|本期目录/Table of Contents|

[1]李红飞,林森杰*.南海浮游植物生态学研究进展[J].厦门大学学报(自然科学版),2019,58(01):1-10.[doi:10.6043/j.issn.0438-0479.201805038]
 LI Hongfei,LIN Senjie*.Research progresses of phytoplankton ecology in the South China Sea[J].Journal of Xiamen University(Natural Science),2019,58(01):1-10.[doi:10.6043/j.issn.0438-0479.201805038]
点击复制

南海浮游植物生态学研究进展(PDF/HTML)
分享到:

《厦门大学学报(自然科学版)》[ISSN:0438-0479/CN:35-1070/N]

卷:
58卷
期数:
2019年01期
页码:
1-10
栏目:
综述
出版日期:
2019-01-24

文章信息/Info

Title:
Research progresses of phytoplankton ecology in the South China Sea
文章编号:
0438-0479(2019)01-0001-10
作者:
李红飞林森杰*
厦门大学海洋与地球学院,近海海洋环境科学国家重点实验室,福建 厦门 361102
Author(s):
LI HongfeiLIN Senjie*
State Key Laboratory of Marine Environmental Science,College of Ocean and Earth Sciences,Xiamen University,Xiamen 361102,China
关键词:
浮游植物 南海 群落结构 环境调控因子
Keywords:
phytoplankton South China Sea community structure environmental regulatory factor
分类号:
Q 356.1
DOI:
10.6043/j.issn.0438-0479.201805038
文献标志码:
A
摘要:
作为西太平洋最大的边缘海,南海位于热带-亚热带区域,其水文理化环境复杂,高度多样的浮游植物群落在丰度和生产力上均存在显著差异.迄今为止,人们对该海域浮游植物的时空分布及其影响的认识仍有限.通过收集历史资料,特别是近20年的研究成果,从浮游植物时空分布、环境调控因子以及受全球气候变化的影响三方面进行分析,总结南海浮游植物生态学研究的重要进展,进而针对研究现状的不完善之处探讨未来的研究方向,突出有待深入研究的领域,以促使南海浮游植物生态学的研究赶上世界同类海域的研究脚步.
Abstract:
Located in the tropical-subtropical region, the South China Sea is the largest marginal sea in the western Pasific Ocean. Due to the complexity of the hydrological,physical as well as chemical environment of the South China Sea ecosystem,significant variations exist in the abundance and productivity of the highly diverse phytoplankton community.So far,our understanding is still limited about the spatial and temporal distribution of phytoplankton and its regulating mechanism in this area.In this review,we gathered historical data,especially research results of the recent 20 years,summarizing and analyzing them in three perspectives,spatiotemporal distribution,environmental regulatory factor and the impact of global climate change.We emphasized the advances in the research methodology and important progresses in understanding phytoplankton ecology in the South China Sea.In addition,we proposed future research directions and highlighted areas where efforts should be invested to bring the South China Sea phytoplankton research up to speed with the equivalent ocean basins in the world.

参考文献/References:

[1] MORTON B,BLACKMORE G.South China Sea[J].Marine Pollution Bulletin,2001,42(12):1236-1263.
[2] SONG J M.Biogeochemical processes of the South China Sea[M]∥Biogeochemical processes of biogenic elements in China marginal seas.Berlin:Springer,2010:529-626.
[3] LE F,SUN J,NING X,et al.Phytoplankton in the northern South China Sea in summer 2004[J].Oceanologia et Limnologia Sinica,2006,37(3):238-248.
[4] FALKOWSKI P G,BARBER R T,SMETACEK V.Biogeochemical controls and feedbacks on ocean primary production[J].Science,1998,281(5374):200-206.
[5] HECKY R E,KILHAM P.Nutrient limitation of phytoplankton in freshwater and marine environments:a review of recent evidence on the effects of enrichment[J].Limnology & Oceanography,1988,33(4):796-822.
[6] NING X,CHAI F,XUE H,et al.Physical-biological oceanographic coupling influencing phytoplankton and primary production in the South China Sea[J].Journal of Geophysical Research:Oceans,2005,110:C05015.
[7] UTERM?HL H.Zur vervollkommnung der quantitativen phytoplankton-methodik[J].Mitteilungen Int Ver Limnol,1958,9:263-272.
[8] GOSSELAIN V,HAMILTON P B,DESCY J P.Estimating phytoplankton carbon from microscopic counts:an application for riverine systems[J].Hydrobiologia,2000,438(1/2/3):75-90.
[9] SIERACKI C K,SIERACKI M E,YENTSCH C S.An imaging-in-flow system for automated analysis of marine microplankton[J].Mar Ecol Prog Ser,1998,168(1):285-296.
