Brad Hansen scite author profile

Oscillations of Pinus (pine) pollen in a 50,000-year sequence from Lake Tulane, Florida, indicate that there were major vegetation shifts during the last glacial cycle. Episodes of abundant Pinus populations indicate a climate that was more wet than intervening phases dominated by Quercus (oak) and Ambrosia-type (ragweed and marsh-elder). The Pinus episodes seem to be temporally correlated with the North Atlantic Heinrich events, which were massive, periodic advances of ice streams from the eastern margin of the Laurentide Ice Sheet. Possible links between the Tulane Pinus and Heinrich events include hemispheric cooling, the influences of Mississippi meltwater on sea-surface temperatures in the Gulf of Mexico, and the effects of North Atlantic thermohaline circulation on currents in the Gulf.

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A 17 000‐year history of Andean climate and vegetation change from Laguna de Chochos, Peru

Bush

Hansen

Rodbell

et al. 2005

J Quaternary Science

115

126

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The manifestation of major climatic events such as the timing of deglaciation and whether, or not, the Younger Dryas affected Andean systems has garnered considerable recent attention. Even the Holocene is rapidly emerging as a time of considerable interest in Neotropical palaeoclimatology and palaeoecology. The Holocene of the Neotropics is now revealed as a time of some temperature change with precipitation:evaporation ratios fluctuating markedly. Major changes in lake level, ice-accumulation, and vegetation are indicative of changes both in precipitation and temperature regimes. Although global-scale forcing mechanisms may underlie some of these changes, e.g. the precessional rhythm, other variability appears to be localised. In a record from near the upper forest limit of the eastern Peruvian Andes, pollen, charcoal, and sedimentary data suggest that the deglaciational period from ca. 17 000 to ca. 11 500 cal. yr BP was a period of rapid climatic oscillations, set against an overall trend of warming. A warm-dry event is evident between ca. 9500 and ca. 7300 cal. yr BP, and comparisons with other regional archives suggest that it was regional in scale. A ca. 1500-yr periodicity in the magnetic susceptibility data is evident between 12 000 and 6000 cal. yr BP, reaching a peak intensity during the dry event. A weaker oscillation with a 500-600-yr periodicity is present throughout much of the Holocene. The uppermost sample of the pollen analysis reveals deforestation as modern human land use simplified the landscape.

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Late-glacial and Holocene vegetational history from two sites in the western Cordillera of southwestern Ecuador

Hansen

Rodbell

Seltzer

et al. 2003

Palaeogeography, Palaeoclimatology, Palaeoecology

127

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Brad Hansen

Vegetation and environment in Eastern North America during the Last Glacial Maximum

Evidence for warm wet Heinrich events in Florida

A 50,000-Year Record of Climate Oscillations from Florida and Its Temporal Correlation with the Heinrich Events

A 17 000‐year history of Andean climate and vegetation change from Laguna de Chochos, Peru

Late-glacial and Holocene vegetational history from two sites in the western Cordillera of southwestern Ecuador

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