Advances in Chinese and international biogeochemistry research in the western Arctic Ocean: a review

CHEN Jianfang; Alba Marina COBO-VIVEROS; JIN Haiyan; CHEN Liqi; CHEN Min; LI Zhongqiao; ZHUANG Yanpei; ZHAN Liyang; GAO Zhongyong; REN Jian

doi:10.13679/j.advps.2017.4.00231

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REVIEW | Marine Earth Science

Advances in Chinese and international biogeochemistry research in the western Arctic Ocean: a review

CHEN Jianfang1 Correspondence author

, Alba Marina COBO-VIVEROS1, JIN Haiyan1, CHEN Liqi2, CHEN Min3, LI Zhongqiao1, ZHUANG Yanpei1, ZHAN Liyang2, GAO Zhongyong2, REN Jian1

Correspondence: jfchen@sio.org.cn ORCID:

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Vol. 28, Issue 4, pp. 231-244 (2017) • DOI

First published at: Dec 31, 2017

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Abstract

Over the past decades, the Arctic Ocean has experienced rapid warming under climate change, which has dramatically altered its physical and biogeochemical properties. Reduction in the sea-ice cover is one of the most important driving forces of biogeochemical changes in the Arctic Ocean. Between 1999 and 2016, seven Chinese National Arctic Research Expeditions have taken place in the Bering and Chukchi seas, allowing assessment of the biogeochemical response of the western Arctic Ocean to global warming. Herein, we summarize advances in Chinese and international marine biogeochemistry research in the western Arctic Ocean, reviewing results from the Chinese expeditions and highlighting future trends of biogeochemistry in the Pacific Arctic region. The findings reported in this paper contribute towards a better understanding of water masses, greenhouse gases, nutrients, ocean acidification, and organic carbon export and burial processes in this region.

Abstract: Chen J F, Cobo-Viveros A M, Jin H Y, et al. Advances in Chinese and international biogeochemistry research in the western Arctic Ocean: a review. Adv Polar Sci, 2017, 28 (4): 231-244, doi: 10.13679/j.advps.2017.4.00231

Keywords

Arctic Ocean; biogeochemistry; fresh water input; nutrients; phytoplankton; organic carbon; greenhouse gases; ocean acidification

Author Address:

1 Laboratory of Marine Ecosystem and Biogeochemistry of SOA, Second Institute of Oceanography, State Oceanic Administration (SOA), Hangzhou 310012, China;
2 Key Laboratory of Global Change and Marine-Atmospheric Chemistry of SOA, Third Institute of Oceanography, SOA, Xiamen 361005, China;
3 College of Ocean and Earth Sciences, Xiamen University, Xiamen 361005, China

Aagaard K, Carmack E C. 1989. The role of sea ice and other fresh water in the Arctic circulation. J Geophys Res Oceans, 94(C10): 14485–14498, doi: 10.1029/JC094iC10p14485

Anderson L G, Ek J, Ericson Y, et al. 2017. Export of calcium carbonate corrosive waters from the East Siberian Sea. Biogeosciences, 14(7): 1811–1823, doi: 10.5194/bg-14-1811- 2017

Anderson L G, Olsson K, Chierici M. 1998. A carbon budget for the Arctic Ocean. Global Biogeochem Cycles, 12(3): 455–465, doi: 10.1029/98GB01372

Arrigo K R, Perovich D K, Pickart R S, et al. 2012. Massive phytoplankton blooms under Arctic Sea Ice. Science, 336(6087): 1408–1408, doi: 10.1126/science.1215065

Arrigo K R, van Dijken G L. 2011. Secular trends in Arctic Ocean net primary production. J Geophys Res Oceans, 116(C9): C09011, doi: 10.1029/2011JC007151

Arrigo K R, van Dijken G, Pabi S. 2008. Impact of a shrinking Arctic ice cover on marine primary production. Geophys Res Lett, 35(19): L19603, doi: 10.1029/2008GL035028

Bai Y C, Chen J F, Li H L, et al. 2010a. Biomarker records in sediment core of R12a from the Chukchi Sea during the last 500 years. Acta Sediment Sin, 28(4): 768–775 (in Chinese)