[10] SALDARRIAGA J F,TAYLOR F J,KEELING P J,et al.Dinoflagellate nuclear SSU rRNA phylogeny suggests multiple plastid losses and replacements[J].Journal of Molecular Evolution,2001,53(3):204-213.
[11] XIAO W,WANG L,LAWS E,et al.Realized niches explain spatial gradients in seasonal abundance of phytoplankton groups in the South China Sea[J].Progress in Oceanography,2018,162:223-239.
[12] ZHU G H,NING X R,CAI Y M,et al.Studies on species composition and abundance distribution of phytoplankton in the South China Sea[J].Acta Oceanologica Sinica,2003,25:8-23.
[13] 孙军,宋书群,乐凤凤,等.2004 年冬季南海北部浮游植物[J].海洋学报,2007,29(5):132-145.
[14] 马威.南海北部浮游植物群落的生态学研究[D].青岛:中国海洋大学,2012:14-28.
[15] LING J.Ture characteristics of phytoplankton community in northern South China Sea in the summer of 2008[J].Journal of Biology,2012,29(2):42-46.
[16] 马威,孙军.夏、冬季南海北部浮游植物群落特征[J].生态学报,2014,34(3):621-632.
[17] 李冬融,戴鑫烽,陆斗定,等.2012 年夏季南海西北部网采浮游植物群落结构[J].海洋学研究,2014,32(3):87-96.
[18] KE Z X,HUANG L M,TAN Y H,et al.Species composition and abundance of phytoplankton in the northern South China Sea in summer 2007[J].Journal of Tropical Oceanography,2011,30(1):131-143.
[19] CHEN B,WANG L,SONG S,et al.Comparisons of picophytoplankton abundance,size,and fluorescence between summer and winter in northern South China Sea[J].Continental Shelf Research,2011,31(14):1527-1540.
[20] YU-HONG L I,ZHAO M X,ZHANG H L,et al.Phytoplankton biomarkers in surface seawater from the northern South China Sea in summer 2009 and their potential as indicators of biomass/community structure[J].Journal of Tropical Oceanography,2012,31(4):96-103.
[21] CAI Y M,NING X R,LIU C G,et al.Distribution pattern of photosynthetic picoplankton and heterotrophic bacteria in the northern South China Sea[J].Journal of Integrative Plant Biology,2007,49(3):282-298.
[22] 李丽,刘杰,贺娟,等.2008 年夏季南海北部浮游藻类生物量和群落组成特征及其影响因素:生物标记物研究[J].科学通报,2014(11):1016-1025.
[23] 吴钟解,王道儒,李元超,等.西沙监控区浮游植物生态现状[J].热带作物学报,2010,31(6):1020-1025.
[24] 钟超,肖武鹏,黄邦钦.中国南海西部浮游植物对中尺度涡的响应[J].海洋科学进展,2013,31(2):213-220.
[25] FAN Y Z,HUANG L M,LIN S J,et al.Study of genetic diversity of micro-planktonic eukaryotes in South China Sea by ITS and 5.8S rRNA gene cloning and sequencing[J].International Journal of Simulation:Systems,Science & Technology,2015,16(2A):1473-8031.
[26] 戴明,刘华雪,廖秀丽,等.初秋南沙群岛海域网采浮游植物群落特征及其与环境因子的关系[J].应用生态学报,2013,24(12):3553-3560.
[27] 陈艳拢,赵冬至,杨建洪,等.赤潮藻类温度生态幅的定量表达模型研究[J].海洋学报,2009,31(5):156-161.
[28] LIN J M,WANG W L,WANG L C,et al.Quaternary oceanographic changes,based on the diatom fossil record in the piston core MD972144 in the South China Sea[J].Western Pacific Earthences,2003,3(2):119-132.
[29] TANG D,NI I,KESTER D,et al.Remote sensing observations of winter phytoplankton blooms southwest of the Luzon Strait in the South China Sea[J].Marine Ecology Progress,1999,191(3):43-51.
[30] 林丽茹,赵辉.南海海域浮游植物叶绿素与海表温度季节变化特征分析[J].海洋学研究,2012,30(4):46-54.
[31] 彭欣,宁修仁,孙军,等.南海北部浮游植物生长对营养盐的响应[J].生态学报,2006,26(12):3959-3968.
[32] CAI W J,DAI M,WANG Y,et al.The biogeochemistry of inorganic carbon and nutrients in the Pearl River estuary and the adjacent Northern South China Sea[J].Continental Shelf Research,2004,24(12):1301-1319.
[33] WU M L,WANG Y S,WANG Y T,et al.Scenarios of nutrient alterations and responses of phytoplankton in a changing Daya Bay,South China Sea[J].Journal of Marine Systems,2017,165:1-12.
