|本期目录/Table of Contents|

 GAO Kunshan.Ecological and Physiological Effects of Ocean Acidification and Their Correlations with Warming,UV Radiation and Deoxygenation[J].Journal of Xiamen University(Natural Science),2018,57(06):800-810.[doi:10.6043/j.issn.0438-0479.201807008]





Ecological and Physiological Effects of Ocean Acidification and Their Correlations with Warming,UV Radiation and Deoxygenation
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
GAO Kunshan
State Key Laboratory of Marine Environmental Science,College of Ocean and Earth Sciences,Xiamen University,Xiamen 361102,China
海洋酸化 低氧化 海洋升温 UV辐射 海洋生物
ocean acidification deoxygenation ocean warming UV radiation marine organisms
P 76
The oceans are taking up over one million tons of fossil CO2,resulting in increased dissolved CO2 and declining pH,leading to ocean acidification.Meanwhile,global warming due to accumulated CO2 and other greenhouse gases is causing ocean warming,which enhances stratification with thinned upper mixed layers,exposing planktonic cells or individuals within this layer to increasing levels of daytime integrated visible light as well as UV radiation.Ocean warming also reduces dissolved oxygen in seawater,resulting in ocean deoxygenation.All these ocean global changes are supposed to influence marine ecosystems in different regions.However,regional responses and ecological effects are expected to differ based on the documented knowledges.This review overviews the research advances in ocean acidification,highlighting the combined effects of ocean acidification with warming and solar UV radiation,and analyzes future research perspectives and then proposes some scientific hypothesis.


[1] NOAA.Global warming update 2016[EB/OL].[2018-07-07].https:∥www.co2.earth/.
[2] RIEBESELL U,GATTUSO J P.Lessons learned from ocean acidification research[J].Nature Climate Change,2015,5(1):12-14.
[3] BOYD P W,COLLINS S,DUPONT S,et al.Experimental strategies to assess the biological ramifications of multiple drivers of global ocean change:a review[J].Global Change Biology,2018,24(6):2239-2261.
[4] SABINE C L,FEELY R A,GRUBER N,et al.The oceanic sink for anthropogenic CO2[J].Science,2004,305(5682):367-371.
[5] H?NISCH B,RIDGWELL A,SCHMIDT D N,et al.The geological record of ocean acidification[J].Science,2012,335(6072):1058-1063.
[6] GARBELLI C,ANGIOLINI L,SHEN S Z.Biomineralization and global change:a new perspective for understanding the end-Permian extinction[J].Geology,2017,45(1):19-22.
[7] FABRICIUS K E,LANGDON C,UTHICKE S,et al.Losers and winners in coral reefs acclimatized to elevated carbon dioxide concentrations[J].Nature Climate Change,2011,1(3):165.
[8] 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.
[9] CAI W J,HU X,HUANG W J,et al.Acidification of subsurface coastal waters enhanced by eutrophication[J].Nature Geoscience,2011,4(11):766-770.
[10] IGBP IOC SCOR.Ocean acidification summary for policymakers:third symposium on the ocean in a high-CO2 world [C/OL].[2018-07-07].Stockholm:IGBP,2013.http:∥www.igbp.net/publications/summariesfo-rpolicymakers/summariesforpolicymakers/oceanacidifica-tionsummaryforpolicymakers2013.5.30566fc6142425d6c9111f4.html.
[11] 邓雪,胡玉斌,刘春颖,等.胶州湾表层海水碳酸盐体系的季节变化[J].海洋与湖沼,2016,47(1):234-244.
[12] CHAI F,LIU G,XUE H,et al.Seasonal and interannual variability of carbon cycle in South China Sea:a three-dimensional physical-biogeochemical modeling study[J].Journal of Oceanography,2009,65(5):703-720.
[13] DAI M,LU Z,ZHAI W,et al.Diurnal variations of surface seawater pCO2 in contrasting coastal environments[J].Limnology and Oceanography,2009,54(3):735-745.
[14] WANG G,JING W,WANG S,et al.Coastal acidification induced by tidal-driven submarine groundwater discharge in a coastal coral reef system[J].Environmental Science & Technology,2014,48(22):13069-13075.
[15] ZHAI W D,ZHAO H,ZHENG N,et al.Coastal acidification in summer bottom oxygen-depleted waters in northwestern-northern Bohai Sea from June to August in 2011[J].Chinese Science Bulletin,2012,57(9):1062-1068.
[16] 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.
