|本期目录/Table of Contents|

[1]黄邦钦*,肖武鹏,柳 欣.低纬度边缘海浮游植物群落演变及其与全球变化的关联[J].厦门大学学报(自然科学版),2018,57(06):788-799.[doi:10.6043/j.issn.0438-0479.201805033]
 HUANG Bangqin*,XIAO Wupeng,LIU Xin.Review on Variations of Phytoplankton Communities in the Low Latitude Marginal Seas and Their Correlations with Global Changes[J].Journal of Xiamen University(Natural Science),2018,57(06):788-799.[doi:10.6043/j.issn.0438-0479.201805033]
点击复制

低纬度边缘海浮游植物群落演变及其与全球变化的关联(PDF/HTML)
分享到:

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

卷:
57卷
期数:
2018年06期
页码:
788-799
栏目:
海洋生态系统与全球变化
出版日期:
2018-11-28

文章信息/Info

Title:
Review on Variations of Phytoplankton Communities in the Low Latitude Marginal Seas and Their Correlations with Global Changes
文章编号:
0438-0479(2018)06-0788-12
作者:
黄邦钦*肖武鹏柳 欣
厦门大学 环境与生态学院,近海海洋环境科学国家重点实验室,福建省海陆界面生态环境重点实验室,福建 厦门 361102
Author(s):
HUANG Bangqin*XIAO WupengLIU Xin
State Key Laboratory of Marine Environmental Science,Fujian Provincial Key Laboratory for Coastal Ecology and Environmental Studies,College of the Environment & Ecology,Xiamen University,Xiamen 361102,China
关键词:
浮游植物 生态系统 长期演变 全球气候变化 边缘海
Keywords:
phytoplankton ecosystems long-term changes global climate change marginal seas
分类号:
P 735
DOI:
10.6043/j.issn.0438-0479.201805033
文献标志码:
A
摘要:
随着全球变暖和人类活动的加剧,低纬度边缘海浮游植物群落已发生或正在发生变化,并影响整个生态系统结构和功能.综述了加勒比海、阿拉伯海和南中国海(南海)这3个典型低纬度边缘海的浮游植物群落演变格局,分析了其变动的驱动因素及其与全球气候变化的关联,探讨了群落变动对海洋生态系统功能的影响及其效应.在此基础上分析了目前该研究领域的不足以及未来的发展方向,指出应加强低纬度边缘海生态结构与功能的长期观测,以期揭示气候变化和人类活动对生态系统的影响及其效应.
Abstract:
Phytoplankton communities as well as planktonic ecosystem are changing under global climate change(e.g.,warming)and human activities in the low latitude marginal seas.Such changes profoundly affect the whole ecosystem structure and functioning.In this paper,the variations of phytoplankton communities in three typical low latitude marginal seas,the Caribbean Sea,the Arabian Sea,and the South China Sea,were reviewed.The driving factors for these various changes and their correlations with global climate changes were described.The effects of community changes on ecosystem functioning were discussed.The review finally pointed out the deficiencies and future directions of phytoplankton ecology and global changes.The authors highly suggested launching a long-term observation of planktonic ecosystem structure and functioning,and elucidated the underlying mechanism of ecosystem response to climate change and human perturbation in the low latitude marginal seas.

参考文献/References:

