Geoscience Reference
In-Depth Information
Muller, C.L., Baker, A., Hutchinson, R., Fairchild, I.J., and Kidd, C. (2008). Analysis of
rainwater dissolved organic carbon compounds using fluorescence spectrophotome-
try.
Atmos. Environ
.,
42
, 8036-8045.
Naden, P.S., Old, G.H., Eliot-Laize, C., Granger, S.J., Hawkins, J.M.B., Bol, R., and
Haygarth, P. (2010). Assessment of natural fluorescence as a tracer of diffuse agricul-
tural pollution from slurry spreading on intensely-farmed grasslands.
Water Res
.,
44
,
1701-1712.
Nelson, N.B. and Siegel, D.A. (2002). Chromophoric DOM in the open ocean. In D.A.
Hansell and C.A. Carlson (Eds.),
Biogeochemistry of Marine Dissolved Organic
Matter
(pp. 547-578). Amsterdam: Academic Press.
O'Brien, B.J. (1956). “After-glow” of cave calcite.
Bull. Natl. Speleol. Soc
.,
18
, 50-51.
Otis, D.B., Carder, K.L., English, D.C., and Ivy, J.E. (2004). CDOM transport from the
Bahamas Banks.
Coral Reefs
,
23
, 152-160.
Parlanti, E., Worz, K., Geoffroy, L., and 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.
Peiris, R.H., Halle´, C., Budman, H., Moresoli, C., Peldszus, S., Huck, P.M., and Legge,
R.L. (2010). Identifying fouling events in a membrane-based drinking water treat-
ment process using principal component analysis of fluorescence excitation-emission
matrices.
Water Res
.,
44
, 185-194.
Poiger, T., Field, J.A., Field, T.M., Siegrist, H., and Giger, W. (1998). Behavior of fluores-
cent whitening agents during sewage treatment.
Water Res
.,
32
(6), 1939-1947.
Prahl, F.G. and Coble, P.G. (1994). Input and behavior of dissolved organic carbon in
the Columbia River Estuary. In K.R. Dyer and R.J. Orth (Eds.),
Changes in Fluxes
in Estuaries: Implications from Science and Management
(pp. 451-457). ECSA22/
ERF Symposium, Plymouth, England. September 1992, Denmark: Olsen and Olsen.
Fredensborg.
Retamal, L., Vincent, W.F., Martineau, C., and Osburn, C.L. (2007). Comparison of the
optical properties of dissolved organic matter in two river-influenced coastal regions
of the Canadian Arctic.
Estuar. Coast. Shelf Sci
.,
72
, 261-272.
Reynolds, D.M. (2002). The differentiation of biodegradable and non-biodegradable dis-
solved organic matter in wastewaters using fluorescence spectroscopy.
J. Chem.
Technol. Biotechnol
.,
77
(8), 965-972.
Reynolds, D.M. (2003). Rapid and direct determination of tryptophan in water using syn-
chronous fluorescence spectroscopy.
Water Res
.,
37
, 3055-3060.
Reynolds, D.M. and Ahmad, S.R. (1995a). The effect of metal ions on the fluorescence of
sewage wastewater.
Water Res
.,
29
, 2214-2216.
Reynolds, D.M., and Ahmad, S.R. (1995b). Synchronous fluorescence spectroscopy of
wastewater and some potential constituents.
Water Res
.,
29
, 1599-1602.
Reynolds, D.M. and Ahmad, S.R. (1997). Rapid and direct determination of wastewater
BOD values using a fluorescence technique.
Water Res
.,
31
(8), 2012-2018.
Rosario-Ortiz, F.L., Snyder, S.A., and Suffet, I. H. (2007). Characterization of dissolved
organic matter in drinking water sources impacted by multiple tributaries.
Water Res
.,
41
, 4115-4128.
Santos, P.S.M., Duarte, R.M.B.O., and Duarte, A.C. (2009). Absorption and fluorescence
properties of rainwater during the cold season at a town in Western Portugal.
J. Atmos.
Chem
.,
62
, 45-57.
Saraceno, J.F., Pellerin, B.A., Downing, B.D., et al. (2009). High frequency in situ opti-
cal measurements during a storm event: Assessing relationships between dissolved