[17] SUNDAY J M,FABRICIUS K E,KROEKER K J,et al.Ocean acidification can mediate biodiversity shifts by changing biogenic habitat[J].Nature Climate Change,2017,7(1):81.
[18] ALBRIGHT R,TAKESHITA Y,KOWEEK D A,et al.Carbon dioxide addition to coral reef waters suppresses net community calcification[J].Nature,2018,555(7697):516-519.
[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].Marine Biology,1993,117(1):129-132.
[20] GAO K,ZHENG Y.Combined effects of ocean acidification and solar UV radiation on photosynthesis,growth,pigmentation and calcification of the coralline alga Corallina sessilis(Rhodophyta)[J].Global Change Biology,2009,16(8):2388-2398.
[21] 张明亮,邹健,方建光,等.海洋酸化对栉孔扇贝钙化,呼吸以及能量代谢的影响[J].渔业科学进展,2011,32(4):48-54.
[22] GAZEAU F,PARKER L M,COMEAU S,et al.Impacts of ocean acidification on marine shelled molluscs[J].Marine Biology,2013,160(8):2207-2245.
[23] WANG Q,CAO R,NING X,et al.Effects of ocean acidification on immune responses of the Pacific oyster Crassostrea gigas[J].Fish & Shellfish Immunology,2016,49:24-33.
[24] KURIHARA H,MATSUI M,FURUKAWA H,et al.Long-term effects of predicted future seawater CO2 conditions on the survival and growth of the marine shrimp Palaemon pacificus[J].Journal of Experimental Marine Biology and Ecology,2008,367(1):41-46.
[25] LI W,GAO K.A marine secondary producer respires and feeds more in a high CO2 ocean[J].Marine Pollution Bulletin,2012,64(4):699-703.
[26] STUMPP M,HU M,CASTIES I,et al.Digestion in sea urchin larvae impaired under ocean acidification[J].Nature Climate Change,2013,3(12):1044-1049.
[27] HALL-SPENCER J M,ALLEN R.The impact of CO2 emissions on "nuisance" marine species[J].Research and Reports in Biodiversity Studies,2015,4:33-46.
[28] CHEN S,GAO K,BEARDALL J.Viral attack exacerbates the susceptibility of a bloom-forming alga to ocean acidification[J].Global Change Biology,2015,21(2):629-636.
[29] MUNDAY P L,DIXSON D L,DONELSON J M,et al.Ocean acidification impairs olfactory discrimination and homing ability of a marine fish[J].Proceedings of the National Academy of Sciences of the United States of America,2009,106(6):1848-1852.
[30] NILSSON G E,DIXSON D L,DOMENICI P,et al.Near-future carbon dioxide levels alter fish behaviour by interfering with neurotransmitter function[J].Nature Climate Change,2012,2(3):201-204.
[31] DIXSON D L,JENNINGS A R,ATEMA J,et al.Odor tracking in sharks is reduced under future ocean acidification conditions[J].Global Change Biology,2015,21(4):1454-1462.
[32] 王晓杰,宋佳坤,范纯新,等.海洋酸化对鱼类感觉和行为影响的研究进展[J].生态毒理学报,2015,10(6):13-20.
[33] AGUSTI S,GONZLEZ-GORDILLO J I,VAQU D,et al.Ubiquitous healthy diatoms in the deep sea confirm deep carbon injection by the biological pump[J].Nature Communications,2015,6:7608.
[34] 薛冰,孙军,李婷婷.2014 年夏季南海北部浮游植物群落结构[J].海洋学报,2016,38(4):54-65.
[35] MILLIGAN A J,VARELA D E,BRZEZINSKI M A,et al.Dynamics of silicon metabolism and silicon isotopic discrimination in a marine diatomas a function of pCO2[J].Limnology and Oceanography,2004,49(2):322-329.
[36] XU K,FU F X,HUTCHINS D A.Comparative responses of two dominant Antarctic phytoplankton taxa to interactions between ocean acidification,warming,irradiance,and iron availability[J].Limnology and Oceanography,2014,59(6):1919-1931.
[37] LIU H,CHEN M,ZHU F,et al.Effect of diatom silica content on copepod grazing,growth and reproduction[J].Frontiers in Marine Science,2016,3:89.
[38] 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(7):519-523.
[39] LI F,WU Y,HUTCHINS D A,et al.Physiological responses of coastal and oceanic diatoms to diurnal fluctuations in seawater carbonate chemistry under two CO2 concentrations[J].Biogeosciences,2016,13(22):6247.
