Solar Cycle Influence on Wind, Temperature, and Surface Pressure During 1981–2021 Over Indian Region

IF 2.2 4区地球科学 Q3 ENVIRONMENTAL SCIENCES

Journal of the Indian Society of Remote Sensing Pub Date : 2024-07-26 DOI:10.1007/s12524-024-01948-5

Shristy Malik, A. S. Rao, Surendra K. Dhaka, Ryoichi Imasu, H. -Y. Chun

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Abstract

A solar cycle linkage is investigated on wind, temperature and surface pressure throughout 1981 to 2021 using The Modern-Era Retrospective analysis for Research and Applications, Version 2 (MERRA2) data. Sunspot data were obtained from the Royal Observatory of Belgium (solar cycles 21 to early 25). It is determined from the analysis that solar cycle intensity decreased gradually in the last four decades; wind data at six stations (metropolitan cities) over India showed a consistent decrease by an amount of 0.3 to 0.6 m/s, on average 0.5 m/s. A strong association is evident between the solar cycle and wind variability, this is more evident while approaching closer to the equator from northern tropics. Wind speed declined more clearly near and around 10°N latitudes. This consistent decline assumes a strong significance during winter in Northern India i.e., the climatic trend is unfavourable for dispersing the pollutants and will harm the air quality in future. On the other hand, temperature and pressure data showed a climatic increasing trend (~ 0.9 °C and ~ 1.5–2.0 mb) most prominently seen from 2000 to 2021 over the tropical region; which became slightly weak in extra tropical region (Delhi). Temperature and pressure data did not show a relationship with sunspot numbers. It is determined that solar cycle variability has influenced windspeed (positive correlation ~ 0.5, with 95% confidence level) near ground level.

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1981-2021 年印度地区太阳周期对风、温度和表面气压的影响

利用 "现代-年代研究和应用回顾分析 2 版"（MERRA2）数据，研究了 1981 年至 2021 年太阳周期与风、温度和表面气压的联系。太阳黑子数据来自比利时皇家天文台（太阳周期 21 至 25 周初）。分析结果表明，太阳周期强度在过去 40 年中逐渐减弱；印度上空 6 个站点（大都市）的风速数据显示，风速持续减弱，减弱幅度为 0.3 至 0.6 米/秒，平均为 0.5 米/秒。太阳周期与风速变化之间明显存在密切联系，这一点在从北热带向赤道靠近时更为明显。风速在北纬 10°附近和附近下降得更为明显。这种持续下降在印度北部的冬季具有重要意义，即气候趋势不利于污染物的扩散，并将损害未来的空气质量。另一方面，气温和气压数据显示，从 2000 年到 2021 年，热带地区的气温和气压呈上升趋势（~ 0.9 °C，~ 1.5-2.0 mb），这在热带以外地区（德里）表现得最为明显。温度和气压数据与太阳黑子数量没有关系。据测定，太阳周期变化影响了近地面风速（正相关~0.5，置信度为 95%）。

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来源期刊

Journal of the Indian Society of Remote Sensing ENVIRONMENTAL SCIENCES-REMOTE SENSING

CiteScore

4.80

自引率

8.00%

发文量

163

审稿时长

7 months

期刊介绍： The aims and scope of the Journal of the Indian Society of Remote Sensing are to help towards advancement, dissemination and application of the knowledge of Remote Sensing technology, which is deemed to include photo interpretation, photogrammetry, aerial photography, image processing, and other related technologies in the field of survey, planning and management of natural resources and other areas of application where the technology is considered to be appropriate, to promote interaction among all persons, bodies, institutions (private and/or state-owned) and industries interested in achieving advancement, dissemination and application of the technology, to encourage and undertake research in remote sensing and related technologies and to undertake and execute all acts which shall promote all or any of the aims and objectives of the Indian Society of Remote Sensing.