Bai Y C, Chen J F, Li H L, et al. 2010b. The distribution of lipids biomarkers in the surface sediments of the Chukchi Sea and their implications. Acta Oceanol Sin, 32(2): 106–117 (in Chinese)

Bates N R. 2006. Air-sea CO2 fluxes and the continental shelf pump of carbon in the Chukchi Sea adjacent to the Arctic Ocean. J Geophys Res Oceans, 111(C10): C10013, doi: 10.1029/2005JC003083

Bates N R, Garley R, Frey K E, et al. 2014. Sea-ice melt CO2–carbonate chemistry in the western Arctic Ocean: meltwater contributions to air–sea CO2 gas exchange, mixed-layer properties and rates of net community production under sea ice. Biogeosciences, 11(23): 6769–6789, doi: 10.5194/bg-11-6769-2014

Bates N R, Mathis J T. 2009. The Arctic Ocean marine carbon cycle: evaluation of air-sea CO2 exchanges, ocean acidification impacts and potential feedbacks. Biogeosciences, 6(11): 2433–2459

Bates N R, Moran S B, Hansell D A, et al. 2006. An increasing CO2 sink in the Arctic Ocean due to sea-ice loss. Geophys Res Lett, 33(23): L23609, doi: 10.1029/2006GL027028

Bauch D, Schlosser P, Fairbanks R G. 1995. Freshwater balance and the sources of deep and bottom waters in the Arctic Ocean inferred from the distribution of H218O. Prog Oceanogr, 35(1): 53–80, doi: 10.1016/0079-6611(95)00005-2

Boyd P W, Newton P P. 1999. Does planktonic community structure determine downward particulate organic carbon flux in different oceanic provinces? Deep Sea Res Part I Oceanogr Res Pap, 46(1): 63–91, doi: 10.1016/S0967-0637(98)00066-1

Cai W J, Chen L Q, Chen B S, et al. 2010. Decrease in the CO2 uptake capacity in an ice-free Arctic ocean basin. Science, 329(5991): 556–559, doi: 10.1126/science.1189338

Carmack E C. 2000. The Arctic Ocean’s freshwater budget: sources, storage and export//Lewis E L, Jones E P, Lemke P, et al. The Freshwater Budget of the Arctic Ocean. Dordrecht: Springer, 91–126

Chen J F, Jin H Y, Li H L, et al. 2015. Carbon sink mechanism and processes in the Arctic Ocean under Arctic rapid change. Chin Sci Bull, 60(35): 3406–3416, doi: 10.1360/N972014-00397

Chen J F, Zhang H S, Jin H Y, et al. 2004. Accumulation of sedimentary organic carbon in the Arctic shelves and its significance on global carbon budget. Chin J Pol Res, 16(3): 93–201 (in Chinese)

Chen M, Ma Q, Guo L D, et al. 2012. Importance of lateral transport processes to 210Pb budget in the eastern Chukchi Sea during summer 2003. Deep Sea Res Part II Top Stud Oceanogra, 81–84: 53–62, doi: 10.1016/j.dsr2.2012.03.011

Ciais P, Sabine C, Bala G, et al. 2013. Carbon and other biogeochemical cycles//Stocker T F, Qin D, Plattner G K, et al. Climate Change 2013: The Physical Science Basis. Contribution of Working Group I to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge, United Kingdom, New York, NY, USA: Cambridge University Press, 465–570

Coupel P, Jin H Y, Joo M, et al. 2012. Phytoplankton distribution in unusually low sea ice cover over the Pacific Arctic. Biogeosciences, 9(11): 4835–4850, doi: 10.5194/bg-9-4835- 2012

Coupel P, Ruiz-Pino D, Sicre M A, et al. 2015. The impact of freshening on phytoplankton production in the Pacific Arctic Ocean. Prog Oceanogr, 131: 113–125, doi: 10.1016/j.pocean. 2014.12.003

Denman K L, Brasseur G, Chidthaisong A, et al. 2007. Couplings between changes in the climate system and biogeochemistry// Solomon S, Qin D, Manning M, et al. Climate Change 2007: The Physical Science Basis. Contribution of Working Group I to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge, United Kingdom and New York, NY, USA: Cambridge University Press, 499–587