[1] FIELD C B,BEHRENFELD M J,RANDERSON J T,et al.Primary production of the biosphere:integrating terrestrial and oceanic components[J].Science,1998,281(5374):237-240.
[2] GODHE A,NARAYANASWAMY C,KLAIS R,et al.Long-term patterns of net phytoplankton and hydrography in coastal SE Arabian Sea:what can be inferred from genus level data?[J].Estuarine Coastal and Shelf Science,2015,162:69-75.
[3] MAZAROVICH A O.Marginal seas:terminological crisis[J].Geotectonics,2011,45(4):317-333.
[4] MEURANT G.Ecology of tropical oceans[M].San Diego:Elsevier,2012:407.
[5] MCKINNON A D,WILLIAMS A,YOUNG J,et al.Tropical marginal seas:priority regions for managing marine biodiversity and ecosystem function[J].Annual Review of Marine Science,2014,6(6):415-437.
[6] 黄邦钦,柳欣.边缘海浮游生态系统对生物泵的调控作用[J].地球科学进展,2015,30(3):385-395.
[7] GATTUSO J P,MAGNAN A,BILL R,et al.Contrasting futures for ocean and society from different anthropogenic CO2 emissions scenarios[J].Science,2015,349(6243):aac4722.
[8] HALPERN B S,WALBRIDGE S,SELKOE K A,et al.A global map of human impact on marine ecosystems[J].Science,2008,319(5865):948-952.
[9] LIDZ L,CHARM W B,BALL M M,et al.Marine basins off the coast of Venezuela[J].Bulletin of Marine Science,1969,19(1):1-17.
[10] MULLER-KARGER F,VARELA R,THUNELL R,et al.Annual cycle of primary production in the Cariaco basin:response to upwelling and implications for vertical export[J].Journal of Geophysical Research:Oceans,2001,106(C3):4527-4542.
[11] RUEDA-ROA D T,MULLER-KARGER F E.The southern Caribbean upwelling system:sea surface temperature,wind forcing and chlorophyll concentration patterns[J].Deep Sea Research Part Ⅰ,2013,78(4):102-114.
[12] THUNELL R,BENITEZ-NELSON C,VARELA R,et al.Particulate organic carbon fluxes along upwelling-dominated continental margins:rates and mechanisms[EB/OL].[2007-03-21].http:∥doi.org/10.1029/2006GB002793.
[13] TAYLOR G T,MULLERKARGER F E,THUNELL R C,et al.Ecosystem responses in the southern Caribbean Sea to global climate change[J].Proceedings of the National Academy of Sciences of the United States of America,2012,109(47):19315-19320.
[14] SCRANTON M,TAYLOR G T,THUNELL R,et al.Interannual and decadal variability in the nutrient geochemistry of the Cariaco Basin[J].Oceanography,2014,27(1):148-159.
[15] LORENZONI L,TORO-FARMER G,VARELA R,et al.Characterization of phytoplankton variability in the Cariaco Basin using spectral absorption,taxonomic and pigment data[J].Remote Sensing of Environment,2015,167:259-268.
[16] PINCKNEY J L,BENITEZ-NELSON C R,THUNELL R C,et al.Phytoplankton community structure and depth distribution changes in the Cariaco Basin between 1996 and 2010[J].Deep Sea Research Part Ⅰ,2015,101:27-37.
[17] MONTES E,THUNELL R,MULLER-KARGER F E,et al.Sources of δ 15 N variability in sinking particulate nitrogen in the Cariaco Basin,Venezuela[J].Deep Sea Research Part Ⅱ,2013,93(26):96-107.
[18] IRWIN A J,FINKEL Z V,MULLER-KARGER F E,et al.Phytoplankton adapt to changing ocean environments[J].Proceedings of the National Academy of Sciences of the United States of America,2015,112(18):5762-5766.
[19] BOPP L,AUMONT O,CADULE P,et al.Response of diatoms distribution to global warming and potential implications:a global model study[J].Geophysical Research Letters,2005,32(19):307-323.
[20] STEINBERG D K,MOOY B A S V,BUESSELER K O,et al.Bacterial vs.zooplankton control of sinking particle flux in the ocean’s twilight zone[J].Limnology and Oceanography,2008,53(4):1327-1338.
[21] RICHARDSON T L,JACKSON G A.Small phytoplankton and carbon export from the surface ocean[J].Science,2007,315(5813):838.
[22] BROCK J C,MCCLAIN C R.Interannual variability in phytoplankton blooms observed in the northwestern Arabian Sea during the southwest monsoon[J].Journal of Geophysical Research:Oceans,1992,97(C1):733-750.
[23] BANSE K.Seasonality of phytoplankton chlorophyll in the central and northern Arabian Sea[J].Deep Sea Research Part A,1987,34(5/6):713-723.
