Impact of snowfall measurement deficiencies on quantification of precipitation and its trends over Northern Eurasia
Instead of «ground truth» precipitation, rain gauges at meteorological stations estimate a function of several variables. In addition to precipitation, these variables include temperature, wind, humidity, gauge type, state of the gauge exposure, and observational practices. Their impact and changes...
| Published in: | Ice and Snow |
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| Main Authors: | , , , , , , , , , |
| Format: | Article in Journal/Newspaper |
| Language: | Russian |
| Published: |
IGRAS
2015
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| Subjects: | |
| Online Access: | https://ice-snow.igras.ru/jour/article/view/39 https://doi.org/10.15356/2076-6734-2014-2-29-43 |
| Summary: | Instead of «ground truth» precipitation, rain gauges at meteorological stations estimate a function of several variables. In addition to precipitation, these variables include temperature, wind, humidity, gauge type, state of the gauge exposure, and observational practices. Their impact and changes hamper our efforts to estimate precipitation changes alone. For example, wind-induced negative biases for snowfall measurements are higher than for other precipitation types and a redistribution of these types during regional warming can cause an artificial increase in measured precipitation. In such conditions, the only way to properly estimate actual climatic changes of precipitation would be a use of precipitation time series that are corrected for all known systematic biases. Methodology of such corrections has been developed and recently implemented for Northern Eurasia for the past 50+ years (up to 2010). With the focus on Russia, we assess differences that emerge when officially reported precipitation in the cold season is compared to corrected precipitation time series at the same network. It is shown that conclusions about trend patterns over the country are quite different when all sources of inhomogeneity of precipitation time series are removed and impact of all factors unrelated to the precipitation process are accounted for. In particular, we do not see statistically significant increases of the cold season precipitation over most of the Russian Federation and in Arctic Asia it significantly decreases. В статье анализируются результаты применения методики полной корректировки срочных осадков относительно станционных данных по осадкам бывшего СССР с приоритетом на территорию России, для которой временные ряды дополнены по 2010 г. Эти результаты сравниваются с измеренными показаниями осадкомеров на тех же станциях, что позволяет оценить различия в средних значениях (климатологии) и систематических изменениях (трендах) осадков по территории бывшего СССР (Российской Федерации).Показано, что измеренные и ... |
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