Spatial-Temporal Patterns and Controls of Evapotranspiration across the Tibetan Plateau (2000–2012)

Zhang, Hao; Sun, Jian; Xiong, Jie

doi:10.1155/2017/7082606

Cited by 17 publications

(26 citation statements)

References 58 publications

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“…In contrast, the order of decline for the other precipitation indices moved in the opposite direction: Forest, alpine meadow, alpine steppe, and desert steppe ( Figures 6 and 7). Previous research verified significant positive correlations between precipitation and evapotranspiration (ET) [35,65,66], and normalized difference vegetation index (NDVI) [67]. Forests are distributed mainly in the western Sichuan Province, southeast Tibetan, and the northern Yunnan Province with deep ravine regions [35].…”

Section: Characteristics Of Extreme Precipitation Indices In Differenmentioning

confidence: 85%

“…Previous research verified significant positive correlations between precipitation and evapotranspiration (ET) [35,65,66], and normalized difference vegetation index (NDVI) [67]. Forests are distributed mainly in the western Sichuan Province, southeast Tibetan, and the northern Yunnan Province with deep ravine regions [35]. These areas have lush vegetation, more precipitation, and more ET than other ecosystems across the Tibetan Plateau [68], and as for ET, it has a growth gradient from the southeast to northwest, and it is similar to precipitation ( Figure 5).…”

Section: Characteristics Of Extreme Precipitation Indices In Differenmentioning

confidence: 85%

“…A decrease in EASM and SASM led to a decline in precipitation from 1975 to 2014 [14]. In addition, one possible cause of the decreasing precipitation and precipitation days is the decreasing trends of evapotranspiration (ET) in southeastern region of the Tibetan Plateau [35]. The alpine steppe and desert steppe are mainly located in areas controlled by the westerly belt.…”

Section: Characteristics Of Extreme Precipitation Indices In Differenmentioning

confidence: 99%

“…Furthermore, most of the study area is dominated by alpine steppes and alpine meadows, the alpine steppe is mainly distributed in northern Tibet and the eastern and western ends of Qinghai Province, which covers 0.71 million km 2 ; the alpine meadow is widely distributed widely in Tibet, Sichuan Province and Qinghai Province, with an area of 0.65 million km 2 [28]. Furthermore, the forest area mainly occurs in the south and southeast end of the Tibetan Plateau and large areas of bare land, such as desert steppes are found in the northwest (Figure 1) [35].…”

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Spatial and Temporal Patterns of the Extreme Precipitation across the Tibetan Plateau (1986–2015)

Xiong

Yong

Wang

et al. 2019

Water

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The Tibetan Plateau is one of the most vulnerable areas to extreme precipitation. In recent decades, water cycles have accelerated, and the temporal and spatial characteristics of extreme precipitation have undergone dramatic changes across the Tibetan Plateau, especially in its various ecosystems. However, there are few studies that considered the variation of extreme precipitation in various ecosystems, and the impact of El Niño-Southern Oscillation (ENSO), and few researchers have made a quantitative analysis between them. In this study, we analyzed the spatial and temporal pattern of 10 extreme precipitation indices across the Tibetan Plateau (including its four main ecosystems: Forest, alpine meadow, alpine steppe, and desert steppe) based on daily precipitation from 76 meteorological stations over the past 30 years. We used the linear least squares method and Pearson correlation coefficient to examine variation magnitudes of 10 extreme precipitation indices and correlation. Temporal pattern indicated that consecutive wet days (CWD) had a slightly decreasing trend (slope = −0.006), consecutive dry days (CDD), simple daily intensity (SDII), and extreme wet day precipitation (R99) displayed significant increasing trends, while the trends of other indices were not significant. For spatial patterns, the increasing trends of nine extreme precipitation indices (excluding CDD) occurred in the southwestern, middle and northern regions of the Tibetan Plateau; decreasing trends were distributed in the southeastern region, while the spatial pattern of CDD showed the opposite distribution. As to the four different ecosystems, the number of moderate precipitation days (R10mm), number of heavy precipitation days (R20mm), wet day precipitation (PRCPTOT), and very wet day precipitation (R95) in forest ecosystems showed decreasing trends, but CDD exhibited a significant increasing trend (slope = 0.625, P < 0.05). In the other three ecosystems, all extreme precipitation indices generally exhibited increasing trends, except for CWD in alpine meadow (slope = −0.001) and desert steppe (slope = −0.005). Furthermore, the crossover wavelet transform indicated that the ENSO had a 4-year resonance cycle with R95, SDII, R20mm, and CWD. These results provided additional evidence that ENSO play an important remote driver for extreme precipitation variation in the Tibetan Plateau. and snowstorms caused by extreme precipitation events, have an adversely effect on ecosystems, agriculture, industry, and socioeconomic development [2,3]. Thus, the occurrences of extreme climate events and their trends have become the focus of most climate change studies. In the global, extreme precipitation probability have shown an increasing trend, and the total amount of extreme precipitation has increased significantly, and also the tropic region has the most extreme precipitation events [4,5]. Additionally, they have more areas with significant increasing trends in extreme precipitation amounts, intensity, and frequency than areas with decreasing trends ...