[24] LéVY M,SHANKAR D,ANDR J M,et al.Basin-wide seasonal evolution of the Indian Ocean’s phytoplankton blooms[J].Journal of Geophysical Research:Oceans,2007,112(C12):1-46.
[25] BEMAL S,ANIL A C,SHANKAR D,et al.Picophyto-plankton variability:influence of winter convective mixing and advection in the northeastern Arabian Sea[J].Journal of Marine Systems,2018,180:37-48.
[26] MADHUPRATAP M,KUMAR S P,BHATTATHIRI P M A,et al.Mechanism of the biological response to winter cooling in the northeastern Arabian Sea[J].Nature,1996,384(6609):36-36.
[27] NAQVI S W A,NAIK H,NARVEKAR P V.The Arabian Sea[M]∥BLACK K D,SHIMMIELD G B.Biogeochemistry of marine systems.Blackwell:Oxford,2003:156-206.
[28] GARRISON D L,GOWING M M,HUGHES M P.Nano- and microplankton in the northern Arabian Sea during the southwest monsoon,August-September 1995 A US-JGOFS study[J].Deep Sea Research Part Ⅱ,1998,45(10/11):2269-2299.
[29] SAWANT S,MADHUPRATAP M.Seasonally and composition of phytoplankton in the Arabian Sea[J].Burns,1996,18(2):107-108.
[30] GARRISON D L,GOWING M M,HUGHES M P,et al.Microbial food web structure in the Arabian Sea:a US JGOFS study[J].Deep Sea Research Part Ⅱ,2000,47(7/8):1387-1422.
[31] TARRAN G A,BURKILL P H,EDWARDS E S,et al.Phytoplankton community structure in the Arabian Sea during and after the SW monsoon,1994[J].Deep Sea Research Part Ⅱ,1999,46(3/4):655-676.
[32] KUMAR S P,RAMAIAH N,GAUNS M,et al.Physical forcing of biological productivity in the Northern Arabian Sea during the northeast monsoon[J].Deep Sea Research Part Ⅱ,2001,48(6):1115-1126.
[33] GANDHI N,SINGH A,PRAKASH S,et al.First direct measurements of N2 fixation during a Trichodesmium bloom in the eastern Arabian Sea[J].Global Biogeochemical Cycles,2011,25(GB4014):1-11.
[34] KRISHNAKUMAR P,BHAT G.Seasonal and interannual variations of oceanographic conditions off Mangalore coast(Karnataka,India)in the Malabar upwelling system during 1995—2004 and their influences on the pelagic fishery[J].Fisheries Oceanography,2008,17(1):45-60.
[35] PIONTKOVSKI S A,QUESTE B Y.Decadal changes of the Western Arabian Sea ecosystem[J].International Aquatic Research,2016,8(1):49-64.
[36] ROXY M K,MODI A,MURTUGUDDE R,et al.A reduction in marine primary productivity driven by rapid warming over the tropical Indian Ocean[J].Geophysical Research Letters,2016,43(2):826-833.
[37] SCHUBERT C J,VILLANUEVA J,CALVERT S E,et al.Stable phytoplankton community structure in the Arabian Sea over the past 200 000 years[J].Nature,1998,394(6693):563-566.
[38] GOMES H D R,GOES J I,MATONDKAR S G P,et al.Massive outbreaks of Noctiluca scintillans blooms in the Arabian Sea due to spread of hypoxia[J].Nature Communications,2014,5(4862):1-8.
[39] GOES J I,THOPPIL P G,GOMES H R,et al.Warming of the Eurasian landmass is making the Arabian Sea more productive[J].Science,2005,308(5721):545-547.
[40] PRAKASH S,ROY R,LOTLIKER A.Revisiting the Noctiluca scintillans paradox in northern Arabian Sea[J].Current Science,2017,113(7):1429-1434.
[41] CHNDRASEKHARARAO A V,KURIAN S,VIDYA P J,et al.Phytoplankton response to the contrasting physical regimes in the eastern Arabian Sea during north east monsoon[EB/OL].[2018-02-23].http:∥doi.org/10.1016/j.jmarsys.2018.02.002.
[42] CHU P C,FAN C.Low salinity,cool-core cyclonic eddy detected northwest of Luzon during the South China Sea monsoon experiment(SCSMEX)in July 1998[J].Journal of Oceanography,2001,57(5):549-563.
[43] 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,2004,110(C5):215-255.
[44] CHU P C,LU S,CHEN Y.Temporal and spatial variabilities of the South China Sea surface temperature anomaly[J].Journal of Geophysical Research:Atmospheres,1997,102(C9):20937-20955.
[45] TSENG C M,WONG G T F,LIN I I,et al.A unique seasonal pattern in phytoplankton biomass in low-latitude waters in the South China Sea[J].Geophysical Research Letters,2005,32(8):487-500.
