All Issue

2021 Vol.43, Issue 4 Preview Page

Review

30 December 2021. pp. 353-363
Abstract
References
1
Baker A, Elliott S, Lead JR (2007) Effects of filtration and pH perturbation on freshwater organic matter fluorescence. Chemosphere 67:2035-2043 10.1016/j.chemosphere.2006.11.02417208277
2
Cho H-M, Kim T-H, Moon J-H, Song B-C, Hwang D-W, Kim T, Im D-H (2021) Estimating submarine groundwater discharge in Jeju volcanic island (Korea) during a typhoon (Kong-rey) using humic-fluorescent dissolved organic matter-Si mass balance. Sci Rep 11:941 10.1038/s41598-020-79381-033441639PMC7807084
3
Coble PG (1996) Characterization of marine and terrestrial DOM in seawater using excitation-emission matrix spectroscopy. Mar Chem 51:325-346 10.1016/0304-4203(95)00062-3
4
Coble PG (2007) Marine optical biogeochemistry: the chemistry of ocean color. Chem Rev 107:402-418 10.1021/cr050350+17256912
5
Coble PG, Del Castillo CE, Avril B (1998) Distribution and optical properties of CDOM in the Arabian Sea during the 1995 Southwest Monsoon. Deep-Sea Res Pt II 45: 2195-2223 10.1016/S0967-0645(98)00068-X
6
Coble PG, Green SA, Blough NV, Gagosian RB (1990) Characterization of dissolved organic matter in the Black Sea by fluorescence spectroscopy. Nature 348(6300):432-435 10.1038/348432a0
7
Cory RM, McKnight DM (2005) Fluorescence spectroscopy reveals ubiquitous presence of oxidized and reduced quinones in dissolved organic matter. Environ Sci Technol 39:8142-8149 10.1021/es050696216294847
8
Cory RM, McKnight DM, Chin YP, Miller P, Jaros CL (2007) Chemical characteristics of fulvic acids from arctic surface waters: microbial contributions and photochemical transformations. J Geophys Res-Biogeo 112: G04S51. doi:10.1029/2006JG000343 10.1029/2006JG000343
9
De Souza Sierra MM, Donard OFX, Lamotte M, Belin C, Ewald M (1994) Fluorescence spectroscopy of coastal and marine waters. Mar Chem 47(2):127-144 10.1016/0304-4203(94)90104-X
10
Han H, Cho H-M, Kwon HK, Kim G (2021a) Fluorescent dissolved organic matter (FDOM) in the East Sea (Japan Sea): distributions, sources, and sinks. Ocean Sci J 56:132-140 10.1007/s12601-021-00014-2
11
Han H, Hwang J, Kim G (2021b) Characterizing the origins of dissolved organic carbon in coastal seawater using stable carbon isotope and light absorption characteristics. Biogeosciences 18:1793-1801 10.5194/bg-18-1793-2021
12
Hernes PJ, Bergamaschi BA, Eckard RS, Spencer RGM (2009) Fluorescence-based proxies for lignin in freshwater dissolved organic matter. J Geophys Res-Biogeo 114: G00F03. doi:10.1029/2009JG000938 10.1029/2009JG000938
13
Hudson N, Baker A, Reynolds D (2007) Fluorescence analysis of dissolved organic matter in natural, waste and polluted waters - a review. River Res Appl 23:631-649 10.1002/rra.1005
14
Huguet A, Vacher L, Relexans S, Saubusse S, Froidefond JM, Parlanti E (2009) Properties of fluorescent dissolved organic matter in the Gironde Estuary. Org Geochem 40:706-719 10.1016/j.orggeochem.2009.03.002
15
Jaffé R, McKnight D, Maie N, Cory R, McDowell WH, Campbell JL (2008) Spatial and temporal variations in DOM composition in ecosystems: the importance of long- term monitoring of optical properties. J Geophys Res- Biogeo 113:G04032. doi:10.1029/2008JG000683 10.1029/2008JG000683
16
Jeon MH, Jung J, Park MO, Aoki S, Kim T-W, Kim S-K (2021) Tracing circumpolar deep water and glacial meltwater using humic-like fluorescent dissolved organic matter in the Amundsen Sea, Antarctica. Mar Chem 235:104008 10.1016/j.marchem.2021.104008
17
Jørgensen L, Stedmon CA, Kragh T, Markager S, Middelboe M, Søndergaard M (2011) Global trends in the fluorescence characteristics and distribution of marine dissolved organic matter. Mar Chem 126:139-148 10.1016/j.marchem.2011.05.002
18
Kalbitz K, Geyer S, Geyer W (2000) A comparative characterization of dissolved organic matter by means of original aqueous samples and isolated humic substances. Chemosphere 40:1305-1312 10.1016/S0045-6535(99)00238-6
