Geoscience Reference
In-Depth Information
analysis of DOM fluorescence from the Chesapeake Bay and the Mackenzie River Estuary.
The National Science Foundation (Division of Environmental Biology Award 0315665) sup-
ported field collection and analysis of DOM fluorescence from Alkaline Lake.
References
Alberts, J.J., Takacs, M., and Schalles, J. (2004). Ultraviolet-visible and fluorescence spec-
tral evidence of natural organic matter (NOM) changes along an estuarine salinity
gradient.
Estuaries
,
27
(2), 296-310.
Amon, R.M.W., Budeus, G., and Meon, B. (2003). Dissolved organic carbon distribu-
tion and origin in the Nordic Seas: Exchanges with the Arctic Ocean and the North
Atlantic.
J. Geophys. Res. Oceans
,
108
, 3221, doi:10.1029/2002JC001594.
Anderson, N.J. and Stedmon, C.A. (2007). The effect of evapoconcentration on dissolved
organic carbon concentration and quality in lakes of SW Greenland.
Freshwater Biol
.,
52
, 280-289.
Antunes, M.C.G., Pereira, C.C.C., and Esteves da Silva, J.C.G. (2007). MCR of the quench-
ing of the EEM of fluorescence of dissolved organic matter by metal ions.
Anal. Chim.
Acta
,
595
(1-2), 9-18.
Arts, M.T., Robarts, R.D., Kasai, F., Waiser, M.J., Tumber, V.P., Plante, A.J., Rai, H., and de
Lange, H.J. (2000). The attenuation of ultraviolet radiation in high dissolved organic
carbon waters of wetlands and lakes on the northern Great Plains.
Limnol. Oceanogr
.,
45
, 292-299.
Avena, M.J. and Wilkinson, K.J. (2002). Disaggregation kinetics of a peat humic acid:
Mechanism and pH effects.
Environ. Sci. Technol
.,
36
(23), 5100-5105.
Baalousha, M., Motelica- Heino, M., and Le Coustumer, P. (2006). Conformation and
size of humic substances: Effects of major cation concentration and type, pH, sal-
inity, and residence time.
Colloids Surf. A: Physicochem. Eng. Aspects
,
272
(1-2),
48-55.
Baker, A. (2005). Thermal fluorescence quenching properties of dissolved organic matter.
Water Res
.,
39
(18), 4405-4412.
Baker, A. and Spencer, R.G.M. (2004). Characterization of dissolved organic matter from
source to sea using fluorescence and absorbance spectroscopy.
Sci. Total Environ
.,
333
(1-3), 217-232.
Baker, A., Elliott, S., and Lead, J.R. (2007). Effects of filtration and pH perturbation on
freshwater organic matter fluorescence.
Chemosphere
,
67
(10), 2035-2043.
Baker, A., Tipping, E., Thacker, S.A., and Gondar, D. (2008). Relating dissolved organic
matter fluorescence and functional properties.
Chemosphere
,
73
(11), 1765-1772.
Banaitis, M.R. Waldrip-Dail, H., Diehl, M.S., Holmes, B.C., Hunt, J.F., Lynch, R.P., and
Ohno, T. (2006). Investigating sorption-driven dissolved organic matter fractionation
by multidimensional fluorescence spectroscopy and PARAFAC.
J. Colloid Interf. Sci
.,
304
(1), 271-276.
Batchelli, S., Muller, F.L.L., Baalousha, M., and Lead, J.R. (2009). Size fractionation and
optical properties of colloids in an organic-rich estuary (Thurso, UK).
Mar. Chem
.,
113
(3-4), 227-237.
Belzile, C. and Guo, L.D. (2006). Optical properties of low molecular weight and colloidal
organic matter: Application of the ultrafiltration permeation model to DOM absorp-
tion and fluorescence.
Mar. Chem
.,
98
(2-4), 183-196.
