Sedimentology and faunal compositions of surface sediments from the southern Florida Strait

The water masses in the Florida Straits and Bahamas region are important sources for the Northern Atlantic surface ocean circulation. In this study, we analyse carbonate preservation in surface sediments located above the chemical lysocline in the Florida Straits and Bahamas region and discuss possi...

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Bibliographic Details
Main Authors: Schwarz, Johanna, Rendle-Bühring, Rebecca
Format: Other/Unknown Material
Language:English
Published: PANGAEA 2005
Subjects:
0006JPC
0012GGC
0024GGC
0028GGC
0031GGC
0033GGC
0035GGC
0038GGC
0041GGC
0043GGC
0046PC
0048BC
0050BC
0051BC
0052BC
0053BC
0054BC
0055BC
0069BC
0070BC
0072BC
0075GGC
0096GGC
0097JPC
0098GGC
0099JPC
0100GGC
0101JPC
0103GGC
0106GGC
0107JPC
0108GGC
0110GGC
0111GGC
0140GGC
0141JPC
0142JPC
0143GGC
0145GGC
0148GGC
0151GCG
0153GGC
BC
Box corer
Center for Marine Environmental Sciences
Eastern slope of Great Bahama Bank
Exuma Sound
Providence Channel
GC
Antarc*
Antarctic
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.738225
https://doi.org/10.1594/PANGAEA.738225
Description
Summary:The water masses in the Florida Straits and Bahamas region are important sources for the Northern Atlantic surface ocean circulation. In this study, we analyse carbonate preservation in surface sediments located above the chemical lysocline in the Florida Straits and Bahamas region and discuss possible reasons for supralysoclinal dissolution. Calcite dissolution proxies such as the variation of the foraminiferal assemblage, Fragmentation Index, Benthic Foraminifera Index, and Resistance Index displayed a good preservation in both areas. The pteropod species Limacina inflata showed very good preservation in sediments of inter-platform channels from the Great Bahama Bank (Providence Channel, Exuma Sound) above the aragonite lysocline. Supralysoclinal aragonite dissolution, however, was observed at two water depth levels (800-1000 m and below 1500 m) in the Florida Straits. Our observations suggest that the supralysoclinal dissolution in the Florida Straits is due to the degradation of organic material. The presence of Antarctic Intermediate Water (AAIW) may be a contributing factor for the significant aragonite dissolution in 800-1000 m. The comparison of modern preservation patterns of the surface sediments with hydrographical measurements shows that the L. inflata Dissolution Index (LDX) might be an adequate proxy to reconstruct paleo-water mass conditions in an area which is highly saturated with respect to calcium carbonate.

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