Geoscience Reference
In-Depth Information
Ertel, J.R., Hedges, J.I., Devol, A.H., Richey, J.E., and de Nazare Goes Ribeiro, M. (1986).
Dissolved humic substances of the Amazon River system.
Limnol. Oceanogr
.,
31
,
739-754.
Fellman, J.B., Hood, E., Edwards, R.T., and D'Amore, D.V. (2009a). Changes in the con-
centration, biodegradability, and fluorescent properties of dissolved organic matter
during stormflows in coastal temperate watersheds.
J. Geophys. Res
.,
114
, G01021.
Fellman, J.B., Hood, E. D'Amore, D.V., Edwards, R.T., and White, D. (2009b). Seasonal
changes in the chemical quality and biodegradability of dissolved organic mat-
ter exported from soils to streams in coastal temperate rainforest watersheds.
Biogeochemistry
,
95
, 277-293.
Frey, K.E. and Smith, L.C. (2005). Amplified carbon release from vast West Siberian peat-
lands by 2100.
Geophys
.
Res. Lett
.,
32
, L09401.
Fulton, J.R., McKnight, D.M., Foreman, C., Cory, R., Stedmon, C., and Blunt, E. (2004).
Changes in fulvic acid redox state through the oxycline of a permanently ice-covered
Antarctic lake.
Aquat. Sci
.,
66
, 27-46.
Granéli, W., Lindell, M., and Tranvik, L. (1996). Photo-oxidative production of dis-
solved inorganic carbon in lakes of different humic content.
Limnol. Oceanogr
.,
41
,
698-706.
Guggenberger, G., Kaiser, K., and Zech, W. (1998). Mobilization and immobilization of
dissolved organic matter in forest soils.
J. Plant Nutr. Soil Sci
.,
161
, 401-408.
Hansell, D.A. and Carlson, C.A. (1998). Net community production of dissolved organic
carbon.
Global Biogeochem. Cycles
,
12
, 443-453.
Hansell, D.A., Carlson, C.A., Repeta, D.J., and Schlitzer, R. (2009). Dissolved organic
matter in the ocean: New insights stimulated by a controversy.
Oceanography
,
22
,
52-61.
Harvey, G.R., Boran, D.A., Chesal, L.A., and Tokar, J.M. (1983). The structure of marine
fulvic and humic acids.
Mar. Chem
.,
12
, 119-132.
Harvey, G.R., Boran, D.A., Piotrowicz, S.R., and Weisel, C.P. (1984). Synthesis of marine
humic substances from unsaturated lipids.
Nature
,
309
, 244-246.
Hayase, K. and Shinozuka, N. (1995). Vertical distribution of fluorescent organic matter
along with AOU and nutrients in the Equatorial Pacific.
Mar. Chem
.,
48
, 283-290.
Hedges J.I. (1978). Formation and clay mineral reactions of melanoidins.
Geochim.
Cosmochim. Acta
,
42
, 69-76.
Hernes, P.J., Bergamaschi, B.A., Eckard, R.S., and Spencer, R.G.M. (2009). Fluorescence-
based proxies for lignin in freshwater dissolved organic matter.
J. Geophys. Res
.,
114
,
G00F03.
Hood, E., Fellman, J., Spencer, R.G.M., Hernes, P.J., Edwards, R., D'Amore, D., and Scott,
D. (2009). Glaciers as a source of ancient and labile organic matter to the marine
environment.
Nature
,
462
., 1044-1047.
Houghton, R.A. (2007). Balancing the global carbon budget.
Annu. Rev. Earth Planet. Sci
.,
35
, 313-347.
Hudson, N., Baker, A., Ward, D., Reynolds, D.M., Brunsdon, C., Carliell- Marquet, C., and
Browning, S. (2008). Can fluorescence spectrometry be used as a surrogate for the
Biochemical Oxygen Demand (BOD) test in water quality assessment? An example
from South West England.
Sci. Total Environ
.,
391
(1), 149-158.
Ishiwatari, R. (1992). Macromolecular material (humic substance) in the water column and
sediments.
Mar. Chem
.,
39
, 151-166
Jiao, N., Herndl, G.J., Hansell, D.A., Benner, R., Kattner, G., Wilhelm, S.W., Kirchman,
D.L., Weinbauer, M.G., Luo T., Chen, F., and Azam, F. (2010). Microbial production
