Vegetation and climate history in the Laptev Sea region (Arctic Siberia) during Late Quaternary inferred from pollen records

AbstractPlant macrofossils from 33 rodent middens sampled at three sites between 2910 and 3150 m elevation in the main canyon of the Río Salado, northern Chile, yield a unique record of vegetation and climate over the past 22,000 cal yr BP. Presence of low-elevation Prepuna taxa throughout the record suggests that mean annual temperature never cooled by more than 5°C and may have been near-modern at 16,270 cal yr BP. Displacements in the lower limits of Andean steppe and Puna taxa indicate that mean annual rainfall was twice modern at 17,520–16,270 cal yr BP. This pluvial event coincides with infilling of paleolake Tauca on the Bolivian Altiplano, increased ENSO activity inferred from a marine core near Lima, abrupt deglaciation in southern Chile, and Heinrich Event 1. Moderate to large increases in precipitation also occurred at 11,770–9550 (Central Atacama Pluvial Event), 7330–6720, 3490–2320 and at 800 cal yr BP. Desiccation occurred at 14,180, 8910–8640, and 4865 cal yr BP. Compared to other midden sites in the region, early Holocene desiccation seems to have happened progressively earlier farther south. Emerging trends from the cumulative midden record in the central Atacama agree at millennial timescales with improved paleolake chronologies for the Bolivian Altiplano, implying common forcing through changes in equatorial Pacific sea-surface temperature gradients.

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Ion Content of polygonal wedge ice on Bolshoi Lyakhov: a source of palaeoenvironmental information

Annals of Glaciology ◽

10.3189/s0260305500016128 ◽

1995 ◽

Vol 21 ◽

pp. 394-398

Author(s):

Oksana S. Savoskul

Keyword(s):

Low Temperature ◽

Temperature Regime ◽

Late Quaternary ◽

Peat Bogs ◽

Laptev Sea ◽

Ion Content ◽

New Siberian Islands ◽

The Holocene ◽

Significant Difference ◽

The Laptev Sea

Bolshoi Lyakhov is one of the group of the New Siberian Islands in the Laptev Sea. The permafrost of the island is of an extremely low temperature regime, polygonal wedge ice being the most specific feature. The geomorphological level considered is a so-called edoma, presumably of late-Quaternary origin: polygonal ice wedges are more than 10 m wide and up to 25 m deep on this level, and about 1 m × 1.5 m on the peat bogs of Holocene age. Sixty-six samples of underground ice were taken on both surfaces. The macro-ion content was analyzed, i.e. Ca, Mg, Na, K, HCO3, Cl, SO4. A significant difference in ion content was found between the older and the younger ice. The late-Quaternary wedge ice is characterized by the predominance of Ca and HCO3, while the Holocene ice contains considerably higher proportions of Na and Cl. This may be attributed to different environmental conditions during wedge-ice growth: more continental in the late Quaternary and more maritime in the Holocene.

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Vegetation and climate history in Sakhalin and Hokkaido: Migration, rise and fall of plants inferred from pollen records

The Quaternary Research (Daiyonki-Kenkyu) ◽

10.4116/jaqua.49.241 ◽

2010 ◽

Vol 49 (5) ◽

pp. 241-253 ◽

Cited By ~ 1

Author(s):

Yaeko Igarashi

Keyword(s):

Climate History ◽

Vegetation And Climate ◽

Pollen Records

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Harmonized chronologies of a global late Quaternary pollen dataset (LegacyAge 1.0)

10.5194/essd-2021-212 ◽

2021 ◽

Author(s):

Chenzhi Li ◽

Alexander K. Postl ◽

Thomas Böhmer ◽

Xianyong Cao ◽

Andrew M. Dolman ◽

...

Keyword(s):

Optimal Parameter ◽

Late Quaternary ◽

Control Points ◽

Radiocarbon Dates ◽

Common Control ◽

Preliminary Model ◽

Palynological Records ◽

Vegetation And Climate ◽

Northern And Southern Hemispheres ◽

Pollen Records

Abstract. Although numerous pollen records are available worldwide in various databases, their use for synthesis works is limited as the chronologies are, as yet, not harmonized globally, and temporal uncertainties are unknown. We present a chronology framework named LegacyAge 1.0 that includes harmonized chronologies of 2831 palynological records (out of 3471 available records), downloaded from the Neotoma Paleoecology Database (last access: April 2021) and 324 additional Asian records. All chronologies use the Bayesian framework implemented in Bacon version 2.5.3. Optimal parameter settings of priors (accumulation.shape, memory.strength, memory.mean, accumulation.rate, thickness) were identified based on previous experiences or iteratively after preliminary model inspection. The most common control points for the chronologies are radiocarbon dates (86.1 %), calibrated by the latest calibration curves (IntCal20 and SHcal20 for the terrestrial radiocarbon dates in the northern and southern hemispheres; Marine20 for marine materials). The original literature was consulted when dealing with obvious outliers and inconsistencies. Several major challenges when setting up the chronologies included the waterline issue (18.8 % of records), reservoir effect (4.9 %), and sediment deposition discontinuity (4.4 %). Finally, we numerically compare the LegacyAge 1.0 chronologies to the original ones and show that the chronologies of 95.4 % of records could be improved according to our assessment. Our chronology framework and revised chronologies provide the opportunity to make use of the ages and age uncertainties in synthesis studies of, for example, pollen-based vegetation and climate change. The LegacyAge 1.0 dataset and R code used are open-access and available at PANGAEA (https://doi.pangaea.de/10.1594/PANGAEA.933132) and Github (https://github.com/LongtermEcology/LegacyAge-1.0), respectively.

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