15N. Paleoceanography, 7:589–606.
Altabet, M.A., Deuser, W.G., Honjo, and S., Steinen, C., 1991. Seasonal and depth-related changes in the source of sinking particles in the North Atlantic. Nature, (London, U. K.), 354(6349):136–139. doi:10.1038/354136a0
Altabet, M.A., and Francois, R., 1994. Sedimentary nitrogen isotopic ratio as a record for surface ocean nitrate utilization. Global Biogeochem. Cycles, 8(1):103–116. doi:10.1029/93GB03396
Altabet, M.A., and McCarthy, J.J., 1985. Temporal and spatial variations in the natural abundance of 15N in PON from a warm-core ring. Deep-Sea Res. Part A, 32(7):755–772. doi:10.1016/0198-0149(85)90113-X
Altabet, M.A., Pilskaln, C., Thunell, R. and Pride, C., Sigman, D., Chavez, F., and Francois, R., 1999. The nitrogen isotope biogeochemistry of sinking particles from the margin of the eastern North Pacific. Deep-Sea Research I, 46(4):655–679. doi:10.1016/S0967-0637(98)00084-3
Berger, W.H., and Keir, R.S., 1984. Glacial–Holocene changes in atmospheric CO2 and the deep-sea record. In Hansen, J.E., and Takahashi, T. (Eds.), Climate Processes and Climate Sensitivity. Maurice Ewing Ser., 29:337–351.
Berner, R.A., 1980. Early Diagenesis: A Theoretical Approach: Princeton, NJ (Princeton Univ. Press).
Boudreau, B.P., 1997. Diagenetic Models and Their Implementation: Modeling Transport and Reaction in the Aquatic Sediments: Berlin (Springer Verlag).
Broecker, W.S., 1982. Glacial to interglacial changes in ocean chemistry. Prog. Oceanogr., 11:151–197. doi:10.1016/0079-6611(82)90007-6
D'Hondt, S.L., Jørgensen, B.B., Miller, D.J., et al., 2003. Proc. ODP, Init. Repts., 201 [CD-ROM]. Available from: Ocean Drilling Program, Texas A&M University, College Station TX 77845-9547, USA. [HTML]
Elderfield, H., McCaffrey, R.J.H., Luedtke, N., Bender, M., and Truesdale, V.W., 1981. Chemical diagenesis in Narragansett Bay sediments. Am. J. Sci., 281:1021–1055.
Falkowski, P.G., 1997. Evolution of the nitrogen cycle and its influence on the biological sequestration of CO2 in the ocean. Nature (London, U. K.), 387(6630):272–275. doi:10.1038/387272a0
Faure, G., and Mensing, T.M., 2005. Isotopes: Principles and Applications: New Jersey (John Wiley & Sons).
Francois, R., Altabet, M.A., and Burckle, L.H., 1992. Glacial to interglacial changes in surface nitrate utilization in the Indian sector of the Southern Ocean as recorded by sediment 15N. Paleoceanography, 7:589–606.
Ganeshram, R.S., Pedersen, T.F., Calvert, S.E., McNeill, G.W., and, Fontugne, M.R., 2000. Glacial-interglacial variability in denitrification in the world's oceans: causes and consequences. Paleoceanography, 15(4):361–376. doi:10.1029/1999PA000422
Ganeshram, R.S., Pedersen, T.F., Calvert, S.E., and Murray, J.W., 1995. Large changes in oceanic nutrient inventories from glacial to interglacial periods. Nature (London, U. K.), 376(6543):755–758. doi:10.1038/376755a0
Gruber, N., 2004. The dynamics of the marine nitrogen cycle and its influence on atmospheric CO2. In Follows, M., and Oguz, T. (Eds), The Ocean Carbon Cycle and Climate. NATO ASI Ser., 97–148.
Haug, G.H., Pedersen, T.F., Sigman, D.M., Calvert, S.E., Nielsen, B., and Peterson, L.C., 1998. Glacial/interglacial variations in production and nitrogen fixation in the Cariaco Basin during the last 580 kyr. Paleoceanography, 13(5):427–432. doi:10.1029/98PA01976
Hoch, M.P., Fogel, M.L. and Kirchman, D.L., 1992. Isotope fractionation associated with ammonium uptake by a marine bacterium. Limnol. Oceanogr., 37(7):1447–1459.
Holmes, R.M., McClelland, J.W., Sigman, D.M., Fry, B. and Peterson, B.J., 1998. Measuring N-15-NH4+ in marine, estuarine and fresh waters: an adaptation of the ammonia diffusion method for samples with low ammonium concentrations. Mar. Chem., 60(3-4):235–243. doi:10.1016/S0304-4203(97)00099-6
Lehmann, M.F., Bernasconi, S.M., Barbieri, A. and McKenzie, J.A., 2002. Preservation of organic matter and alteration of its carbon and nitrogen isotope composition during simulated and in situ early sedimentary diagenesis. Geochim. Cosmochim. Acta, 66(20):3573-3584. doi:10.1016/S0016-7037(02)00968-7
Li, Y.-H., and Gregory, S., 1974. Diffusion of ions in seawater and deep sea sediments. Geochim. Cosmochim. Acta, 38:703–714.
Libes, S.M., and Deuser, W.G., 1988. The isotope geochemistry of particulate nitrogen in the Peru Upwelling Area and the Gulf of Maine. Deep-Sea Res. Part A, 35(4):517–533. doi:10.1016/0198-0149(88)90129-X
Macko, S.A., Engel, M.E., and Parker, P.L., 1993. Early diagenesis of organic matter in sediments: assessment of mechanisms and preservation by the use of isotopic molecular approaches. In Engel, M.A., and Macko, S.A. (Eds.), Organic Geochemistry Principals and Applications. New York (Plenum), 211–224.
