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E. A. Canuel, Lerberg, E. J., Dickhut, R. M., Kuehl, S. A., Bianchi, T. S., and Wakeham, S. G., Changes in sediment and organic carbon accumulation in a highly-disturbed ecosystem: The Sacramento-San Joaquin River Delta (California, USA), Marine Pollution Bulletin, vol. 59, no. 4-7, pp. 154-163, 2009.
A. Araneda, Ortega, C., Jana, P., Torrejon, F., Bertrand, S., Vargas, P., Fagel, N., Alvarez, D., and Urrutia, R., Changes in sub-fossil chironomid assemblages in two Northern Patagonian lake systems associated to the occurrence of historical fires, Journal of Paleolimnology, vol. 50, no. 1, pp. 41-56, 2013.
P. Quay, Sonnerup, R., Westby, T., Stutsman, J., and McNichol, A., Changes in the 13C/12C of dissolved inorganic carbon in the ocean as a tracer of anthropogenic CO2 uptake, Global Biogeochemical Cycles, vol. 17, pp. 1-4, 2003.
P. D. Quay, Sonnerup, R., Westby, T., Stutsman, J., and McNichol, A. P., Changes in the 13C/12C of dissolved inorganic carbon in the ocean as a tracer of anthropogenic CO2 uptake, Global Biogeochemical Cycles, vol. 17, no. 1, pp. 4-1 - 4-20, 2002.
T. Tesi, Langone, L., Goñi, M. A., Miserocchi, S., and Bertasi, F., Changes in the composition of organic matter from prodeltaic sediments after a large flood event (Po River, Italy), Geochimica et Cosmochimica Acta, vol. 72, no. 8, pp. 2100-2114, 2008.
R. M. Key, Changes in the Pacific Ocean distribution of radiocarbon since GEOSECS, 1997, U. S. WOCE Office, College Station, TX, 1997.
P. D. Quay, Sonnerup, T., Westby, J., Stutsman, J., and McNichol, A. P., Changes of the 13C/12C of dissolved inorganic carbon in the ocean as a tracer of anthropogenic C)2 uptake, Global Biogeochemical Cycles, vol. 17, no. 1004, 2003.
M. N. Machette, Marchetti, D. W., Thompson, R. A., and Kirkham, R. M., Chapter B--Field Trip Day 2: Quaternary Geology of Lake Alamosa and the Costilla Plain, southern Colorado, 2007.
M. N. Machette and Puseman, K., Chapter E--Holocene sand deposits in the San Luis Basin, east of Alamosa Colorado, 2007.
R. R. Schumann and Machette, M. N., Chapter F--Late Pleistocene to early Holocene paleoecology of the "Mr. Peat" wetland deposit, Alamosa County, Colorado, 2007.
A. Grantz, Phillips, R. L., Mullen, M. W., Starratt, S. W., Jones, G. A., Naidu, A. S., and Finney, B. P., Character, paleoenvironment, rate of accumulation, and evidence for seismic triggering of Holocene turbidites, Canada Abyssal Plain, Arctic Ocean, Marine Geology, vol. 133, no. 1-2, pp. 51-73, 1996.
C. E. D. Gray, Meadows, M. E., Lee-Thorp, J. A., and Rogers, J., Characterising the Namaqualand mudbelt of southern Africa: chronology, palynology and palaeoenvironments, South African Geographical Journal, vol. 82, no. 136-141, 2000.
A. S. Wozniak, Bauer, J. E., and Dickhut, R. M., Characteristics of water-soluble organic carbon associated with aerosol particles in the eastern United States, Atmospheric Environment, vol. 46, pp. 181-188, 2012.
L. D. Guo, Semiletov, I., Gustafsson, O., Ingri, J., Andersson, P., Dudarev, O., and White, D., Characterization of Siberian Arctic coastal sediments: Implications for terrestrial organic carbon export, Global Biogeochemical Cycles, vol. 18, no. 1, 2004.
O. Serrano, Mateo, M. A., Renom, P., and Julià, R., Characterization of soils beneath a Posidonia oceanica meadow, Geoderma, vol. 185–186, pp. 26-36, 2012.
G. F. Slater, Nelson, R. K., Kile, B. M., and Reddy, C. M., Characterizing biodegration and microbial metabolic activity in situ using natural abundance, molecular-level 14C analysis, Organic Geochemistry, vol. 37, pp. 981-989, 2006.
S. Mohan Singh, Sharma, J., Gawas-Sakhalkar, P., Upadhyay, A. K., Naik, S., Bande, D., and Ravindra, R., Chemical and bacteriological analysis of soil from the Middle and Late Weichselian from Western Spitsbergen, Arctic, The environment and chronology of the earliest occupation of north-west Europe: current knowledge, problems and new research directions, vol. 271, pp. 98-105, 2012.
Y. Wang, Hsieh, Y. P., Landing, W. M., Choi, Y. H., Salters, V., and Campbell, D., Chemical and carbon isotopic evidence for the source and fate of dissolved organic matter in the northern Everglades, Biogeochemistry, vol. 61, pp. 269-289, 2002.
C. H. Xu, Guo, L. D., Ping, C. L., and White, D. M., Chemical and isotopic characterization of size-fractionated organic matter from cryoturbated tundra soils, northern Alaska, Journal of Geophysical Research-Biogeosciences, vol. 114, 2009.
L. D. Guo, White, D. M., Xu, C., and Santschi, P. H., Chemical and isotopic composition of high-molecular-weight dissolved organic matter from the Mississippi River plume, Marine Chemistry, vol. 114, no. 3-4, pp. 63-71, 2009.
D. P. Genereux, Webb, M., and D. Solomon, K., Chemical and isotopic signature of old groundwater and magmatic solutes in a Costa Rican rain forest: Evidence from carbon, helium, and chlorine, WATER RESOURCES RESEARCH, vol. 45, 2009.
J. A. Hatten, Goñi, M. A., and Wheatcroft, R. A., Chemical characteristics of particulate organic matter from a small, mountainous river in the Oregon Coast Range, USA, Biogeochemistry, vol. 107, pp. 43-66, 2012.
L. I. Aluwihare, Repeta, D. J., and Chen, R. F., Chemical composition and cycling of dissolved organic matter in the Mid-Atlantic Bight, Deep-Sea Research Part Ii-Topical Studies in Oceanography, vol. 49, no. 20, pp. 4421-4437, 2002.
T. Plank and Langmuir, C. H., The chemical composition of subducting sediment and its consequences for the crust and mantle, Chemical Geology, vol. 145, no. 3-4, pp. 325-394, 1998.
P. R. Haberstroh, Brandes, J. A., Gelinas, Y., Dickens, A. F., and Wirick, S., Chemical composition of the graphitic black carbon fraction in riverine and marine sediments at submicron scales using carbon X-ray spectromicroscopy, Geochimica et Cosmochimica Acta, vol. 70, pp. 1483-1494, 2006.