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Section: Characteristics Of Extreme Precipitation Indices In Differenmentioning

confidence: 85%

Section: Characteristics Of Extreme Precipitation Indices In Differenmentioning

confidence: 85%

Section: Characteristics Of Extreme Precipitation Indices In Differenmentioning

confidence: 99%

mentioning

confidence: 99%

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Spatial and Temporal Patterns of the Extreme Precipitation across the Tibetan Plateau (1986–2015)

Xiong

Yong

Wang

et al. 2019

Water

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“…The southern end of the Hu Line is an ecologically fragile area that is also a hot spot for economic development and population growth. Located in Sichuan and Yunnan provinces, the southeastern part of the Tibetan Plateau is fragile and vulnerable to climate change [35]. Sichuan Basin is in the northeastern part of the study area, where the terrain is relatively flat and the soil is fertile.…”

Section: Study Areamentioning

confidence: 99%

Selected Environmental Assessment Model and Spatial Analysis Method to Explain Correlations in Environmental and Socio-Economic Data with Possible Application for Explaining the State of the Ecosystem

Xiong

Zhang

et al. 2019

Sustainability

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Regional ecosystem health is the basis for regular regional exploration, ecological protection, and sustainable development. This study explored ecosystem health at the southern end of the Hu Line (Sichuan and Yunnan provinces) using the pressure–state–response model and examined the spatial evolution of ecosystem health. The proportion of unhealthy and morbid cities decreased from 45.9% in 2000 to 35.1% in 2016. The imbalance of ecosystem health among cities has gradually increased since 2006, but more high-quality cities have emerged (Z of Moran’s Index < 1.96, p > 0.05). Overall, the regional ecosystem on the southeast side of the Hu Line was healthier than that on the northwest side. Differences in ecosystem health on both sides of the Hu Line showed decreasing trends over time except for the pressure score. The spatial pattern of ecosystem health moved along the Hu Line because the pressure and state scores of ecosystems were mainly determined by the natural environmental conditions. Based on the county-level assessment, the grade of imbalance within cities was divided, and those that were lagging were identified. To correct regional imbalances, a comprehensive and proactive policy framework for a smart development model was put forward in Sichuan and Yunnan.

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Spatiotemporal shifts in key hydrological variables and dominant factors over China

Sun

Zhou

et al. 2021

Hydrological Processes

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Quantitatively and physically understanding changes in land surface hydrology is a hot topic in the hydro-meteorological research, especially over China with high population density but uneven distribution of water resources. Therefore, the spatiotemporal dynamics (i.e., the 1980s [1981-1990] and 1990s [1991-2000] relative to the baseline of [1961][1962][1963][1964][1965][1966][1967][1968][1969][1970][1971][1972][1973][1974][1975][1976][1977][1978][1979][1980] in evapotranspiration (ET) and streamflow/runoff (Q) were examined across 426 hydrological divisions (HDs) of China. Both the 1980s and 1990s ET decreased over roughly 50% HDs mainly in the central and southeast parts of China, while the 1980s (1990s) Q decreased over slightly higher than 50% (63%) HDs generally in north and southwest China (the central and north parts of China).Relative to the 1980s, more HDs had strong changes in ET and Q in 1990s. Based on the separated contributions of precipitation (P), reference ET and Budyko-type equation parameter n (an integrated variable of catchment property) to ET and Q changes, we found that in 1980s and 1990s, n dominated ET changes over about 60% HDs mainly in the south, with the dominant of P around 35% HDs generally in the north and northeast, while for Q changes, nearly 60% (slightly less than 40%) HDs were dominated by n (P). Moreover, the dominants for ET (Q) changes have shifted from 1980s to 1990s over 36% (45%) HDs, mainly changing from P to n. This study provides a framework for quantitatively understanding land surface hydrological dynamics from the perspectives of climatic and physiographic controls over regions.

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Spatial-Temporal Patterns and Controls of Evapotranspiration across the Tibetan Plateau (2000–2012)

Cited by 17 publications

References 58 publications

Spatial and Temporal Patterns of the Extreme Precipitation across the Tibetan Plateau (1986–2015)

Spatial and Temporal Patterns of the Extreme Precipitation across the Tibetan Plateau (1986–2015)

Selected Environmental Assessment Model and Spatial Analysis Method to Explain Correlations in Environmental and Socio-Economic Data with Possible Application for Explaining the State of the Ecosystem

Spatiotemporal shifts in key hydrological variables and dominant factors over China

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