19
Kalbitz K, Geyer W, Geyer S (1999) Spectroscopic properties of dissolved humic substances - a reflection of land use history in a fen area. Biogeochemistry 47:219-238 10.1007/BF00994924
20
Kalle K (1938) Zum problem der meerwasserfarbe. Ann Hydrol Mar Mitteilungen 66:1-13
21
Kim J, Cho H-M, Kim G (2015) 228Ra flux in the northwestern pacific marginal seas: implications for disproportionally large submarine groundwater discharge. Ocean Sci J 50:195-202 10.1007/s12601-015-0015-3
22
Kim J, Cho H-M, Kim G (2018) Significant production of humic fluorescent dissolved organic matter in the continental shelf waters of the northwestern Pacific Ocean. Sci Rep 8:4887 10.1038/s41598-018-23299-129559703PMC5861113
23
Kim J, Kim G (2015) Importance of colored dissolved organic matter (CDOM) inputs from the deep sea to the euphotic zone: results from the East (Japan) Sea. Mar Chem 169:33-40 10.1016/j.marchem.2014.12.010
24
Kim J, Kim G (2016) Significant anaerobic production of fluorescent dissolved organic matter in the deep East Sea (Sea of Japan). Geophys Res Lett 43:7609-7616 10.1002/2016GL069335
25
Kim J, Kim G (2017) Inputs of humic fluorescent dissolved organic matter via submarine groundwater discharge to coastal waters off a volcanic island (Jeju, Korea). Sci Rep 7:7921 10.1038/s41598-017-08518-528801585PMC5554202
26
Kim J, Kim T-H (2020) Distribution of humic fluorescent dissolved organic matter in Lake Shihwa: the role of the redox condition. Estuar Coasts 43:578-588 10.1007/s12237-018-00491-0
27
Kim J, Kim T-H, Park SR, Lee HJ, Kim JK (2020a) Factors controlling the distributions of dissolved organic matter in the East China Sea during summer. Sci Rep 10:11854 10.1038/s41598-020-68863-w32678257PMC7366708
28
Kim J, Kim Y, Kang H-W, Kim SH, Rho T, Kang D-J (2020b) Tracing water mass fractions in the deep western Indian Ocean using fluorescent dissolved organic matter. Mar Chem 218:103720 10.1016/j.marchem.2019.103720
29
Kim J, Kim Y, Park SE, Kim T-H, Kim B-G, Kang D-J, Rho T (2021) Impact of aquaculture on distribution of dissolved organic matter in coastal Jeju Island, Korea, based on absorption and fluorescence spectroscopy. Environ Sci Pollut Res (in press). doi:10.1007/s11356-021-15553-3 10.1007/s11356-021-15553-3
30
Kim T-H, Kwon E, Kim I, Lee S-A, Kim G (2013) Dissolved organic matter in the subterranean estuary of a volcanic island, Jeju: importance of dissolved organic nitrogen fluxes to the ocean. J Sea Res 78:18-24 10.1016/j.seares.2012.12.009
31
Lakowicz JR (2013) Principles of fluorescence spectroscopy. Springer Science & Business Media, New York, 954 p
32
Lawaetz AJ, Stedmon CA (2009) Fluorescence intensity calibration using the Raman scatter peak of water. Appl Spectrosc 63:936-940 10.1366/00037020978896454819678992
33
Lee S-A, Kim G (2018) Sources, fluxes, and behaviors of fluorescent dissolved organic matter (FDOM) in the Nakdong River estuary, Korea. Biogeosciences 15:1115-1122 10.5194/bg-15-1115-2018
34
Lee S-A, Lee J, Han Y, Kim G (2020) Biogeochemical alteration and fluxes of dissolved organic matter and nutrients in coastal bays. Estuar Coast 245:106992 10.1016/j.ecss.2020.106992
35
Lee Y, Hong S, Kim M-S, Kim D, Choi B-H, Hur J, Khim JS, Shin K-H (2017) Identification of sources and seasonal variability of organic matter in Lake Sihwa and surrounding inland creeks, South Korea. Chemosphere 177:109-119 10.1016/j.chemosphere.2017.02.14828284959
36
Lee Y, Hur J, Shin K-H (2014) Characterization and source identification of organic matter in view of land uses and heavy rainfall in the Lake Shihwa, Korea. Mar Pollut Bull 84:322-329 10.1016/j.marpolbul.2014.04.03324841714
37
McKnight DM, Boyer EW, Westerhoff PK, Doran PT, Kulbe T, Andersen DT (2001) Spectrofluorometric characterization of dissolved organic matter for indication of precursor organic material and aromaticity. Limnol Oceanogr 46:38-48 10.4319/lo.2001.46.1.0038