Dickson A G, Sabine C L, Christian J R. 2007. Guide to best practices for ocean CO2 measurements. PICES special publication 3, IOCCP Report No.8, Sidney, British Columbia: North Pacific Marine Science Organization

Dlugokencky E J, Nisbet E G, Fisher R, et al. 2011. Global atmospheric methane: budget, changes and dangers. Philos Trans A Math Phys Eng Sci, 369(1943): 2058–2072, doi: 10.1098/rsta.2010.0341

Else B G T, Papakyriakou T N, Asplin M G, et al. 2013. Annual cycle of air-sea CO2 exchange in an Arctic Polynya Region. Global Biogeochem Cycles, 27(2): 388–398, doi: 10.1002/gbc.20016

Evans W, Mathis J T, Cross J N, et al. 2015. Sea-air CO2 exchange in the western Arctic coastal ocean. Global Biogeochem Cycles, 29(8): 1190–1209, doi: 10.1002/2015GB005153

Feng X, Gustafsson Ö, Holmes R M, et al. 2015a. Multi-molecular tracers of terrestrial carbon transfer across the pan-Arctic: comparison of hydrolyzable components with plant wax lipids and lignin phenols. Biogeosciences, 12(15): 4841–4860, doi: 10.5194/bg-12-4841-2015

Feng X J, Gustafsson Ö, Holmes R M, et al. 2015b. Multimolecular tracers of terrestrial carbon transfer across the pan-Arctic: 14C characteristics of sedimentary carbon components and their environmental controls. Global Biogeochem Cycles, 29(11): 1855–1873, doi: 10.1002/ 2015GB005204

Feng X J, Vonk J E, van Dongen B E, et al. 2013. Differential mobilization of terrestrial carbon pools in Eurasian Arctic river basins. Proc Natl Acad Sci USA, 110(35): 14168–14173, doi: 10.1073/pnas.1307031110

Fransson A, Chierici M, Anderson L G, et al. 2001. The importance of shelf processes for the modification of chemical constituents in the waters of the Eurasian Arctic Ocean: implication for carbon fluxes. Cont Shelf Res, 21(3): 225–242, doi: 10.1016/S0278-4343(00)00088-1

Freing A, Wallace D W R, Bange H W. 2012. Global oceanic production of nitrous oxide. Philos Trans R Soc Lond B Biol Sci, 367(1593): 1245–1255, doi: 10.1098/rstb.2011.0360

Gao Z Y, Chen L Q, Sun H, et al. 2012. Distributions and air–sea fluxes of carbon dioxide in the Western Arctic Ocean. Deep Sea Res Part II Top Stud Oceanogr, 81–84: 46–52, doi: 10.1016/j.dsr2.2012.08.021

Giles K A, Laxon S W, Ridout A L, et al. 2012. Western Arctic Ocean freshwater storage increased by wind-driven spin-up of the Beaufort Gyre. Nat Geosci, 5(3): 194–197, doi: 10.1038/ngeo1379

Hill V, Cota G. 2005. Spatial patterns of primary production on the shelf, slope and basin of the Western Arctic in 2002. Deep Sea Res Part II Top Stud Oceanogr, 52(24–26): 3344–3354, doi: 10.1016/j.dsr2.2005.10.001

Hu W J, Chen M, Yang W F, et al. 2014. Enhanced particle scavenging in deep water of the Aleutian Basin revealed by 210Po-210Pb disequilibria. J Geophys Res Oceans, 119(6): 3235–3248, doi: 10.1002/2014JC009819

Jiao N Z, Herndl G J, Hansell D A, et al. 2010. Microbial production of recalcitrant dissolved organic matter: long-term carbon storage in the global ocean. Nat Rev Microbiol, 8(8): 593–599, doi: 10.1038/nrmicro2386

Jin H Y, Zhuang Y P, Li H L, et al. 2017. Response of phytoplankton community to different water types in the western Arctic Ocean surface water based on pigment analysis in summer 2008. Acta Oceanol Sin, 36(8): 109–121, doi: 10.1007/s13131-017-1033-z

