Late Quaternary paleoclimate reconstructions in Bhutanese Himalaya based on glacial modelling

IF 4 1区 地球科学 Q1 GEOGRAPHY, PHYSICAL Global and Planetary Change Pub Date : 2024-07-14 DOI:10.1016/j.gloplacha.2024.104513
Weilin Yang , Wenchao Chu , Yingkui Li , Xu Peng , Gengnian Liu
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Abstract

Paleoclimate change can be quantified by modelling the paleoglacier extents at well-dated moraines. However, previous studies typically use paleo-precipitation changes derived from climate proxies in other locations to constrain paleo-temperature changes. This approach may lead to significant uncertainties due to the lack of a physical basis and spatial-temporal representativeness. To address this issue, we developed a two-step approach to better constrain the paleo-temperature and precipitation changes. The first step is to identify all potential scenarios for temperature-precipitation changes using a coupled glacial-mass-balance and ice-flow model. In the second step, we incorporate a physics-based parameter k, reflecting the sensitivity of precipitation and temperature change, to determine the most probable temperature-precipitation change. We demonstrate our new approach by reconstructing paleoclimate changes of two valley glaciers in the Bhutanese Himalaya (BH). This approach derives a set of temperature reductions of −4.14 °C, −4.08 °C, −0.93 °C, −0.33 ∼ −0.57 °C, and − 0.31 ∼ −0.52 °C, with their corresponding precipitation decreases of 21.4%, 21.0%, 5.2%, 1.7–3.3%, and 1.6–3.0% relative to the present, during the Last Glacial Maximum, Heinrich event 1, Younger Dryas, Neoglacial, and Little Ice Age in BH, respectively. The reconstructed cold and dry climates in BH are consistent with the paleoclimate reconstructions across the Tibetan Plateau, but our approach improved the accuracy of regional paleoclimate reconstructions. These results suggest that temperature change dominates the glacial fluctuations in BH, with additional influences from solar insolation, oceanic and atmospheric circulation changes, and volcanic eruptions.

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基于冰川模型的不丹喜马拉雅第四纪晚期古气候重建
古气候变化可以通过模拟年代久远的冰碛的古冰川范围来量化。然而,以往的研究通常使用其他地点的气候代用指标得出的古降水量变化来制约古温度变化。由于缺乏物理基础和时空代表性,这种方法可能会导致很大的不确定性。为解决这一问题,我们开发了一种分两步走的方法,以更好地制约古温度和降水变化。第一步是利用冰川-质量平衡和冰流耦合模型确定温度-降水变化的所有潜在情景。第二步,我们将反映降水和温度变化敏感性的基于物理学的参数 k 纳入其中,以确定最有可能发生的温度-降水变化。我们通过重建不丹喜马拉雅山脉(BH)两座山谷冰川的古气候变化,展示了我们的新方法。在不丹喜马拉雅山的末次冰川极盛时期、海因里希事件 1、小干 旱时期、新冰川时期和小冰川时期,该方法得出的一组温度降幅分别为-4.14 °C、-4.08 °C、-0.93 °C、-0.33 ∼ -0.57 °C和- 0.31 ∼ -0.52 °C,相应的降水量降幅分别为 21.4%、21.0%、5.2%、1.7-3.3%和 1.6-3.0%。重建的青藏高原寒冷和干旱气候与整个青藏高原的古气候重建一致,但我们的方法提高了区域古气候重建的准确性。这些结果表明,温度变化主导了BH的冰川波动,太阳日照、海洋和大气环流变化以及火山爆发也对其产生了影响。
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来源期刊
Global and Planetary Change
Global and Planetary Change 地学天文-地球科学综合
CiteScore
7.40
自引率
10.30%
发文量
226
审稿时长
63 days
期刊介绍: The objective of the journal Global and Planetary Change is to provide a multi-disciplinary overview of the processes taking place in the Earth System and involved in planetary change over time. The journal focuses on records of the past and current state of the earth system, and future scenarios , and their link to global environmental change. Regional or process-oriented studies are welcome if they discuss global implications. Topics include, but are not limited to, changes in the dynamics and composition of the atmosphere, oceans and cryosphere, as well as climate change, sea level variation, observations/modelling of Earth processes from deep to (near-)surface and their coupling, global ecology, biogeography and the resilience/thresholds in ecosystems. Key criteria for the consideration of manuscripts are (a) the relevance for the global scientific community and/or (b) the wider implications for global scale problems, preferably combined with (c) having a significance beyond a single discipline. A clear focus on key processes associated with planetary scale change is strongly encouraged. Manuscripts can be submitted as either research contributions or as a review article. Every effort should be made towards the presentation of research outcomes in an understandable way for a broad readership.
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