38
Murphy KR, Stedmon CA, Wenig P, Bro R (2014) OpenFluor -an online spectral library of auto-fluorescence by organic compounds in the environment. Anal Methods 6:658-661 10.1039/C3AY41935E
39
Nelson NB, Siegel DA (2002) Chromophoric DOM in the open ocean. Biogeochemistry of marine dissolved organic matter. Academic Press, Elsevier, San Diego, pp 547-578 10.1016/B978-012323841-2/50013-012215048
40
Ohno T (2002) Fluorescence inner-filtering correction for determining the humification index of dissolved organic matter. Environ Sci Technol 36:742-746 10.1021/es015527611878392
41
Parlanti E, Wörz K, Geoffroy L, Lamotte M (2000) Dissolved organic matter fluorescence spectroscopy as a tool to estimate biological activity in a coastal zone submitted to anthropogenic inputs. Org Geochem 31:1765-1781 10.1016/S0146-6380(00)00124-8
42
Saraceno JF, Pellerin BA, Downing BD, Boss E, Bachand PAM, Bergamaschi BA (2009) High-frequency in situ optical measurements during a storm event: assessing relationships between dissolved organic matter, sediment concentrations, and hydrologic processes. J Geophys Res- Biogeo 114:G00F09. doi:10.1029/2009JG000989 10.1029/2009JG000989
43
Spencer RGM, Pellerin BA, Bergamaschi BA, Downing BD, Kraus TEC, Smart DR, Dahlgren RA, Hernes PJ (2007) Diurnal variability in riverine dissolved organic matter composition determined by in situ optical measurement in the San Joaquin River (California, USA). Hydrol Process 21:3181-3189 10.1002/hyp.6887
44
Stedmon CA, Markager S, Bro R (2003) Tracing dissolved organic matter in aquatic environments using a new approach to fluorescence spectroscopy. Mar Chem 82:239-254 10.1016/S0304-4203(03)00072-0
45
Tanaka K, Kuma K, Hamasaki K, Yamashita Y (2014) Accumulation of humic-like fluorescent dissolved organic matter in the Japan Sea. Sci Rep 4(1):1-7 10.1038/srep0529225028129PMC4100029
46
Traganza ED (1969) Fluorescence excitation and emission spectra of dissolved organic matter in sea water. B Mar Sci 19:897-904
47
Xu JX, Vithanage BCN, Athukorale SA, Zhang D (2018) Scattering and absorption differ drastically in their inner filter effects on fluorescence, resonance synchronous, and polarized resonance synchronous spectroscopic measurements. Analyst 143:3382-3389 10.1039/C8AN00790J29897058
48
Yamashita Y, Lu CJ, Ogawa H, Nishioka J, Obata H, Saito H (2015) Application of an in situ fluorometer to determine the distribution of fluorescent organic matter in the open ocean. Mar Chem 177(2):298-305 10.1016/j.marchem.2015.06.025
49
Yamashita Y, Tanoue E (2003) Chemical characterization of protein-like fluorophores in DOM in relation to aromatic amino acids. Mar Chem 82:255-271 10.1016/S0304-4203(03)00073-2
50
Yamashita Y, Tanoue E (2009) Basin scale distribution of chromophoric dissolved organic matter in the Pacific Ocean. Limnol Oceanogr 54:598-609 10.4319/lo.2009.54.2.0598
51
Zepp RG, Sheldon WM, Moran MA (2004) Dissolved organic fluorophores in southeastern US coastal waters: correction method for eliminating Rayleigh and Raman scattering peaks in excitation-emission matrices. Mar Chem 89:15-36 10.1016/j.marchem.2004.02.006
52
Zhao L, Gao L (2019) Dynamics of dissolved and particulate organic matter in the Changjiang (Yangtze River) Estuary and the adjacent East China Sea shelf. J Mar Syst 198: 103188 10.1016/j.jmarsys.2019.103188
53
Zsolnay A, Baigar E, Jimenez M, Steinweg B, Saccomandi F (1999) Differentiating with fluorescence spectroscopy the sources of dissolved organic matter in soils subjected to drying. Chemosphere 38:45-50 10.1016/S0045-6535(98)00166-0
Information
  • Publisher :Korea Institute of Ocean Science and Technology
  • Publisher(Ko) :한국해양과학기술원
  • Journal Title :Ocean and Polar Research
  • Journal Title(Ko) :Ocean and Polar Research
  • Volume : 43
  • No :4
  • Pages :353-363
  • Received Date :2021. 08. 10
  • Revised Date :2021. 09. 04
  • Accepted Date : 2021. 09. 06