Comparison of aerosol optical properties over Lumbini, Pokhara and Langtang-Base Camp

Himalayan Physics Pub Date : 2023-06-01 DOI:10.3126/hp.v10i1.55280

Santosh Sapkota, Sabina Gautam, Aayush Gautam, R. Poudel, Santosh Pokheral, Kailash Basent, Aabiskar Subedi

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引用次数: 1

Abstract

The comparative study of aerosol optical properties at different tourist places in Nepal has been performed. Lumbini, Pokhara and Langtang-Base Camp (BC) were the places chosen for observation. Aerosols are made up of a variety of airborne particles both fine and coarse and are most prevalent in urban industrial Areas. The data was collected from AERONET websites between 2017 and 2019 for each of the locations. The ranges of AOD over Pokhara and Langtang-BC were discovered to be lower (0.1 and 0.01) and the maximum and minimum values of AOD (675 nm) in Lumbini occurred predominantly in winter and summer monsoon respectively. The causes of the highest AOD levels were land clearing for crop cultivation and vegetation fires which were then followed by biomass burning for heating purposes and pollution from brick kilns, industry and vehicles. AOD, angstrom exponent (α and β) and Visibility are distinct from typical seasonal variations. The total AE fluctuations show that a combination of fine and coarse mode particles as well as anthropogenic aerosols made up the majority of the aerosol loading during the research period. Visibility was inversely related to the turbidity coefficient (β). Three times as much visibility was discovered over Langtang-BC as compared to Lumbini and Pokhara. Over these three locations, precipitable water peaked in the summer and dropped in the winter. These three sites seasonal changes are found to be distinct for each parameter.

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蓝毗尼、博卡拉和朗塘大本营气溶胶光学特性的比较

对尼泊尔不同旅游景点的气溶胶光学特性进行了比较研究。蓝毗尼、博卡拉和朗塘大本营(BC)被选为观察地点。气溶胶是由各种空气中的细颗粒和粗颗粒组成的，在城市工业区最为普遍。这些数据是在2017年至2019年期间从AERONET网站上收集的。博卡拉和朗塘的AOD范围较低(0.1和0.01)，蓝毗尼的AOD最大值和最小值(675 nm)分别主要出现在冬季风和夏季风。造成最高AOD水平的原因是为作物种植而开垦土地和植被火灾，其次是为取暖而燃烧生物质以及砖窑、工业和车辆造成的污染。AOD、埃指数(α和β)和能见度不同于典型的季节变化。总声发射波动表明，细态和粗态粒子的组合以及人为气溶胶构成了研究期间气溶胶负荷的大部分。能见度与浊度系数(β)呈负相关。朗塘的能见度是蓝毗尼和博卡拉的三倍。在这三个地方，可降水量在夏季达到峰值，在冬季下降。发现这三个地点的季节变化对每个参数都是不同的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Himalayan Physics

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