Lyons, Timothy W; Murray, Richard W; Pearson, D Graham (2000): (Table 3) Reduced inorganic sulphur, d34S and nickel content of ODP Leg 165 sites [dataset]. PANGAEA, https://doi.org/10.1594/PANGAEA.803491, Supplement to: Lyons, TW et al. (2000): A comparative study of diagenetic pathways in sediments of the Caribbean Sea: highlights from pore-water results. In: Leckie, RM; Sigurdsson, H; Acton, GD; Draper, G (eds.) Proceedings of the Ocean Drilling Program, Scientific Results, College Station, TX (Ocean Drilling Program), 165, 1-12, https://doi.org/10.2973/odp.proc.sr.165.020.2000
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Abstract:
Leg 165 of the Ocean Drilling Program afforded a unique opportunity to investigate organic and inorganic geochemistry across a wide gradient of sediment compositions and corresponding chemical pathways. The solid fractions at Sites 998, 999, 1000, and 1001 reveal varying proportions of reactive carbonate species, a labile volcanic ash fraction occurring in discrete layers and as a dispersed component, and detrital fluxes that derive from continental weathering. The relative proportions and reactivities of these end-members strongly dictate the character of the diagenetic profiles observed during the pore-water work of Leg 165. In addition, alteration of the well-characterized basaltic basement at Site 1001 has provided a strong signal that is reflected in many of the dissolved components. The relative effects of basement alteration and diagenesis within the sediment column are discussed in terms of downcore relationships for dissolved calcium and magnesium.
With the exception of Site 1002 in the Cariaco Basin, the sediments encountered during Leg 165 were uniformly deficient in organic carbon (typically <0.1 wt%). Consequently, rates of organic oxidation were generally low and dominated by suboxic pathways with subordinate levels of bacterial sulfate reduction and methanogenesis. The low rates of organic remineralization are supported by modeled rates of sulfate reduction. Site 1000 provided an exception to the generally low levels of microbially mediated redox cycling. At this site the sediment is slightly more enriched in organic phases, and externally derived thermogenic hydrocarbons appear to aid in driving enhanced levels of redox diagenesis at great depths below the seafloor. The entrapment of these volatiles corresponds with a permeability seal defined by a pronounced Miocene minimum in calcium carbonate concentration recognized throughout the basin and with a dramatic downcore increase in the magnitude of limestone lithification. The latter has been tentatively linked to increases in alkalinity associated with microbial oxidation of organic matter and gaseous hydrocarbons.
Recognition and quantification of previously unconstrained large volumes and frequencies of Eocene and Miocene silicic volcanic ash within the Caribbean Basin is one of the major findings of Leg 165. High frequencies of volcanic ash layers manifest as varied but often dominant controls on pore-water chemistry. Sulfur isotope results are presented that speak to secondary metal and sulfur enrichments observed in ash layers sampled during Leg 165. Ultimately, a better mechanistic understanding of these processes and the extent to which they have varied spatially and temporally may bear on the global mass balances for a range of major and minor dissolved components of seawater.
