The heat goes on—changes in indices of hot extremes in Poland

Graczyk, Dariusz; Pińskwar, Iwona; Kundzewicz, Zbigniew W.; Hov, Øystein; Førland, Eirik J.; Szwed, Małgorzata; Choryński, Adam

doi:10.1007/s00704-016-1786-x

Cited by 45 publications

(42 citation statements)

References 28 publications

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“…The study demonstrated the significant increase in summer maximum air temperature in Poland, in agreement with previous research conducted for Central Europe, e.g., [8,26,27,33]. This increase is evident from the positive temporal trend in mean seasonal maximum air temperature (0.4 • C per 10 years, on average) as well as from several indices describing the intensity and spatial extent of extreme temperature events, i.e., number of days with temperature extremes (average increase of 1.2 days per 10 years), changes in the threshold of the 95th summer maximum air temperature percentile (average trend of 0.47 • C per 10 years), changes in temperature surplus (average trend of 1.99 • C per 10 years), total area affected by the extreme and the Extremity Index.…”

Section: Discussionsupporting

confidence: 91%

“…Thermal conditions in Poland and their variability have become correspondingly a subject of local studies, raising a point of temperature extreme occurrence and principles [25,28], their long-term variability, e.g., [29][30][31][32] or extreme events, i.e., heat waves, e.g., [29,33]. As Poland, due to its location ( Figure 1A), is particularly exposed to weather extremes occurrence, many papers have also been …”

Section: Introductionmentioning

confidence: 99%

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Temporal Variability of Summer Temperature Extremes in Poland

et al. 2017

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Abstract:The aim of the study is to estimate the trend in summer maximum air temperature extremes in Poland during the period 1951-2015 by demonstrating the changes in the magnitude of temperature anomalies, temperature "surplus", as well as the area influenced by extreme temperature occurrence. To express the latter two variables, daily maps of maximum air temperature were created to calculate the total area affected by temperature extremes. To combine the effect of spatial extent and temperature anomaly, an Extremity Index was introduced. The results confirmed an increase in summer maximum air temperature of about 0.4 • C per 10 years, evidenced also in the increase of summer extremeness. Positive anomalies have dominated since the 1990s, with the largest anomalies occurring during the summers of 1992, 1994, 2010 and finally 2015, the most exceptional summer during the analyzed period.

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Section: Discussionsupporting

confidence: 91%

Section: Introductionmentioning

confidence: 99%

Temporal Variability of Summer Temperature Extremes in Poland

et al. 2017

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“…IPCC 2013 and nationally-cf. Kożuchowski and Żmudzka 2001;Graczyk et al 2017; bold in Table 2 total was very high-239 mm (Cebulak 1992;Munzar and Ondraček 2010;Kundzewicz 2011). Maximum 5-day precipitation total in the studied period was observed most often in July 1997 (five records), then in July 1996 (four records) and three cases during June and July 1980 and during August 2006.…”

Section: Methodsmentioning

confidence: 80%

Observed changes in extreme precipitation in Poland: 1991–2015 versus 1961–1990

Pińskwar

Choryński

Graczyk

et al. 2018

Theor Appl Climatol

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Several episodes of extreme precipitation excess and extreme precipitation deficit, with considerable economic and social impacts, have occurred in Europe and in Poland in the last decades. However, the changes of related indices exhibit complex variability. This paper analyses changes in indices related to observed abundance and deficit of precipitated water in Poland. Among studied indices are maximum seasonal 24-h precipitation for the winter half-year (Oct.-March) and the summer half-year (Apr.-Sept.), maximum 5-day precipitation, maximum monthly precipitation and number of days with intense or very intense precipitation (respectively, in excess of 10 mm or 20 mm per day). Also, the warm-seasonal maximum number of consecutive dry days (longest period with daily precipitation below 1 mm) was examined. Analysis of precipitation extremes showed that daily maximum precipitation for the summer half-year increased for many stations, and increases during the summer half-year are more numerous than those in the winter half-year. Also, analysis of 5-day and monthly precipitation sums show increases for many stations. Number of days with intense precipitation increases especially in the north-western part of Poland. The number of consecutive dry days is getting higher for many stations in the summer half-year. Comparison of these two periods: colder 1961-1990 and warmer 1991-2015, revealed that during last 25 years most of statistical indices, such as 25th and 75th percentiles, median, mean and maximum are higher. However, many changes discussed in this paper are weak and statistically insignificant. The findings reported in this paper challenge results based on earlier data that do not include 2007-2015.