[34] 魏玉秋,孙军,丁昌玲.2014 年夏季南海北部超微型浮游植物分布及环境因子影响[J].海洋学报,2015,37(12):56-65.
[35] QIU D,HUANG L,ZHANG J,et al.Phytoplankton dynamics in and near the highly eutrophic Pearl River Estuary,South China Sea[J].Continental Shelf Research,2010,30(2):177-186.
[36] KUSTKA A,CARPENTER E J,SANUDOWILHELMY S A.Iron and marine nitrogen fixation:progress and future directions.[J].Research in Microbiology,2002,153(5):255-262.
[37] ZHOU L B,TAN Y H,HUANG L M,et al.Aluminum effects on marine phytoplankton:implications for a revised iron hypothesis(iron-aluminum hypothesis)[J].Biogeochemistry,2018,139(2):123-137.
[38] CHEAH W,TAYLOR B B,WIEGMANN S,et al.Photophysiological state of natural phytoplankton communities in the South China Sea and Sulu Sea[J].Biogeosciences Discussions,2013,10(7):12115-12153.
[39] SUN J,LIU D Y,WEI H.The phytoplankton sampling and analysis strategies in the study of the Bohai Sea ecosystem dynamics[J].Acta Oceanologica Sinica,2003,25:41-50.
[40] 陈兴群,陈其焕.南海中部叶绿素 a 分布和光合作用及其与环境因子的关系[J].海洋学报,1989,11(3):349-355.
[41] 郝锵,宁修仁,刘诚刚,等.南海北部初级生产力遥感反演及其环境调控机制[J].海洋学报,2007,29(3):58-68.
[42] JIAN Z,HUANG B,KUHNT W,et al.Late quaternary upwelling intensity and East Asian monsoon forcing in the South China Sea[J].Quaternary Research,2001,55(3):363-370.
[43] GAO S,WANG H.Seasonal and spatial distributions of phytoplankton biomass associated with monsoon and oceanic environments in the South China Sea[J].Acta Oceanologica Sinica,2008,27(6):17-32.
[44] LIU K K,CHAO S Y,SHAW P T,et al.Monsoon-forced chlorophyll distribution and primary production in the South China Sea:observations and a numerical study[J].Deep Sea Research Part Ⅰ: Oceanographic Research Papers,2002,49(8):1387-1412.
[45] TANG D L,KAWAMURA H,DIEN T V,et al.Offshore phytoplankton biomass increase and its oceanographic causes in the South China Sea[J].Mar Ecol Prog Ser,2004,268(1):31-41.
[46] TANG D L,KAWAMURA H,DOAN-NHU H et al.Remote sensing oceanography of a harmful algal bloom off the coast of southeastern Vietnam[J].Journal of Geophysical Research Oceans,2004,109(C3):C03014.
[47] TANG D L,KAWAMURA H,SHI P,et al.Seasonal phytoplankton blooms associated with monsoonal influences and coastal environments in the sea areas either side of the Indochina Peninsula[J].Journal of Geophysical Research: Biogeosciences,2015,111(G1):355-363.
[48] 刘杰,李丽,贺娟.南海海域浮游植物分布特征及研究进展[J].海洋地质与第四纪地质,2010(3):133-142.
[49] CORRIGAN C E,RAMANATHAN V,SCHAUER J J.Impact of monsoon transitions on the physical and optical properties of aerosols[J].Journal of Geophysical Research:Atmospheres,2006,111(D18):D18208.
[50] HWANG C,CHEN S A.Circulations and eddies over the South China Sea derived from TOPEX/Poseidon altimetry[J].Journal of Geophysical Research:Oceans,2000,105(C10):23943-23965.
[51] VOSS M,BOMBAR D,LOICK N,et al.Riverine influence on nitrogen fixation in the upwelling region off Vietnam,South China Sea[J].Geophysical Research Letters,2006,33(7):872-879.
[52] HAN A,DAI M,KAO S J,et al.Nutrient dynamics and biological consumption in a large continental shelf system under the influence of both a river plume and coastal upwelling[J].Limnology & Oceanography,2012,57(2):486-502.
[53] SHAW P T,CHAO S Y,LIU K K,et al.Winter upwelling off Luzon in the northeastern South China Sea[J].Journal of Geophysical Research: Oceans,1996,101(C7):16435-16448.
[54] 吴日升,李立.南海上升流研究概述[J].应用海洋学学报,2003,22(2):269-277.
[55] CHEN C C,SHIAH F K,CHUNG S W,et al.Winter phytoplankton blooms in the shallow mixed layer of the South China Sea enhanced by upwelling[J].Journal of Marine Systems,2006,59(1):97-110.
