Climate and environmental changes in the Arctic Ocean due to global warming have been linked to extreme climate change in mid-latitude regions, including the Korean Peninsula, requiring a better understanding of the Arctic climate system based on the paleo-analog. This review introduces three paleoenvironmental research cases using neodymium isotopes (143Nd/144Nd, εNd) measured on two different fractions of marine sediments: silicate-bound ‘detrital’ and Fe-Mn oxide-dominated ‘authigenic’ fractions. In the first case, detrital εNd in core HH17-1085-GC on the continental shelf off northern Svalbard was used for tracing changes in sediment provenance and associated glacier behavior over the last 16.3 ka. The second case showed the potential use of authigenic εNd as a quasi-conservative water mass tracer. Three prominent εNd peaks and troughs observed in core PS72/410-1 from the Mendeleev Ridge in the western Arctic Ocean over the past 76 ka suggested episodic meltwater discharge events during 51~46, 39~35 and 21~13 ka BP. The last case proposed the use of the difference between authigenic and detrital εNd as a proxy for reconstructing glacier fluctuation. The idea is based on the assumption that enhanced glacial erosion during glacier advances can supply sufficient freshly-exposed rock substrate for incongruent weathering, potentially leading to greater isotopic decoupling between bedrock and dissolved weathering products as recorded in detrital and authigenic εNd, respectively. Thus, it would be worthwhile to take advantage of sedimentary εNd to improve our understanding of past environmental changes in polar regions.

1 von Blanckenburg F, "Weathering versus circulation-controlled changes in radiogenic isotope tracer composition of the Labrador Sea and North Atlantic Deep Water" 16 : 424-434, 2001

2 Kim B-M, "Weakening of the stratospheric polar vortex by Arctic sea-ice loss" 5 : 4646-, 2014

3 Vance D, "Variable Quaternary chemical weathering fluxes and imbalances in marine geochemical budgets" 458 : 493-496, 2009

4 Stein R, "Towards a better(litho-)stratigraphy and reconstruction of Quaternary paleoenvironment in the Amerasian Basin(Arctic Ocean)" 79 : 97-121, 2010

5 Williams GD, "The suppression of Antarctic bottom water formation by melting ice shelves in Prydz Bay" 7 : 12577-, 2016

6 Johansson Å, "The late Palaeoproterozoic Eskolabreen granitoids of southern Ny Friesland, Svalbard Caledonides-geochemistry, age, and origin" 121 : 113-126, 1999

7 Clark PU, "The last glacial maximum" 325 : 710-714, 2009

8 Hughes AL, "The last Eurasian ice sheets–a chronological database and time-slice reconstruction, DATED-1" 45 : 1-45, 2016

9 Tachikawa K, "The large-scale evolution of neodymium isotopic composition in the global modern and Holocene ocean revealed from seawater and archive data" 457 : 131-148, 2017

10 Andersson PS, "The isotopic composition of Nd in a boreal river : a reflection of selective weathering and colloidal transport" 65 : 521-527, 2001

11 Jakobsson M, "The international bathymetric chart of the Arctic Ocean Version 4. 0" 7 : 176-, 2020

12 Porcelli D, "The distribution of neodymium isotopes in Arctic Ocean basins" 73 : 2645-2659, 2009

13 Rantanen M, "The Arctic has warmed nearly four times faster than the globe since 1979" 3 : 168-, 2022

14 Sharma M, "Temporal Sr-, Nd-and Pb-isotopic variations in the Siberian flood basalts : implications for the plume-source characteristics" 113 : 365-381, 1992

15 Roberts NL, "Synchronous deglacial overturning and water mass source changes" 327 : 75-78, 2010

16 Böhm E, "Strong and deep Atlantic meridional overturning circulation during the last glacial cycle" 517 : 73-76, 2015

17 Jacobsen SB, "Sm-Nd isotopic evolution of chondrites" 50 : 139-155, 1980

18 Pin C, "Sequential separation of light rare-earth elements, thorium and uranium by miniaturized extraction chromatography : application to isotopic analyses of silicate rocks" 339 : 79-89, 1997

19 Milliman JD, "River discharge to the coastal ocean: a global synthesis" Cambridge University Press 384-, 2011

20 Gutjahr M, "Reliable extraction of a deepwater trace metal isotope signal from Fe-Mn oxyhydroxide coatings of marine sediments" 242 : 351-370, 2007

21 Rutberg RL, "Reduced North Atlantic Deep Water flux to the glacial Southern Ocean inferred from neodymium isotope ratios" 405 : 935-938, 2000

22 Wilson DJ, "Reactivity of neodymium carriers in deep sea sediments : implications for boundary exchange and paleoceanography" 109 : 197-221, 2013

