Abstract
Drought with its occurrence and manifestations at all levels of the natural components, yields both direct and indirect negative effects, on the ecological systems, water resources, social, as well as economic aspects of life. Therefore, any analysis that concerns this phenomenon, must be carried out at a multi-scalar level, addressing all manifestation levels (meteorological, hydrological, and hydrogeological drought). Standardized evaluation indices (for precipitation-SPI, evaporation-, -SPEI, streamflow-SDI and groundwater-SGI) have been used to analyze the evolution of the drought phenomena in Eastern Romania, for 1, 3, 6 and 12 months’ time-scales, applied to seven groundwater bodies. The results of the analysis complement the observations concerning the evolution of meteorological drought (using SPI and SPEI) in the East European region, by highlighting the drought sequences of the last two decades of the last century. Those are accompanied by the meteorological drought sequences which occurred on extensive areas, starting from 2007, until present, with direct effects in river discharge and increases in groundwater level depths. The Bravais–Pearson correlation coefficient shows a close connection between meteorological and hydrological drought (r ~ 0.45 to 0.68) and between hydrological and groundwater drought (r ~ 0.42 to 0.74) for wells with piezometric level under 5 m depth. In the larger context of climate scenarios which envision an increase in air temperature, and a decrease in the atmospheric hydrological input, the increase in the drought frequency is obvious, with direct effects on all-natural components that are dependent on the hydrological resources.
Highlights
The occurrence of drought generates direct or indirect negative effects over the ecological system, economic activities, water resources and human life (Schwalm et al 2017)
The results obtained by using one index were not validated in the values produced by others, which lead to the development of more complex indices, in order to account for the multi-scalar nature of drought: Hao and AghaKouchak (2013), developed a multivariate standardized drought index (MSDI), Waseem et al (2015) developed a new composite drought index for multivariate drought assessment, Liu et al (2016) developed a copula-based joint streamflow drought index (JSDI), Hadi et al (2020) created a new approach for the identification and categorization of drought in cold climate regions, the hydroclimatic aggregate drought index (HADI), and Li et al (2021), constructed a combined drought index based on bivariate joint distribution (BCDIbcf)
If several observation points for precipitation, river discharge and groundwater level variation exist for one water body, the final values for each calculated index were the averages for all values obtained at each observation point
Summary
The occurrence of drought generates direct or indirect negative effects over the ecological system, economic activities, water resources and human life (Schwalm et al 2017). The results obtained by using one index were not validated in the values produced by others, which lead to the development of more complex indices, in order to account for the multi-scalar nature of drought: Hao and AghaKouchak (2013), developed a multivariate standardized drought index (MSDI), Waseem et al (2015) developed a new composite drought index for multivariate drought assessment, Liu et al (2016) developed a copula-based joint streamflow drought index (JSDI), Hadi et al (2020) created a new approach for the identification and categorization of drought in cold climate regions, the hydroclimatic aggregate drought index (HADI), and Li et al (2021), constructed a combined drought index based on bivariate joint distribution (BCDIbcf)
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