[56] HUANG B,XIANG W,ZENG X,et al.Phytoplankton growth and microzooplankton grazing in a subtropical coastal upwelling system in the Taiwan Strait[J].Continental Shelf Research,2011,31(6):S48-S56.
[57] BARTH J A,MENGE B A,LUBCHENCO J,et al.Delayed upwelling alters nearshore coastal ocean ecosystems in the northern California current[J].Proceedings of the National Academy of Sciences of the United States of America,2007,104(10):3719-3724.
[58] WANG S F,TANG D L,HE F L,et al.Occurrences of harmful algal blooms(HABs)associated with ocean environments in the South China Sea[J].Hydrobiologia,2008,596(1):79-93.
[59] WU M L,WANG Y S,WANG D X,et al.Effects of coastal upwelling on picophytoplankton distribution off the coast of Zhanjiang in South China Sea[J].Oceanological and Hydrobiological Studies,2014,43(3):283-291.
[60] MCGILLICUDDY D J,ROBINSON A R,SIEGEL D A,et al.Influence of mesoscale eddies on new production in the Sargasso Sea[J].Nature,1998,394(6690):263-266.
[61] CORREDOR J E,MORELL J M,LOPEZ J M,et al.Cyclonic eddy entrains Orinoco River plume in eastern Caribbean[J].Eos Transactions American Geophysical Union,2013,85(20):197-202.
[62] MCGILLICUDDY D J,ANDERSON L A,BATES N R,et al.Eddy/wind interactions stimulate extraordinary mid-ocean plankton blooms[J].Science,2007,316(5827):1021-1026.
[63] BATTEN S D,CRAWFORD W R.The influence of coastal origin eddies on oceanic plankton distributions in the eastern Gulf of Alaska[J].Deep Sea Research Part Ⅱ:Topical Studies in Oceanography,2005,52(7):991-1009.
[64] SUN J,SONG S Q,FENG-FENG L E,et al.Phytoplankton in northern South China Sea in the winter of 2004[J].Acta Oceanologica Sinica,2007,29:132-145.
[65] HUANG B,HU J,CAO Z.Phytoplankton community at warm eddies in the northern South China Sea in winter 2003/2004[J]. Deep Sea Research Part Ⅱ:Topical Studies in Oceanograph,2010,57(19):1792-1798.
[66] CUI D Y,WANG J T,TAN L J,et al.Impact of atmospheric wet deposition on phytoplankton community structure in the South China Sea[J].Estuarine,Coastal and Shelf Science,2016,173:1-8.
[67] 钱永甫,王谦谦.海底地形对南海海流、海面高度和海温影响的数值试验[J].热带气象学报,1999,15(4):289-296.
[68] PAN G,CHAI F,TANG D L,et al.Marine phytoplankton biomass responses to typhoon events in the South China Sea based on physical-biogeochemical model[J].Ecological Modelling,2017,356:38-47.
[69] GUO L,XIU P,CHAI F,et al.Enhanced chlorophyll concentrations induced by Kuroshio intrusion fronts in the northern South China Sea[J].Geophysical Research Letters,2017,44(22):11565-11572.
[70] VIDEAU C,SOURNIA A,PRIEUR L,et al.Phytoplankton and primary production characteristics at selected sites in the geostrophic Almeria-Oran front system(SW Mediterranean Sea)[J].Journal of Marine Systems,1994,5(3/4/5):235-250.
[71] 张凯南,王珍岩,王保铎.2012 年春季南海南部不同水团上层海水中悬浮体分布特征及其物源分析[J].海洋科学,2014(3):26-36.
[72] GERTEN D,ADRIAN R.Climate-driven changes in spring plankton dynamics and the sensitivity of shallow polymictic lakes to the North Atlantic Oscillation[J].Limnology & Oceanography,2000,45(5):1058-1066.
[73] 黄邦钦,胡俊,柳欣,等.全球气候变化背景下浮游植物群落结构的变动及其对生物泵效率的影响[J].厦门大学学报(自然科学版),2011,50(2):402-410.
[74] ZHANG L,REN G,BAOLEERQIMUGE,et al.Climatology and change of the South China Sea surface temperature based on satellite observations[J].Marine Pollution Bulletin,2017,13(3):189-197.
[75] PETERS R L.The greenhouse effect and nature reserves[J].Bioscience,1985,35(11):707-717.
[76] 唐森铭,蔡榕硕,郭海峡,等.中国近海区域浮游植物生态对气候变化的响应[J].应用海洋学学报,2017(4):455-465.
[77] 唐启升,陈镇东,余克服,等.海洋酸化及其与海洋生物及生态系统的关系[J].科学通报,2013,58(14):1307-1314.
