Computer Science
Scientific paper
Jan 1993
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1993gecoa..57..131c&link_type=abstract
Geochimica et Cosmochimica Acta, vol. 57, Issue 1, pp.131-146
Computer Science
6
Scientific paper
Francolite (carbonate fluorapatite) from predominantly peloidal phosphorite grains in the Miocene Hawthorn Group from the Babcock Deep core (southwestern Florida) is highly substituted with an average composition of (Ca 4.61 Na 0.22 Mg 0.14 K 0.05 Sr 0.02 ) (PO 4 ) 2.23 (CO 3 ) 0.62 (SO 4 ) 0.12 (F) 1.04. 13 C values of -1.0--7.8 %. PDB of the francolite CO 3 indicate a substantial contribution of C from an organic source. The sulfur isotopic composition of francolite SO 4 is depleted to slightly enriched relative to Miocene seawater and suggests that phosphogenesis occurred during early burial diagenesis in organicrich sediments above or in the zone of sulfate reduction. The uniformly high Sr, Na, Mg, SO 4 , and CO 3 contents of the francolite, the 18 O values of the francolite CO 3 (-0.2--4.2%. PDB), and the inclusion of pyrite and organic matter in phosphorite grains suggest that the francolite has had minimal chemical alteration since its formation. Phosphorite from the Babcock Deep core has Sr(87/86) ratios that range from 0.708148-0.708880 and Sr-derived ages that range from late Oligocene (25.6 ± 0.7 Ma) to early late Miocene (9.2 ± 1.4 Ma). The Sr-derived ages of relatively fragile calcareous benthic foraminifers are consistently younger than associated hard, tightly cemented phosphorite and support textural evidence of extensive reworking. The age of the host sediment ranges from early Miocene to Pliocene and its depositional history is related to sea-level fluctuations. Approximately three-quarters of the total phosphorite in the Babcock Deep core formed during or within 2 my before the major early to mid-Miocene positive 13 Cshift as recorded at DSDP Site 588 (southwest Pacific). One-third of the total phosphorite formed just prior to the carbon shift in the short interval between 21.9 and 20.4 Ma. These results indicate that reworked phosphorite deposits may provide a proxy of organic carbon cycling on continental shelves that correspond to sealevel fluctuations and to variations in the 13 Crecord.
Compton John S.
Garrido Jose R.
Hodell David A.
Mallinson David J.
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