Trend Analysis of Precipitation in the Jinsha River Basin in China

Shun-jiu, Wang; Zhang, Xinli; Liu, Zhigang; Wang, Biao

doi:10.1175/jhm-d-12-033.1

Cited by 40 publications

(28 citation statements)

References 34 publications

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“…Given this context, the two methods are widely used in specialized literature focusing on climatic data trend analysis (Tabari and Hosseinzadeh Talaee 2011;Wang and Zhang 2012;Croitoru et al 2013a, b;Meng et al 2013;Tabari and Hosseinzadeh Talaee 2013;Wang et al 2013;Ageena et al 2014;Appiotti et al 2014;Dumitrescu et al 2014;Liu et al 2014;Tao et al 2014;Khalili et al 2015;Prȃvȃlie and Bandoc 2015;Bandoc and Prȃvȃlie 2015;Tabari et al 2015;Zhang et al 2015;Zhu et al 2015 etc. ).…”

Section: Trend Detection and Annual Temperature Rate Computationmentioning

confidence: 99%

Spatio-temporal trends of mean air temperature during 1961–2009 and impacts on crop (maize) yields in the most important agricultural region of Romania

Prăvălie

Bandoc

Patriche

et al. 2016

Stoch Environ Res Risk Assess

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Climate change analysis is essential, considering the numerous economic and ecological implications of this critical global environmental issue. This paper analyzes the spatial and temporal trends of mean air temperature in Romania's most important agricultural area, the south and south-eastern region, between 1961 and 2009. In this respect, multiannual (the entire period) and multidecadal ) trends were analyzed using the Mann-Kendall test and Sen's slope method at 23 weather stations, annually, seasonally and for the growing season of the region's main agricultural crops (maize and wheat). Multiannually, the results showed statistically significant temperature increases, on all temporal scales (maximum rate of 0.06°C/year recorded in summer, equivalent to a net temperature rise of 2.82°C), except for the autumn season (cooling without statistical significance). Multidecadally, the 1961-1990 period is marked by a general cooling, especially in autumn (maximum values of -0.07°C/year or over 2°C net cooling). In the 1971-2000 and 1981-2009 periods, a general warming was observed (maximum in summer for both multidecades, when positive rates peaked at 0.09°C/year, or 2.5-3°C net warming), but the warming of the last three decades is the most prominent in terms of spatial average magnitude and trend significance. Upon analysis of the impact of climate warming on agricultural yields (maize) through linear regression, in the 1991-2000 decade, considered as case study, it was found that in 32 % of the total analyzed area there are evident relationships between the two variables (p value \0.05). In this case, a dependency of 33-50 % (40 %, on average) of maize to climate was found, and a sensitivity (loss) ranging between 0.9 and 1.5 t/ha/year (1.2 t/ha/year, on average) for a 1°C temperature rise. At the same time, significant losses (of up to 1.7 t/ha/year) of maize for a 1°C temperature rise were identified in 51 % of the area, but with little p value significance (between 0.05 and 0.1). It is however necessary to analyse the agro-climatic results cautiously, considering that only one decade of climate-agriculture relationship was studied. The results can be useful first and foremost for mitigating the climate change impact on agricultural systems, by prioritizing future adaptation strategies enforced by policy makers.

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Section: Trend Detection and Annual Temperature Rate Computationmentioning

confidence: 99%

Spatio-temporal trends of mean air temperature during 1961–2009 and impacts on crop (maize) yields in the most important agricultural region of Romania

Prăvălie

Bandoc

Patriche

et al. 2016

Stoch Environ Res Risk Assess

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“…Future, this research tried to identify the spatial and temporal variability of drought in the MLJRB over the recent decades and next several decades with the observed daily meteorological data and bias-corrected climate dataset from five general circulation models (GCMs) so as to provide beneficial reference to drought management and risk assessment. [21]. The Jinsha River, the upper reach of the Yangtze River, is about 3464 km in length and passes through a range of landscapes, originating in Qinghai-Tibet Plateau, cutting through Western Sichuan Plateau, Hengduan Mountains and Yunnan-Guizhou Plateau to the mountain area of Southwest Sichuan [22] (Figure 1).…”

Section: Introductionmentioning

confidence: 99%

Drought Assessment and Projection under Climate Change: A Case Study in the Middle and Lower Jinsha River Basin

Yuan

Chen

et al. 2017

Advances in Meteorology

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To gain an insight into the spatiotemporal variability of drought events and to assess trends under future climate change scenarios are fundamental for making sound mitigation and adaptation strategies. A new drought index, standardized supply-demand water index (SSDI), has been proposed in this research. The SSDI describes drought from the view of water supply-demand relations using a simple water balance model. It was used to assess historical drought events in the middle and lower Jinsha river basin (MLJRB) located in the southwest China and applied to address the drought conditions in the MLJRB under current and future climates. The results showed the following: (1) The average drought area during 2001 to 2011 reached up to 9.9 × 10 3 km 2 , accounting for 35.4% of the whole farmland area in the MLJRB, which was about twice as the drought area during 1961 to 2000. The region for greater drought severity with more drought events and longer duration was mainly distributed in Dali, Chuxiong, Kunming, and Yuxi. (2) For the period 2021 to 2050, total drought area was projected to increase by 43.2%. The drought-prone regions could move further towards the northwest of the MLJRB.

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“…The MK test has been commonly used to assess the significance of monotonic trends in climatic time series (e.g. Zhang and Du, 2008;Vijay and Sharad, 2010;Wang and Zhang, 2012;Cuo et al, 2013;Wang et al, 2013;Manish, 2014;Zhang et al, 2015;Ding et al, 2016;Xu et al, 2016;Zeng et al, 2016). There are two test statistics in the MK test: the trend estimator (Z) and magnitude of the trend slope ( ) (Sen, 1968;Hirsch et al, 1982;Gan, 1998).…”

Section: Methodsmentioning

confidence: 99%

Spatiotemporal variability of temperature trends on the southeast Tibetan Plateau, China

Shun-jiu

2017

Intl Journal of Climatology

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Based on the monthly mean temperatures recorded between 1961 and 2012 at 14 meteorological stations on the southeast Tibetan Plateau (STP), the temporal and spatial variations in mean seasonal and annual temperature trends were investigated using the Mann–Kendall test. The temperature time series on the STP are mainly characterized by increasing trends, and the rate of warming on the STP is far higher than that in other areas in China and even in other parts of the world. Statistically significant increasing trends in mean seasonal and annual temperatures were observed during the study period at the α = 0.01 level, and the increasing trend in winter was more significant than those in other seasons. The mean annual temperature increased by 0.0247 °C per year, and the mean winter temperature increased by 0.0353 °C per year. The mean temperature decreased obviously with increasing elevation, and the temperature variation due to the complex topography of the STP was more obvious than that associated with elevation. This result illustrates the important influence of complex topography on local climate change in the STP region. This study is beneficial for understanding the characteristics of local climate change on the STP in the context of global warming.

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Trend Analysis of Precipitation in the Jinsha River Basin in China

Cited by 40 publications

References 34 publications

Spatio-temporal trends of mean air temperature during 1961–2009 and impacts on crop (maize) yields in the most important agricultural region of Romania

Spatio-temporal trends of mean air temperature during 1961–2009 and impacts on crop (maize) yields in the most important agricultural region of Romania

Drought Assessment and Projection under Climate Change: A Case Study in the Middle and Lower Jinsha River Basin

Spatiotemporal variability of temperature trends on the southeast Tibetan Plateau, China

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