See more from this Division: Topical Sessions
See more from this Session: Global Warming Science: Implications for Geoscientists, Educators, and Policy Makers I
Abstract:
Our EBM model robustly reconstructs seasonal paleotemperature at the LGM with a global average of 3.5°C colder than present. This result, which differs from the CLIMAP result, not only reconciles recent estimates but also agrees well with most published geological data analyses. It also suggests that the temperature anomaly in low and mid-latitudes was relatively stable within a 2-4°C range. However, high latitudes in both the Northern and Southern hemispheres experienced drastic seasonal changes. Although the global annual decrease at the LGM was ~3.5°C and seasonal variation in low and mid- latitudes was ~ 2-4°C, it is of note that seasonal anomaly in high latitudes was sufficient to trigger glacier melting. Our simulation suggests a 5.42°C increase from October to January south of 70°S and a 14.77°C rise from March to July north of 70°N. Thus, we suggest that these temperature conditions 18,000 yr BP provided an environment of climatic instability that facilitated transition from glacial to warm conditions.
See more from this Division: Topical Sessions
See more from this Session: Global Warming Science: Implications for Geoscientists, Educators, and Policy Makers I