Historical drivers and future streamflow variations of the Kura River in the Western Transcaucasia region of Georgia: Analysis of tree-ring chronologies from 1720 to 2021 CE

IF 2.6 2区 地球科学 Q2 GEOGRAPHY, PHYSICAL Palaeogeography, Palaeoclimatology, Palaeoecology Pub Date : 2024-10-01 DOI:10.1016/j.palaeo.2024.112529
Zulfiyor Bakhtiyorov , Feng Chen , Youping Chen , Shijie Wang , Heli Zhang , Mao Hu , Weipeng Yue , Sharifjon Habibulloev , Giorgi Kavtaradze , Marina Gurskaya , Leonid Agafonov , Oimahmad Rahmonov , Cătălin-Constantin Roibu , Unal Akkemik , Nesibe Köse , Charles Norman
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Abstract

In this paper, we conduct a dendrochronological study in the Western Transcaucasia region of Georgia to elucidate the relationship between tree growth and climatic variables (temperature, precipitation, and streamflow) in order to reconstruct the paleohydrology of the Kura River and to assess the impacts of climate change on water resources. We analyzed tree-ring chronologies from 1720 to 2021 CE, and analysis of July–August streamflow revealed five wet phases (1739–1753, 1764–1807, 1811–1831, 1962–1988 and 2000–2019 CE ranging in duration from 11 to 49 years) when streamflow exceeded the long-term mean, and four dry phases (1720–1738, 1832–1881, 1936–1961 and 1989–1999 CE) when streamflow was below average. The most extreme wet and dry years were 1771 and 1851 CE, respectively. Spatial correlation patterns of Kura River reconstructed runoff against sea level pressure (SLP) are negative in the Arctic and positive in mid- to high-latitude Eurasia. The Arctic Oscillation (AO)/North Atlantic Oscillation (NAO), and solar activity are important drivers of hydroclimatic conditions in the Mediterranean region, by modifying the location of high-pressure areas and large-scale atmospheric circulations. Comparison of our Kura streamflow reconstructions and data in the Old World Drought Atlas (OWDA) reveals a moderately positive correlation (0.40) throughout the study period, being strongest over the Southern Caucasus and Eastern Turkey. This validates the drought signals and emphasizes the importance of using multi-proxy approaches, supported by spatially resolved data, to enhance understanding of regional hydroclimatic variability and drought patterns. We additionally conducted future streamflow scenarios, most notably under the high-emission SSP585 scenario, in line with global trends in CMIP6 projections. Our streamflow results indicate a trend towards increasing drought severity, which highlights the need for urgent adaptation and mitigation strategies in water resource management in this region. Ultimately, this study provides valuable information on historical hydroclimatic conditions in the Kura River Basin, which help to develop strategies to mitigate the hydrologic impacts of climate change in the Western Transcaucasia Caucasus region. We further highlight the importance of regional and global teleconnections for understanding regional hydrological dynamics.
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格鲁吉亚西外高加索地区库拉河的历史驱动因素和未来的流量变化:西元 1720 年至 2021 年树环年表分析
在本文中,我们在格鲁吉亚外高加索西部地区开展了一项树木年代学研究,以阐明树木生长与气候变量(温度、降水和溪流)之间的关系,从而重建库拉河的古水文,并评估气候变化对水资源的影响。我们对西元 1720 年至 2021 年的树环年表进行了分析,并对 7-8 月的溪流进行了分析,结果显示有五个湿润阶段(1739-1753 年、1764-1807 年、1811-1831 年、1962-1988 年和 2000-2019 年,持续时间从 11 年到 49 年不等)的溪流超过了长期平均值,而有四个干旱阶段(1720-1738 年、1832-1881 年、1936-1961 年和 1989-1999 年)的溪流低于平均值。最极端的潮湿和干旱年份分别是西元 1771 年和 1851 年。库拉河重建径流与海平面压力(SLP)的空间相关模式在北极地区为负相关,在欧亚大陆中高纬度地区为正相关。北极涛动(AO)/北大西洋涛动(NAO)和太阳活动通过改变高压区和大尺度大气环流的位置,是地中海地区水文气候条件的重要驱动因素。将我们的库拉溪流重建结果与旧世界干旱图集(OWDA)中的数据进行比较后发现,在整个研究期间两者之间存在中度正相关(0.40),其中南高加索地区和土耳其东部的相关性最强。这验证了干旱信号的有效性,并强调了在空间分辨率数据的支持下使用多代理方法来加深对区域水文气候变异性和干旱模式的理解的重要性。此外,我们还根据 CMIP6 预测中的全球趋势,对未来的流量情景进行了预测,尤其是高排放 SSP585 情景下的流量情景。我们的水流结果表明,干旱的严重程度呈上升趋势,这凸显了在该地区水资源管理中采取紧急适应和缓解战略的必要性。最终,这项研究提供了库拉河流域历史水文气候条件的宝贵信息,有助于制定战略,减轻气候变化对西外高加索高加索地区的水文影响。我们进一步强调了区域和全球远程联系对了解区域水文动态的重要性。
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来源期刊
CiteScore
5.90
自引率
10.00%
发文量
398
审稿时长
3.8 months
期刊介绍: Palaeogeography, Palaeoclimatology, Palaeoecology is an international medium for the publication of high quality and multidisciplinary, original studies and comprehensive reviews in the field of palaeo-environmental geology. The journal aims at bringing together data with global implications from research in the many different disciplines involved in palaeo-environmental investigations. By cutting across the boundaries of established sciences, it provides an interdisciplinary forum where issues of general interest can be discussed.
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