Johannessen O M, Shalina E V, Miles M W. 1999. Satellite evidence for an Arctic Sea ice cover in transformation. Science, 286(5446): 1937–1939, doi: 10.1126/science.286.5446.1937

Kitidis V, Upstill-Goddard R C, Anderson L G. 2010. Methane and nitrous oxide in surface water along the North-West Passage, Arctic Ocean. Mar Chem, 121(1–4): 80–86, doi: 10.1016/j.marchem.2010.03.006

Kort E A, Wofsy S C, Daube B C, et al. 2012. Atmospheric observations of Arctic Ocean methane emissions up to 82° north. Nat Geosci, 5(5): 318–321, doi: 10.1038/ngeo1452

Laruelle G G, Lauerwald R, Pfeil B, et al. 2014. Regionalized global budget of the CO2 exchange at the air-water interface in continental shelf seas. Global Biogeochem Cycles, 28(1): 1199–1214, doi: 10.1002/2014GB004832

Lauvset S K, Chierici M, Counillon F, et al. 2013. Annual and seasonal fCO2 and air–sea CO2 fluxes in the Barents Sea. J Mar Syst, 113–114: 62–74, doi: 10.1016/j.jmarsys.2012. 12.011

Li H L, Chen J F, Gao S Q, et al. 2015. Nutrient limitation in the northern Canada Basin. Acta Oceanol Sin, 37(11): 147–154, doi: 10.3969/J.issn.0253-4193.2015.11.014 (in Chinese)

Li H L, Chen J F, Jin H Y, et al. 2008. Biogenic constituents of surface sediments in the Chukchi Sea: Implications for organic carbon burying efficiency. Acta Oceanol Sin, 30(1): 165–171 (in Chinese)

Li H L, Chen J F, Liu Z L, et al. 2007. Size structure of particulate biogenic silica in the Chukchi Sea and Southern Canadian Basin. Prog Nat Sci, 17(1): 72–78 (in Chinese)

Liu Z L, Chen J F, Liu Y L, et al. 2011. The size-fractionated chlorophyll a and primary productivity in the surveyed area of the western Arctic Ocean during the summer of 2008. Acta Oceanol Sin, 33(2): 124–133 (in Chinese)

Macdonald R W, McLaughlin F A, Carmack E C. 2002. Fresh water and its sources during the SHEBA drift in the Canada Basin of the Arctic Ocean. Deep Sea Res Part I Oceanogr Res Pap, 49(10): 1769–1785, doi: 10.1016/S0967-0637(02) 00097-3

Marlowe I T, Green J C, Neal A C, et al. 1984. Long chain (n-C37–C39) alkenones in the Prymnesiophyceae. Distribution of alkenones and other lipids and their taxonomic significance. Br Phycol J, 19(3): 203–216, doi: 10.1080/00071618400 650221

Mastepanov M, Sigsgaard C, Dlugokencky E J, et al. 2008. Large tundra methane burst during onset of freezing. Nature, 456(7222): 628–630, doi: 10.1038/nature07464

Mathis J T, Cross J N, Bates N R. 2011. Coupling primary production and terrestrial runoff to ocean acidification and carbonate mineral suppression in the eastern Bering Sea. J Geophys Res Oceans, 116(C2): C02030, doi: 10.1029/2010JC006453

Mathis J T, Cross J N, Evans W, et al. 2015. Ocean acidification in the surface waters of the Pacific-Arctic boundary regions. Oceanography, 28(2): 122–135, doi: 10.5670/oceanog.2015.36

Mathis J T, Pickart R S, Byrne R H, et al. 2012. Storm-induced upwelling of high pCO2 waters onto the continental shelf of the western Arctic Ocean and implications for carbonate mineral saturation states. Geophys Res Lett, 39(7): L07606, doi: 10.1029/2012GL051574

Mathis J T, Pickart R S, Hansell D A, et al. 2007. Eddy transport of organic carbon and nutrients from the Chukchi Shelf: impact on the upper halocline of the western Arctic Ocean. J Geophys Res Oceans, 112(C5): C05011, doi: 10.1029/2006JC003899

