References
- Betzer, P. R., Byrne, R. H., Acker, J. G., Lewis, C. S., Jolley, R. R. and Feely, R. A. 1984. The oceanic carbonate system: A reassessment of biogenic controls. Science 226, 1074–1077.
- Biscaye, P. E., Anderson, R. F. and Deck, B. L. 1988. Fluxes of particles and constituents to the eastern United States continental slope and rise: SEEP-I. Cont. Shelf Res. 8, 855–904.
- Broecker, W. S. and Peng, T.-H. 1982. Tracers in the sea. Lamont-Doherty Geol. Obs., Columbia Univ., New York, pp 690.
- Craig, H. 1969. Abyssal carbon and radiocarbon in the Pacific. J. Geophys. Res. 74,5491–5506.
- Craig, H. 1971. The deep metabolism: oxygen consump-tion in abyssal ocean water. J. Geophys. Res. 76, 5078–5086.
- Deuser, W. G. 1986. Seasonal and interannual variations in deep-water particle fluxes in the Sargasso Sea and their relation to surface hydrography. Deep-Sea Res. 33, 225–246.
- Dymond, J. and Collier, R. 1988. Biogenic particle fluxes in the equatorial Pacific: Evidence for both high and low productivity during the 1982-1983 El ino. Global Biogeochem. Cycles 2, 129–137.
- Dymond, J. and Lyle, M. 1985. Flux comparisons between sediments and sediment traps in the eastern tropical Pacific Implications for CO2 variations during the Pleistocene. Lirnnol. Oceanogr. 30, 699–712.
- Emerson, S., Fischer, K., Reimers, C. and Heggie, D. 1985. Organic carbon dynamics and preservation in deep-sea sediments. Deep-Sea Res. 32, 1–21.
- Eppley, R. W. 1989. New production: history, methods, problems. In: Productivity of the ocean: present and past (eds. W. H. Berger, V. S. Smetacek and G. Wefer). John Wiley & Sons (Chichester, U.K.), 85–97.
- Eppley, R. W. and Peterson B. J. 1979. Particulate organic matter flux and planktonic new production in the deep ocean. Nature 282, 677–680.
- Garrets, R. M. and Mackenzie, F. T. 1971. Evolution of sedimentary rocks. W. W. Norton &Company Inc., New York, pp 397.
- Goldberg, E. D., Broecker, W. S., Gross, M. G. and Turekian K. K. 1971. Marine chemistry. In: Radio-activity in the marine environment. National Academy of Sciences, 137–146.
- Honjo, S. 1980. Material fluxes and modes of sedimenta-tion in the mesopelagic and bathypelagic zones. J. Mar. Res. 38, 53–97.
- Honjo, S. 1989. Sediment trap experiments in the Japan Trench. Kaiyo Monthly 21, 181–186.
- Honjo, S., Manganini, S. J. and Cole, J. J. 1982. Sedimen-tation of biogenic matter in the deep ocean. Deep-Sea Res. 29, 609–625.
- Honjo, S., Manganini, S. J. and Wefer, G. 1988. Annual particulate flux and a winter outburst of sedimentation in the northern Norwegian Sea. Deep-Sea Res. 35, 1223–1234.
- Jenkins, W. A. 1982. Oxygen utilization rates in the North Atlantic subtropical gyre and primary produc-tion in oligotrophic systems. Nature 300, 246–248.
- Karl, D. M. and Knauer, G. A. 1984. Vertical distribu-tion, transport, and exchange of carbon in the north-east Pacific Ocean: evidence for multiple zones of biological activity. Deep-Sea Res. 31, 221–243.
- Karl, D. M., Knauer, G. A. and Martin, J. H. 1988. Downward flux of particulate organic matter in the ocean: a particle decomposition paradox. Nature 332, 438–441.
- Koblentz-Mishke, O. J., Volkovinsky, V. V. and Karanova, J. G. 1970. Plankton primary production of the world ocean. In: Scientific exploration of the South Pacific. National Academy of Sciences, 183–193.
- Kusakabe, M., Ku, T. L., Harada, K., Taguchi, K. and Tsunogai, S. 1988. Chernobyl radioactivity found in mid-water sediment interceptors in the N. Pacific and Bering Sea. Geophys. Res. Lett. 15, 282–301.
- Martin, J. H. and Knauer, G. A. 1983. VERTEX: Manganese transport with CaCO3. Deep-Sea Res. 30, 411–425.
- Martin, J. H., Knauer, G. A., Karl, D. M. and Broenkow, W. W. 1987. VERTEX: carbon cycling in the northeast Pacific. Deep-Sea Res. 34, 267–285.
- Masuzawa, T., Noriki, S., Kurosaki, T., Tsunogai, S. and Koyama, M. 1989. Compositional change of settling particles with water depth in the Japan Sea. Mar. Chem. 27, 61–78.
- NASA 1988. Earth system science: a closer view. Report of the Earth System Sciences Committee, NASA Advisory Council, Washington D.C. pp 208.
