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  • Anderson, T. R., and P. J. B. Williams, A one-dimensional model of dissolved organic carbon cycling in the water column incorporating combined biological-photochemical decomposition, Global Biogeochem. Cycles, 13(2), 337349, 1999.
  • Azam, F., T. Fenchel, J. G. Field, J. S. Gray, L. A. Mayer-Reil, and F. Thingstad, The ecological role of water-column microbes in the sea, Mar. Ecol. Prog. Ser., 10, 257263, 1983.
  • Bauer, J. E., P. M. Williams, and E. R. M. Druffel, 14C activity of dissolved organic carbon fractions in the north-central Pacific and Sargasso Sea, Nature, 357, 667670, 1992.
  • Boldrin, A., M. Miserocchi, S. Rabitti, M. M. Turchetto, V. Balboni, and G. Socal, Particulate matter in the southern Adriatic and Ionian Sea: Characterisation and downward fluxes, J. Mar. Syst., 33–34, 389410, 2002.
  • Bronk, D. A., P. M. Gilbert, and B. B. Ward, Nitrogen uptake, dissolved organic nitrogen release, and new production, Science, 265, 18431846, 1994.
  • Carlson, C. A., Production and removal processes, in Biogeochemistry of Marine Dissolved Organic Matter, edited by D. A. Hansell, and C. A. Carlson, pp. 91151, Academic, San Diego, Calif., 2002.
  • Carlson, C. A., and H. W. Ducklow, Dissolved organic carbon in the upper ocean of the central equatorial Pacific Ocean, 1992: Daily and finescale vertical variations, Deep Sea Res., Part II, 42, 639656, 1995.
  • Carlson, C. A., H. W. Ducklow, and A. F. Michaels, Annual flux of dissolved organic carbon from the euphotic zone in the northwestern Sargasso Sea, Nature, 371, 405408, 1994.
  • Cauwet, G., HTCO method for dissolved organic carbon analysis in seawater: Influences of catalyst on blank estimation, Mar. Chem., 47, 5564, 1994.
  • Cauwet, G., F. Gadel, M. M. De Souza Sierra, O. Donard, and M. Ewald, Contribution of the Rhone River to organic carbon inputs to the northwestern Mediterranean Sea, Cont. Shelf Res., 10, 10251037, 1990.
  • Cauwet, G., A. Miller, S. Brasse, G. Fengler, R. F. C. Mantoura, and A. Spitzy, Dissolved and particulate organic carbon in the western Mediterranean Sea, Deep Sea Res., Part II, 44, 769779, 1997.
  • Cho, B. C., and F. Azam, Major role of bacteria in biogeochemical fluxes in the ocean's interior, Nature, 332, 441443, 1988.
  • Christensen, J. P., T. T. Packard, F. Q. Dortch, H. J. Minas, J. C. Gascard, C. Richez, and P. C. Garfield, Carbon oxidation in the deep Mediterranean Sea: Evidence for dissolved organic carbon sources, Global Biogeochem. Cycles, 3, 315335, 1989.
  • Civitarese, G., and M. Gacic, Had the Eastern Mediterranean Transient an impact on the new production in the southern Adriatic? Geophys. Res. Lett., 28, 16271630, 2001.
  • Copin-Montégut, G., and B. Avril, Vertical distribution and temporal variation of dissolved organic carbon in the north-western Mediterranean Sea, Deep Sea Res., Part I, 40, 19631972, 1993.
  • Copin-Montégut, C., and G. Copin-Montégut, Stoichiometry of carbon, nitrogen, and phosphorus in marine particulate matter, Deep Sea Res., Part A, 30, 3146, 1983.
  • Dafner, E. V., R. Sempere, and H. L. Bryden, Total organic carbon distribution and budget through the Strait of Gibraltar in April 1998, Mar. Chem., 73, 233252, 2001.
  • Dileep Kumar, M., A. Rajendram, K. Somasundar, B. Haake, A. Jenisch, Z. Shuo, V. Ittekkot, and B. N. Desai, Dynamics of dissolved organic carbon in the northwestern Indian Ocean, Mar. Chem., 31, 299316, 1990.