[46] WONG G T F,SHI-WEI C,FUH-KWO S,et al.Nitrate anomaly in the upper nutricline in the northern South China Sea:evidence for nitrogen fixation[J].Geophysical Research Letters,2002,29(23):2097.
[47] WONG G T F,KU T L,MULHOLLAND M,et al.The Southeast Asian time-series study(SEATS)and the biogeochemistry of the South China Sea:an overview[J].Deep Sea Research Part Ⅱ,2007,54(14/15):1434-1447.
[48] GAN J,LU Z,DAI M,et al.Biological response to intensified upwelling and to a river plume in the northeastern South China Sea:a modeling study[J].Journal of Geophysical Research:Oceans,2010,115(C09001):1-19.
[49] SU J.Overview of the South China Sea circulation and its influence on the coastal physical oceanography outside the Pearl River Estuary[J].Continental Shelf Research,2004,24(16):1745-1760.
[50] HUANG Y,YANG B,CHEN B,et al.Net community production in the South China Sea Basin estimated from in situ O2 measurements on an Argo profiling float[J].Deep Sea Research Part Ⅰ,2018,131:54-61.
[51] 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,2002,49(8):1387-1412.
[52] TAN S C,SHI G Y.Spatiotemporal variability of satellite-derived primary production in the South China Sea,1998-2006[J].Journal of Geophysical Research:Atmospheres,2009,114(G3):363-369.
[53] PALACZ A P,XUE H,ARMBRECHT C,et al.Seasonal and inter-annual changes in the surface chlorophyll of the South China Sea[J].Journal of Geophysical Research:Oceans,2011,116(C9):295-308.
[54] WANG L,HUANG B,CHIANG K P,et al.Physical-biological coupling in the western South China Sea:the response of phytoplankton community to a mesoscale cyclonic eddy[J].PLoS One,2016,11(4):e0153735.
[55] HUANG B,HU J,XU H,et al.Phytoplankton community at warm eddies in the northern South China Sea in winter 2003/2004[J].Deep Sea Research Part Ⅱ,2010,57(19/20):1792-1798.
[56] 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.
[57] LU Z,GAN J.Controls of seasonal variability of phyto-plankton blooms in the Pearl River Estuary[J].Deep Sea Research Part Ⅱ,2015,117:86-96.
[58] CHEN W,LIU Q,HUH C A,et al.Signature of the Mekong River plume in the western South China Sea revealed by radium isotopes[J].Journal of Geophysical Research:Atmospheres,2010,115(C12):993-999.
[59] 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.
[60] LIU A K,CHANG Y S,HSU M K,et al.Evolution of nonlinear internal waves in the East and South China Seas[J].Journal of Geophysical Research:Oceans,1998,103(C4):7995-8008.
[61] GUO P,FANG W,LIU C,et al.Seasonal characteristics of internal tides on the continental shelf in the northern South China Sea[J].Journal of Geophysical Research:Oceans,2012,117(C04023):1-13.
[62] LI G,WU Y,GAO K.Effects of Typhoon Kaemi on coastal phytoplankton assemblages in the South China Sea,with special reference to the effects of solar UV radiation[J].Journal of Geophysical Research:Biogeosciences,2015,114(G4):213-213.
[63] PAN G,CHAI F,TANG D,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.
[64] WANG G,LING Z,WANG C.Influence of tropical cyclones on seasonal ocean circulation in the South China Sea[J].Journal of Geophysical Research:Oceans,2009,114(C10022):1-11.
[65] ZHOU K,DAI M,KAO S J,et al.Apparent enhancement of 234 Th-based particle export associated with anticyclonic eddies[J].Earth and Planetary Sciences Letters,2013,381:198-209.
[66] 乐凤凤,宁修仁,刘诚刚,等.2006年冬季南海北部浮游植物生物量和初级生产力及其环境调控[J].生态学报,2008,28(11):5775-5784.
[67] 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.
[68] 马威,孙军,田伟.2009年冬季南海北部网采浮游植物群落结构[J].海洋科学,2011,35(9):8-13.
[69] 宫相忠,马威,田伟,等.2009年夏季南海北部的网采浮游植物群落[J].中国海洋大学学报(自然科学版),2012,42(4):48-54.
[70] 林强,尹健强,黄良民,等.2007年春季南海西北部陆架区海域浮游植物的群落结构[J].应用海洋学学报,2011,30(4):559-569.
[71] LIU H,CHANG J,TSENG C M,et al.Seasonal variability of picoplankton in the Northern South China Sea at the SEATS station[J].Deep Sea Research Part Ⅱ,2007,54(14/15):1602-1616.