Project(s):
Ocean Drilling Program (ODP)
Coverage:
Median Latitude: 16.129533 * Median Longitude: -79.688267 * South-bound Latitude: 12.743300 * West-bound Longitude: -82.936100 * North-bound Latitude: 19.489600 * East-bound Longitude: -74.910400
Date/Time Start: 1995-12-28T21:15:00 * Date/Time End: 1996-02-15T19:45:00
Minimum Elevation: -3259.0 m * Maximum Elevation: -915.8 m
Event(s):
165-998A * Latitude: 19.489600 * Longitude: -82.936100 * Date/Time Start: 1995-12-28T21:15:00 * Date/Time End: 1996-02-01T12:15:00 * Elevation: -3180.0 m * Penetration: 637.6 m * Recovery: 440.88 m * Location: Colombia Basin, Caribbean Sea * Campaign: Leg165 * Basis: Joides Resolution * Method/Device: Drilling/drill rig (DRILL) * Comment: 67 cores; 637.6 m cored; 0 m drilled; 69.1 % recovery
165-998B * Latitude: 19.489600 * Longitude: -82.936100 * Date/Time Start: 1996-02-01T12:15:00 * Date/Time End: 1996-01-08T15:00:00 * Elevation: -3180.0 m * Penetration: 904.8 m * Recovery: 287.88 m * Location: Colombia Basin, Caribbean Sea * Campaign: Leg165 * Basis: Joides Resolution * Method/Device: Drilling/drill rig (DRILL) * Comment: 37 cores; 346.5 m cored; 0 m drilled; 83.1 % recovery
165-999A * Latitude: 12.744000 * Longitude: -78.739300 * Date/Time Start: 1996-01-10T19:30:00 * Date/Time End: 1996-01-14T23:15:00 * Elevation: -2828.0 m * Penetration: 566.1 m * Recovery: 534.83 m * Location: Caribbean Sea * Campaign: Leg165 * Basis: Joides Resolution * Method/Device: Drilling/drill rig (DRILL) * Comment: 61 core; 566.1 m cored; 0 m drilled; 94.5 % recovery
Comment:
Complete trace element data and analytical details are available in Sigurdsson, Leckie, Acton, et al. (1997, doi:10.2973/odp.proc.ir.165.1997).
Parameter(s):
| # | Name | Short Name | Unit | Principal Investigator | Method/Device | Comment |
|---|---|---|---|---|---|---|
| 1 | Event label | Event | ||||
| 2 | Latitude of event | Latitude | ||||
| 3 | Longitude of event | Longitude | ||||
| 4 | Elevation of event | Elevation | m | |||
| 5 | Sample code/label | Sample label | Lyons, Timothy W | DSDP/ODP/IODP sample designation | ||
| 6 | Sulfur, total reduced inorganic | TRIS | % | Lyons, Timothy W | Cr(II) extraction, Canfield et al. (1986) | |
| 7 | δ34S, pyrite | δ34S Py | ‰ CDT | Lyons, Timothy W | Cr(II) extraction, Canfield et al. (1986) | |
| 8 | Sample comment | Sample comment | Lyons, Timothy W | for d34S measurement | ||
| 9 | Nickel | Ni | mg/kg | Lyons, Timothy W |
License:
Creative Commons Attribution 3.0 Unported (CC-BY-3.0)
Size:
122 data points
Data
| 1 Event | 2 Latitude | 3 Longitude | 4 Elevation [m] | 5 Sample label | 6 TRIS [%] | 7 δ34S Py [‰ CDT] | 8 Sample comment | 9 Ni [mg/kg] |
|---|---|---|---|---|---|---|---|---|
| 165-998A | 19.4896 | -82.9361 | -3180 | 165-998A-13H-3,25-27 | 0.01 | small ash samples and/or low S content | 187 | |
| 165-998A | 19.4896 | -82.9361 | -3180 | 165-998A-13H-5,118-120 | 0.02 | small ash samples and/or low S content | 90 | |
| 165-998A | 19.4896 | -82.9361 | -3180 | 165-998A-14H-6,16-18 | 0.03 | small ash samples and/or low S content | 134 | |