  • Doval, M. D., and D. A. Hansell, Organic carbon and apparent oxygen utilization in the western South Pacific and central Indian Oceans, Mar. Chem., 68, 249264, 2000.
  • Doval, M. D., F. F. Pérez, and E. Berdalet, Dissolved and particulate organic carbon and nitrogen in the northwestern Mediterranean, Deep Sea Res., Part I, 46, 511527, 1999.
  • Druffel, E. R. M., and J. E. Bauer, Radiocarbon distributions in Southern Ocean dissolved and particulate organic matter, Geophys. Res. Lett., 27, 14951498, 2000.
  • Druffel, E. R. M., P. M. Williams, and Y. Suzuki, Concentrations and radiocarbon signatures of dissolved organic matter in the Pacific Ocean, Geophys. Res. Lett., 16, 991994, 1989.
  • Druffel, E. R. M., P. M. Williams, J. E. Bauer, and J. R. Ertel, Cycling of dissolved and particulate organic matter in the open ocean, J. Geophys. Res., 97, 15,63915,659, 1992.
  • Ducklow, H. W., C. A. Carlson, N. R. Bates, A. H. Knap, and A. F. Michaels, Dissolved organic carbon as a component of the biological pump in the North Atlantic Ocean, Philos. Trans. R. Soc. London, Ser. B, 348, 161167, 1995.
  • Fasham, M. J. R., P. W. Boyd, and G. Savidge, Modeling the relative contributions of autotrophs and heterotrophs to carbon flow at a Lagrangian JGOFS station in the northeast Atlantic: The importance of DOC, Limnol. Oceanogr., 44, 8094, 1999.
  • Ferrari, G. M., The relationship between chromophoric dissolved organic matter and dissolved organic carbon in the European Atlantic coastal area and in the west Mediterranean Sea (Gulf of Lions), Mar. Chem., 70, 339357, 2000.
  • Gismondi, M., M. Giani, F. Savelli, A. Boldrin, and S. Rabitti, Particulate matter in northern and central Adriatic, Chem. Ecol., 18, 2738, 2002.
  • Guo, L., C. H. Coleman Jr., and P. H. Santschi, The distribution of colloidal and dissolved organic carbon in the Gulf of Mexico, Mar. Chem., 45, 105119, 1994.
  • Hansell, D. A., and C. A. Carlson, Deep ocean gradients in the concentration of dissolved organic carbon, Nature, 395, 263266, 1998.
  • Hansell, D. A., P. M. Williams, and B. B. Ward, Measurements of DOC and DON in the Southern California Bight using oxidation by high temperature combustion, Deep Sea Res., Part I, 40, 219234, 1993.
  • Hayase, K., and N. Shinozuka, Vertical distribution of fluorescent organic matter along with AOU and nutrients in the equatorial central Pacific, Mar. Chem., 48, 283290, 1995.
  • Hedges, J. I., and J. H. Stern, Carbon and nitrogen determinations of carbonate containing solids, Limnol. Oceanogr., 29, 657663, 1984.
  • Karstensen, J., and M. Tomczak, OMP analysis package for MATLAB, Version 2.0, 2000. (Available at http://www.ldeo.columbia.edu/~jkarsten/omp_std).
  • Klein, B., W. Roether, B. B. Manca, D. Bregant, V. Beitzel, V. Kovacevich, and A. Lucchetta, The large deep water transient in the eastern Mediterranean, Deep Sea Res., Part I, 46, 371414, 1999.
  • Klein, B., W. Roether, G. Civitarese, M. Gacic, B. B. Manca, and M. Ribera d'Alcalà, Is the Adriatic returning to dominate the production of Eastern Mediterranean Deep Water? Geophys. Res. Lett., 27, 33773380, 2000.
  • Lascaratos, A., W. Roether, K. Nittis, and B. Klein, Recent changes in deep water formation and spreading in the eastern Mediterranean Sea: A review, Prog. Oceanogr., 44, 536, 1999.
  • Lee, C., and S. G. Wakeham, Organic matter in seawater: Biogeochemical processes, in Chemical Oceanography, vol. 9, edited by J. P. Riley, pp. 151, Academic, San Diego, Calif., 1989.