23 Rye CD, "Rapid sea-level rise along the Antarctic margins in response to increased glacial discharge" 7 : 732-735, 2014

24 Frank M, "Radiogenic isotopes : tracers of past ocean circulation and erosional input" 40 : 2002

25 Horikawa K, "Pliocene cooling enhanced by flow of low-salinity Bering Sea water to the Arctic Ocean" 6 : 8587-, 2015

26 Darby DA, "Past glacial and interglacial conditions in the Arctic Ocean and marginal seas-a review" 71 : 129-144, 2006

27 서인아 ; 김부근 ; 조현구 ; 허영숙 ; 이종민 ; 형기성, "Origin of the Holocene Sediments in the Ninetyeast Ridge of the Equatorial Indian Ocean" 한국해양과학기술원 57 (57): 345-356, 2022

28 Laukert G, "Ocean circulation and freshwater pathways in the Arctic Mediterranean based on a combined Nd isotope, REE and oxygen isotope section across Fram Strait" 202 : 285-309, 2017

29 Bazhenova E, "North American origin of"pink-white"layers at the Mendeleev Ridge(Arctic Ocean) : new insights from lead and neodymium isotope composition of detrital sediment component" 386 : 44-55, 2017

30 Jang K, "Non-linear response of glacier melting to Holocene warming in Svalbard recorded by sedimentary iron(oxyhydr)oxides" 607 : 118054-, 2023

31 Andersson PS, "Neodymium isotopes in seawater from the Barents Sea and Fram Strait Arctic-Atlantic gateways" 72 : 2854-2867, 2008

32 Grousset FE, "Neodymium isotopes as tracers in marine sediments and aerosols : North Atlantic" 87 : 367-378, 1988

33 Jang K, "Neodymium isotope constraints on chemical weathering and past glacial activity in Svalbard" 542 : 116319-, 2020

34 Dahlqvist R, "Nd isotopes in Bering Strait and Chukchi Sea water" 71 : A196-, 2007

35 Howat IM, "Multi-decadal retreat of Greenland’s marine-terminating glaciers" 57 : 389-396, 2011

36 Jakobsson M, "Manganese and color cycles in Arctic Ocean sediments constrain Pleistocene chronology" 28 : 23-26, 2000

37 Svendsen JI, "Late Quaternary ice sheet history of northern Eurasia" 23 : 1229-1271, 2004

38 Fagel N, "Late Quaternary evolution of sediment provenances in the Central Arctic Ocean : mineral assemblage, trace element composition and Nd and Pb isotope fingerprints of detrital fraction from the Northern Mendeleev Ridge" 92 : 140-154, 2014

39 Ye L, "Late Pleistocene Laurentide-source iceberg outbursts in the western Arctic Ocean" 297 : 107836-, 2022

40 Ó Cofaigh C, "Laminated sediments in glacimarine environments : diagnostic criteria for their interpretation" 20 : 1411-1436, 2001

41 Dong L, "Isotopic fingerprints of ice-rafted debris offer new constraints on middle to Late Quaternary Arctic Circulation and glacial history" 21 : e2020-, 2020

42 Johansson Å, "Isotope studies of granitoids from the Bangenhuk formation, Ny Friesland Caledonides, Svalbard" 132 : 303-320, 1995

43 Horikawa K, "Intermediate water formation in the Bering Sea during glacial periods : evidence from neodymium isotope ratios" 38 : 435-438, 2010

44 Haley BA, "Influence of brine formation on Arctic Ocean circulation over the past 15 million years" 1 : 68-72, 2007

45 Hu A, "Influence of Bering Strait flow and North Atlantic circulation on glacial sea-level changes" 3 : 118-, 2010

46 Piotrowski AM, "Indian Ocean circulation and productivity during the last glacial cycle" 285 : 179-189, 2009

47 Murton JB, "Identification of Younger Dryas outburst flood path from Lake Agassiz to the Arctic Ocean" 464 : 740-743, 2010

48 Mangerud J, "Ice-dammed lakes and rerouting of the drainage of northern Eurasia during the Last Glaciation" 23 : 1313-1332, 2004

49 Wilson DJ, "Ice loss from the East Antarctic Ice Sheet during late Pleistocene interglacials" 561 : 383-386, 2018

50 Farnsworth WR, "Holocene glacial history of Svalbard : status, perspectives and challenges" 208 : 103249-, 2020

51 Hemming SR, "Heinrich events : massive late Pleistocene detritus layers of the North Atlantic and their global climate imprint" 42 : RG1005-, 2004

