从混杂同位素测量和模式分析看太平洋西北部36000年来的古气候变化

IF 3.2 2区 地球科学 Q2 GEOSCIENCES, MULTIDISCIPLINARY Paleoceanography and Paleoclimatology Pub Date : 2023-01-13 DOI:10.1029/2021PA004266
R. Lopez‐Maldonado, J. Bateman, A. Ellis, N. Bader, P. Ramirez, Alexandrea Arnold, Osinachi Ajoku, Hung‐I Lee, G. Jesmok, D. Upadhyay, B. Mitsunaga, B. Elliott, C. Tabor, A. Tripati
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引用次数: 0

摘要

自上一次冰川期以来,北美经历了地区气候的急剧变化,包括冰盖的崩塌和降水量的变化。我们使用聚集同位素(∆47)测温法和来自帕卢斯黄土的冰川和去冰川成土碳酸盐的碳酸盐δ18O测量,为太平洋西北部的水文气候变化提供约束。我们还利用气候模型模拟的分析来帮助我们进一步提供对太平洋西北部水文气候变化的约束。最冷的结块同位素土壤温度T(∆${increment}$47)(13.5±1.9°C至17.1±1.7°C)发生在约34000–23000年前。使用土壤-空气温度传递函数,我们估计最后一次冰川最高点(LGM)的年平均气温为~−5.5°C,最温暖的月平均气温(即夏季平均气温)为~4.4°C。这些数据表明,从LGM到10.9°C的现代温度,区域变暖16.4±2.6°C,约为全球平均温度的2.5–3倍。代理数据提供了LGM冰盖引起的较冷反气旋和东太平洋较暖气旋边界的局部约束。气候模型分析表明,温度异常的区域放大是由于研究区域靠近劳伦蒂德冰盖边缘,冰川反气旋对该区域的影响,以及当地的反照率。同位素模型实验表明,水δ18O的变化在很大程度上反映了大气环流的变化和上游降雨的增强,这在LGM期间给该地区带来了更多的贫化蒸汽。
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Paleoclimate Changes in the Pacific Northwest Over the Past 36,000 Years From Clumped Isotope Measurements and Model Analysis
Since the last glacial period, North America has experienced dramatic changes in regional climate, including the collapse of ice sheets and changes in precipitation. We use clumped isotope (∆47) thermometry and carbonate δ18O measurements of glacial and deglacial pedogenic carbonates from the Palouse Loess to provide constraints on hydroclimate changes in the Pacific Northwest. We also employ analysis of climate model simulations to help us further provide constraints on the hydroclimate changes in the Pacific Northwest. The coldest clumped isotope soil temperatures T( ∆ ${\increment}$47) (13.5 ± 1.9°C to 17.1 ± 1.7°C) occurred ∼34,000–23,000 years ago. Using a soil‐to‐air temperature transfer function, we estimate Last Glacial Maximum (LGM) mean annual air temperatures of ∼−5.5°C and warmest average monthly temperatures (i.e., mean summer air temperatures) of ∼4.4°C. These data indicate a regional warming of 16.4 ± 2.6°C from the LGM to the modern temperatures of 10.9°C, which was about 2.5–3 times the global average. Proxy data provide locality constraints on the boundary of the cooler anticyclone induced by LGM ice sheets, and the warmer cyclone in the Eastern Pacific Ocean. Climate model analysis suggests regional amplification of temperature anomalies is due to the proximal location of the study area to the Laurentide Ice Sheet margin and the impact of the glacial anticyclone on the region, as well as local albedo. Isotope‐enabled model experiments indicate variations in water δ18O largely reflect atmospheric circulation changes and enhanced rainout upstream that brings more depleted vapor to the region during the LGM.
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来源期刊
Paleoceanography and Paleoclimatology
Paleoceanography and Paleoclimatology Earth and Planetary Sciences-Atmospheric Science
CiteScore
6.20
自引率
11.40%
发文量
107
期刊介绍: Paleoceanography and Paleoclimatology (PALO) publishes papers dealing with records of past environments, biota and climate. Understanding of the Earth system as it was in the past requires the employment of a wide range of approaches including marine and lacustrine sedimentology and speleothems; ice sheet formation and flow; stable isotope, trace element, and organic geochemistry; paleontology and molecular paleontology; evolutionary processes; mineralization in organisms; understanding tree-ring formation; seismic stratigraphy; physical, chemical, and biological oceanography; geochemical, climate and earth system modeling, and many others. The scope of this journal is regional to global, rather than local, and includes studies of any geologic age (Precambrian to Quaternary, including modern analogs). Within this framework, papers on the following topics are to be included: chronology, stratigraphy (where relevant to correlation of paleoceanographic events), paleoreconstructions, paleoceanographic modeling, paleocirculation (deep, intermediate, and shallow), paleoclimatology (e.g., paleowinds and cryosphere history), global sediment and geochemical cycles, anoxia, sea level changes and effects, relations between biotic evolution and paleoceanography, biotic crises, paleobiology (e.g., ecology of “microfossils” used in paleoceanography), techniques and approaches in paleoceanographic inferences, and modern paleoceanographic analogs, and quantitative and integrative analysis of coupled ocean-atmosphere-biosphere processes. Paleoceanographic and Paleoclimate studies enable us to use the past in order to gain information on possible future climatic and biotic developments: the past is the key to the future, just as much and maybe more than the present is the key to the past.
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