Minimal Antarctic sea ice during the Pliocene
Minimal Antarctic sea ice during the Pliocene
Geology (Boulder) (February 2005) 33 (2): 137-140
- algae
- calibration
- Cenozoic
- diatoms
- ice
- Leg 188
- marine environment
- marine sediments
- microfossils
- models
- morphology
- Neogene
- Ocean Drilling Program
- ODP Site 1165
- ODP Site 1166
- paleo-oceanography
- paleoclimatology
- paleoecology
- Plantae
- Pliocene
- productivity
- sea ice
- sediments
- Southern Ocean
- Tertiary
- winter
- Eucampia
- Eucampia antarctica
Antarctic sea-ice concentration at Ocean Drilling Program Sites 1165 (64.380 degrees S, 67.219 degrees E) and 1166 (67.696 degrees S, 74.787 degrees E) was lower than today through much of the Pliocene. The low sea-ice concentration is evident from the proportion of the diatom Eucampia antarctica with intercalary valves (Eucampia index). This sea-ice proxy was calibrated by using modern diatom data obtained from core-top samples and winter sea-ice concentration data (September average through 1979-1987). The modern relationship is expressed as a binomial generalized linear model (modern sea-ice model). This model was applied to the Pliocene Eucampia index within a 95% tolerance interval (obtained from bootstrap estimates). The results indicate that reduced winter sea-ice concentrations persisted through much of the Pliocene and at times were 78% and 61% relatively less concentrated than today at Sites 1165 and 1166, respectively.
