I Recent "bioremediation of heavy metal pollution with different kinds of marine biomass including mar INE algae, bacteria and plants was reviewed. Operational factors and mechanisms of bioremediation process were further and analyzed. Moreover, the authors stated that further study should focus on the screening of marine bacteria with high accumulation CA Pacity of heavy metals, the effect of environmental factors on bioremediation process and the mechanism of bioaccumulation of heavy metals by marine organisms.

GOLDBERG e D, GAMBLE E, GRIFFIN J J, et al pollution history of Narragansett Bay as recorded in its sediments J]. Estuarine and Coastal Marine Science, 1977,5 (4)!549-558, In3-in4, 559-561.

attrill m J, thomes R Heavy metal concentrations in sediment from the Thames estuary, UK J . Marine Pollution Bulletin, 1995,30 (one) :742-744.

Balachandran k K, Lalu RAJ C m, NAIR m, et al. Heavy

Metal accumulation in a flow restricted, tropical estuary [Q. estuarine, coastal and shelf science, 2005,65 (1/2)!361-370.

ANU P R, Jayachandran p R, Sreekumar p K, et al. A

Review on heavy metal pollution in Cochin backwaters, Southwest Coast of India [ J]. International Journal of Marine Science, 2014, 4 :92-98.

osher L J, Leclerc L, Wiersma G B, et al. Heavy Metal contamination from historic mining in U Pland soil and estu-arine sediments of Egypt Bay, Maine, USA[J]. estuarine, Coastal and shelf science,2006,70 (1/2): 169479.

grecco L E, Gcmez e A, Botte S E, et al. Natural and anthropogenic heavy metals in estuarine Cohesive sedi-ments : geochemistry and bioavailability J]. Ocean Dynamics, 2011,61 (2/3) :285-293.

gargouri D, Azri C, Serbaji m, et al. Heavy metal concentrations in the surface marine sed Iments of Sfax Coast, Tunisia J]. Environmental monitoring and Assessment, 2011,175 (1/2/

/4 : 519-530.

LAWS R M. Antarctic ecology [M]. London:academic Press, 1984: 821-850.

Naik m, Pandey A, DUBEY S K. Bioremediation of metals mediated by marine bacteria [Eb/ol]. Microorganisms in environmental Management :665-682.

ZHANG J, LIU C L. Riverine composition and estuarine geochemistry of particulate metals in chi-na-weathering Tures, anthropogenic impact and chemical fluxes J]. estuarine, Coastal and Shelf science,2002,54 (6) : 1051-4070.

Dursun G. Investigation of Zinc (II) adsorption on Cladophora crispata In a two-staged reactor J]. Journal of chemical Technology and Biotechnology, Watts (5) :410-416. b20>

A] Lodeiro P, Cordero B, Barriada J L, et al biosorption of cadmium by biomass of brown marine macroalgae J]. Bioresource technology,2005,96 (16)! 1796-1803.

[] Kalyani S, Srinivasa RAO P, Krishnaiah A. Removal of nickel (II) from aqueous solutions using marine macroalgae As the sorbing biomass [J]. Chemosphere (9): 1225 4 229.

LEE D C, PARK C J, Yang J E, et al. screening of hexavalent chromium biosorbent from marine al-gae[J]. Applied Microbiology and BIOTECHNOLOGY,2000,54 (3)!445-448.

Herrero R, Lodeiro P, Rey-castro C, et al removal of inorganic mercury from aqueous solutions by biomass of th E Marine Macroalga cystoseira baccata J]. Water, 3199-3210 , the :,

maweidong , Guo , yuqm. Marine algae biosorption to Hg Hydrate adsorption Research on performance [J]. Shanghai Environmental Science , 2001 : 489491,94.

Yin Ping River, Zhaoling , YUQM, , and so on . Seaweed biosorption of lead in waste water , copper and Cadmi-um Research J. Marine Environment Science , Watts, (3) : 1145.

OFER R, Yerachmiel A, Shmuel Y. Marine macroalgae as biosorbents for cadmium and nickel in wat Er[J]. Water Environment research,2003,75 (3) :246-253.

LAU T C, ANG P O, WONG p K. Development of seaweed biomass as a biosorbent for metal ions [ J]. Water Science and technology,2003,47 :49-54.

Vijayaraghavan K, Jegan J, Palanivelu K, et al biosorption of copper, cobalt and nickel by M Arine green al-ga ulva reticulata in a packed column J. CHEMOSPHERE,2005,60 (3): 419-426.

SHENG P X, TING Y p, CHEN J p, et al sorption of leads, copper, cadmium, zinc, and nickel by Marine algal bi-omass : characterization of biosorptive capacity and Investigation of mechanisms J]. Journal of Colloid and Inter-face, 275(I) : 131-141.

ajjabi l C, CHOUBA L. biosorption of Cu2 + and Zn2 + from aqueous Solu tions by dried marine Green Macroal-ga chaetomor-pha linum J]. Journal of environmental Management, 2009,90(II) : 3485-3489.

MURPHY V, HUGHES H, McLoughlin P. Comparative study of chromium biosorption by red, green and Brown seaweed biomass J. Chemosphere,2008,(6) : 11284134.

romera E, GONZALEZ F, Ballester A, et al Comparative study of biosorption of heavy metals usi ng different types of algae J. Bioresource technology,2007,98 :3344-3353.

Shanqiu , Kan Lin Lin, Matt , etc platymonas subcordformis adsorption town ion Research J. Journal of Wuhan University of Sciences , 010 (8): 64-67.

Huang , Wei Shaohong , Zhou Mihua. . striped small ring algae to Cuhydrate , Zn Hydrate Tolerance and sorption re-search J. Taiwan Strait , 011,30 (1): 3642.

pennesi C, TOTTI C, Romagnoli T, et al. Marine macrophytes as effective lead biosorbents J] . Water Environ-ment (1) :9-46.

