The spatiotemporal variability in precipitation gradients based on meteorological station observations in mountainous areas of Northwest China

Zhang, Xi; Xu, Min; Kang, Shichang; Wu, Hao; Han, Haidong

doi:10.1007/s00704-023-04618-7

Cited by 4 publications

(2 citation statements)

References 55 publications

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“…Estimating precipitation in mountainous areas is a problem of recent interest [17,18]. There are particular solutions to the general problem of evaluating the areal distribution of precipitation using limited precipitation records (see for example [19,20] for urban areas).…”

Section: Methodsmentioning

confidence: 99%

The Spatio-Temporal Dynamics of Water Resources (Rainfall and Snow) in the Sierra Nevada Mountain Range (Southern Spain)

Pardo-Igúzquiza,

Martos-Rosillo,

Jódar

et al. 2024

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This paper describes the use of a unique spatio-temporally resolved precipitation and temperature dataset to assess the spatio-temporal dynamics of water resources over a period of almost seven decades across the Sierra Nevada mountain range, which is the most southern Alpine environment in Europe. The altitude and geographical location of this isolated alpine environment makes it a good detector of climate change. The data were generated by applying geostatistical co-kriging to significant instrumental precipitation and temperature (minimum, maximum and mean) datasets. The correlation between precipitation and altitude was not particularly high and the statistical analysis yielded some surprising results in the form of mean annual precipitation maps and yearly precipitation time series. These results confirm the importance of orographic precipitation in the Sierra Nevada mountain range and show a decrease in mean annual precipitation of 33 mm per decade. Seasonality, however, has remained constant throughout the period of the study. The results show that previous studies have overestimated the altitudinal precipitation gradient in the Sierra Nevada and reveal its complex spatial variability. In addition, the results show a clear correspondence between the mean annual precipitation and the NAO index and, to a much lesser extent, the WeMO index. With respect to temperature, there is a high correlation between minimum temperature and altitude (coefficient of correlation = −0.84) and between maximum temperature and altitude (coefficient of correlation = −0.9). Thus, our spatial temperature maps were very similar to topographic maps, but the temporal trend was complex, with negative (decreasing) and positive (increasing) trends. A dynamic model of snowfall can be obtained by using the degree-day methodology. These results should be considered when checking the local performance of climatological models.

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Section: Methodsmentioning

confidence: 99%

The Spatio-Temporal Dynamics of Water Resources (Rainfall and Snow) in the Sierra Nevada Mountain Range (Southern Spain)

Pardo-Igúzquiza,

Martos-Rosillo,

Jódar

et al. 2024

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“…Utilizing data from additional stations, such as local meteorological stations in the area of a specific drainage system, could increase the precision of Rx3day calculations. This is because the uneven distribution of meteorological stations may affect the research results [59,60].…”

Section: Number Of Drainage Systems % Of the Total Drainage Areamentioning

confidence: 99%

Impact of Climate Change on Extreme Rainfall Events and Pluvial Flooding Risk in the Vojvodina Region (North Serbia)

Bezdan,

Blagojević

et al. 2024

Atmosphere

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Extreme precipitation events, which are common natural hazards, are expected to increase in frequency due to global warming, leading to various types of floods, including pluvial floods. In this study, we investigated the probabilities of maximum 3-day precipitation amount (Rx3day) occurrences during spring in the Vojvodina region, covering both past (1971–2019) and future (2020–2100) periods. We utilized an ensemble of eight downscaled, bias-corrected regional climate models from the EURO-CORDEX project database, selecting the RCP8.5 scenario to examine future Rx3day amounts. The probabilities of occurrences of Rx3day were modeled using the GEV distribution, while the number of events where Rx3day in spring exceeds specific thresholds was modeled using the Poisson distribution. The results indicate that Rx3day with a ten-year return period during the spring months is expected to increase by 19% to 33%. Additionally, the probabilities of having more than one event where Rx3day exceeds thresholds are projected to rise by 105.6% to 200.0% in the future compared to the historical period. The analysis comparing the design values of Rx3day with future projections for the period 2020–2100 revealed that 51 drainage systems are likely to function without difficulties under future climate conditions. However, for the remaining 235 drainage systems, an increased risk of pluvial flooding was identified, as their design precipitation amounts are lower than the future projections. This study reveals that analyzing extreme rainfall events in the context of climate change yields crucial information that facilitates effective planning and policy making in water management, particularly flood protection.

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Ecosystem service value and ecological compensation in Qilian Mountain National Park: Implications for ecological conservation strategies

Zhang,

Feng,

et al. 2024

Ecological Indicators

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The spatiotemporal variability in precipitation gradients based on meteorological station observations in mountainous areas of Northwest China

Cited by 4 publications

References 55 publications

The Spatio-Temporal Dynamics of Water Resources (Rainfall and Snow) in the Sierra Nevada Mountain Range (Southern Spain)

The Spatio-Temporal Dynamics of Water Resources (Rainfall and Snow) in the Sierra Nevada Mountain Range (Southern Spain)

Impact of Climate Change on Extreme Rainfall Events and Pluvial Flooding Risk in the Vojvodina Region (North Serbia)

Ecosystem service value and ecological compensation in Qilian Mountain National Park: Implications for ecological conservation strategies

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