References

  1. Y. Su, F. Chen, Z. Liu, Comparison of optical properties of chromophoric dissolved organic matter (CDOM) in alpine lakes above or below the tree line: insights into sources of CDOM, Photo chem. Photo biol. Sci., 14 (2015) 1047–1062.
  2. Y.L. Yao, W.H. Zhao, H. Miao, Studied on colored dissolved organic matter of spring in North Yellow Sea with three-dimensional fluorescence spectroscopy combined with parallel factor analysis, Spectrosc. Spect. Anal., 36 (2016) 2532–2537.
  3. Y. Zhao, K.S. Song, S.J. Li, J.H. Ma, Z.D. Wen, Characterization of CDOM from urban waters in Northern-Northeastern China using excitation-emission matrix fluorescence and parallel factor analysis, Environ. Sci. Pollut. Res., 23 (2016) 15381–15394.
  4. M. Tedetti, P. Cuet, C. Guigue, M. Goutx, Characterization of dissolved organic matter in a coral reef ecosystem subjected to anthropogenic pressures (La Reunion Island, Indian Ocean) using multi-dimensional fluorescence spectroscopy, Sci. Total Environ., 409 (2011) 2198–2210.
  5. L.H. Yan, R.G. Su, C.S. Zhang, X.Y. Shi, C.J. Zhu, Assessing the dynamics of chromophoric dissolved organic matter (CDOM) in the Yellow Sea and the East China Sea in autumn by EEMs-PARAFAC, Sci. China Chem., 55 (2012) 2595–2609.
  6. C.H. Yang, Y.Z. Liu, Y.X. Zhu, Y. Zhang, Insights into the binding interactions of autochthonous dissolved organic matter released from Microcystis aeruginosa with pyrene using spectroscopy, Mar. Pollut. Bull., 104 (2016) 113–120.
  7. J.C. Bowen, C.D. Clark, J.K. Keller, W.J.D. Bruyn, Optical properties of chromophoric dissolved organic matter (CDOM) in surface and pore waters adjacent to an oil well in a southern California salt marsh, Mar. Pollut. Bull., 114 (2017) 157–168.
  8. S.K. Ding, W.H. Chu, T. Bond, Q. Wang, N.Y. Gao, B. Xu, E.D. Du, Formation and estimated toxicity of trihalomethanes, haloacetonitriles, and haloacetamides from the chlor(am) ination of acetaminophen, J. Hazard Mater., 341 (2018) 112–119.
  9. Y.P. Zhu, N.Y, Gao, W.H. Chu, S.F. Wang, J.H. Xu, Bacterial reduction of highly concentrated perchlorate: Kinetics and influence of co-existing electron acceptors, temperature, pH and electron donors, Chemosphere, 148 (2016) 188–194.
  10. T. Maqbool, J. Cho, J. Hur, Spectroscopic descriptors for dynamic changes of soluble microbial products from activated sludge at different biomass growth phases under prolonged starvation, Water Res., 123 (2017) 751–760.
  11. Y.L. Wang, C.M. Yang, L.M. Zou, H.Z. Cui, Spatial distribution and fluorescence properties of soil dissolved organic carbon across a riparian buffer wetland in Chongming Island, China, Pedosphere, 25 (2015) 220–229.
  12. D.M. McKnight, E.W. Boyer, P.K. Westerhoff, P.T. Doran, T. Kulbe, D.T. Andersen, Spectrofluorometric characterization of dissolved organic matter for indication of precursor organic material and aromaticity, Limnol. Oceanogr., 46 (2001) 38–48.
  13. Y. Bai, R.G. Su, X.R. Han, C.S. Zhang, X.Y. Shi, Investigation of seasonal variability of CDOM fluorescence in the southern changjiang river estuary by EEM-PARAFAC, Acta Oceanol. Sin., 34 (2015) 1–12.
  14. Y.Q. Zhou, X.L. Yao, Y.B. Zhang, K. Shi, Y.L. Zhang, E. Jeppesen, G. Gao, G.W. Zhu, B.Q. Qin, Potential rainfall-intensity and pH-driven shifts in the apparent fluorescent composition of dissolved organic matter in rainwater, Environ. Pollut., 224 (2017) 638–648.
  15. Y.F. Wang, X.Y. Zhang, X Zhang, Q.J. Meng, F.J. Gao, Y. Zhang, Characterization of spectral responses of dissolved organic matter (DOM) for atrazine binding during the sorption process onto black soil, Chemosphere, 180 (2017) 531–539.