Macko, S.A., and Estep, M.L.F., 1984. Microbial alteration of stable nitrogen and carbon isotopic compositions of organic matter. Org. Geochem., 6:787–790. doi:10.1016/0146-6380(84)90100-1
Macko, S.A., Estep, M.L.F., Hare, P.E., and Hoering, T.C., 1983. Stable nitrogen and carbon isotopic composition of individual amino acids isolated from cultured microorganisms. Year Book, Carnegie Institution of Washington, 82:404–410.
Macko, S.A., Estep, M.L.F., Engel, M.H., and Hare, P.E., 1986. Kinetic fractionation of stable nitrogen isotopes during amino acid transamination. Geochim. Cosmochim. Acta, 50(10):2143–2146. doi:10.1016/0016-7037(86)90068-2
Pontoizeau, P., Castanier, S., and Perthuisot, J.P., 1996. Bacterial production of struvite (MgNH4PO4·6H2O) during experiments aiming to produce high-Mg carbonates. Comptes Rendus Academie Sciences Serie Fascicule a-Sciences Terre Des Planetes, 323(2):121–28.
Pride, C., Thunell, R., Sigman, D., Keigwin, L., Altabet, M., and Tappa, E., 1999. Nitrogen isotopic variations in the Gulf of California since the last deglaciation: response to global climate change. Paleoceanography, 14(3):397–409. doi:10.1029/1999PA900004
Prokopenko, M.G., Hammond, D.E. Berelson, W.M., Bernhard, J.M., Stott, L., and Douglas, R., 2006. Nitrogen cycling in the sediments of Santa Barbara Basin and eastern subtropical North Pacific: nitrogen isotopes, diagenesis and possible chemosymbiosis between two lithotrophs (Thioploca and Anammox)—"riding on a glider." Earth Planet. Sci. Lett., 242(1–2):186–204. doi:10.1016/j.epsl.2005.11.044
Prokopenko, M.G., 2004. Fractionation of nitrogen isotopes during early diagenesis [Ph.D. thesis]. Univ. Southern California, Los Angeles.
Prokopenko, M.G., Hammond, D.E. and Stott, L., in press. Lack of isotopic fractionation of 15N of organic matter during long-term diagenesis in marine sediments; ODP Leg 202–Sites 1234 and 1235. In Tiedemann, R., Mix, A.C., Richter, C., and Ruddiman, W.F. (Eds.), Proc. ODP, Sci. Results, 202. College Station TX (Ocean Drilling Program).
Redfield, A.C., Ketchum, B.H., and Richards, F.A., 1963. The influence of organisms on the composition of seawater. In Hill, M.N. (Ed.), The Sea (Vol. 2): New York (Wiley), 26–77.
Rivadeneyra, M.A., Martin-Algarra, A., Sanchez-Navas, A., and Martin-Ramos, D., 2006. Carbonate and phosphate precipitation by Chromohalobacter marismortui. Geomicrobiol. J., 23(2):89–101. doi:10.1080/01490450500533882
Sachs, J.P., and Repeta, D.J., 1999. Oligotrophy and nitrogen fixation during eastern Mediterranean sapropel events. Science, 286(5449):2485–2488. doi:10.1126/science.286.5449.2485
Sigman, D.M., 1997. The role of biological production in Pleistocene atmospheric carbon dioxide variations and the nitrogen isotope dynamic of the Southern Ocean, Ph.D. Thesis., MIT/WHOI, 97–28.
Sigman, D.M., Altabet, M.A., Francois, R., McCorkle, D.C., and Gaillard, J.-F., 1999. The isotopic composition of diatom-bound nitrogen in the Southern Ocean sediments. Paleoceanography, 14(2):118–134. doi:10.1029/1998PA900018
Sigman, D.M., Altabet, M.A., Michener, R., McCorkle, D.C., Fry, B., and Holmes, R.M., 1997. Natural abundance-level measurement of the nitrogen isotopic composition of oceanic nitrate: an adaptation of the ammonia diffusion method. Mar. Chem., 57(3-4):227–242. doi:10.1016/S0304-4203(97)00009-1
Sigman, D.M., and Boyle, E.A., 2000. Glacial/interglacial variations in atmospheric carbon dioxide. Nature (London, U. K.), 407(6806):859–869. doi:10.1038/35038000
Silfer, J.A., Engel, M.H., and Macko, S.A., 1992. Kinetic fractionation of stable carbon and nitrogen isotopes during peptide bond hydrolysis: experimental evidence and geochemical implications. Chem. Geol., 101:211–221.
Sorensen, P., and Jensen, E.S., 1991. Sequential diffusion of ammonium and nitrate from soil extracts to a polytetrafluoroethylene trap for 15N determination. Anal. Chim. Acta, 252(1–2):201–203. doi:10.1016/0003-2670(91)87215-S
Suess, E., von Huene, R., et al., 1988. Proc. ODP, Init. Repts., 112: College Station, TX (Ocean Drilling Program).
Sweeney, R.E., and Kaplan, I.R., 1980. Natural abundances of 15N as a source indicator for near-shore marine sedimentary and dissolved nitrogen. Mar. Chem., 9(2):81–94. doi:10.1016/0304-4203(80)90062-6
Tyrell, T., 1999. The relative influences of nitrogen and phosphorus on oceanic primary production. Nature (London, U. K.), 400(6744):525–531. doi:10.1038/22941