[78] CABANES C,CAZENAVE A,LE P C.Sea level rise during past 40 years determined from satellite and in situ observations[J].Science,2001,294(5543):840-842.
[79] H?DER D P,KUMAR H D,SMITH R C,et al.Effects of solar UV radiation on aquatic ecosystems and interactions with climate change[J].Photochemical & Photobiological Sciences,2007,6(3):267-285.
[80] 陈宝红,周秋麟,杨圣云.气候变化对海洋生物多样性的影响[J].台湾海峡,2009,28(3):437-444.
[81] 蔡榕硕,陈际龙,黄荣辉.我国近海和邻近海的海洋环境对最近全球气候变化的响应[J].大气科学,2006,30(5):1019-1033.
[82] 林森杰,王路,郑连明,等.海洋生物 DNA 条形码研究现状与展望[J].海洋学报,2014,36(12):1-17.
[83] WONG T F G,KU T L,MULHOLLAND M,et al.The South East Asian Time-series Study(SEATS)and the biogeochemistry of the South China Sea:an overview[J].Deep Sea Research Part Ⅱ:Topical Studies in Oceanography,2007,54(14):1434-1447.
[84] XU D,LI R,HU C,et al.Microbial eukaryote diversity and activity in the water column of the South China Sea based on DNA and RNA high throughput sequencing[J].Frontiers in Microbiology,2017,8:1121.[1] MORTON B,BLACKMORE G.South China Sea[J].Marine Pollution Bulletin,2001,42(12):1236-1263.
[2] SONG J M.Biogeochemical processes of the South China Sea[M]∥Biogeochemical processes of biogenic elements in China marginal seas.Berlin:Springer,2010:529-626.
[3] LE F,SUN J,NING X,et al.Phytoplankton in the northern South China Sea in summer 2004[J].Oceanologia et Limnologia Sinica,2006,37(3):238-248.
[4] FALKOWSKI P G,BARBER R T,SMETACEK V.Biogeochemical controls and feedbacks on ocean primary production[J].Science,1998,281(5374):200-206.
[5] HECKY R E,KILHAM P.Nutrient limitation of phytoplankton in freshwater and marine environments:a review of recent evidence on the effects of enrichment[J].Limnology & Oceanography,1988,33(4):796-822.
[6] NING X,CHAI F,XUE H,et al.Physical-biological oceanographic coupling influencing phytoplankton and primary production in the South China Sea[J].Journal of Geophysical Research:Oceans,2005,110:C05015.
[7] UTERM?HL H.Zur vervollkommnung der quantitativen phytoplankton-methodik[J].Mitteilungen Int Ver Limnol,1958,9:263-272.
[8] GOSSELAIN V,HAMILTON P B,DESCY J P.Estimating phytoplankton carbon from microscopic counts:an application for riverine systems[J].Hydrobiologia,2000,438(1/2/3):75-90.
[9] SIERACKI C K,SIERACKI M E,YENTSCH C S.An imaging-in-flow system for automated analysis of marine microplankton[J].Mar Ecol Prog Ser,1998,168(1):285-296.
[10] SALDARRIAGA J F,TAYLOR F J,KEELING P J,et al.Dinoflagellate nuclear SSU rRNA phylogeny suggests multiple plastid losses and replacements[J].Journal of Molecular Evolution,2001,53(3):204-213.
[11] XIAO W,WANG L,LAWS E,et al.Realized niches explain spatial gradients in seasonal abundance of phytoplankton groups in the South China Sea[J].Progress in Oceanography,2018,162:223-239.
[12] ZHU G H,NING X R,CAI Y M,et al.Studies on species composition and abundance distribution of phytoplankton in the South China Sea[J].Acta Oceanologica Sinica,2003,25:8-23.
[13] 孙军,宋书群,乐凤凤,等.2004 年冬季南海北部浮游植物[J].海洋学报,2007,29(5):132-145.
[14] 马威.南海北部浮游植物群落的生态学研究[D].青岛:中国海洋大学,2012:14-28.
[15] LING J.Ture characteristics of phytoplankton community in northern South China Sea in the summer of 2008[J].Journal of Biology,2012,29(2):42-46.
[16] 马威,孙军.夏、冬季南海北部浮游植物群落特征[J].生态学报,2014,34(3):621-632.
[17] 李冬融,戴鑫烽,陆斗定,等.2012 年夏季南海西北部网采浮游植物群落结构[J].海洋学研究,2014,32(3):87-96.
[18] KE Z X,HUANG L M,TAN Y H,et al.Species composition and abundance of phytoplankton in the northern South China Sea in summer 2007[J].Journal of Tropical Oceanography,2011,30(1):131-143.
