EVENTS
Seminars
石笋同位素与气候变化的轨道理论
浏览次数:
speaker: 程海
place: 物理楼北547
time: 2019年10月30日,周三,15:00—16:00

摘要:

Oxygen isotope measurements of marineforaminiferalfossils during 1950’s-1970’s provided continuous records of glacial-interglacial cycles. These records laid the cornerstone of theMilankovitch’sastronomical theory of climate and forever changed our view of our planetary climate system. However, because the focus was essentially on the ice age cycle, low-latitude monsoonal climates was excluded. In the last two decades or so, another revolution in paleoclimatology is unfolding. Significant advances in understanding the climatic controls on oxygen isotope in atmosphere and cave environment together with landmark developments in high-precision radiometric dating techniques have propelled the cave research to the forefront of paleoclimatology. Of particular interest are new cave records from low-middle latitudes, that show another aspect of orbital climate variations, thus calling for a more comprehensive orbital theory. This presentation will also touch on the ‘100kaproblem’—one of the most vexing issues in the orbital theory that was formulated from oxygen isotope records of deep-sea cores nearly a half-century ago.