  • Lefèvre, D., M. Denis, C. E. Lambert, and J. C. Miquel, Is DOC the main source of matter remineralization in the ocean water column? J. Mar. Syst., 7, 281291, 1996.
  • Mackas, D. L., K. L. Denman, and A. F. Bennett, Least-square multiple tracer analysis of water mass composition, J. Geophys. Res., 92, 29072918, 1987.
  • Malanotte-Rizzoli, P., et al., A synthesis of the Ionian Sea hydrography, circulation and water mass pathways during POEM-Phase I, Prog. Oceanogr., 39, 153204, 1997.
  • Malanotte-Rizzoli, P., B. B. Manca, M. Ribera D'alcalà, A. Theocharis, S. Brenner, G. Budillon, and E. Ozsoy, The eastern Mediterranean in the 80s and in the 90s: The big transition in the intermediate and deep circulations, Dyn. Atmos. Oceans, 29, 365395, 1999.
  • Malinsky-Rushansky, N. Z., and C. Legrand, Excretion of dissolved organic carbon by phytoplankton of different sizes and subsequent bacterial uptake, Mar. Ecol. Prog. Ser., 132, 249255, 1996.
  • Manca, B. B., G. Budillon, P. Scarazzato, and L. Ursella, Evolution of dynamics in the eastern Mediterranean affecting water mass structures and properties in the Ionian and Adriatic Seas, J. Geophys. Res., 108(C9), 8102, doi:10.1029/2002JC001664, in press, 2003.
  • Martin, J. H., and S. E. Fitzwater, Dissolved organic carbon in the Atlantic, Southern and Pacific Oceans, Nature, 356, 699700, 1992.
  • Menzel, D. W., The role in situ decomposition of organic matter on the concentration of non-conservative properties in the sea, Deep Sea Res., 17, 751764, 1970.
  • Menzel, D. W., and J. R. Ryther, Organic carbon and the oxygen minimum in the South Atlantic Ocean, Deep Sea Res., 15, 327337, 1968.
  • Moutin, T., and P. Raimbault, Primary production, carbon export and nutrients availability in western and eastern Mediterranean Sea in early summer 1996 (MINOS cruise), J. Mar. Syst., 33–34, 273288, 2002.
  • Ogura, N., The relation between dissolved organic carbon and apparent oxygen utilization in the western North Pacific, Deep Sea Res., 17, 221231, 1970.
  • Peltzer, E. T., and N. A. Hayward, Spatial and temporal variability of total organic carbon along 140°W in the equatorial Pacific Ocean in 1992, Deep Sea Res., Part II, 43, 11551180, 1996.
  • Pettine, M., L. Patrolecco, M. Manganelli, S. Capri, and M. G. Farrace, Seasonal variations of dissolved organic matter in the northern Adriatic Sea, Mar. Chem., 64, 153169, 1999.
  • POEM Group, The general circulation of the eastern Mediterranean, Earth Sci. Rev., 32, 285309, 1992.
  • Pollak, M. J., The sources of the deep water of the eastern Mediterranean Sea, J. Mar. Res., 10, 128152, 1951.
  • Price, N. B., F. S. Lindsay, and J. M. Pates, The biogeochemistry of major elements of the suspended matter of Cretan Sea, Prog. Oceanogr., 44, 677699, 1999.
  • Rabitti, S., F. Bianchi, A. Boldrin, L. Da Ross, G. Socal, and C. Totti, Particulate matter and phytoplankton in the Ionian Sea, Oceanol. Acta, 17, 297307, 1994.
  • Roether, W., B. B. Manca, B. Klein, D. Bregant, D. Georgopoulos, V. Beitzel, V. Kovacevic, and A. Luchetta, Recent changes in eastern Mediterranean deep waters, Science, 271, 333335, 1996.
  • Santinelli, C., G. P. Gasparini, L. Nannicini, and A. Seritti, Vertical distribution of dissolved organic carbon (DOC) in the western Mediterranean Sea in relation to the hydrological characteristics, Deep Sea Res., Part I, 49, 22032219, 2002.
  • Schlitzer, R., W. Roether, H. Oster, H.-G. Junghans, M. Hausmann, H. Johannsen, and A. Michelato, Chlorofluoromethane and oxygen in the eastern Mediterranean, Deep Sea Res., Part A, 38, 15311551, 1991.
