Geoscience Reference
In-Depth Information
Doane, T.A. and Horwáth, W.R. (2010). Eliminating interference from iron(III) for ultra-
violet absorbance measurements of dissolved organic matter.
Chemosphere
,
78
,
1409-1415.
Downing, B.D., Boss, E., Bergamaschi, B.A., Fleck, J.A., Lionberger, M.A., Ganju,
N.K., Schoellhamer, D.H., and Fujii, R. (2009). Quantifying fluxes and character-
izing compositional changes of dissolved organic matter in aquatic systems in situ
using combined acoustic and optical measurements.
Limnol. Oceanogr. Methods
,
7
, 119-131.
Drabent, R., Pliszka, B., Huszcza-Ciolkowska, G., and Smyk, B. (2007). Ultraviolet fluo-
rescence of cyaniding and malvidin glycosides in aqueous environment.
Spectrosc.
Lett
.,
40
, 165-182.
D'Souza, F. and Deviprasad, C.R. (2001). Studies on porphyrin-quinhydronde complexes:
Molecular recognition of quinine and hydroquinone in solution.
J. Org. Chem
.,
66
,
4601-4609.
Elliot, S., Lead, J.R., and Baker, A. (2006). Characterization of the fluorescence from fresh-
water, planktonic bacteria.
Water Res
.,
40
, 2075-2083.
Ertel, J.R., Hedges, J.I., Devol, A.H., Richey, J.E., and De Nazare Goes Ribeiro, M. (1986).
Dissolved humic substances in the Amazon River system,
Limnol. Oceanogr
.,
31
,
739-754.
Eticha, D., Stass, A., and Horst, W.J. (2005). Localization of aluminum in the maize root
apex: Can morin detect cell wall-bound aluminum?
J. Exp. Bot
.,
56
, 1351-1357.
Fatin-Rouge, N. and Buffle, J. (2007). Study of environmental systems by means of
fluorescence correlation spectroscopy. In K.J. Wilkinson and J.R. Lead (Eds.),
Environmental Colloids and Particles, IUPAC Series on Analytical and Physical
Chemistry of Environmental Systems
, Vol. 10 (pp. 507-553). West Sussex, UK: John
Wiley & Sons.
Fellman, J.B., Hood, E., D'Amore, D.V., Edwards, R.T., and White, D. (2009). Seasonal
changes in the chemical quality and biodegradability of dissolved organic mat-
ter exported from soils to streams in coastal temperate rainfall watersheds.
Biogeochemistry
,
95
, 277-293.
Fellman, J.B., Hood, E., and Spencer, R.G.M. (2010). Fluorescence spectroscopy opens
new windows into dissolved organic matter dynamics of freshwater ecosystems: A
review.
Limnol. Oceanogr
.,
55
, 2452-2462.
Figueiredo, P., Pina, F., Vilas-Boas, L., and Maçanita, A.L. (1990). Fluorescence spectra
and decays of malvidin 3,5-diglucoside in aqueous solutions.
Photochem. Photobiol
.,
52
, 411-424.
Fimmen, R.L., Cory, R.M., Chin, Y-P, Trouts, T.D., and McKnight, D.M. (2007). Probing
theoxidation-reduction properties of terrestrially and microbially derived dissolved
organic matter.
Geochim. Cosmochim. Acta
,
71
, 3003-3015.
Findlay, S. (2003). Bacterial response to variation in dissolved organic matter. In S.E.G.
Findlay and R.L. Sinsabaugh (Eds.),
Aquatic Systems: Interactivity of Dissolved
Organic Matter (pp.
363-379). San Diego, CA: Academic Press.
Fink, D.W. and Koehler, W.R. (1970). pH effects on fluorescence of umbelliferone.
Anal.
Chem
.,
42
, 990-993.
Flaherty, S., Wark, S., Street, G., Farley, J.W., and Brumley, W.C. (2002). Investigation
of CE/LIF as a tool in the characterization of sewage effluent for fluorescent acidics:
Determination of salicylic acid.
Electrophoresis
,
23
, 2327-2332.
Furman, G.S. and Lonsky, W.F. W. (1988). Charge-transfer complexes in Kraft lignin
part 2: Contribution to color.
J. Wood Chem. Technol
.,
8
, 191-208.
