Since the Industrial Revolution,Oceans absorb human emissionsCO_2.,Leading to carbonate concentrations andPHContinuous decline,Acidification of the global ocean.Ocean acidification(Ocean audification, OA)In addition to directly threatening the stability of the marine ecosystem,It also indirectly changes the toxic effects of marine pollutants on marine organisms by changing their environmental behavior..In this paper, heavy metal and metal Nanoparticles(Metalic nanoparticles, MNPs)Environmental Pollutants as the main research object.,ThroughOAIn-depth analysis of the causes,Key ResearchOAChange the speciation of heavy metals and influence the dissolution of metal Nanoparticles,Suspension,The main mechanism of a series of processes such as migration,These heavy metals andMNPsImpact of changes in key environmental processes on individual marine organisms,And on the cause of toxicity differences the Key Analysis.Finally,OAAnd co-existing pollutants toxicity effect further need to carry out the research work the key prospect.

Waters JF millero FJ Sabine CL.Glob biogeochem Cycle2011 25: GB4011

Haugan PM drange H.Energy Convers Manage1996 37: 1019-1022

Caldeira K Wickett ME.J Geophys Res2005,110: C09S04

Intergovernmental Panel. Climate Change.Climate Change 2014: mitigation. Climate Change. Cambridge: Cambridge University Press 2015

Caldeira K Wickett ME.Nature2003,425: 365

Burns WCG. anthropogenic carbon dioxide emissions, ocean acidification: Potential impacts. ocean biodiversity..: askins RA, Dreyer GD visgilio GR Whitelaw DM eds.Saving Biological Diversity. Berlin Heidelberg: Springer 2008. 187-202

Melzner F Thomsen J koeve W oschlies A gutowska MA Bange HW Hansen hp k o rtzinger.Mars Biol2013,160: 1875-1888

Blackford J Bull JM cevatoglu M Connelly D hauton C James RH lichtschlag A Stahl H Widdicombe S Wright IC.Int J Greenhouse GasControl2015 38: 221-229

Phelps ARENA Blackford JC Holt JT Polton JA.Int J greenh Gas Con2015 38: 210-220

Wootton JT Pfister CA Forester JD.Proc Natl Acad Sci USA2008,105: 18848-18853

Feely RA Alin SR Newton J Sabine CL Warner M DeVol A krembs C Maloy C.Estuar coast Shelf S2010 88: 442-449

Cai WJ, Hu X, Huang WJ, Murrell MC, Lehrter JC, lohrenz se, Chou WC, Zhai W, hollibaugh JT, Wang Y, Zhao P, Guo X, Gundersen K, dai M, Gong GC.Nat geosci, 2011, 4: 766-770

Körtzinger.Chem unserer ZEIT, 2010, 44: 118-129

Wan R, Chen y, Zheng X, Su Y, li m.Environ Sci Technol, 2016, 50: 9915-9922

Xu D, Wang D, Li B, Fan X, Zhang XW, ye NH, Wang Y, Mou S, Zhuang Z.Environ Sci Technol, 2015, 49: 3548-3556

Moore SK, trainer VL, Mantua NJ Parker MS, laws EA, backer LC, Fleming le.Environ Health, 2008, 7: S4

Bach lt, mackinder LCM, Schulz kg, Wheeler g Schroeder DC, Brownlee C, ribesell U.New Phytol, 2013,199: 121-134

Jin P, Wang TF, Liu NN, DuPont S, Beardall J, Boyd PW, riebesell U, Gao Ks.Nat commun, 2015, 6: 8714

Stumpp M, Hu M, castles I, saborowski R, bleich M, melzner F, DuPont S.Nat Clim change, 2013, 3: 1044-1049

Wei L, Wang Q, Wu H, Ji C, Zhao J.J Proteomics, 2015,112: 83-94

Parker LM, Ross pm, o'connor wa.Mar Biol, 2011,158: 689-697

Bibby R, cleall-Harding P, Rundle S, widdicombe S, Spicer J.Biol lett, 2007, 3: 699-701

Watson SA, Lefevre S, McCormick Mi, Domenici P, Nilsson Ge, Munday Pl.Proc r soc B-Biol SCI, 2014,281: 20132377