[19] CHEN B,WANG L,SONG S,et al.Comparisons of picophytoplankton abundance,size,and fluorescence between summer and winter in northern South China Sea[J].Continental Shelf Research,2011,31(14):1527-1540.
[20] YU-HONG L I,ZHAO M X,ZHANG H L,et al.Phytoplankton biomarkers in surface seawater from the northern South China Sea in summer 2009 and their potential as indicators of biomass/community structure[J].Journal of Tropical Oceanography,2012,31(4):96-103.
[21] CAI Y M,NING X R,LIU C G,et al.Distribution pattern of photosynthetic picoplankton and heterotrophic bacteria in the northern South China Sea[J].Journal of Integrative Plant Biology,2007,49(3):282-298.
[22] 李丽,刘杰,贺娟,等.2008 年夏季南海北部浮游藻类生物量和群落组成特征及其影响因素:生物标记物研究[J].科学通报,2014(11):1016-1025.
[23] 吴钟解,王道儒,李元超,等.西沙监控区浮游植物生态现状[J].热带作物学报,2010,31(6):1020-1025.
[24] 钟超,肖武鹏,黄邦钦.中国南海西部浮游植物对中尺度涡的响应[J].海洋科学进展,2013,31(2):213-220.
[25] FAN Y Z,HUANG L M,LIN S J,et al.Study of genetic diversity of micro-planktonic eukaryotes in South China Sea by ITS and 5.8S rRNA gene cloning and sequencing[J].International Journal of Simulation:Systems,Science & Technology,2015,16(2A):1473-8031.
[26] 戴明,刘华雪,廖秀丽,等.初秋南沙群岛海域网采浮游植物群落特征及其与环境因子的关系[J].应用生态学报,2013,24(12):3553-3560.
[27] 陈艳拢,赵冬至,杨建洪,等.赤潮藻类温度生态幅的定量表达模型研究[J].海洋学报,2009,31(5):156-161.
[28] LIN J M,WANG W L,WANG L C,et al.Quaternary oceanographic changes,based on the diatom fossil record in the piston core MD972144 in the South China Sea[J].Western Pacific Earthences,2003,3(2):119-132.
[29] TANG D,NI I,KESTER D,et al.Remote sensing observations of winter phytoplankton blooms southwest of the Luzon Strait in the South China Sea[J].Marine Ecology Progress,1999,191(3):43-51.
[30] 林丽茹,赵辉.南海海域浮游植物叶绿素与海表温度季节变化特征分析[J].海洋学研究,2012,30(4):46-54.
[31] 彭欣,宁修仁,孙军,等.南海北部浮游植物生长对营养盐的响应[J].生态学报,2006,26(12):3959-3968.
[32] CAI W J,DAI M,WANG Y,et al.The biogeochemistry of inorganic carbon and nutrients in the Pearl River estuary and the adjacent Northern South China Sea[J].Continental Shelf Research,2004,24(12):1301-1319.
[33] WU M L,WANG Y S,WANG Y T,et al.Scenarios of nutrient alterations and responses of phytoplankton in a changing Daya Bay,South China Sea[J].Journal of Marine Systems,2017,165:1-12.
[34] 魏玉秋,孙军,丁昌玲.2014 年夏季南海北部超微型浮游植物分布及环境因子影响[J].海洋学报,2015,37(12):56-65.
[35] QIU D,HUANG L,ZHANG J,et al.Phytoplankton dynamics in and near the highly eutrophic Pearl River Estuary,South China Sea[J].Continental Shelf Research,2010,30(2):177-186.
[36] KUSTKA A,CARPENTER E J,SANUDOWILHELMY S A.Iron and marine nitrogen fixation:progress and future directions.[J].Research in Microbiology,2002,153(5):255-262.
[37] ZHOU L B,TAN Y H,HUANG L M,et al.Aluminum effects on marine phytoplankton:implications for a revised iron hypothesis(iron-aluminum hypothesis)[J].Biogeochemistry,2018,139(2):123-137.
[38] CHEAH W,TAYLOR B B,WIEGMANN S,et al.Photophysiological state of natural phytoplankton communities in the South China Sea and Sulu Sea[J].Biogeosciences Discussions,2013,10(7):12115-12153.
[39] SUN J,LIU D Y,WEI H.The phytoplankton sampling and analysis strategies in the study of the Bohai Sea ecosystem dynamics[J].Acta Oceanologica Sinica,2003,25:41-50.
[40] 陈兴群,陈其焕.南海中部叶绿素 a 分布和光合作用及其与环境因子的关系[J].海洋学报,1989,11(3):349-355.
[41] 郝锵,宁修仁,刘诚刚,等.南海北部初级生产力遥感反演及其环境调控机制[J].海洋学报,2007,29(3):58-68.