  16. L.Y. Yang, C.T. Chen, H.S. Hong, Y.C. Chang, H.K. Lui, Mixing behavior and bioavailability of dissolved organic matter in two contrasting subterranean estuaries as revealed by fluorescence spectroscopy and parallel factor analysis, Estuar. Coast. Shelf S., 166 (2015) 161–169.
  17. X.L. Yu, F. Shen, Y.Y. Liu, Light absorption properties of CDOM in the Changjiang (Yangtze) estuarine and coastal waters: An alternative approach for DOC estimation, Estuar. Coast. Shelf S., 181 (2010) 302–311.
  18. A. Huguet, L. Vacher, S. Saubusse, H. Etcheber, G. Abril, S. Relexans, F. Ibalot, E. Parlanti, New insights into the size distribution of fluorescent dissolved organic matter in estuarine waters, Org. Geochem, 41 (2010) 595–610.
  19. J.L. Dixon, C.L. Osburn, H.W. Paerl, B.L. Peierls, Seasonal changes in estuarine dissolved organic matter due to variable flushing time and wind-driven mixing events, Estuar. Coast. Shelf S., 151 (2014) 210–220.
  20. L.Y. Yang, H.S. Hong, W.D. Guo, C.T. Chen, P.I. Pan, C.C. Feng, Absorption and fluorescence of dissolved organic matter in submarine hydrothermal vents off NE Taiwan, Mar. Chem., 128–129 (2012) 64–71.
  21. L.Y. Yang, W.E. Zhuang, C.T. Chen, B.J. Wang, F.W. Kuo, Unveiling the transformation and bioavailability of dissolved organic matter in contrasting hydrothermal vents using fluorescence EEM-PARAFAC, Water Res., 111 (2017) 195–203.
  22. N.V.H.K. Chari, P.S. Rao, N.S. Sarma, Fluorescent dissolved organic matter in the continental shelf waters of western Bay of Bengal, Earth Syst. Sci., 122 (2013) 1325–1334.
  23. W.T. Li, S.Y. Chen, Z.X. Xu, Y. Li, C.D. Shuang, A.M. Li, Characterization of dissolved organic matter in municipal wastewater using fluorescence PARAFAC analysis and chromatography multi-excitation/emission scan: a comparative study, Environ. Sci. Technol., 48 (2014) 2603–2609.
  24. M. Couturier, C. Nozais, G. Chaillou, Microtidal subterranean estuaries as a source of fresh terrestrial dissolved organic matter to the coastal ocean, Mar. Chem., 186 (2016) 46–57.
  25. R. Nicolau, A. Galera-Cunha, Y. Lucas, Transfer of nutrients and labile metals from the continent to the sea by a small Mediterranean river, Chemosphere, 63 (2006) 469–476.
  26. A.A. Andrew, R.D. Vecchio, A. bramaniam, N.V. Blough, Chromophoric dissolved organic matter (CDOM) in the Equatorial Atlantic Ocean: Optical properties and their relation to CDOM structure and source, Mar. Chem., 148 (2013) 33–43.
  27. S.B. Huang, Y.X. Wang, T. Ma, Y.Y. Wang, L. Zhao, Fluorescence spectroscopy reveals accompanying occurrence of ammonium with fulvic acid-like organic matter in a fluvio-lacustrine aquifer of Jianhan Plain, Environ. Sci. Pollut. Res., 23 (2016) 8508– 8517.
  28. Á. Zsolnay, Dissolved organic matter: artefacts, definitions, and functions, Geoderma, 113 (2003) 187–209.
  29. C.M. Sharpless, N.V. Blough, The importance of charge-transfer interactions in determining chromophoric dissolved organic matter (CDOM) optical and photochemical properties, Environ. Sci. Process Impacts, 16 (2014) 654–671.
  30. A. Huguet, L. Vacher, S. Relexans, S. Saubusse, J.M. Froidefond, E. Parlanti, Properties of fluorescent dissolved organic matter in the Gironde Estuary, Org. Geochem., 40 (2009) 706–719.
  31. P. Massicotte, E, Asmala, C. Stedmon, S. Markager, Global distribution of dissolved organic matter along the aquatic continuum: Across rivers, lakes and oceans, Sci. Total Environ., 609 (2017) 180–191.
  32. E.L. Hestir, V. Brando, G. Campbell, A. Dekker, T. Malthus, The relationship between dissolved organic matter absorption and dissolved organic carbon in reservoirs along a temperate to tropical gradient, Remote Sens. Environ., 156 (2015) 395–402.