Midge-inferred Holocene climate history of two subalpine lakes in southern British Columbia, Canada

The Holocene ◽  
2004 ◽  
Vol 14 (2) ◽  
pp. 258-271 ◽  
Author(s):  
Sandra M. Rosenberg ◽  
Ian R. Walker ◽  
Rolf W. Mathewes ◽  
Douglas J. Hallett
Keyword(s):  
British Columbia ◽  
Holocene Climate ◽  
Climate History ◽  
Subalpine Lakes ◽  
History Of

Olympia Interstadial: vegetation, landscape history, and paleoclimatic implications of a mid-Wisconsinan (MIS3) nonglacial sequence from southwest British Columbia, Canada

2016 ◽  
Vol 53 (3) ◽  
pp. 304-320 ◽  
Author(s):  
Richard J. Hebda ◽  
Olav B. Lian ◽  
Stephen R. Hicock
Keyword(s):  
British Columbia ◽  
Tsuga Heterophylla ◽  
Silty Sand ◽  
Western North America ◽  
Climate History ◽  
Southern Limit ◽  
Vegetation Landscape ◽  
History Of ◽  
Cordilleran Ice Sheet ◽  
Vegetation And Climate

Lithostratigraphic, 14C, and palynologic analyses of peat and silty peat at three nearby sites reveal a 25 000 year vegetation and climate history of the Olympia Interstade for the Fraser Lowland, British Columbia, 300 km within the southern limit of the Cordilleran Ice Sheet. At Lynn Valley, Polypodiaceae fern spores and nonarboreal pollen dominate >47.8 14C ka BP, reflecting unstable and cold landscapes. A Pinus–Poaceae zone follows, representing pine parkland and cool dry climate. Fluctuating values of Picea and Tsuga mertensiana pollen at Lynn and Seymour valleys and Port Moody characterize most of the Olympia Interstade during local peat deposition in Cyperaceae and Myrica wetlands until about 26.7 14C ka BP under a cool and moist climate. A brief Pinus – Tsuga heterophylla zone at Lynn Valley 44–39 14C ka BP suggests a climatic optimum. A Poaceae–Artemisia assemblage and deposition of silty sand after 26.7 14C ka BP reflect cooling and drying after which a unique Lycopodium assemblage at Lynn Valley suggests cold arid climate and Fraser Glaciation onset. These sequences have no progression to vegetation typical of warm, interglacial, Holocene-like climates, indicating an interstadial not an interglacial interval. Correlation with vegetation changes elsewhere in western North America suggests that the Olympia Interstade started about ∼52 14C ka BP (∼57 cal ka BP) and ended about 26 14C ka BP (30 cal ka BP).

Stability of Holocene Climate Regimes in the Yellowstone Region

1995 ◽  
Vol 43 (3) ◽  
pp. 433-436 ◽  
Author(s):  
Cathy Whitlock ◽  
Patrick J. Bartlein ◽  
Kelli J. Van Norman
Keyword(s):  
Early Holocene ◽  
Summer Drought ◽  
Pollen Record ◽  
Holocene Climate ◽  
Pressure System ◽  
Climate History ◽  
The Holocene ◽  
Mountainous Regions ◽  
History Of ◽  
Wet Climate

AbstractA 12,500-yr pollen record from Loon Lake, Wyoming provides information on the climate history of the southwestern margin of Yellowstone National Park. The environmental reconstruction was used to evaluate hypotheses that address spatial variations in the Holocene climate of mountainous regions. Loon Lake lies within the summer-dry/winter-wet climate regime. An increase in xerophytic pollen taxa suggests drier-than-present conditions between ca. 9500 and 5500 14C yr B.P. This response is consistent with the hypothesis that increased summer radiation and the expansion of the east Pacific subtropical high-pressure system in the early Holocene intensified summer drought at locations within the summer-dry/winter-wet regime. This climate history contrasts with that of nearby sites in the summer-wet/winter-dry region, which were under the influence of stronger summer monsoonal circulation in the early Holocene. The Loon Lake record implies that the location of contrasting climate regimes did not change in the Yellowstone region during the Holocene. The amplitude of the regimes, however, was determined by the intensity of circulation features and these varied with temporal changes in the seasonal distribution of solar radiation.

Holocene climate history of the Western Baikal region: Carbonate sedimentary record of Kholbo-Nur Lake

2010 ◽  
Vol 431 (2) ◽  
pp. 490-496 ◽  
Author(s):  
E. V. Sklyarov ◽  
E. P. Solotchina ◽  
E. G. Vologina ◽  
O. P. Izokh ◽  
N. V. Kulagina ◽  
...  
Keyword(s):  
Baikal Region ◽  
Sedimentary Record ◽  
Holocene Climate ◽  
Climate History ◽  
History Of

Holocene climate history of Geographical Society Ø, East Greenland — evidence from lake sediments

2000 ◽  
Vol 160 (1-2) ◽  
pp. 45-68 ◽  
Author(s):  
Bernd Wagner ◽  
Martin Melles ◽  
Jürgen Hahne ◽  
Frank Niessen ◽  
Hans-W. Hubberten
Keyword(s):  
Lake Sediments ◽  
Holocene Climate ◽  
Climate History ◽  
East Greenland ◽  
Geographical Society ◽  
History Of

scholarly journals Middle Holocene Climate Oscillations Recorded in the Western Dvina Lakeland

Water ◽  
2021 ◽  
Vol 13 (11) ◽  
pp. 1611
Author(s):  
Agnieszka Mroczkowska ◽  
Dominik Pawłowski ◽  
Emilie Gauthier ◽  
Andrey Mazurkevich ◽  
Tomi P. Luoto ◽  
...  
Keyword(s):  
River System ◽  
Summer Temperature ◽  
Human Occupation ◽  
Holocene Climate ◽  
Climate History ◽  
Remarkable Feature ◽  
Climate Oscillations ◽  
Climate Fluctuations ◽  
The North ◽  
The North Atlantic Oscillation

Although extensive archeological research works have been conducted in the Serteya region in recent years, the Holocene climate history in the Western Dvina Lakeland in Western Russia is still poorly understood. The Neolithic human occupation of the Serteyka lake–river system responded to climate oscillations, resulting in the development of a pile-dwelling settlement between 5.9 and 4.2 ka cal BP. In this paper, we present the quantitative paleoclimatic reconstructions of the Northgrippian stage (8.2–4.2 ka cal BP) from the Great Serteya Palaeolake Basin. The reconstructions were created based on a multiproxy (Chironomidae, pollen and Cladocera) approach. The mean July air temperature remained at 17–20 °C, which is similar to the present temperature in the Smolensk Upland. The summer temperature revealed only weak oscillations during 5.9 and 4.2 ka cal BP. A more remarkable feature during those events was an increase in continentality, manifested by a lower winter temperature and lower annual precipitation. During the third, intermediate oscillation in 5.0–4.7 ka cal BP, a rise in summer temperature and stronger shifts in continental air masses were recorded. It is still unclear if the above-described climate fluctuations are linked to the North Atlantic Oscillation and can be interpreted as an indication of Bond events because only a few high-resolution paleoclimatic reconstructions from the region have been presented and these reconstructions do not demonstrate explicit oscillations in the period of 5.9 and 4.2 ka cal BP.

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