Global climatic changes since the last glacial maximum: evidence from paleolimnology and paleoclimate modeling
- ISSN: 09212728
- DOI: 10.1007/BF00196775
Abstract
Recognition that Earth/Sun orbital changes are the basic cause for Quaternary climatic variations provides a context for explaining global environmental changes, many of which are preserved in the stratigraphic and geomorphic record of lakes. Paleoclimatic numerical models suggest the mechanisms. In subtropical latitudes such as North Africa the enhanced summer insolation culminating about 10 000 years ago resulted in the increased monsoonal rains that explain the widespread expansion of lakes in now-desert basins. But in the American Southwest lake expansion dates to 18 000-15 000 years ago, when storm tracks were displaced to the south by the ice sheets - themselves a product of earlier orbital changes. The dynamics in the response of different components of the natural system to climatic change are recorded in the stratigraphy of lake sediments, not only by their pollen content as a manifestation of the regional vegetation but also by their microfossils and chemical composition as reflections of lake development.
Author-supplied keywords
Global climatic changes since the last glacial maximum: evidence from paleolimnology and paleoclimate modeling
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