High planktonic foraminiferal species turnover, enhanced vertical ocean mixing and "coolhouse" climatic conditions across the Aptian-Albian boundary interval

Author(s): Huber, Brian T.; Leckie, R. Mark; MacLeod, Kenneth G.
Author Affiliation(s): Primary:
Smithsonian Institution, National Museum of Natural History, Department of Paleobiology, Washington, DC, United States
Other:
University of Massachusetts, United States
University of Missouri-Columbia, United States
Volume Title: Geological Society of America, 2008 annual meeting
Source: Abstracts with Programs - Geological Society of America, 40(6), p.568; Geological Society of America, 2008 annual meeting, Houston, TX, Oct. 5-9, 2008. Publisher: Geological Society of America (GSA), Boulder, CO, United States. ISSN: 0016-7592 CODEN: GAAPBC
Note: In English
Summary: The planktonic foraminiferal extinction associated with the Aptian-Albian boundary (using the extinction of Ticinella eubejaouaensis) is one of the largest and most significant species turnover events in the evolutionary history of planktonic foraminifera. The large-sized species T. eubejaouaensis and H. trocoidea and several other species bearing well developed and distinctive pore mound wall textures go extinct at this boundary. Although the rate of species turnover across this extinction event is poorly constrained, due in large part to widespread taxonomic inconsistencies and incomplete species lists, a dramatic reduction in species diversity associated with decreases in shell size and shell wall thickness among descendants have been widely reported. Our taxonomic investigation of this turnover event involves study of well preserved Aptian-Albian foraminifera from five deep-sea sites in the subtropics and southern high latitudes. We estimate that at least 70% of species present in the late Aptian did not survive into the Albian, and lowest Albian assemblages consist almost entirely of two, tiny trochospiral species, one of which is described as new. In addition, stable isotopic analyses of pristinely preserved foraminifera from ODP Site 1049 reveal that the turnover event is associated with a negative shift in carbon isotope values but little change in benthic or planktonic foraminiferal oxygen isotopes. Paleotemperature estimates are quite cool, with middle bathyal temperatures ranging from 9 to 11°C and sea-surface temperatures estimated as 13 to 16°C, and the vertical oxygen and carbon isotopic gradients are quite low, ranging between 2 and 4°C. A minimum in 87Sr/86Sr values near the time of the Aptian-Albian boundary suggests increased ocean crust production. Furthermore, a sharp drop in foraminiferal Mg/Ca ratios across this boundary suggests increased hydrothermal activity leading to a secular change in ocean carbonate chemistry, which may have been partially responsible for the dramatic planktonic foraminiferal extinction event.
Year of Publication: 2008
Research Program: ODP Ocean Drilling Program
Key Words: 10 Paleontology, Invertebrate; 12 Stratigraphy, Historical Geology and Paleoecology; Albian; Alkaline earth metals; Aptian; Assemblages; Atlantic Ocean; Biochemistry; Blake Nose; Blake Plateau; C-13/C-12; Calcium; Carbon; Cretaceous; Extinction; Foraminifera; Invertebrata; Isotope ratios; Isotopes; Leg 171B; Lower Albian; Lower Cretaceous; Magnesium; Mesozoic; Metals; Microfossils; Mixing; North Atlantic; O-18/O-16; ODP Site 1049; Ocean Drilling Program; Oxygen; Paleo-oceanography; Paleotemperature; Planktonic taxa; Protista; Sr-87/Sr-86; Stable isotopes; Strontium; Taxonomy; Upper Aptian
Coordinates: N300832 N300832 W0760644 W0760644
Record ID: 2012056939
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