Geoscience Reference
In-Depth Information
Findlay and R. Sinsabaugh (Eds.),
Dissolved Organic Matter in Aquatic Ecosystems
(pp. 186-217). San Diego: Academic Press.
Mariot, M., Dudal, Y., Furian, S., Sakamoto, A., Valles, V., Fort, M., and Barbiero, L.
(2007). Dissolved organic matter fluorescence as a water-flow tracer in the tropical
wetland of Pantanal of Nhecolandia, Brazil.
Sci. Total Environ
.,
388
, 184-193.
Mayer, L.M., Schick, L.L., and Loder, T.C. (1999). Dissolved protein fluorescence in two
Maine estuaries.
Mar. Chem
.,
64
(3), 171-179.
McKnight, D.M., Boyer, E.W., Westerhoff, P.K., Doran, P.T., Kulbe, T., and Andersen, D.T.
(2001). Spectrofluorometric characterization of dissolved organic matter for indica-
tion of precursor organic material and aromaticity.
Limnol. Oceanogr
.,
46
, 38-48.
Means, J.C. (1995). Influence of salinity upon sediment-water partitioning of aromatic
hydrocarbons.
Mar. Chem
.,
51
(1), 3-16.
Miller, W.L. (1998). Effects of UV radiation on aquatic humus: Photochemical principles
and experimental considerations. In D.O. Hessen and L.J. Tranvik (Eds.),
Aquatic
Humic Substances: Ecology and Biogeochemistry
(pp. 125-141). Berlin: Springer-
Verlag.
Miller, W.L. and Zepp, R.G. (1995). Photochemical production of dissolved inorganic car-
bon from terrestrial organic matter: Significance to the oceanic organic carbon cycle.
Geophys. Res. Lett
.,
22
(4), 417-420.
Milne, P.J. and Zika, R.G. (1989). Luminescence quenching of dissolved of dissolved
organic matter in seawater.
Mar. Chem
.,
27
(3-4), 147-164.
Minor, E.C., Pothen, J., Dalzell, B.J., Abdulla, H., and Mopper, K. (2006). Effects of sal-
inity changes on the photodegradation and ultraviolet-visible absorbance of terrestrial
dissolved organic matter.
Limnol. Oceanogr
.,
51
(5), 2181-2186.
Mobed, J.J., Hemmingsen, S.L., Autry, J.L., and McGown, L.B. (1996). Fluorescence char-
acterization of IHSS humic substances: Total luminescence spectra with absorbance
correction.
Environ. Sci. Technol
.,
30
(10), 3061-3065.
Mopper, K., Feng, Z.M., Bentjen, S.B., and Chen, R.F. (1996). Effects of cross-flow filtra-
tion on the absorption and fluorescence properties of seawater.
Mar. Chem
.,
55
(1-2),
53-74.
Mopper, K., Stubbins, A., Ritchie, J.D., Bialk, H.M., and Hatcher, P.G. (2007). Advanced
instrumental approaches for characterization of marine dissolved organic matter:
Extraction techniques, mass spectrometry, and nuclear magnetic resonance spectros-
copy.
Chem. Rev
.,
107
(2), 419-442.
Moran, M. A., Sheldon, W.M., and Zepp, R.G. (2000). Carbon loss and optical property
changes during long-term photochemical and biological degradation of estuarine dis-
solved organic matter.
Limnol. Oceanogr
.,
45
(6), 1254-1264.
Ohno, T., Amirbahman, A., and Bro, R. (2008). Parallel factor analysis of excitation-emis-
sion matrix fluorescence spectra of water soluble soil organic matter as basis for the
determination of conditional metal binding parameters.
Environ. Sci.Technol
.,
42
(1),
186-192.
Ortega-Retuerta, E., Pulido-Villena, E., and Reche, I. (2007). Effects of dissolved organic
matter photoproducts and mineral nutrient supply on bacterial growth in mediterra-
nean inland waters.
Microb. Ecol
.,
54
, 161-169.
Osburn, C.L., and Morris, D.P. (2003). Photochemistry of chromophoric dissolved organic
matter in natural waters. In E.W. Hebling and H. E. Zagarese (Eds.),
UV Effects
in Aquatic Organisms and Ecosystems
(pp. 185-217). London: Royal Society of
Chemistry.