[42] JIAN Z,HUANG B,KUHNT W,et al.Late quaternary upwelling intensity and East Asian monsoon forcing in the South China Sea[J].Quaternary Research,2001,55(3):363-370.
[43] GAO S,WANG H.Seasonal and spatial distributions of phytoplankton biomass associated with monsoon and oceanic environments in the South China Sea[J].Acta Oceanologica Sinica,2008,27(6):17-32.
[44] LIU K K,CHAO S Y,SHAW P T,et al.Monsoon-forced chlorophyll distribution and primary production in the South China Sea:observations and a numerical study[J].Deep Sea Research Part Ⅰ: Oceanographic Research Papers,2002,49(8):1387-1412.
[45] TANG D L,KAWAMURA H,DIEN T V,et al.Offshore phytoplankton biomass increase and its oceanographic causes in the South China Sea[J].Mar Ecol Prog Ser,2004,268(1):31-41.
[46] TANG D L,KAWAMURA H,DOAN-NHU H et al.Remote sensing oceanography of a harmful algal bloom off the coast of southeastern Vietnam[J].Journal of Geophysical Research Oceans,2004,109(C3):C03014.
[47] TANG D L,KAWAMURA H,SHI P,et al.Seasonal phytoplankton blooms associated with monsoonal influences and coastal environments in the sea areas either side of the Indochina Peninsula[J].Journal of Geophysical Research: Biogeosciences,2015,111(G1):355-363.
[48] 刘杰,李丽,贺娟.南海海域浮游植物分布特征及研究进展[J].海洋地质与第四纪地质,2010(3):133-142.
[49] CORRIGAN C E,RAMANATHAN V,SCHAUER J J.Impact of monsoon transitions on the physical and optical properties of aerosols[J].Journal of Geophysical Research:Atmospheres,2006,111(D18):D18208.
[50] HWANG C,CHEN S A.Circulations and eddies over the South China Sea derived from TOPEX/Poseidon altimetry[J].Journal of Geophysical Research:Oceans,2000,105(C10):23943-23965.
[51] VOSS M,BOMBAR D,LOICK N,et al.Riverine influence on nitrogen fixation in the upwelling region off Vietnam,South China Sea[J].Geophysical Research Letters,2006,33(7):872-879.
[52] HAN A,DAI M,KAO S J,et al.Nutrient dynamics and biological consumption in a large continental shelf system under the influence of both a river plume and coastal upwelling[J].Limnology & Oceanography,2012,57(2):486-502.
[53] SHAW P T,CHAO S Y,LIU K K,et al.Winter upwelling off Luzon in the northeastern South China Sea[J].Journal of Geophysical Research: Oceans,1996,101(C7):16435-16448.
[54] 吴日升,李立.南海上升流研究概述[J].应用海洋学学报,2003,22(2):269-277.
[55] CHEN C C,SHIAH F K,CHUNG S W,et al.Winter phytoplankton blooms in the shallow mixed layer of the South China Sea enhanced by upwelling[J].Journal of Marine Systems,2006,59(1):97-110.
[56] HUANG B,XIANG W,ZENG X,et al.Phytoplankton growth and microzooplankton grazing in a subtropical coastal upwelling system in the Taiwan Strait[J].Continental Shelf Research,2011,31(6):S48-S56.
[57] BARTH J A,MENGE B A,LUBCHENCO J,et al.Delayed upwelling alters nearshore coastal ocean ecosystems in the northern California current[J].Proceedings of the National Academy of Sciences of the United States of America,2007,104(10):3719-3724.
[58] WANG S F,TANG D L,HE F L,et al.Occurrences of harmful algal blooms(HABs)associated with ocean environments in the South China Sea[J].Hydrobiologia,2008,596(1):79-93.
[59] WU M L,WANG Y S,WANG D X,et al.Effects of coastal upwelling on picophytoplankton distribution off the coast of Zhanjiang in South China Sea[J].Oceanological and Hydrobiological Studies,2014,43(3):283-291.
[60] MCGILLICUDDY D J,ROBINSON A R,SIEGEL D A,et al.Influence of mesoscale eddies on new production in the Sargasso Sea[J].Nature,1998,394(6690):263-266.
[61] CORREDOR J E,MORELL J M,LOPEZ J M,et al.Cyclonic eddy entrains Orinoco River plume in eastern Caribbean[J].Eos Transactions American Geophysical Union,2013,85(20):197-202.
[62] MCGILLICUDDY D J,ANDERSON L A,BATES N R,et al.Eddy/wind interactions stimulate extraordinary mid-ocean plankton blooms[J].Science,2007,316(5827):1021-1026.