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“…This is expressed primarily by the distinct decreasing trends in water flows observed in the main rivers, the source zones of which are situated in this part of Poland (Tomaszewski 2007;Wrzesiński 2009;Nowak 2018a), and by the lowering of the water levels in the lakes (Ilnicki 1996;Ilnicki, Orłowski 2006a;Orłowski, Ilnicki 2007;Choiński, Ptak 2008;Kędziora 2008;Kowalik et al 2008;Marszelewski, Radomski 2008;Kunz et al 2010;Marszelewski et al 2011;Ptak, Ławniczak 2011;Ilnicki et al 2012a, b;Nowak, Gezella-Nowak 2012;Piasecki, Marszelewski 2013;Piasecki, Skowron 2014;Stachowski et al 2016;Nowak 2018a) and ground water levels (Przybyłek, Nowak 2011a, b;Nowak 2018a). The lowering of the level of surface and ground waters in the study region is also related to climate factors (Kędziora 2008;Przybyłek, Nowak 2011a;Ilnicki et al 2012a, b;Stachowski et al 2016;Nowak 2018a), such as the increase in air temperature observed for many years (Kundzewicz, Matczak 2012;Twardosz, Kossowska-Cezak 2013;Graczyk, Kundzewicz 2014;Graczyk et al 2016;Wibig 2018). Equally important is human activity, such as the meliorations realized in this part of Poland on a large scale since the middle of the 19 th century (Choiński, Ptak 2008;Marszelewski et al 2011;Ptak, Ławniczak 2011;Ilnicki et al 2012a, b) or the excessive uptake of waters for municipal and agricultural purposes …”

Section: Discussionmentioning

confidence: 95%

Evaluation of the potential for the use of lakes in restoring water resources and flood protection, with the example of the Noteć Zachodnia River catchment (Gniezno Lakeland, Poland)

Nowak

Nadolna

Stanek

2018

Meteorol. Hydrol. Water Manage.

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Abstract. This paper presents the results of a study aimed at determining the possibility of water retention in the lakes located in the upper and middle reaches of the Noteć Zachodnia River in central-west Poland. The study was conducted on the basis of the analysis of available hydrological data and contemporary and archival topographic basemaps. The research was supplemented by a field study from the years 2011-2016, during which numerous surveys and hydrometric measurements were made. Their goal was to determine the natural range of water fluctuations in the lakes under consideration and to identify potential flows in the Noteć Zachodnia River.Observations and calculations allowed the determination of damming ordinates that are within the range of natural water fluctuations of the lakes. On the basis of this information and the previously prepared model of terrain, including the test area, the authors designated zones within the lakes at the required water level and calculated the useful and flood capacity of those water reservoirs. Subsequently, the possibilities of reducing the flood wave on the Noteć Zachodnia River were determined. Calculations were made for 2011, i.e. a year for which the highest winter spate for over 30 years has been documented. It has been shown that, by using only the flood capacities of surveyed lakes, it would be possible to reduce the flood wave on the Noteć Zachodnia River by 30% for the profile closing its catchment below Kamienieckie Lake.The results indicated the validity of damming the lakes located in the catchment of the Noteć Zachodnia River. Water retention in these lakes would restore the water resources in the area and allow reduction of the flood wave during heavy rains. This action would positively affect the ecosystems associated with the river system and would assist the flood protection system in central and west Poland.

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The heat goes on—changes in indices of hot extremes in Poland

Cited by 45 publications

References 28 publications

Temporal Variability of Summer Temperature Extremes in Poland

Temporal Variability of Summer Temperature Extremes in Poland

Observed changes in extreme precipitation in Poland: 1991–2015 versus 1961–1990

Evaluation of the potential for the use of lakes in restoring water resources and flood protection, with the example of the Noteć Zachodnia River catchment (Gniezno Lakeland, Poland)

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