Investigation of tropical cirrus cloud properties using ground based lidar measurements

SPIE Asia-Pacific Remote Sensing Pub Date : 2016-05-05 DOI:10.1117/12.2222314

Reji k. Dhaman, M. Satyanarayana, V. Krishnakumar, V. P. Mahadevan Pillai, G. S. Jayeshlal, K. Raghunath, M. Venkat Ratnam

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Abstract

Cirrus clouds play a significant role in the Earths radiation budget. Therefore, knowledge of geometrical and optical properties of cirrus cloud is essential for the climate modeling. In this paper, the cirrus clouds microphysical and optical properties are made by using a ground based lidar measurements over an inland tropical station Gadanki (13.5°N, 79.2°E), Andhra Pradesh, India. The variation of cirrus microphysical and optical properties with mid cloud temperature is also studied. The cirrus clouds mean height is generally observed in the range of 9-17km with a peak occurrence at 13- 14km. The cirrus mid cloud temperature ranges from -81°C to -46°C. The cirrus geometrical thickness ranges from 0.9- 4.5km. During the cirrus occurrence days sub-visual, thin and dense cirrus were at 37.5%, 50% and 12.5% respectively. The monthly cirrus optical depth ranges from 0.01-0.47, but most (<80%) of the cirrus have values less than 0.1. Optical depth shows a strong dependence with cirrus geometrical thickness and mid-cloud height. The monthly mean cirrus extinction ranges from 2.8E-06 to 8E-05 and depolarization ratio and lidar ratio varies from 0.13 to 0.77 and 2 to 52 sr respectively. A positive correlation exists for both optical depth and extinction with the mid-cloud temperature. The lidar ratio shows a scattered behavior with mid-cloud temperature.

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利用地面激光雷达测量研究热带卷云的特性

卷云在地球的辐射收支中起着重要的作用。因此，了解卷云的几何和光学特性对气候模式的建立至关重要。本文利用陆基激光雷达对印度安得拉邦内陆热带站Gadanki(13.5°N, 79.2°E)的卷云微物理和光学特性进行了测量。研究了卷云微物理和光学特性随中云温度的变化规律。卷云的平均高度一般在9至17公里之间，高峰出现在13至14公里。卷云中云温度在-81°C至-46°C之间。卷云的几何厚度在0.9- 4.5km之间。在卷云发生天数中，亚视觉卷云占37.5%，薄卷云占50%，密卷云占12.5%。月卷云的光学深度在0.01 ~ 0.47之间，但大多数(<80%)卷云的光学深度小于0.1。光学深度与卷云几何厚度和云中高度密切相关。月平均卷云消光在2.8E-06 ~ 8E-05之间，去极化比和激光雷达比分别在0.13 ~ 0.77和2 ~ 52 sr之间。光深和消光均与云中温度呈正相关。激光雷达比随中云温度的变化呈现散射特性。

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SPIE Asia-Pacific Remote Sensing

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