John F. Bolzan scite author profile

An ice core record from the Guliya ice cap on the Qinghai-Tibetan Plateau provides evidence of regional climatic conditions over the last glacial cycle. 36CI data suggest that the deepest 20 meters of the core may be more than 500,000 years old. The 6180 change across Termination I is -5.4 per mil, similar to that in the Huascarhn (Peru) and polar ice cores. Three Guliya interstadials (Stages 3,5a, and 5c) are marked by increases in 6180 values similar to that of the Holocene and Eemian (-124,000 years ago). The similarity of this pattern to that of CH, records from polar ice cores indicates that global CH, levels and the tropical hydrological cycle are linked. The Late Glacial Stage record contains numerous 200-year oscillations in S180 values and in dust, NH,+, and NO,-levels.

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Late Glacial Stage and Holocene Tropical Ice Core Records from Huascarán, Peru

Thompson

Mosley‐Thompson

Davis

et al. 1995

Science

841

488

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Two ice cores from the col of Huascarán in the north-central Andes of Peru contain a paleoclimatic history extending well into the Wisconsinan (Würm) Glacial Stage and include evidence of the Younger Dryas cool phase. Glacial stage conditions at high elevations in the tropics appear to have been as much as 8 degrees to 12 degrees C cooler than today, the atmosphere contained about 200 times as much dust, and the Amazon Basin forest cover may have been much less extensive. Differences in both the oxygen isotope ratio zeta(18)O (8 per mil) and the deuterium excess (4.5 per mil) from the Late Glacial Stage to the Holocene are comparable with polar ice core records. These data imply that the tropical Atlantic was possibly 5 degrees to 6 degrees C cooler during the Late Glacial Stage, that the climate was warmest from 8400 to 5200 years before present, and that it cooled gradually, culminating with the Little Ice Age (200 to 500 years before present). A strong warming has dominated the last two centuries.

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A 25,000-Year Tropical Climate History from Bolivian Ice Cores

Davis²,

et al. 1998

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Ice cores that were recovered from the summit of Sajama mountain in Bolivia provide carbon-14-dated tropical records and extend to the Late Glacial Stage (LGS). Oxygen isotopic ratios of the ice decreased 5.4 per mil between the early Holocene and the Last Glacial Maximum, which is consistent with values from other ice cores. The abrupt onset and termination of a Younger Dryas-type event suggest atmospheric processes as the probable drivers. Regional accumulation increased during the LGS, during deglaciation, and over the past 3000 years, which is concurrent with higher water levels in regional paleolakes. Unlike polar cores, Sajama glacial ice contains eight times less dust than the Holocene ice, which reflects wetter conditions and extensive snow cover.

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The Greenland Ice Sheet Project 2 depth‐age scale: Methods and results

Meese¹,

Gow²,

Alley³

et al. 1997

J. Geophys. Res.

463

323

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Abstract. The Greenland Ice Sheet Project 2 (GISP2) depth-age scale is presented based on a multiparameter continuous count approach, to a depth of 2800 m, using a systematic combination of parameters that have never been used to this extent before. The ice at 2800 m is dated at 110,000 years B.P. with an estimated error ranging from 1 to 10% in the top 2500 m of the core'and averaging 20% between 2500 and 2800 m. Parameters used to date the core include visual stratigraphy, oxygen isotopic ratios of the ice, electrical conductivity measurements, laser-light scattering from dust, volcanic signals, and major ion chemistry. GISP2 ages for major climatic events agree with independent ages based on varve chronologies, calibrated radiocarbon dates, and other techniques within the combined uncertainties. Good agreement also is obtained with Greenland Ice Core Project ice core dates and with the SPECMAP marine timescale after correlation through the •80 of 02. Although the core is deformed below 2800 m and the continuity of the record is unclear, we attempted to date this section of the core on the basis of the laserlight scattering of dust in the ice.

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Holocene—Late Pleistocene Climatic Ice Core Records from Qinghai-Tibetan Plateau

Thompson

Mosley‐Thompson

Davis

et al. 1989

Science

449

246

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Three ice cores to bedrock from the Dunde ice cap on the north-central Qinghai-Tibetan Plateau of China provide a detailed record of Holocene and Wisconsin-Würm late glacial stage (LGS) climate changes in the subtropics. The records reveal that LGS conditions were apparently colder, wetter, and dustier than Holocene conditions. The LGS part of the cores is characterized by more negative delta(18)O ratios, increased dust content, decreased soluble aerosol concentrations, and reduced ice crystal sizes than the Holocene part. These changes occurred rapidly approximately 10,000 years ago. In addition, the last 60 years were apparently one of the warmest periods in the entire record, equalling levels of the Holocene maximum between 6000 and 8000 years ago.

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John F. Bolzan

Tropical Climate Instability: The Last Glacial Cycle from a Qinghai-Tibetan Ice Core

Late Glacial Stage and Holocene Tropical Ice Core Records from Huascarán, Peru

A 25,000-Year Tropical Climate History from Bolivian Ice Cores

The Greenland Ice Sheet Project 2 depth‐age scale: Methods and results

Holocene—Late Pleistocene Climatic Ice Core Records from Qinghai-Tibetan Plateau

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