52 Zimmermann B, "Hafnium isotopes in Arctic Ocean water" 73 : 3218-3233, 2009

53 Johansson Å, "Grenvillian magmatism of western and central Nordaustlandet, northeastern Svalbard" 90 : 221-254, 2000

54 Zemp M, "Global glaciermass changes and their contributions to sea-level rise from 1961 to 2016" 568 : 382-386, 2019

55 Robinson S, "Global continental and marine detrital εNd : an updated compilation for use in understanding marine Nd cycling" 567 : 120119-, 2021

56 Fjeldskaar W, "Glaciers on Svalbard survived the Holocene thermal optimum" 199 : 18-29, 2018

57 Fuentes V, "Glacial melting : an overlooked threat to Antarctic krill" 6 : 27234-, 2016

58 Jang K, "Glacial freshwater discharge events recorded by authigenic neodymium isotopes in sediments from the Mendeleev Ridge, western Arctic Ocean" 369–370 : 148-157, 2013

59 Jang K, "Glacial and environmental changes in northern Svalbard over the last 16. 3 ka inferred from neodymium isotopes" 201 : 103483-, 2021

60 Kunzmann M, "Geochemistry of Neoproterozoic black shales from Svalbard : implications for oceanic redox conditions spanning Cryogenian glaciations" 417 : 383-393, 2015

61 Hillaire-Marcel C, "Geochemical and isotopic tracers of Arctic sea ice sources and export with special attention to the Younger Dryas interval" 79 : 184-190, 2013

62 Blaser P, "Extracting foraminiferal seawater Nd isotope signatures from bulk deep sea sediment by chemical leaching" 439 : 189-204, 2016

63 Dausmann V, "Experimental evidence for mineral-controlled release of radiogenic Nd, Hf and Pb isotopes from granitic rocks during progressive chemical weathering" 507 : 64-84, 2019

64 Aharon P, "Entrainment of meltwaters in hyperpycnal flows during deglaciation superfloods in the Gulf of Mexico" 241 : 260-270, 2006

65 Not C, "Enhanced sea-ice export from the Arctic during the Younger Dryas" 3 : 647-, 2012

66 Süfke F, "Early stage weathering systematics of Pb and Nd isotopes derived from a high-Alpine Holocene lake sediment record" 507 : 42-53, 2019

67 Jang K, "Diagenetic overprint on authigenic Nd isotope records : a case study of the Bering Slope" 498 : 247-256, 2018

68 Khim B-K, "Detrital Sr–Nd isotopes, sediment provenances and depositional processes in the Laxmi Basin of the Arabian Sea during the last 800 ka" 157 : 895-907, 2020

69 Bayon G, "Determination of rare earth elements, Sc, Y, Zr, Ba, Hf and Th in geological samples by ICPMS after Tm addition and alkaline fusion" 33 : 51-62, 2009

70 Vogt C, "Detailed mineralogical evidence for two nearly identical glacial/deglacial cycles and Atlantic water advection to the Arctic Ocean during the last 90, 000 years" 31 : 23-44, 2001

71 Hindshaw RS, "Decoupling of dissolved and bedrock neodymium isotopes during sedimentary cycling" 8 : 43-46, 2018

72 Nuth C, "Decadal changes from a multi-temporal glacier inventory of Svalbard" 7 : 1603-1621, 2013

73 Scher HD, "Circulation in the Southern Ocean during the Paleogene inferred from neodymium isotopes" 228 : 391-405, 2004

74 Öhlander B, "Change of Sm-Nd isotope composition during weathering of till" 64 : 813-820, 2000

75 Johansson Å, "Caledonian granites of western and central Nordaustlandet, northeast Svalbard" 124 : 135-148, 2002

76 Dallmann W, "Bedrock geology, Geoscience atlas of Svalbard" Norwegian Polar Institute 133-173, 2015

77 Jang K, "Authigenic Nd isotope record of North Pacific Intermediate Water formation and boundary exchange on the Bering Slope" 156 : 150-163, 2017

78 Jang K, "Arctic deepwater anoxia and its potential role for ocean carbon sink during glacial periods" 4 : 45-, 2023

79 Rudels B, "Arctic Ocean circulation and variability-advection and external forcing encounter constraints and local processes" 8 : 261-286, 2012

80 Xiao W, "A sedimentary record from the Makarov Basin, Arctic Ocean, reveals changing middle to Late Pleistocene glaciation patterns" 270 : 107176-, 2021

81 Tachikawa K, "A new approach to the Nd residence time in the ocean : the role of atmospheric inputs" 170 : 433-446, 1999

82 Goldstein SL, "A Sm-Nd isotopic study of atmospheric dusts and particulates from major river systems" 70 : 221-236, 1984