Geoscience Reference
In-Depth Information
Garcia-Sanchez, F., Carnero, C., and Heredia, A. (1988). Fluorometric determination of
p-coumaric acid in beer.
J. Food Agric. Chem
.,
36
, 80-82.
Gasper. J.D., Aiken, G.R., and Ryan, J.N. (2007). A critical review of three methods used
for the measurement of mercury (Hg
+2
) dissolved organic matter stability constants.
Appl. Geochem
.,
22
, 1583-1597.
Gauthier, T.D., Shane, E.C., Guerin, W.F., Seitz, W.R., and Grant, C.L. (1986). Fluorescence
quenching method for determining equilibrium constants for polycyclic aromatic
hydrocarbons binding to dissolved humic materials.
Environ. Sci. Technol
.,
20
,
1162-1166.
Geiselman, J.A. and McConnell, O.J. (1981). Polyphenols in brown algae
Fucus vesicu-
losus
and
Ascophyllum nodosum
: Chemical defenses against the marine herbivorous
snail,
Littorina littorea
.
J. Chem. Ecol
.,
7
, 1115-1133.
Ghosh, K. and Schnitzer, M. (1980). Fluorescence excitation spectra of humic substances.
Can. J. Soil Sci
.,
60
, 373-379.
Goldberg, M.C. and Weiner, E.R. (1993). Fluorescence spectroscopy in environmental
and hydrological sciences. In O.S. Wolfbeis (Ed.),
Fluorescence Spectroscopy - New
Methods and Applications
(pp. 211-241). New York: Springer-Verlag.
Green, J.P. and Malrieu, J.P. (1965). Quantum chemical studies of charge-transfer com-
plexes of indoles.
Proc. Natl. Acad. Sci. USA
,
54
, 659-664.
Green S.A., and Blough, N. V. (1994). Optical absorption and fluorescence properties of
chromophoric dissolved organic matter in natural waters.
Limnol. Oceanogr
.
39
(8),
1903-1916.
Green, S.A., Morel, F.M. M., and Blough, N.V. (1992). Investigation of the electrostatic
properties of humic substances by fluorescence quenching.
Environ. Sci. Technol
.,
26
,
294-302.
Gu, J. and Berry, D.F. (1991). Degradation of substituted indoles by an indole-degrading
methanogenic consortium.
Appl. Environ. Microbiol
.,
57
, 2622-2627.
Haitzer, M., Aiken, G.R., and Ryan, J.N. (2002). Binding of mercury (II) to dissolved
organic matter: The role of mercury to DOM concentration ratio.
Environ. Sci.
Technol
.,
36
, 3564-3570.
Hall, G.J. and Kenny, J.E. (2007). Estuarine water classification using EEM spectroscopy
and PARAFAC-SIMCA.
Anal. Chim. Acta
,
581
, 118-124.
Hall, G.J., Clow, K.E., and Kenny, J.E. (2005). Estuarial fingerprinting through multidimen-
sional fluorescence and multivariate analysis.
Environ. Sci. Technol
.,
39
, 7560-7567.
Harden, S.L. (2009). Reconnaissance of organic wastewater compounds at a concentrated
swine feeding operation in the North Carolina Coastal Plain, 2008, U.S. Geological
Survey Open-File Report 2009-1128, 14 p.
Hartley, W.N. (1893). Observations on the origin of colour and of fluorescence.
J. Chem.
Soc
.,
63
, 243-256.
Helms, J.R., Stubbins, A., Ritchie, J.D., Minor, E.C., Kieber, D.J., and Mopper, K. (2008).
Absorption spectral slopes and slope ratios as indicators of molecular weight,
source, and photobleaching of chromophoric organic matter.
Limnol. Oceanogr
.,
53
,
955-969.
Henderson, R.K., Baker, A., Murphy, K., Hambly, A., Stuetz, R.M., and Khan, S.J. (2009).
Fluorescence as a potential monitoring tool for recycled water systems: A review.
Water Res
.,
43
, 863-881.
Hernes, P.J. and Hedges, J.I. (2000). Determination of condensed tannin monomers in
environmental samples by capillary gas chromatography of acid depolymerization
extracts.
Anal. Chem
.,
72
, 5115-5124.