[40] JIN P,WANG T,LIU N,et al.Ocean acidification increases the accumulation of toxic phenolic compounds across trophic levels[J].Nature Communications,2015,6:8714.
[41] WANG Y,ZHANG R,ZHENG Q,et al.Bacterioplankton community resilience to ocean acidification:evidence from microbial network analysis[J].ICES Journal of Marine Science,2015,73(3):865-875.
[42] VIVIANI D A.Variability and controls of production,partitioning,and utilization of organic matter in the North Pacific Subtropical Gyre [D].Manoa:University of Hawaii,2016.
[43] BUNSE C,LUNDIN D,KARLSSON C M,et al.Response of marine bacterioplankton pH homeostasis gene expression to elevated CO2[J].Nature Climate Change,2016,6(5):483-487.
[44] LIN X,HUANG R,LI Y,et al.Interactive network configuration maintains bacterioplankton community structure under elevated CO2 in a eutrophic coastal mesocosm experiment[J].Biogeosciences,2018,15(2):551-565.
[45] KRUEGER A P,FONG J.The relationship between bacterial growth and phage production[J].The Journal of General Physiology,1937,21(2):137-150.
[46] WEIL M,BEARD D,BEARD J.pH stability,response to antibiotics and factors influencing egg-culture of mumps virus[J].Proceedings of the Society for Experimental Biology and Medicine,1948,68(2):308-309.
[47] JIN S,ZHANG B,WEISZ O A,et al.Receptor-mediated entry by equine infectious anemia virus utilizes a pH-dependent endocytic pathway[J].Journal of Virology,2005,79(23):14489-14497.
[48] TRAVING S J,CLOKIE M R,MIDDELBOE M.Increased acidification has a profound effect on the interactions between the cyanobacterium Synechococcus sp.WH7803 and its viruses[J].FEMS Microbiology Ecology,2014,87(1):133-141.
[49] CARREIRA C,HELDAL M,BRATBAK G.Effect of increased pCO2 on phytoplankton-virus interactions[J].Biogeochemistry,2013,114(1/2/3):391-397.
[50] FLYNN K J,CLARK D R,MITRA A,et al.Ocean acidification with(de)eutrophication will alter future phytoplankton growth and succession[J].Proceedings of the Royal Society of London B:Biological Sciences,2015,282(1804):20142604.
[51] IPCC.Climate change 2013:the physical science basis[M].Cambridge and New York:Cambridge University Press,2013:6-10.
[52] LEVITUS S,ANTONOV J I,BOYER T P,et al.Warming of the world ocean[J].Science,2000,287(5461):2225-2229.
[53] FISCHETTI M.Deep heat threatens marine life[J].Scientific American,2013,308(4):92.
[54] BIGG G,HANNA E.Impacts and effects of ocean warming on the weather [C]∥Explaining Ocean Warming:Causes,Scale,Effects and Consequences.Gland:IUCN,2016:359-372.
[55] BAO B,REN G.Climatological characteristics and long-term change of SST over the marginal seas of China[J].Continental Shelf Research,2014,77:96-106.
[56] WILLIAMS G A,HELMUTH B,RUSSELL B D,et al.Meeting the climate change challenge:pressing issues in southern China and SE Asian coastal ecosystems[J].Regional Studies in Marine Science,2016,8:373-381.
[57] P?RTNER H O.Ecosystem effects of ocean acidification in times of ocean warming:a physiologist’s view[J].Marine Ecology Progress Series,2008,373:203-218.
[58] SINCLAIR B J,MARSHALL K E,SEWELL M A,et al.Can we predict ectotherm responses to climate change using thermal performance curves and body temperatures?[J].Ecology Letters,2016,19(11):1372-1385.
[59] NIXON S W,FULWEILER R W,BUCKLEY B A,et al.The impact of changing climate on phenology,productivity,and benthic-pelagic coupling in Narragansett Bay[J].Estuarine,Coastal and Shelf Science,2009,82(1):1-18.
[60] EDWARDS K F,THOMAS M K,KLAUSMEIER C A,et al.Phytoplankton growth and the interaction of light and temperature:a synthesis at the species and community level[J].Limnology and Oceanography,2016,61(4):1232-1244.
[61] HAN G D,ZHANG S,MARSHALL D J,et al.Metabolic energy sensors(AMPK and SIRT1),protein carbonylation and cardiac failure as biomarkers of thermal stress in an intertidal limpet:linking energetic allocation with environmental temperature during aerial emersion[J].Journal of Experimental Biology,2013,216(17):3273-3282.
