根据 MODIS 数据得出的 2001-2019 年冬季西西伯利亚西部上空单层云场参数的变化情况

IF 0.9 Q4 OPTICS
V. G. Astafurov, A. V. Skorokhodov, K. V. Kuryanovich
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引用次数: 0

摘要

摘要--我们根据 MODIS 数据估算了 2001 年至 2019 年期间西西伯利亚西部地区冬季单层云场参数的长期变化情况。应用该方法的主要思路是利用每日冬季(12 月、1 月和 2 月)白天卫星图像中 11 种云类型的识别结果。考虑了西西伯利亚南部(北纬 60°)、过渡带(北纬 60°-65°)和北部(北纬 65°)三个纬度带的单层云特征。我们发现不同云类型的以下参数呈线性趋势:目标区的覆盖率、光学厚度、有效颗粒半径、水路和顶部高度。本文讨论了将我们获得的数据与 Roshydromet 年度评估报告中的信息进行比较的结果。我们对冬季西西伯利亚纬度区不同云类型的时间序列参数值异常的原因提出了假设。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Variability of Parameters of Single-Layer Cloud Fields over Western Siberia in Winter in 2001–2019 according to MODIS Data

Variability of Parameters of Single-Layer Cloud Fields over Western Siberia in Winter in 2001–2019 according to MODIS Data

Variability of Parameters of Single-Layer Cloud Fields over Western Siberia in Winter in 2001–2019 according to MODIS Data

We estimate the long-term variability of the parameters of single-layer cloud fields over the territory of Western Siberia in winter for the period from 2001 to 2019 based on MODIS data. The main idea of the applied method is to use the results of recognition of 11 cloud types from daily winter (December, January, and February) daytime satellite images. Features of single-layer clouds are considered for three latitudinal zones of Western Siberia: southern (<60° N), transitional (60°–65° N), and northern (>65° N). We found linear trends for the following parameters of different cloud types: the coverage fraction of the target zones, optical thickness, effective particle radius, waterpath, and top height. The paper discusses the results of comparing the data we obtained with information from the annual Roshydromet assessment reports. We suggest hypotheses about the reasons for the anomalous parameter values in the time series for different cloud types in the latitudinal zones of Western Siberia under study in winter.

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来源期刊
CiteScore
2.40
自引率
42.90%
发文量
84
期刊介绍: Atmospheric and Oceanic Optics  is an international peer reviewed journal that presents experimental and theoretical articles relevant to a wide range of problems of atmospheric and oceanic optics, ecology, and climate. The journal coverage includes: scattering and transfer of optical waves, spectroscopy of atmospheric gases, turbulent and nonlinear optical phenomena, adaptive optics, remote (ground-based, airborne, and spaceborne) sensing of the atmosphere and the surface, methods for solving of inverse problems, new equipment for optical investigations, development of computer programs and databases for optical studies. Thematic issues are devoted to the studies of atmospheric ozone, adaptive, nonlinear, and coherent optics, regional climate and environmental monitoring, and other subjects.
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