Tree-ring stable carbon isotope-based June–September maximum temperature reconstruction since AD 1788, north-west Thailand

Paramate Payomrat, Yu Liu, N. Pumijumnong, Qiang Li, Huiming Song
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引用次数: 7

Abstract

Abstract The first study of tree-ring stable carbon isotopes in Thailand has demonstrated that stable carbon isotope in northwestern Thailand represents a promising proxy for the temperature reconstruction of core-monsoon periods. A tree-ring δ13C chronology was constructed based on four cores covering the period of 1788–2013. After removing the long-term decreasing trend reflecting atmospheric CO2 concentrations, the ∆13C chronology was able to capture both temperature and hydro-climate signals. ∆13C chronology showed particularly strong and significant negative correlation (r = –0.62, p < 0.0001) with June–September maximum temperature (CRU TS 3.24). The maximum temperature was reconstructed, which explained 37.8% of the variance in the instrumental maximum temperatures over the period of 1901–2013. The maximum temperature reconstruction revealed that four cooler and three warmer periods, as well as a slightly increasing temperature trend, occurred during the late seventeenth to mid-eighteenth centuries, which were followed by severe temperature fluctuations during the twentieth century century. While the sea surface temperature anomaly in the Indian Ocean might not affect the maximum temperature, its unstable relationship with the El Niño-Southern Oscillation (ENSO) was detected. In addition, a close relationship was observed between the maximum temperature and ENSO during the negative phase of the Pacific Decadal Oscillation (PDO), but this relationship was lost during the positive phase of the PDO.
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基于树木年轮稳定碳同位素的泰国西北部自公元1788年以来6 - 9月最高温度重建
泰国树木年轮稳定碳同位素的首次研究表明,泰国西北部的稳定碳同位素是一个有希望的代表核心季风期温度重建的指标。基于4个岩心,构建了1788—2013年的树轮δ13C年代学。在去除反映大气CO2浓度的长期下降趋势后,∆13C年表能够同时捕获温度和水文气候信号。∆13C年代学与6 - 9月最高气温(CRU TS 3.24)表现出特别强且显著的负相关(r = -0.62, p < 0.0001)。重建的最高气温解释了1901-2013年期间仪器最高气温变化的37.8%。最高温度重建显示,17世纪末至18世纪中期出现了4个较冷和3个较暖时期,气温略有上升趋势,随后在20世纪出现了剧烈的温度波动。虽然印度洋海温异常可能对最高温度没有影响,但其与El Niño-Southern涛动(ENSO)的关系不稳定。此外,在太平洋年代际涛动(PDO)负相期间,最高气温与ENSO之间存在密切关系,但在PDO正相期间,这种关系消失。
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