[62] DONG Y W,ZHANG S.Ecological relevance of energy metabolism:transcriptional responses in energy sensing and expenditure to thermal and osmotic stresses in an intertidal limpet[J].Functional Ecology,2016,30(9):1539-1548.
[63] DONG Y W,LIAO M L,MENG X L,et al.Structural flexibility and protein adaptation to temperature:molecular dynamics analysis of malate dehydrogenases of marine molluscs[J].Proceedings of the National Academy of Sciences of the United States of America,2018:201718910.
[64] DANOVARO R,CORINALDESI C,RASTELLI E,et al.Impacts and effects of ocean warming on microorganisms[C]∥Explaining Ocean Warming:Causes,Scale,Effects and Consequences.Gland:IUCN,2016:57-74.
[65] SUMMERS J C,KUREK J,KIRK J L,et al.Recent warming,rather than industrial emissions of bioavailable nutrients,is the dominant driver of lake primary production shifts across the Athabasca oil sands region[J].PLoS One,2016,11(5):e0153987.
[66] HINDER S L,HAYS G C,EDWARDS M,et al.Changes in marine dinoflagellate and diatom abundance under climate change[J].Nature Climate Change,2012,2(4):271-275.
[67] LEWANDOWSKA A,SOMMER U.Climate change and the spring bloom:a mesocosm study on the influence of light and temperature on phytoplankton and mesozooplankton[J].Marine Ecology Progress Series,2010,405:101-111.
[68] 张武昌,赵丽,陈雪,等.海洋浮游细菌生长率和被摄食的研究综述[J].海洋科学,2016,40(5):151.
[69] ZHAO S,XIAO T,LU R,et al.Spatial variability in biomass and production of heterotrophic bacteria in the East China Sea and the Yellow Sea[J].Deep Sea Research Part Ⅱ:Topical Studies in Oceanography,2010,57(11/12):1071-1078.
[70] YUAN X,ZHOU W,HUANG H,et al.Bacterial influence on chromophoric dissolved organic matter in coastal waters of the northern South China Sea[J].Aquatic Microbial Ecology,2016,76(3):207-217.
[71] BRUM J R,HURWITZ B L,SCHOFIELD O,et al.Seasonal time bombs:dominant temperate viruses affect Southern Ocean microbial dynamics[J].The ISME Journal,2016,10(2):437-449.
[72] MOJICA K D,BRUSSAARD C P.Factors affecting virus dynamics and microbial host-virus interactions in marine environments[J].FEMS Microbiology Ecology,2014,89(3):495-515.
[73] DELL’ANNO A,CORINALDESI C,DANOVARO R.Virus decomposition provides an important contribution to benthic deep-sea ecosystem functioning[J].Proceedings of the National Academy of Sciences of the United States of America,2015,112(16):E2014-E2019.
[74] GUNDERSON A R,ARMSTRONG E J,STILLMAN J H.Multiple stressors in a changing world:the need for an improved perspective on physiological responses to the dynamic marine environment[J].Annual Review of Marine Science,2016,8(1):357-378.
[75] FU F X,WARNER M E,ZHANG Y,et al.Effects of Increased temperature and CO2 on photosynthesis,growth,and elemental ratios in marine Synechococcus and Prochlorococcus(Cyanobacteria)1[J].Journal of Phycology,2007,43(3):485-496.
[76] KREMP A,GODHE A,EGARDT J,et al.Intraspecific variability in the response of bloom-forming marine microalgae to changed climate conditions[J].Ecology and Evolution,2012,2(6):1195-1207.
[77] HYUN B,CHOI K H,JANG P G,et al.Effects of increased CO2 and temperature on the growth of four diatom species(Chaetoceros debilis,Chaetoceros didymus,Skeletonema costatum and Thalassiosira nordenskioeldii)in laboratory experiments[J].J Environ Sci Int,2014,23(6):1003-1012.
[78] SCHLüTER L,LOHBECK K T,GUTOWSKA M A,et al.Adaptation of a globally important coccolithophore to ocean warming and acidification[J].Nature Climate Change,2014,4(11):1024-1030.
[79] LISTMANN L,LEROCH M,SCHLüTER L,et al.Swift thermal reaction norm evolution in a key marine phytoplankton species[J].Evolutionary Applications,2016,9(9):1156-1164.
