REFERENCES

Abrantes, F., Baas, J., Haflidason, H., Rasmussen, T., Klitgaard, D., Loncaric, N., and Gaspar, L., 1998. Sediment fluxes along the northeastern European Margin: inferring hydrological changes between 20 and 8 kyr. Mar. Geol., 152:7-23.

Arthur, M.A., Schlanger, S.O., and Jenkyns, H.C., 1987. The Cenomanian-Turonian oceanic anoxic event, II. Palaeoceanographic controls on organic-matter production and preservation. In Brooks, J., and Fleet, A.J. (Eds.), Marine Petroleum Source Rocks. Geol. Soc. Spec. Publ. London, 26:401-420.

Aubouin, J., 1975. Réflexion sur les bordures pacifiques, l'exemple des cordillères américaines. C. R. Acad. Sci. Ser. 2, 280D:2633-2636.

Beaudoin, B., Cojan, I., Fries, G., and Pinoteau, B., 1984. Lois de décompaction et approche des évolutions du taux de sédimentation dans les forages pétroliers du Sud-Est de la France. Doc. BRGM, 95-11:133-148.

Bellanca, A., Claps, M., Erba, E., Masetti, D., Neri, R., Premoli Silva, I., and Venezia, F., 1996. Orbitally induced limestone/marlstone rhythms in the Albian-Cenomanian Cismon section (Venetian region, Northern Italy): sedimentology, calcareous and siliceous plankton distribution, elemental and isotope geochemistry. Palaeogeogr., Palaeoclimatol., Palaeoecol., 126:227-260.

Berger, A., Loutre, M.F., and Dehant, V., 1989. Influence of the changing lunar orbit on the astronomical frequencies of the Pre-Quaternary insolation patterns. Paleoceanography, 4:555-564.

Berner, R.A., 1968. Calcium carbonate concretions formed by the decomposition of organic matter. Science, 159:195-197.

Bottjer, D.J., Arthur, M.A., Dean, W.E., Hattion, D.E., and Savrda, C.E., 1986. Rhythmic bedding produced in Cretaceous pelagic carbonate environments: sensitive recorders of climatic cycles. Paleoceanography, 1:467-481.

Bowles, F.E., and Fleischer, P., 1985. Orinocco and Amazon river sediment input to the Eastern Caribbean basin. Mar. Geol., 68:53-72.

Brodie, I., and Kemp, A.E.S., 1994. Variation in biogenic and detrital fluxes and formation of laminae in late Quaternary sediments from the Peruvian coastal upwelling zone. Mar. Geol., 116:385-398.

Christensen, C.J., 1991. An analysis of sedimentation rates and cyclicity in the laminated sediments of Santa Monica Basin, California Continental Borderland [M.S. thesis]. Univ. Southern California, Los Angeles.

Christensen, C.J., Gorsline, D.S., Hammond, D.E., and Lund, S.P., 1994. Non-annual laminations and expansion of anoxic basin-floor conditions in Santa Monica Basin, California Borderland, over the past four centuries. Mar. Geol., 116:399-418.

Cotillon, P., 1991. Recherche d'un enregistrement de l'eustatisme au large des marges téthysiennes: nouvelle approche par l'étude des variations des flux de matière. Application à la série Tithonique supérieur-Aptien inférieur du site 534 DSDP (Atlantique Central). Geol. Alp., Mem., 18:117-136.

Cotillon, P., and Rio, M., 1984. Cyclic sedimentation in the Cretaceous of Deep Sea Drilling Project Sites 535 and 540 (Gulf of Mexico), 534 (Central Atlantic) and in the Vocontian Basin (France). In Buffler, R.T., Schlager, W., et al., Init. Repts. DSDP, 77: Washington (U.S. Govt. Printing Office), 339-376.

Cotillon, P., Rousselle, B., Courtinat, B., and Crumiere, J.P., 1994. Evolution of sediment fluxes from the Middle Miocene to Present at ODP site 817 (Townsville Basin, North-eastern Australia) as a record of regional paleogeographic events. Mar. Geol., 121:265-291.

DeMaster, D.J., McKee, B.A., Nittrouer, C.A., Brewster, D.C., and Biscaye, P.E., 1985. Rates of sediment reworking at the HEBBLE Site based on measurements of Th-234, Cs-137 and Pb-210. Mar. Geol., 66:133-48.

Donegan, D., and Schrader, H., 1982. Biogenic and abiogenic components of laminated hemipelagic sediments in the central Gulf of California. Mar. Geol., 48:215-237.

Erba, E., and Premoli-Silva, I., 1994. Orbitally driven cycles in trace-fossil distribution from the Piobicco core (Late Albian, Central Italy). Spec. Publ. Int. Assoc. Sedimentol., 19:211-225.

Fischer, A.G., Herbert, T., and Premoli-Silva, I., 1985. Carbonate bedding cycles in Cretaceous pelagic and hemipelagic sediments. In Pratt, L.M., Kauffman, E.G., and Zelt, F.B. (Eds.), Fine-grained Deposits and Biofacies of the Cretaceous Western Interior Seaway: Evidence of Cyclic Sedimentary Processes. SEPM Guidebook, 9:1-10.

Gradstein, F.M., Agterberg, F.P., Ogg, J.G., Hardenbol, J., van Veen, P., Thierry, J., and Huang, Z., 1994. A Mesozoic time scale. J. Geophys. Res., 99:24051-24074.

Guinasso, N.L., Jr., and Schink, D.R., 1975. Quantitative estimates of biological mixing rates in abyssal sediments. J. Geophys. Res., 80:3032-3043.

Hagadorn, J.W., Stott, L.D., Sinha, A., and Rincon, M., 1995. Geochemical and sedimentologic variations in inter-annually laminated sediments from Santa Monica Basin. Mar. Geol., 125:111-131.