  • Sempéré, R., S. C. Yoro, F. Van Wambeke, and B. Charrière, Microbial decomposition of large organic particles in the northwestern Mediterranean Sea: An experimental approach, Mar. Ecol. Prog. Ser., 5, 6172, 2000.
  • Sempéré, R., C. Panagiotopoulos, R. Lafont, B. Marroni, and F. Van Wambeke, Total organic carbon dynamics in the Aegean Sea, J. Mar. Syst., 33–34, 355364, 2002.
  • Seritti, A., L. Nannicini, R. Del Vecchio, P. Giordani, V. Balboni, and S. Miserocchi, Optical properties of sediment pore waters of Adriatic Sea, Toxicol. Environ. Chem., 61, 195209, 1997.
  • Sharp, J. H., Marine dissolved organic carbon: Are the older values correct? Mar. Chem., 56, 265277, 1997.
  • Sharp, J. H., R. Benner, L. Bennett, C. A. Carlson, R. Down, and S. E. Fitzwater, A re-evaluation of high temperature combustion and chemical oxidation measurements of dissolved organic carbon in seawater, Limnol. Oceanogr., 39, 17741782, 1993a.
  • Sharp, J. H., et al., Procedures subgroup report, Mar. Chem., 37, 3750, 1993b.
  • Smith, D. C., M. Simon, A. L. Alldredge, and F. Azam, Intense hydrolytic enzyme activity on marine aggregates and implications for rapid particle dissolution, Nature, 359, 139142, 1992.
  • Sournia, A., La production primaire planctonique en Méditerranée-essai de mise à jour, Newsl. Coop. Invest. Mediter. Monaco, 5, 1127, 1973.
  • Suzuki, Y., On the measurement of DOC and DON in seawater, Mar. Chem., 41, 287288, 1993.
  • Tait, R. V., and F. A. Dipper, Organic production in the sea, in Elements of Marine Ecology, pp. 166212, Butterworth-Heinemann, Woburn, Mass., 1998.
  • Theocharis, A., B. Klein, K. Nittis, and W. Roether, Evolution and status of the Eastern Mediterranean Transient (1997–1999), J. Mar. Syst., 33–34, 91116, 2002.
  • Thingstad, T. F., and F. Rassoulzadegan, Conceptual models for the biogeochemical role of the photic zone microbial food web, with particular reference to the Mediterranean Sea, Prog. Oceanogr., 44, 271286, 1999.
  • Thomas, C., G. Cauwet, and J. F. Minster, Dissolved organic carbon in the equatorial Atlantic Ocean, Mar. Chem., 49, 155169, 1995.
  • Toggweiler, J. R., Is the downward dissolved organic matter (DOM) flux important in carbon transport?, in Productivity of the Oceans: Past and Present, edited by W. H. Bergen, V. S. Smetacek, and G. Wefer, pp. 6583, John Wiley, Hoboken, N. J., 1989.
  • Toggweiler, J. R., Bombs and ocean carbon cycles, Nature, 347, 122123, 1990a.
  • Toggweiler, J. R., Diving into the organic soup, Nature, 345, 203204, 1990b.
  • Tselepides, A., V. Zervakis, T. Polychronaki, R. Danovaro, and G. Cromis, Distribution of nutrients and particulate organic matter in relation to the prevailing hydrographic feature of the Cretan sea (NE Mediterranean), Prog. Oceanogr., 46, 113142, 2000.
  • Urban-Rich, J., Release of dissolved organic carbon from copepod fecal pellets in the Greenland Sea, J. Exp. Mar. Biol. Ecol., 232, 107124, 1999.
  • Williams, P. M., and E. R. M. Druffel, Radiocarbon in dissolved organic matter in the central North Pacific Ocean, Nature, 330, 246248, 1987.
  • Yoro, S. C., R. Sempére, C. Turley, M. A. Unanue, X. Durrieu de Madron, and M. Bianchi, Cross-slope variations of organic carbon and bacteria in the Gulf of Lions in relation to water dynamics (northwestern Mediterranean), Mar. Ecol. Prog. Ser., 161, 255264, 1997.