- Noriki, S. and Tsunogai, S. 1986. Particulate fluxes and major components of settling particles from sediment trap experiments in the Pacific Ocean. Deep-Sea Res. 33, 903–912.
- Noriki, S., Ishimori, N. and Tsunogai, S. 1985. Regenera-tion of chemical elements from settling particles collected by sediment trap in Funka Bay, Japan. J. Oceanogr. Soc. Japan 41, 113–120.
- Ogura, N. 1972. Decomposition of dissolved organic matter derived from dead phytoplankton. In: Biologi-cal oceanography of the Northern North Pacific Ocean (ed. A. Y. Takenouti). Idemitsu Shoten (Tokyo), 507–515.
- Parsons, T. R. 1988. Trophodynamic phasing in the theoretical, experimental and natural pelagic ecosystems. J. Oceanogr. Soc. Japan 44, 94–101.
- Reynolds, L. and Thunell, R. C. 1985. Seasonal succes-sion of planktonic foraminifera in the subpolar North Pacific. J. Foraminiferal Res. 15, 282–301.
- Riley, G. A. 1951. Oxygen, phosphate and nitrate in the Atlantic Ocean. Bull. Bingham Oceanogr. Coll. 13, 1–126.
- Suess, E. 1980. Particulate organic carbon flux in the oceans - surface productivity and oxygen utilization. Nature 288, 260–263.
- Takahashi, K. 1986. Seasonal flux of pelagic diatoms in subarctic Pacific, 1982-1983. Deep-Sea Res. 33, 1225–1251.
- Taguchi, K., Harada, K. and Tsunogai, S. 1989. Par-ticulate removal of 230Th and 231Pa in the biologically productive northern North Pacific. Earth. Planet. Sci. Lett. 93, 223–232.
- Toggweiler, J. R. 1989. Is the downward dissolved organic matter (DOM) flux important in carbon transport? In: Productivity of the ocean: present and past (eds. W. H. Berger, V. S. Smetacek and G. Wefer). John Wiley & Sons (Chichester, U.K.). 65–83.
- Tsunogai, S. 1972. An estimate of the rate of decomposi-tion of organic matter in the deep water of the Pacific Ocean. In: Biological oceanography of the northern North Pacific Ocean (ed. A. Y. Takenouti), Idemitsu Shoten (Tokyo), 517–533.
- Tsunogai, S. 1987. Deep-water circulation in the North Pacific deduced from Si-0 diagrams. J. Oceanogr. Soc. Japan 43, 77–87.
- Tsunogai, S. and Noriki, S. 1987. Organic matter fluxes and the sites of oxygen consumption in the deep water. Deep-Sea Res. 34, 755–767.
- Tsunogai, S. and Watanabe, Y. 1983. Role of dissolved silicate in the occurrence of phytoplankton bloom. J. Oceanogr. Soc. Japan 39, 231–239.
- Tsunogai, S., Uematsu, M., Noriki, S., Tanaka, N. and Yamada, M. 1982. Sediment trap experiment in the northern North Pacific: Undulation of settling particles. Geochem. J. 16, 129–147.
- Tsunogai, S., Noriki, S., Harada, K., Kurosaki, T., Watanabe, Y. and Maeda, M. 1986. Large but variable particulate flux in the Antarctic Ocean and its significance on the chemistry of the Antarctic water. J. Oceanogr. Soc. Japan 42, 83–90.
- U.S. GOES Planning Report No. 4 1987. Modeling in GOFS. U.S. GOFS Planning Office, Woods Hole Oceanogr. Inst., Woods Hole, Massachusetts, pp 142.
- Walsh, J. J., Rowe, G. T., Iverson, R. L. and McRoy, C. P. 1981. Biological export of shelf carbon is a neglected sink of the global CO2 cycle. Nature 291, 196–201.
- Walsh, J. J., Preminzic, E. T., Gaffney, J. S., Rowe, G. T., Harbottle, G., Stoenner, R. W., Balsom, W. L., Betzer, P. R. and Macko, S. A. 1985. Organic storage of CO2 on the continental slope off the mid-Atlantic bight, the southeastern Bering Sea, and Peru Coast. Deep-Sea Res. 32, 853–883.
- Walsh, I., Dymond, J. and Collier, R. 1988. Rates of recycling of biogenic components of settling particles in the ocean derived from sediment trap experiments. Deep-Sea Res. 35,43–58.
- Wefer, G., Suess, E., Balzer, W., Liebezeit, G., Milner, P. J., Ungerer, C. A. and Zenk, W. 1982. Flux of biogenic components from sediment trap deployment in circumpolar waters of the Drake Passage. Nature 299, 145–147.
- Wefer, G., Fischer, G., Fiietterer, D. and Gersonde, R. 1988. Seasonal particle flux in the Bransfield Strait, Antarctica. Deep-Sea Res. 35, 891–898.