[80] SETT S,BACH L T,SCHULZ K G,et al.Temperature modulates coccolithophorid sensitivity of growth,photosynthesis and calcification to increasing seawater pCO2[J].PLoS One,2014,9(2):e88308.
[81] ZOU D,GAO K,LUO H.Short- and long-term effects of elevated CO2 on photosynthesis and respiration in the marine macroalga Hizikia fusiformis(Sargassaceae,Phaeophyta)grown at low and high N supplies[J].Journal of Phycology,2011,47(1):87-97.
[82] MARTIN S,HALL-SPENCER J M.Effects of ocean war-ming and acidification on Rhodolith/Ma?rl beds[M]∥RIOSMENA-RODRíGUEZ R,NELSON W,AGUIRRE J.Rhodolith/Ma?rl beds:a global perspective.Berlin:Springer,2017:55-85.
[83] HUTCHINS D,FU F X,ZHANG Y,et al.CO2 control of Trichodesmium N2 fixation,photosynthesis,growth rates,and elemental ratios:implications for past,present,and future ocean biogeochemistry[J].Limnology and Oceanography,2007,52(4):1293-1304.
[84] PAUL C,SOMMER U,GARZKE J,et al.Effects of increased CO2 concentration on nutrient limited coastal summer plankton depend on temperature[J].Limnology and Oceanography,2016,61(3):853-868.
[85] COMEAU S,CARPENTER R,LANTZ C,et al.Para-meterization of the response of calcification to temperature and pCO2 in the coral Acropora pulchra and the alga Lithophyllum kotschyanum[J].Coral Reefs,2016,35(3):929-939.
[86] RODOLFO-METALPA R,HOULBRèQUE F,TAMBU-TTé é,et al.Coral and mollusc resistance to ocean acidification adversely affected by warming[J].Nature Climate Change,2011,1(6):308-312.
[87] REYNAUD S,LECLERCQ N,ROMAINE-LIOUD S,et al.Interacting effects of CO2 partial pressure and temperature on photosynthesis and calcification in a scleractinian coral[J].Global Change Biology,2003,9(11):1660-1668.
[88] JIAO N,ZHENG Q.The microbial carbon pump:from genes to ecosystems[J].Applied and Environmental Microbiology,2011,77(21):7439-7444.
[89] 孙军,李晓倩,陈建芳,等.海洋生物泵研究进展[J].海洋学报,2016,38(4):1-21.
[90] ZARK M,RIEBESELL U,DITTMAR T.Effects of ocean acidification on marine dissolved organic matter are not detectable over the succession of phytoplankton blooms[J].Science Advances,2015,1(9):e1500531.
[91] CZERNY J,SCHULZ K G,BOXHAMMER T,et al.Implications of elevated CO2 on pelagic carbon fluxes in an Arctic mesocosm study:an elemental mass balance approach[J].Biogeosciences,2013,10(5):3109-3125.
[92] JIAO N,HERNDL G J,HANSELL D A,et al.Microbial production of recalcitrant dissolved organic matter:long-term carbon storage in the global ocean[J].Nature Reviews Microbiology,2010,8(8):593-599.
[93] KERR J,MCELROY C.Evidence for large upward trends of ultraviolet-B radiation linked to ozone depletion[J].Science,1993,262(5136):1032-1034.
[94] PLUMMER D,SCINOCCA J,SHEPHERD T,et al.Quantifying the contributions to stratospheric ozone changes from ozone depleting substances and greenhouse gases[J].Atmospheric Chemistry and Physics,2010,10(18):8803-8820.
[95] OSS A,SOLA Y,BECH J,et al.Evidence for the influence of the North Atlantic Oscillation on the total ozone column at northern low latitudes and midlatitudes during winter and summer seasons[J].Journal of Geophysical Research:Atmospheres,2011,116(D24):D24122.
[96] WILLIAMSON C E,ZEPP R G,LUCAS R M,et al.Solar ultraviolet radiation in a changing climate[J].Nature Climate Change,2014,4(6):434-441.
[97] GAO K,WU Y,LI G,et al.Solar UV radiation drives CO2 fixation in marine phytoplankton:a double-edged sword[J].Plant Physiology,2007,144(1):54-59.
[98] LI G,GAO K.Variation in UV irradiance related to stratospheric ozone levels affects photosynthetic carbon fixation of winter phytoplankton assemblages from surface coastal water of the South China Sea[J].Marine Biology Research,2012,8(7):670-676.
