Workshop on Assessment of Mesozoic Calcareous Nannoplankton Diversity and Evolution, Rutgers Univ, New Brunswick, NJ, DEC, 2003International audienceWe have conducted a preliminary analysis of the history of size change of coccoliths through the Jurassic and Cretaceous. This is essentially based on a compilation of literature data. The results demonstrate that the average size of coccoliths has increased from early Jurassic through the Santonian, stabilized until the Campanian and decreased during the Maastrichtian. Remarkably, this size history parallels the diversity (species richness) history of the Mesozoic Coccolithophorids, and constitutes an illustration of Cope's rule. The amplitude of change of the average size through time appears to have remained small, which may result from competition by other, larger, contemporaneous calcareous nannoplanktonic groups
The first size reduction (FSR) in the Reticulofenestra-Gephyrocapsa-Emiliania (RGE) lineage (order Isochrysidales), which occurred in the early Oligocene (~32 Ma), is of great significance for understanding the Lilliput effect that has affected coccolithophore communities from the late Eocene to this day. We conducted a morphologic analysis on the coccoliths of Reticulofenestra species that lived during the late middle Eocene to early Oligocene (~40–31 Ma), using marine sediments from the South Atlantic Ocean. Our data show increasing size and decreasing abundance of the large species during the late Eocene, leading to their disappearance at the FSR, and a concurrent decrease in the size variability of the small- to medium-sized coccoliths whose central opening diameter had become very reduced. Although the cosmopolitan late Paleogene through Neogene size decrease in coccolithophores has been linked to the concomitant long-term decline in global pCO2, we suggest here that the FSR was the result of environmental destabilization caused by the expansion of eutrophic environments following the late Eocene establishment of overturning circulation associated with ice buildup on Antarctica. This study also leads us to propose a hypothetical model that links coccolith morphology of species of the RGE lineage and trophic resources in the upper ocean: the small- to medium-sized, r-selected coccolithophores with smaller coccolith central openings live in nutrient-rich waters where they rely mostly on photosynthesis and little on mixotrophy, whereas the larger, K-selected species with larger coccolith central openings live in oligotrophic waters where they are more dependent on mixotrophy.
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