Haq, B.U., 1993. Deep-sea response to eustatic change and significance of gas-hydrates for continental margin stratigraphy. Spec. Publ. Int. Assoc. Sedimentol., 18:93-106.

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, 13:427-432.

Herbert, T.D., and Fischer, A.G., 1986. Milankovitch climatic origin of mid-Cretaceous black shale rhythms in central Italy. Nature, 321:739-743.

Heydari, E., Wade, W.J., and Anderson, L.C., 1997. Depositional environments, organic carbon accumulation, and solar-forcing cyclicity in Smackover Formation lime mudstones, Northern Gulf Coast. AAPG Bull., 81:760-774.

Huang, Z., Ogg, J.G., and Gradstein, F.M., 1993. A quantitative study of Lower Cretaceous cyclic sequences from the Atlantic Ocean and the Vocontian Basin (SE France). Paleoceanography, 8:275-291.

Hughen, K., Overpeck, J.T., Peterson, L.C., and Trumbore, S.E., 1996. Rapid climate changes in the tropical Atlantic region during the last deglaciation. Nature, 380:51-54.

Lin, H.-L., Peterson, L.C., Overpeck, J.T., Trumbore, S.E., and Murray, D.W., 1997. Late Quaternary climate change from 18O records of multiple species of planktonic foraminifera: high-resolution records from the anoxic Cariaco Basin (Venezuela). Paleoceanography, 12:415-427.

Marcellari, C.E., and De Vries, T.J., 1987. Late Cretaceous upwelling and anoxic sedimentation in Northwestern South America. Palaeogeogr., Palaeoclimatol., Palaeoecol., 59:279-292.

Mongenot, T., Tribovillard, N.P., Desprairies, A., Lallier-Verges, E., and Laggoun-Defarge, F., 1996. Trace elements as palaeoenvironmental markers in strongly mature hydrocarbon source rocks: the Cretaceous La Luna Formation of Venezuela. Sediment. Geol., 103:23-38.

Mortyn, P.G., and Thunell, R.C., 1997. Biogenic sedimentation and surface productivity changes in the Southern California Borderlands during the last glacial-interglacial cycle. Mar. Geol., 138:171-192.

Nittrouer, C.A., DeMaster, D.J., McKee, B.A., Custhall, N.H., and Larsen, I.L., 1984. The effect of sediment mixing on Pb-210 accumulation rates for the Washington Continental shelf. Mar. Geol., 54:201-222.

Ortlieb, L., and Macharé, J., 1993. Former El Niño events: record from western South America. Global Planet. Change, 7:181-202.

Peng, T.-H., Broecker, W.S., and Berger, W.H., 1979. Rates of benthic mixing in deep-sea sediments as determined by radioactive tracers. Quat. Res., 11:141-149.

Perry, C.A., 1994. Comparison of solar luminosity model with paleoclimatic data. Inst. Quat. Stud., TER-QUA Symp. Ser., 2:25-37.

Peterson, L.C., Overpeck, J.T., Kipp, N.G., and Imbrie, J., 1991. A high-resolution late Quaternary upwelling record from the anoxic Cariaco Basin, Venezuela. Paleoceanography, 6:99-119.

Quinn, W.H., Neal, V.T., and Antunez de Mayolo, S.E., 1987. El Niño occurrences over the past four and a half centuries. J. Geophys. Res., 92:14449-14461.

Raiswell, R., 1987. Non-steady state microbiological diagenesis and the origin of concretions and nodular limestones. In Marshall, J.D. (Ed.), Diagenesis of Sedimentary Sequences. Geol. Soc. Spec. Publ. London, 36:41-54.

Sageman, B.B., Rich, J., Arthur, M.A., Birchfield, G.E., and Dean, W.E., 1997. Evidence for Milankovitch periodicities in Cenomanian-Turonian lithologic and geochemical cycles, Western Interior USA. J. Sediment. Res., 67:286-302.

Sigurdsson, H., Leckie, R.M., Acton, G.D., et al., 1997. Proc. ODP, Init. Repts., 165: College Station, TX (Ocean Drilling Program).

Thunell, R.C., Tappa, E., and Anderson, D.M., 1995. Sediment fluxes and varve formation in Santa Barbara Basin, offshore California. Geology, 23:1083-1086.

Tribovillard, N.P., Cotillon, P., Jautée, E., and Stephan, J.F., 1991a. Les nodules carbonatés des formations riches en matière organique du Crétacé supérieur des plates formes vénézueliennes. Bull. Soc. Geol. Fr., 162:854-866.

Tribovillard, N.P., Jautée, E., Stephan, J.F., Cotillon, P., Reyre, Y., and Manivit, H., 1991b. Preliminary results of the study of Cretaceous Black Shales of Venezuelan Andes. Paleoenvironmental interpretations. Palaeogeogr., Palaeoclimatol., Palaeoecol., 81:313-321.

Tribovillard, N.P., and Stephan, J.F., 1989. Surmaturation des Black-shales crétacés des Andes de Mérida (Vénézuela): rôles respectifs de l'enfouissement sédimentaire et des charriages d'âge éocène. C. R. Acad. Sci. Ser. 2, 309:2085-2091.

Vasconcelos, C., and McKenzie, J.A., 1997. Microbial mediation of modern dolomite precipitation and diagenesis under anoxic conditions (Lagoa Vermelha, Rio de Janeiro, Brazil). J. Sediment. Res., 67:378-390.

von Rad, U., Schultz, H., and SONNE 90 Scientific Party, 1995. Sampling the Oxygen minimum zone of Pakistan: glacial-interglacial variations of anoxia and productivity (preliminary results, SONNE 90 Cruise). Mar. Geol., 125:7-19.