[72] WU W,HUANG B,ZHONG C.Photosynthetic picoeuka-ryote assemblages in the South China Sea from the Pearl River estuary to the SEATS station[J].Aquatic Microbial Ecology,2014,71(3):271-284.
[73] WU W,WANG L,LIAO Y,et al.Spatial and seasonal distributions of photosynthetic picoeukaryotes along an estuary to basin transect in the northern South China Sea[J].Journal of Plankton Research,2017,39(3):423-435.
[74] WU W,LOGARES R,HUANG B,et al.Abundant and rare picoeukaryotic sub-communities present contrasting patterns in the epipelagic waters of marginal seas in the northwestern Pacific Ocean[J].Environmental Micro-biology,2017,19(1):287-300.
[75] 陈纪新,黄邦钦,刘媛,等.应用特征光合色素研究东海和南海北部浮游植物的群落结构[J].地球科学进展,2006,21(7):738-746.
[76] ZHAI H,NING X,TANG X,et al.Phytoplankton pigment patterns and community composition in the northern South China Sea during winter[J].Chinese Journal of Oceanology and Limnology,2011,29(2):233-245.
[77] HO T Y,PAN X,YANG H H,et al.Controls on temporal and spatial variations of phytoplankton pigment distribution in the Northern South China Sea[J].Deep Sea Research Part Ⅱ,2015,117(6):65-85.
[78] WANG L,HUANG B,LAWS E A,et al.Anticyclonic eddy edge effects on phytoplankton communities and particle export in the northern South China Sea[J].Journal of Geophysical Research:Oceans,2018,doi:10.1029/2017JC013623.
[79] 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.
[80] 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.
[81] GAO K,XU J,GAO G,et al.Rising CO2 and increased light exposure synergistically reduce marine primary productivity[J].Nature Climate Change,2012(2):519-523.
[82] HONG H,SHEN R,ZHANG F,et al.The complex effects of ocean acidification on the prominent N2-fixing cyanobacterium Trichodesmium[J].Science,2017,356(6337):527.
[83] LLOPE M,CHAN K,CIANNELLI L,et al.Effects of environmental conditions on the seasonal distribution of phytoplankton biomass in the North Sea[J].Limnology and Oceanography,2009,25(2):65-72.
[84] 黄邦钦,刘光兴,史大林,等.海洋生态系统储碳过程的多尺度调控及其对全球变化的响应[J].中国基础科学,2017,19(1):27-29.
[85] FLOMBAUM P,GALLEGOS J L,GORDILLO R A,et al.Present and future global distributions of the marine Cyanobacteria Prochlorococcus and Synechococcus[J].Proceedings of the National Academy of Sciences of the United States of America,2013,110(24):9824-9829.
[86] IRWIN A J,FINKEL Z V.Mining a sea of data:deducing the environmental controls of ocean chlorophyll[J].PLoS One,2008,3(11):e3836.
[87] BOYCE D G,LEWIS M R,WORM B.Global phyto-plankton decline over the past century[J].Nature,2010,466(7306):591-596.
[88] XIAO W,LIU X,IRWIN A J,et al.Warming and eutrophication combine to restructure diatoms and dinoflagellates[J].Water Research,2018,128:206-216.
[89] BRENNAN G,COLLINS S.Growth responses of a green alga to multiple environmental drivers[J].Nature Climate Change,2015,5(9):892-897.
[90] LIU X,XIAO W,LANDRY M R,et al.Responses of phytoplankton communities to environmental variability in the East China Sea[J].Ecosystems,2016,19(5):832-849.
[91] 陈长胜.海洋生态系统动力学与模型[M].北京:高等教育出版社,2003:419.
[92] LITCHMAN E,KLAUSMEIER C A,MILLER J R,et al.Multi-nutrient,multi-group model of present and future oceanic phytoplankton communities[J].Biogeosci-ences,2006,3(4):585-606.
[93] CHEN B,SMITH S L.CITRATE 1.0:Phytoplankton continuous trait-distribution model with one-dimensional physical transport applied to the North Pacific[J].Geoscientific Model Development Discussions,2018,11:1-50.
[94] TOLLEFSON J.Ocean scientists work to forecast huge plankton blooms in Arabian Sea[J].Nature,2018,555(7698):569-570.

备注/Memo

备注/Memo:
收稿日期:2018-05-24 录用日期:2018-08-28
基金项目:国家自然科学基金重点项目(41330961); 科技部重点研发计划(2016YFA0601201)
*通信作者:bqhuang@xmu.edu.cn
引文格式:黄邦钦,肖武鹏,柳欣.低纬度边缘海浮游植物群落演变及其与全球变化的关联[J].厦门大学学报(自然科学版),2018,57(6):788-799.
Citation:HUANG B Q,XIAO W P,LIU X.Review on variations of phytoplankton communities in the low latitude marginal seas and their correlations with global changes[J].J Xiamen Univ Nat Sci,2018,57(6):788-799.(in Chinese)
更新日期/Last Update: 1900-01-01