1981-2021 年期间印度陆地和安达曼-尼科巴岛及拉克沙德韦普岛的温度、相对湿度和风速气候趋势

IF 1 4区 工程技术 Q4 INSTRUMENTS & INSTRUMENTATION
MAPAN Pub Date : 2024-03-07 DOI:10.1007/s12647-024-00743-4
Shristy Malik, A. S. Rao, Surendra K. Dhaka
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引用次数: 0

摘要

对过去四十年(1981 年至 2021 年)印度陆地以及拉克沙德韦普岛(阿拉伯海一侧)和安达曼和尼科巴岛(孟加拉湾一侧)的温度、相对湿度和风速趋势进行了分析。为揭示这些参数的大尺度波动和线性趋势,在 36 个地点部署了 MERRA 数据。地表温度(离地面 2 米)数据显示,阿拉伯一侧和孟加拉湾的地表温度呈线性上升趋势, 2000 年后更为明显。在此期间,印度大陆两侧的气温上升了约 0.7-0.8 ℃。研究中约有三分之二的地点(24 个地点)显示气温上升。然而,所有岛屿地点的相对湿度数据都显示出下降(2000-2021 年期间尤为明显)。温度的准周期性波动(呈线性上升趋势)与厄尔尼诺/南方涛动参数密切相关(阿拉伯海、安达曼和尼科巴岛的相关系数'r'在 ~ 0.20 到 0.34 之间;在统计学上具有显著意义,安达曼群岛的相关系数相对较大)。2000-2021 年期间,'r'显著增加(0.5)。与阿拉伯海(约 4.0 米/秒)和陆地(约 2.2 米/秒)相比,安达曼和尼科巴群岛的风速(年平均约 5.0 米/秒)总体较大。另一方面,太阳周期(太阳黑子数)与风速之间存在微弱的正相关系数(< ~ 0.40),但在统计学上有显著意义,而太阳周期与相对湿度之间没有发现相应的相关性。详细分析表明,2000-2021 年期间,陆地和岛屿的相对湿度都有所下降。有趣的是,2000 年后,北纬 7.03 度至 12.91 度之间的地表温度上升较快。低纬度地区(北纬 15°)的温度上升和长期波动(2-3 年)与厄尔尼诺/南方涛动信号密切相关,表明大气与海洋的相互作用增强。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Climatic Trends in Temperature, Relative Humidity, and Wind Speed Over Indian Landmass and Isle in Andaman Nicobar and Lakshadweep During 1981–2021

Climatic Trends in Temperature, Relative Humidity, and Wind Speed Over Indian Landmass and Isle in Andaman Nicobar and Lakshadweep During 1981–2021

An analysis is performed to examine trends in temperature, relative humidity, and wind-speed over the Indian landmass and in the isles of Lakshadweep (Arabian Sea side) and Andaman and Nicobar (Bay of Bengal side) over the last four decades (from 1981 to 2021). MERRA data deployed for revealing the large-scale fluctuations and linear trends in these parameters covering 36 locations. Surface temperature (2 m above ground) data showed a linear rise, which is more prominent after 2000, both in the Arabian side and the Bay of Bengal. Over this period, temperature increased ~ 0.7–0.8 °C on both sides of Indian landmass. About two third locations (24 locations) in the study showed increase in temperature. However, relative humidity data on all island locations exhibited a decrease (prominent during 2000–2021). Quasi-periodic fluctuations in temperature (which is linearly rising) closely relates with the ENSO parameter (correlation coefficient ‘r’ in Arabian Sea and Andaman and Nicobar ranged from ~ 0.20 to 0.34; which is statistically significant and relatively larger towards Andaman Islands). ‘r’ increased considerably (> 0.5) during 2000–2021. Wind-speed, in general, showed larger magnitude over Andaman and Nicobar Islands (~ 5.0 m/s yearly averaged) in comparison to Arabian Sea (~ 4.0 m/s) and landmass (~ 2.2 m/s). On the other hand, solar cycle (sun spot numbers) and wind-speed reflects a weak positive correlation coefficient (< ~ 0.40) but statistically significant while no consequential correlation found between solar cycle and relative humidity. Detailed analysis suggests that relative humidity decreased both over landmass and islands during 2000–2021. Interestingly, surface temperature increased more rapidly between latitudes 7.03°N and 12.91°N after 2000. Rise in temperature and long period fluctuations (> 2–3 years) in the lower latitudes (< 15°N) showed a strong association with ENSO signal suggesting invigorated atmosphere ocean interaction.

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来源期刊
MAPAN
MAPAN 工程技术-物理:应用
CiteScore
2.30
自引率
20.00%
发文量
91
审稿时长
3 months
期刊介绍: MAPAN-Journal Metrology Society of India is a quarterly publication. It is exclusively devoted to Metrology (Scientific, Industrial or Legal). It has been fulfilling an important need of Metrologists and particularly of quality practitioners by publishing exclusive articles on scientific, industrial and legal metrology. The journal publishes research communication or technical articles of current interest in measurement science; original work, tutorial or survey papers in any metrology related area; reviews and analytical studies in metrology; case studies on reliability, uncertainty in measurements; and reports and results of intercomparison and proficiency testing.
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