[63] BATTEN S D,CRAWFORD W R.The influence of coastal origin eddies on oceanic plankton distributions in the eastern Gulf of Alaska[J].Deep Sea Research Part Ⅱ:Topical Studies in Oceanography,2005,52(7):991-1009.
[64] SUN J,SONG S Q,FENG-FENG L E,et al.Phytoplankton in northern South China Sea in the winter of 2004[J].Acta Oceanologica Sinica,2007,29:132-145.
[65] HUANG B,HU J,CAO Z.Phytoplankton community at warm eddies in the northern South China Sea in winter 2003/2004[J]. Deep Sea Research Part Ⅱ:Topical Studies in Oceanograph,2010,57(19):1792-1798.
[66] CUI D Y,WANG J T,TAN L J,et al.Impact of atmospheric wet deposition on phytoplankton community structure in the South China Sea[J].Estuarine,Coastal and Shelf Science,2016,173:1-8.
[67] 钱永甫,王谦谦.海底地形对南海海流、海面高度和海温影响的数值试验[J].热带气象学报,1999,15(4):289-296.
[68] PAN G,CHAI F,TANG D L,et al.Marine phytoplankton biomass responses to typhoon events in the South China Sea based on physical-biogeochemical model[J].Ecological Modelling,2017,356:38-47.
[69] GUO L,XIU P,CHAI F,et al.Enhanced chlorophyll concentrations induced by Kuroshio intrusion fronts in the northern South China Sea[J].Geophysical Research Letters,2017,44(22):11565-11572.
[70] VIDEAU C,SOURNIA A,PRIEUR L,et al.Phytoplankton and primary production characteristics at selected sites in the geostrophic Almeria-Oran front system(SW Mediterranean Sea)[J].Journal of Marine Systems,1994,5(3/4/5):235-250.
[71] 张凯南,王珍岩,王保铎.2012 年春季南海南部不同水团上层海水中悬浮体分布特征及其物源分析[J].海洋科学,2014(3):26-36.
[72] GERTEN D,ADRIAN R.Climate-driven changes in spring plankton dynamics and the sensitivity of shallow polymictic lakes to the North Atlantic Oscillation[J].Limnology & Oceanography,2000,45(5):1058-1066.
[73] 黄邦钦,胡俊,柳欣,等.全球气候变化背景下浮游植物群落结构的变动及其对生物泵效率的影响[J].厦门大学学报(自然科学版),2011,50(2):402-410.
[74] ZHANG L,REN G,BAOLEERQIMUGE,et al.Climatology and change of the South China Sea surface temperature based on satellite observations[J].Marine Pollution Bulletin,2017,13(3):189-197.
[75] PETERS R L.The greenhouse effect and nature reserves[J].Bioscience,1985,35(11):707-717.
[76] 唐森铭,蔡榕硕,郭海峡,等.中国近海区域浮游植物生态对气候变化的响应[J].应用海洋学学报,2017(4):455-465.
[77] 唐启升,陈镇东,余克服,等.海洋酸化及其与海洋生物及生态系统的关系[J].科学通报,2013,58(14):1307-1314.
[78] CABANES C,CAZENAVE A,LE P C.Sea level rise during past 40 years determined from satellite and in situ observations[J].Science,2001,294(5543):840-842.
[79] H?DER D P,KUMAR H D,SMITH R C,et al.Effects of solar UV radiation on aquatic ecosystems and interactions with climate change[J].Photochemical & Photobiological Sciences,2007,6(3):267-285.
[80] 陈宝红,周秋麟,杨圣云.气候变化对海洋生物多样性的影响[J].台湾海峡,2009,28(3):437-444.
[81] 蔡榕硕,陈际龙,黄荣辉.我国近海和邻近海的海洋环境对最近全球气候变化的响应[J].大气科学,2006,30(5):1019-1033.
[82] 林森杰,王路,郑连明,等.海洋生物 DNA 条形码研究现状与展望[J].海洋学报,2014,36(12):1-17.
[83] WONG T F G,KU T L,MULHOLLAND M,et al.The South East Asian Time-series Study(SEATS)and the biogeochemistry of the South China Sea:an overview[J].Deep Sea Research Part Ⅱ:Topical Studies in Oceanography,2007,54(14):1434-1447.
[84] XU D,LI R,HU C,et al.Microbial eukaryote diversity and activity in the water column of the South China Sea based on DNA and RNA high throughput sequencing[J].Frontiers in Microbiology,2017,8:1121.

备注/Memo

备注/Memo:
收稿日期:2018-05-27 录用日期:2018-11-06
基金项目: 国家重点研发计划(2016YFA0601202); 国家自然科学基金(41776116)
*通信作者:senjie.lin@xmu.edu.cn
更新日期/Last Update: 1900-01-01