McGuire A D, Anderson L G, Christensen T R, et al. 2009. Sensitivity of the carbon cycle in the Arctic to climate change. Ecol Monogr, 79(4): 523–555, doi: 10.1890/08-2025.1

McGuire A D, Chapin III F S, Walsh J E, et al. 2006. Integrated regional changes in Arctic climate feedbacks: implications for the global climate system. Annu Rev Environ Resour, 31: 61–91, doi: 10.1146/annurev.energy.31.020105.100253

McLaughlin F A, Carmack E C, Macdonald R W, et al. 1996. Physical and geochemical properties across the Atlantic/ Pacific water mass front in the southern Canadian Basin. J Geophys Res Oceans, 101(C1): 1183–1197, doi: 10.1029/ 95JC02634

Menard H W, Smith S M. 1966. Hypsometry of ocean basin provinces. J Geophys Res, 71(18): 4305–4325, doi: 10.1029/ JZ071i018p04305

Morison J, Kwok R, Peralta-Ferriz C, et al. 2012. Changing Arctic Ocean freshwater pathways. Nature, 481(7379): 66–70, doi: 10.1038/nature10705

Mucci A, Lansard B, Miller L A, et al. 2010. CO2 fluxes across the air-sea interface in the southeastern Beaufort Sea: Ice-free period. J Geophys Res Oceans, 115(C4): C04003, doi: 10.1029/2009JC005330

Murata A, Takizawa T. 2003. Summertime CO2 sinks in shelf and slope waters of the western Arctic Ocean. Cont Shelf Res, 23(8): 753–776, doi: 10.1016/S0278-4343(03)00046-3

Nisbet E G, Chappellaz J. 2009. Shifting gear, quickly. Science, 324(5926): 477–478, doi: 10.1126/science.1172001

O’Connor F M, Boucher O, Gedney N, et al. 2010. Possible role of wetlands, permafrost, and methane hydrates in the methane cycle under future climate change: A review. Rev Geophys, 48(4): RG4005, doi: 10.1029/2010RG000326

Omar A M, Johannessen T, Olsen A, et al. 2007. Seasonal and interannual variability of the air–sea CO2 flux in the Atlantic sector of the Barents Sea. Mar Chem, 104(3–4): 203–213, doi: 10.1016/j.marchem.2006.11.002

Pabi S, van Dijken G L, Arrigo K R. 2008. Primary production in the Arctic Ocean, 1998–2006. J Geophys Res Oceans, 113(C8): C08005, doi: 10.1029/2007JC004578

Pan H, Chen M, Tong J L, et al. 2015. Spatial and temporal variations of freshwater components at a transect near the Bering Strait during 2003-2012. Haiyang Xuebao, 37(11): 135–146, doi: 10.3969/j.issn.0253-4193.2015.11.013 (in Chinese)

Pan H, Chen M, Tong J L, et al. 2014. Variation of freshwater components in the Canada Basin during 1967–2010. Acta Oceanol Sin, 33(6): 40–45, doi: 10.1007/s13131-014-0487-5

Perovich D K, Richter-Menge J A. 2009. Loss of sea ice in the Arctic. Annu Rev Mar Sci, 1: 417–441, doi: 10.1146/annurev. marine.010908.163805

Piepenburg D. 2005. Recent research on Arctic benthos: common notions need to be revised. Polar Biol, 28(10): 733–755, doi: 10.1007/s00300-005-0013-5

Pipko I I, Semiletov I P, Tishchenko P Y, et al. 2002. Carbonate chemistry dynamics in Bering Strait and the Chukchi Sea. Prog Oceanogr, 55(1–2): 77–94, doi: 10.1016/S0079-6611(02) 00071-X

Proshutinsky A, Bourke R H, McLaughlin F A. 2002. The role of the Beaufort Gyre in Arctic climate variability: Seasonal to decadal climate scales. Geophys Res Lett, 29(23): 15-1–15-4, doi: 10.1029/2002GL015847

Qi D, Chen L Q, Chen B S, et al. 2017. Increase in acidifying water in the western Arctic Ocean. Nat Climate Change, 7(3): 195–199, doi: 10.1038/nclimate3228