[99] TEDETTI M,SEMPR R,VASILKOV A,et al.High penetration of ultraviolet radiation in the south east Pacific waters[J].Geophysical Research Letters,2007,34(12):L12610.
[100] XU J,GAO K.Use of UV-A energy for photosynthesis in the red macroalga Gracilaria lemaneiformis[J].Photochemistry and Photobiology,2010,86(3):580-585.
[101] MA Z,LI W,SHEN A,et al.Behavioral responses of zooplankton to solar radiation changes:in situ evidence[J].Hydrobiologia,2013,711(1):155-163.
[102] BAIS A F,LUCAS R M,BORNMAN J F,et al.Environmental effects of ozone depletion,UV radiation and interactions with climate change:UNEP environ-mental effects assessment panel,update 2017[J].Photochemical & Photobiological Sciences,2018,17(2):127-179.
[103] WU H,GAO K,VILLAFA?E V E,et al.Effects of solar UV radiation on morphology and photosynthesis of filamentous cyanobacterium Arthrospira platensis[J].Applied and Environmental Microbiology,2005,71(9):5004-5013.
[104] GAO K,LI P,WATANABE T,et al.Combined effects of ultraviolet radiation and temperature on morphology,photosynthesis,and DNA of Arthrospira(Spirulina)platensis(Cyanophyta)[J].Journal of Phycology,2008,44(3):777-786.
[105] GAO K,RUAN Z,VILLAFANE V E,et al.Ocean acidification exacerbates the effect of UV radiation on the calcifying phytoplankter Emiliania huxleyi[J].Limnology and Oceanography,2009,54(6):1855-1862.
[106] XU K,GAO K.Solar UV irradiances modulate effects of ocean acidification on the coccolithophorid Emiliania huxleyi[J].Photochemistry and Photobiology,2015,91(1):92-101.
[107] BREITBURG D,LEVIN L A,OSCHLIES A,et al.Declining oxygen in the global ocean and coastal waters[J].Science,2018,359(6371):eaam7240.
[108] BREWER P G,PELTZER E T.Limits to marine life[J].Science,2009,324(5925):347-348.
[109] WHITNEY F A,FREELAND H J,ROBERT M.Persistently declining oxygen levels in the interior waters of the eastern subarctic Pacific[J].Progress in Oceanography,2007,75(2):179-199.
[110] KEELING R F,K?RTZINGER A,GRUBER N.Ocean deoxygenation in a warming world[J].Annual Review of Marine Science,2010,2(1):199-229.
[111] VAQUER-SUNYER R,DUARTE C M.Thresholds of hypoxia for marine biodiversity[J].Proceedings of the National Academy of Sciences of the United States of America,2008,105(40):15452-15457.
[112] DONEY S C,RUCKELSHAUS M,DUFFY J E,et al.Climate change impacts on marine ecosystems[J].Annual Review of Marine Science,2012,4(1):11-37.
[113] GAO K,CAMPBELL D A.Photophysiological responses of marine diatoms to elevated CO2 and decreased pH:a review[J].Functional Plant Biology,2014,41(5):449-459.
[114] JIAN S,ZHANG H H,ZHANG J,et al.Spatiotem-poral distribution characteristics and environmental control factors of biogenic dimethylated sulfur compounds in the East China Sea during spring and autumn[J].Limnology and Oceanography,2017,63(S1):S280-S298.
[115] RIEBESELL U,SCHULZ K G,BELLERBY R,et al.Enhanced biological carbon consumption in a high CO2 ocean[J].Nature,2007,450(7169):545-548.
[116] KIM J M,LEE K,SHIN K,et al.The effect of seawater CO2 concentration on growth of a natural phytoplankton assemblage in a controlled mesocosm experiment[J].Limnology and Oceanography,2006,51(4):1629-1636.
[117] HUANG Y,LIU X,LAWS E A,et al.Effects of increa-sing atmospheric CO2 on the marine phytoplankton and bacterial metabolism during a bloom:a coastal mesocosm study[J].Science of the Total Environment,2018,633:618-629.


收稿日期:2018-07-04 录用日期:2018-09-14
基金项目:国家自然科学基金(41721005,41720104005,41430967); 国家基金委-山东省联合基金项目(U1606404)
Citation:GAO K S.Ecological and physiological effects of ocean acidification and their correlations with warming,UV radiation and deoxygenation[J].J Xiamen Univ Nat Sci,2018,57(6):800-810.(in Chinese)
更新日期/Last Update: 1900-01-01