太平洋年代际振荡和大西洋年代际振荡相互作用诱发的南极洲和南大洋表面气温异常现象

IF 4 3区 地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY Geoscience Letters Pub Date : 2024-08-22 DOI:10.1186/s40562-024-00352-8
Lejiang Yu, Shiyuan Zhong, Cuijuan Sui, Bo Sun
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引用次数: 0

摘要

以往的研究探讨了年代际太平洋涛动(IPO)和大西洋多年涛动(AMO)对南极表面气温(SAT)变化的影响。然而,我们在理解南极 SAT 对 IPO 和 AMO 的四个阶段组合的响应方面仍存在明显差距。在本研究中,我们根据 IPO 和 AMO 的不同阶段,揭示了南极 SAT 异常在四个不同子时期的独特模式。值得注意的是,南极 SAT 异常表现出相当强的季节性,最明显(最微弱)的异常出现在澳大利亚的冬季(夏季),这一现象在所有四个子时期都是一致的。这些不同的海温异常模式触发了不同的对流降雨模式,从而引发了传播到南大洋的不同波系。这些不同的波系反过来又引起海平面气压和海面风场的变化,主要通过与水平热平流和向下长波辐射有关的机制导致不同的南极 SAT 异常。了解南极表面气温(SAT)的变化对于揭示极地气候系统的复杂动态及其对全球气候模式的广泛影响至关重要。较少研究强调 IPO 和 AMO 的四个阶段组合对南极 SAT 异常的影响。在本研究中,我们根据 IPO 和 AMO 的不同阶段,发现了南极 SAT 异常在四个不同时期的不同模式。我们注意到,南极 SAT 异常表现出相当强的季节性,最明显(最微弱)的异常出现在澳大利亚的冬季(夏季),这在所有四个时期都是一致的。不同时期的海温异常模式会引发不同的波系,传播到南大洋,引起海平面气压、表面风场和南极 SAT 异常的变化。这些发现对预测南极季节性 SAT 在年代际尺度上的变化具有重大意义。
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Surface air temperature anomalies over Antarctica and the Southern ocean induced by interactions between the interdecadal Pacific oscillation and Atlantic multidecadal oscillation
Previous research has explored the impact of the Interdecadal Pacific Oscillation (IPO) and Atlantic Multidecadal Oscillation (AMO) on Antarctic surface air temperature (SAT) variability. However, a notable gap remains in our comprehension concerning the response of Antarctic SAT to the four phase combinations of IPO and AMO. In this study, we unveil unique patterns of Antarctic SAT anomalies during four distinct sub-periods based on the phases of IPO and AMO. Notably, Antarctic SAT anomalies exhibit a considerable seasonality, with the most pronounced (weakest) anomalies occurring during the austral winter (summer), a phenomenon consistent across all four sub-periods. These different anomalous SST patterns trigger varying convective rainfall patterns, consequently initiating distinct wavetrains that propagate into the Southern Ocean. These different wavetrains, in turn, induce variations in sea level pressure and surface wind fields, resulting in different Antarctic SAT anomalies primarily through mechanisms related to horizontal thermal advection and downward longwave radiation. Understanding the variability in Antarctic surface air temperature (SAT) is crucial for unraveling the complex dynamics of the polar climate system and its broader implications for global climate patterns. Fewer studies highlighted the impacts of the four combinations of the phases of IPO and AMO on Antarctic SAT anomalies. In this study, we uncover distinct patterns of Antarctic SAT anomalies during four different periods based on the phases of IPO and AMO. We note that Antarctic SAT anomalies exhibit a considerable seasonality, with the most pronounced (weakest) anomalies occurring during the austral winter (summer), consistently across all four periods. The anomalous SST patterns during different periods trigger distinct wavetrains that propagate into the Southern Ocean, inducing variations in sea level pressure, surface wind fields, and Antarctic SAT anomalies. These findings bear substantial implications for the prediction of Antarctic seasonal SAT variations on interdecadal timescales.
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来源期刊
Geoscience Letters
Geoscience Letters Earth and Planetary Sciences-General Earth and Planetary Sciences
CiteScore
4.90
自引率
2.50%
发文量
42
审稿时长
25 weeks
期刊介绍: Geoscience Letters is the official journal of the Asia Oceania Geosciences Society, and a fully open access journal published under the SpringerOpen brand. The journal publishes original, innovative and timely research letter articles and concise reviews on studies of the Earth and its environment, the planetary and space sciences. Contributions reflect the eight scientific sections of the AOGS: Atmospheric Sciences, Biogeosciences, Hydrological Sciences, Interdisciplinary Geosciences, Ocean Sciences, Planetary Sciences, Solar and Terrestrial Sciences, and Solid Earth Sciences. Geoscience Letters focuses on cutting-edge fundamental and applied research in the broad field of the geosciences, including the applications of geoscience research to societal problems. This journal is Open Access, providing rapid electronic publication of high-quality, peer-reviewed scientific contributions.
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