Semiletov I P, Pipko I I, Repina I, et al. 2007. Carbonate chemistry dynamics and carbon dioxide fluxes across the atmosphere–ice–water interfaces in the Arctic Ocean: Pacific sector of the Arctic. J Mar Syst, 66(1–4): 204–226, doi: 10.1016/j.jmarsys.2006.05.012

Shakhova N, Semiletov I, Leifer I, et al. 2010a. Geochemical and geophysical evidence of methane release over the East Siberian Arctic Shelf. J Geophys Res, 115(C8): C08007, doi: 10.1029/2009JC005602

Shakhova N, Semiletov I, Salyuk A, et al. 2010b. Extensive methane venting to the atmosphere from sediments of the East Siberian Arctic Shelf. Science, 327(5970): 1246–1250, doi: 10.1126/science.1182221

Shimada K, Kamoshida T, Itoh M, et al. 2006. Pacific Ocean inflow: Influence on catastrophic reduction of sea ice cover in the Arctic Ocean. Geophys Res Lett, 33(8): L08605, doi: 10.1029/2005GL025624

Steele M, Ermold W, Zhang J L. 2008. Arctic Ocean surface warming trends over the past 100 years. Geophys Res Lett, 35(2): L02614, doi: 10.1029/2007GL031651

Steele M, Morison J, Ermold W, et al. 2004. Circulation of summer Pacific halocline water in the Arctic Ocean. J Geophys Res Oceans, 109(C2): C02027, doi: 10.1029/ 2003JC002009

Stein R, Korolev S. 1994. Shelf-to-basin sediment transport in the eastern Arctic Ocean. Report on Polar Res, 144: 87–100

Steinacher M, Joos F, Frölicher T L, et al. 2009. Imminent ocean acidification in the Arctic projected with the NCAR global coupled carbon cycle-climate model. Biogeosciences, 6(4): 515–533, doi: 10.5194/bg-6-515-2009

Stein R, MacDonald R W. 2004. The Organic Carbon Cycle in the Arctic Ocean. Berlin, Heidelberg: Springer

Stroeve J, Holland M M, Meier W, et al. 2007. Arctic sea ice decline: Faster than forecast. Geophys Res Lett, 34(9): L09501

Tong J L, Chen M, Qiu Y S, et al. 2014. Contrasting patterns of river runoff and sea-ice melted water in the Canada Basin. Acta Oceanol Sin, 33(6): 46–52, doi: 10.1007/s13131-014- 0488-4

Tong J L, Chen M, Yang W F, et al. 2017. Accumulation of freshwater in the permanent ice zone of the Canada Basin during summer 2008. Acta Oceanol Sin, 36(8): 101–108, doi: 10.1007/s13131-017-1023-1

Volkman J K. 1986. A review of sterol markers for marine and terrigenous organic matter. Org Geochem, 9(2): 83–99

Volkman J K, Barrett S M, Dunstan G A, et al. 1993. Geochemical significance of the occurrence of dinosterol and other 4-methyl sterols in a marine diatom. Org Geochem, 20(1): 7–15, doi: 10.1016/0146-6380(93)90076-N

Volkman J K, Kearney P, Jeffrey S W. 1990. A new source of 4-methyl sterols and 5α(H)-stanols in sediments: prymnesiophyte microalgae of the genus Pavlova. Org Geochem, 15(5): 489–497, doi: 10.1016/0146-6380(90)90094-G

Walter K M, Zimov S A, Chanton J P, et al. 2006. Methane bubbling from Siberian thaw lakes as a positive feedback to climate warming. Nature, 443(7107): 71–75, doi: 10.1038/ nature05040

Wang B, Zhu Q M, Zhuang Y P, et al. 2015. Biogenic silica distribution in Chukchi Sea and its implications for silicate pump process. Bull Mineral Petrol Geochem, 34(6): 1131–1141, doi: 10.3969/j.issn.1007-2802.2015.06.006 (in Chinese)