| 165-998A | 19.4896 | -82.9361 | -3180 | 165-998A-20X-2,9-11 | 0.01 | small ash samples and/or low S content | 9 | |
| 165-998A | 19.4896 | -82.9361 | -3180 | 165-998A-20X-CC,32-33 | 0.01 | small ash samples and/or low S content | 9 | |
| 165-998A | 19.4896 | -82.9361 | -3180 | 165-998A-37X-1,142-144 | 0.03 | small ash samples and/or low S content | 173 | |
| 165-998B | 19.4896 | -82.9361 | -3180 | 165-998B-1R-7,51-53 | ?1.91 | very low Ag2S yield during Cr-reduction for d34S determination | 84 | |
| 165-998B | 19.4896 | -82.9361 | -3180 | 165-998B-9R-4,48-50 | 0.02 | small ash samples and/or low S content | 115 | |
| 165-998B | 19.4896 | -82.9361 | -3180 | 165-998B-31R-CC,5-7 | 0.01 | small ash samples and/or low S content | 97 | |
| 165-998B | 19.4896 | -82.9361 | -3180 | 165-998B-33R-2,88-91 | 0.02 | small ash samples and/or low S content | ||
| 165-998B | 19.4896 | -82.9361 | -3180 | 165-998B-35R-5,109-111 | 0.33 | small ash samples and/or low S content | 319 | |
| 165-998B | 19.4896 | -82.9361 | -3180 | 165-998B-35R-6,68-71 | 0.18 | small ash samples and/or low S content | 25 | |
| 165-999A | 12.7440 | -78.7393 | -2828 | 165-999A-17H-4,112-114 | 1.72 | small ash samples and/or low S content | 514 | |
| 165-999A | 12.7440 | -78.7393 | -2828 | 165-999A-20H-2,142-144 | 1.24 | -30.9 | small sample, acceptable gas yield | 233 |
| 165-999A | 12.7440 | -78.7393 | -2828 | 165-999A-28X-5,15-18 | 0.61 | -34.9 | 223 | |
| 165-999A | 12.7440 | -78.7393 | -2828 | 165-999A-32X-1,107-109 | 2.26 | -32.9 | 554 | |
| 165-999A | 12.7440 | -78.7393 | -2828 | 165-999A-34X-3,51-54 | 0.80 | -29.2 | 239 | |
| 165-999A | 12.7440 | -78.7393 | -2828 | 165-999A-37X-6,98-100 | 0.51 | -35.4 | 61 | |
| 165-999A | 12.7440 | -78.7393 | -2828 | 165-999A-39X-2,8-11 | 0.37 | -34.6 | 56 | |
| 165-999A | 12.7440 | -78.7393 | -2828 | 165-999A-42X-1,68-70 | 0.07 | small ash samples and/or low S content | 26 | |
| 165-999A | 12.7440 | -78.7393 | -2828 | 165-999A-45X-5,123-125 | 0.27 | -41.4 | small SO2 yield | 83 |
| 165-999A | 12.7440 | -78.7393 | -2828 | 165-999A-46X-2,11-13 | 0.06 | small ash samples and/or low S content | 90 | |
| 165-999A | 12.7440 | -78.7393 | -2828 | 165-999A-48X-1,14-16 | 1.68 | small ash samples and/or low S content | ||
| 165-999A | 12.7440 | -78.7393 | -2828 | 165-999A-58X-5,57-60 | 0.03 | small ash samples and/or low S content | ||
| 165-999B | 12.7433 | -78.7403 | -2828 | 165-999B-9R-2,98-102 | 0.08 | small ash samples and/or low S content | 26 | |
| 165-999B | 12.7433 | -78.7403 | -2828 | 165-999B-24R-3,103-107 | 0.10 | small ash samples and/or low S content | 57 | |
| 165-999B | 12.7433 | -78.7403 | -2828 | 165-999B-38R-2,135-137 | 0.02 | small ash samples and/or low S content | ||
| 165-1000B | 16.5537 | -79.8674 | -916 | 165-1000B-6R-4,143-145 | 0.70 | -26.9 | 153 | |
| 165-1000B | 16.5537 | -79.8674 | -916 | 165-1000B-11R-1,142-145 | 0.06 | small ash samples and/or low S content | 6 | |
| 165-1000B | 16.5537 | -79.8674 | -916 | 165-1000B-21R-4,43-46 | 0.21 | -27.1 | 3 | |
| 165-1001B | 15.7570 | -74.9104 | -3259 | 165-1001B-31R-5,37-39 | 0.03 | small ash samples and/or low S content | 74 |