmental factors during occurrence of Skeletonema costatum red tide in Changjiang river Estuary-the nutrient state[J].Oceanologia.Limnologia,Sinica.1994,25(2):179-185[洪君超,黄秀清,蒋晓山,等.长江口中肋骨条藻赤潮发生过程环境要素分析-营养盐状况.海洋与湖沼,1994,25(2):179-185][15] Wilbur K M,Anderson N G.Electrometric and colorimetric determination of carbonic anhydrase[J].J.Biol.Chem.,1948,176:147-154[16] Moroney J V,Bartletts G,Samuelsson G.Carbonic anhydrase in plant and algae[J].Plant Cell Environ,2001,24:141-153[17] Jeffrey S W,Humphrey G F.New spectrophotometric equations for determining chlorophylls a,b,c1 and c2 in higher plants,algae and natural phytoplankton[J].Biochem.Physiol.der Pfanzen,1975,167:191-194[18] Jassby A D,Platt T.Mathematical formulation of the relationship between photosynthesis and light for phytoplankton[J].Limnol.Oceanogr,1976,21:540-547[19] Gao K,Aruga Y,Asada K,et al.Calcification in the articulated coralline alga Corallina pilulifera,with special reference to the effect of elevated CO2 concentration[J].Mar.Biol.,1993,117:129-132[20] Zhang Z B,Chen Z D,Liu L S,et al.Principles and application of marine chemistry-Marine chemistry in the coastal water of China[M].Beijing:Marine Press.1999,106-111[张正斌,陈镇东,刘莲生,等.海洋化学原理和应用-中国近海的海洋化学.北京:海洋出版社.1999,106-111][21] Tortell P D.Evolutionary and ecological perspectives on carbon acquisition in phytoplankton[J].Limnol.Oceanogr.,2000,45:744-750[22] Wu T,Song L,Liu Y.Characterization of carboxysomal carbonic anhydrase in cyanobacterium Anabaena sp.PCC7120[J].Acta Hydrobiologica Sinica,1999,23(5):409-413[吴天福,宋立荣,刘永定.蓝藻Anabaena sp.PCC7120羧体碳酸酐酶的鉴定.水生生物学报,1999,23(5):409-413][23] MacIntyre H L,Kana T M,Anning T,et al.Photoacclimation of photosynthesis irradiance response curves and photosynthetic pigments in microalgae and cyanobacteria[J].J.Phycol.,2002,38:17-38[24] Xia J,Gao K.Effects of high CO2 concentration on growth and photosynthesis of Spirulina maxima[J].Acta Hydrobiologica Sinica,2001,25(5):474-480[夏建荣,高坤山.高浓度CO2对极大螺旋藻生长和光合作用的影响.水生生物学报,2001,25(5):474-480][25] Ibelings B W,Maberly S C.Photoinhibition and the availability of inorganic carbon restrict photosynthesis by surface blooms of cyanobacteria[J].Limnol.Oceanogr.,1998,43:408-419[26] Portielje R,Lijklema L.Carbon dioxide fluxes across the air-water interface and its impact on carbon availability in aquatic systems[J].Limnol.Oceanogr.,1995,40:690-699[27] Falkowski P G,Raven J A.Aquatic photosynthesis[M].Malden:Blackwell Science 1997,128-162[28] Sunda W G,Huntsman S A.Interrelated influence of iron,light and cell size on marine phytoplankton growth[J].Nature,1997,390:389-391
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