Wang X Y, Li Z Q, Jin H Y, et al. 2017. Sources and degradation of organic carbon in the surface sediments across the Chukchi Sea, insights from lignin phenols. Haiyang Xuebao, 39(10): 19–31 (in Chinese)

Woodgate R A, Weingartner T J, Lindsay R. 2012. Observed increases in Bering Strait oceanic fluxes from the Pacific to the Arctic from 2001 to 2011 and their impacts on the Arctic Ocean water column. Geophys Res Lett, 39(24): L24603, doi: 10.1029/2012GL054092

Xiao X T, Zhao M X, Knudsen K L, et al. 2017. Deglacial and Holocene sea–ice variability north of Iceland and response to ocean circulation changes. Earth Planet Sci Lett, 472: 14–24, doi: 10.1016/j.epsl.2017.05.006

Xu F L, Jin H Y, Ji Z Q, et al. 2017. Sources and distribution of sedimentary organic matter along the northern Bering and Chukchi Seas. J Environ Sci, 52: 66–75, doi: 10.1016/j.jes. 2016.04.003

Yamamoto-Kawai M, McLaughlin F A, Carmack E C, et al. 2008. Freshwater budget of the Canada Basin, Arctic Ocean, from salinity, δ18O, and nutrients. J Geophys Res Oceans, 113(C1): C01007, doi: 10.1029/2006JC003858

Yamamoto-Kawai M, McLaughlin F A, Carmack E C, et al. 2009a. Aragonite undersaturation in the Arctic Ocean: effects of ocean acidification and sea ice melt. Science, 326(5956): 1098–1100, doi: 10.1126/science.1174190

Yamamoto-Kawai M, McLaughlin F A, Carmack E C, et al. 2009b. Surface freshening of the Canada Basin, 2003–2007: River runoff versus sea ice meltwater. J Geophys Res Oceans, 114(C1): C00A05, doi: 10.1029/2008JC005000

Yu W, He J, Li Y, et al. 2012. Particulate organic carbon export fluxes and validation of steady state model of 234Th export in the Chukchi Sea. Deep Sea Res Part II Top Stud Oceanogr, 81–84: 63–71, doi: 10.1016/j.dsr2.2012.03.003

Zeebe R E, Wolf-Gladrow D. 2001. CO2 in seawater: equilibrium, kinetics, isotopes. Amsterdam: Elsevier Science

Zhang H Z, Zhuang Y P, Zhu Q M, et al. 2015. Estimation of nutrients flux of water-sediment interface in the Chukchi Sea, the western Arctic Ocean. Haiyang Xuebao, 37(11): 155–164 (in Chinese)

Zhang M, Qiao F L, Song Z Y. 2017. Observation of atmospheric methane in the Arctic Ocean up to 87° north. Sci China Earth Sci, 60(1): 173–179, doi: 10.1007/s11430-015-0241-3

Zhang Y, Ji Z Q, Zhuang Y P, et al. 2015. The implication of chlorin to marine-derived organic matter in Northwest Arctic Ocean. BullMineral Petrol Geochem, 34(6): 1123–1130, doi: 10.3969/j.issn.1007-2802.2015.06.005 (in Chinese)

Zhan L Y, Chen L Q, Zhang J X, et al. 2015. A vertical gradient of nitrous oxide below the subsurface of the Canada Basin and its formation mechanisms. J Geophys Res Oceans, 120(3): 2401–2411, doi: 10.1002/2014JC010337

Zhuang Y P, Jin H Y, Chen J F, et al. 2011. Response of nutrients and the surface phytoplankton community to ica melting in the central Arctic Ocean. Adv Polar Sci, 22(4): 266–272, doi: 10.3724/SP.J.1085.2011.00266

Zhuang Y P, Jin H Y, Gu F, et al. 2017. Composition of algal pigments in surface freshen layer after ice melt in the central Arctic. Acta Oceanol Sin, 36(8): 122–130, doi: 10.1007/s 13131-017-1024-0

Zhuang Y P, Jin H Y, Li H L, et al. 2016. Pacific inflow control on phytoplankton community in the Eastern Chukchi Shelf during summer. Cont Shelf Res, 129: 23–32, doi: 10.1016/j. csr.2016.09.010