WATANABE M, Kawahara K, SASAKI K. Biosorption of cadmium ions using a photosynthetic , ruler hodobacter sphaeroides S and a marine photosynthetic bacterium, ^hodovu- Lum sp. And their biosorption kinet-ics 0 . Journal of Bioscience and bioengineering,2003,95 (4)!374-378.

DE J, Ramaiah N, Vardanyan L. Detoxification of toxic heavy metals by marine bacteria highly R Esistant to Mercury J. Marine biotechnology,2008,10 (4): 471~477.

DASH H R, Mangwani N, Chakraborty J, et al Marine

bacteria • potential candidates for enhanced bioremediation [Q. Applied Microbiology and Biotechnology, 2013, (2): 561-571

devika L, Rajaram R, Mathivanan K. Multiple heavy

metal and antibiotic tolerance bacteria isolated from equatorial Indian J]. International Journal of Microbiological, 2013,4 (3) :212-218.< /b20>

green-ruiz C. Mercury (II) removal from aqueous solutions by nonviable Bacillus the sp. from a tropical estuary J]. Bioresource technology,2006,97 (15)! 1907-1911.

IYER A, Mody K, JHA B. Accumulation of hexavalent chromium by an exopolysaccharide Marine Enterobacter Clo-aceae [J]. Marine Pollution Bulletin, the (11/12): 974-977.

IYER A, Mody K, JHA B. Biosorption of heavy metals by a marine bacterium J]. Marine Pollution Bulletin, 3 (): 340-343 .

Saurav K, Kannabiran K. Biosorption CR (III) and CR

(VI) by Streptomyces VITSVK9 spp. J. Annals of Microbiol-ogy,2011,61 (4) :833-841.

Saurav K, Kannabiran K. Biosorption of CDs (II) and Pb

(II) ions by aqueous solutions of novel Alkalophillic streptomy-ces VITSVK5 spp. biomass [J]. Journal of Ocean Uni-versity of china,2011,10 (1) :61-66.

CHEUNG K H, GU J. Reduction of Chromate (CrO2_ ) by a enrichment consortium and An isolate of marine sul-fate-reducing bacteria J]. CHEMOSPHERE,2003,52 (9): 1523-1529.

abd^lnaby H, Abou^lela G M, El-sersy N A. Cadmium resisting bacteria in Alexandria Eastern H Arbor (Egypt) and optimization of cadmium bioaccumulation by Vibrio harveyi

J]. African Journal of Biotechnology, 2011, 10 (17): 3412-3423.

ALLEN RC, Tuy K, Nevarez M J, et al. The Mercury Resistance (MER) operon in a marine gliding, Flavobacte-rium tenaci-baculum J]. Microbiol Ecology, 2013, (1): 135-148.

ZHANG W, CHEN L X, LIU D Y. Characterization of a marine-isolated mercury-resistant Pseu-do Monas putida strain SP1 and its potential application in marine mercury tion J]. Applied Microbiology and Biotechnology, (3): 1305-1314.

jafari s A, Cheraghi S, Mirbakhsh M, et al. employing

response surface methodology for optimization of Mercury bioremediation by Vibrio parahaemolyticus PG02 in coastal sediments of Bushehr, Iran J]. Clean-soil, Air, Water, 2015, (1): 118 4.

riosmena^odrfguez R, Talavera-saenz A, Acos-ta-vargas b,et al. Heavy Metals Dynamics in SEAW Eeds and seagrasses in Bahia Magdalena, B. C. S, Mexico J]. Journal of Applied phycology,2010,22 (3) :283-291.

lafabrie C, Pergent-martini C, pergent G. Metal

contamination of Posidonia Oceanica Meadows along the Corsican Coastline (Mediterranean) J]. Environmental pol-lution, 2008,151 (1) :262-268.

forstner U, WITTMANN G. Metal pollution in aquatic environment J]. Marine Geology, 1981,39 (1/2) 1161-162.

malea P, Haritonidis S, Kevrekidis T. Seasonal and local variations of metal In the Seagrass Posidonia Oceanica (L.) Delile in the Antikyra Gulf, Greece [J. Science of the Total Environment, 1994,153 (3): 225-235.

Joksimovic D, Stankovic S. The trace metals accumulation in marine organisms of the southeastern Adriatic, Coast J]. Journal of the Serbian Chemical Society, 1:105407.

DENG X, WANG P T. Isolation of marine bacteria highly resistant to mercury and their bioaccum Ulation process J]. Bioresource Technology, 2012,121 342-347.

REYES N S, Frischer M E, Sobecky P A. Characterization of mercury resistance mechanisms in Mar INE sediment microbial communities [J. Fems microbiological Ecology, 1999,30 (3): 273-284.

DE J, Ramaiah N. Characterization of marine bacteria highly resistant to mercury exhibiting MU Ltiple resistanc-es to toxic chemicals [J. Ecological indicators,2007,7 (3): 511~520.

SINHA R. Bioaccumulation of mercury in marine bacteria : b13> A novel approach of mercury remediation [D]. National Institute of Technology,

m0ller a K, Barkay T, HANSEN M A, et al mercuric reductase genes (merA) and Mercury Resistan Ce plasmids in high Arctic snow, freshwater and Sea-ice J. Fems Microbiology ecology,2014,87 (1) :52-63.

DASH H R, Mangwani N, DAS S. Characterization and potential application in Mercury Bioremedi ation of highly mercury-resistant marine bacterium Bacillus thuringiensis PW-05 J]. Environmental Science and Pollution, 2014 (4): 2642-2653.