Abstract
Abstract. While a considerable number of records document the temporal variability of droughts for central Europe, the understanding of its underlying causes remains limited. In this contribution, time series of three drought indices (Standardized Precipitation Index – SPI; Standardized Precipitation Evapotranspiration Index – SPEI; Palmer Drought Severity Index – PDSI) are analyzed with regard to mid- to long-term drought variability in the Czech Lands and its potential links to external forcings and internal climate variability modes over the 1501–2006 period. Employing instrumental and proxy-based data characterizing the external climate forcings (solar and volcanic activity, greenhouse gases) in parallel with series representing the activity of selected climate variability modes (El Niño–Southern Oscillation – ENSO; Atlantic Multidecadal Oscillation – AMO; Pacific Decadal Oscillation – PDO; North Atlantic Oscillation – NAO), regression and wavelet analyses were deployed to identify and quantify the temporal variability patterns of drought indices and similarity between individual signals. Aside from a strong connection to the NAO, temperatures in the AMO and (particularly) PDO regions were disclosed as one of the possible drivers of inter-decadal variability in the Czech drought regime. Colder and wetter episodes were found to coincide with increased volcanic activity, especially in summer, while no clear signature of solar activity was found. In addition to identification of the links themselves, their temporal stability and structure of their shared periodicities were investigated. The oscillations at periods of approximately 60–100 years were found to be potentially relevant in establishing the teleconnections affecting the long-term variability of central European droughts.
Highlights
Droughts, among the most prominent manifestations of extreme weather and climate anomalies, are of great climatological interest and constitute an essential factor to be considered in the assessment of the impacts of climate change (Stocker et al, 2013; Trnka et al, 2018; Wilhite and Pulwarty, 2018)
The current paper focuses on the identification and quantitative attribution of drought variability expressed by series of three drought indices in the Czech Lands throughout the past 5 centuries (1501–2006)
The formal association of greenhouse gases (GHGs) forcing with individual drought indices conforms to their definition: while precipitation-only Standardized Precipitation Index (SPI) behaves in a fashion very similar to precipitation itself, stronger links were indicated for Standardized Precipitation Evapotranspiration Index (SPEI) and Palmer Drought Severity Index (PDSI)
Summary
Among the most prominent manifestations of extreme weather and climate anomalies, are of great climatological interest and constitute an essential factor to be considered in the assessment of the impacts of climate change (Stocker et al, 2013; Trnka et al, 2018; Wilhite and Pulwarty, 2018) This is valid for the territory of the Czech Republic where droughts, apart from floods, embody the most important natural disasters, with significant impacts upon various sectors of the national economy, such as agriculture, forestry, water management, and tourism and recreation. Along with more rapid variations, these include long-term variability, such as a distinct trend towards drier conditions, prominent especially during the late 20th and early 21st centuries (e.g., Trnka et al, 2009a; Brázdil et al, 2015b)
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