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The paper presents the impact of the weather on inland navigation conditions. Each mode of transportation depends on the weather, but inland navigation is the one most affected by it. Inland navigation is strongly dependent on the water level in a river bed, which is a result of weather conditions. In Poland the depth of inland waterways is relatively low, but the biggest consideration is the weather which results in the variability of this level. The variability of hydrotechnical conditions results in problems with planning for transportation. It is widely known that water is one of the most important factors in the hydrotechnical conditions of inland navigation and it is directly correlated with the weather. In this paper the authors present the impact of temperature on the duration of the navigation season on the Border Oder, based on research conducted in the years from 2004 to 2018 and the authors also investigated important changes in the weather conditions during last few years. The results showed that the number of navigable days has dropped significantly over the investigated period as a result of changes in the climate.
Rocznik
Tom
Strony
61--66
Opis fizyczny
Bibliogr. 20 poz., rys., tab.
Twórcy
autor
- Wroclaw University of Science and Technology, Faculty of Mechanical Engineering 27 Wyspianskiego St., 50-370 Wroclaw, Poland
autor
- Wroclaw University of Science and Technology, Faculty of Mechanical Engineering 27 Wyspianskiego St., 50-370 Wroclaw, Poland
autor
- University of Novi Sad Department of Traffic Engineering Trg Dositeja Obradovića 6, 21 000 Novi Sad, Serbia
Bibliografia
- 1. Bačkalić, T., Maslarić, M. & Skupień, E. (2018) Analysis of navigation accessibility and fairway availability: a case study the middle Danube river. In: A. Sładkowski ed., Transport Problems 2018: proceedings X International Scientific Conference, VII International Symposium of Young Researchers. Katowice: Politechnika Śląska, Wydział Transportu, pp. 53–62.
- 2. Barry, R. & Gan, T.Y. (2011) Global Cryosphere, Past, Present and Future. Cambridge University Press.
- 3. Czaplewski, M. (2011) Podstawowe czynniki kształtowania pozycji żeglugi śródlądowej w systemie transportowym. Logistyka 6, pp. 4607–4621.
- 4. Gan, T.Y., Ito, M., Huelsmann, S., Qin, X.X., Lu, X., Liong, S.Y., Rutschman, P., Disse, M. & Koivosalo, H. (2016) Possible climate change/variability and human impacts, vulnerability of drought-prone regions, water resources and capacity building for Africa. Hydrological Sciences Journal 61, 7, pp. 1209–1226.
- 5. Gobena, A.K. & Gan, T.Y. (2013) Assessment of trends and possible climate change impacts on summer moisture availability in western Canada based on metrics of the palmer drought severity index. Journal of Climate 26, 13, pp. 4583–4595.
- 6. Groot, de R.S., Ierland, van E.C., Kuikman, P., Nillesen, E.E.M., Tassone, V.C., Verhagen, A.J.A. & Verzandvoort-van Dijck, S. (2006) Climate Change: Scientific Assessment and Policy Analysis; Climate adaptation in the Netherlands (Concept report). Netherlands Environmental Assessment Agency.
- 7. Huntington, H. & Fox, S. (2005) The changing Arctic: indigenous perspectives. In: Arctic Climate Impact Assessment. Cambridge, UK: Cambridge University Press, pp. 61–98.
- 8. IMGW (2019) [Online] Available from: https://dane.imgw. pl/data/dane_pomiarowo_obserwacyjne/ [Accessed: March 01, 2019]
- 9. Johannessen, O.M., Bengtsson, L., Miles, M.W., Kuzmina, S.I., Semenov, V.A., Alekseev, G.V., Nagurnyi, A.P., Zakharov, V.F., Bobylev, L.P., Pettersson, L.H., Hasselmann, K. & Cattle, H.P. (2004) Arctic climate change: observed and modeled temperature and sea-ice variability. Tellus 56A, pp. 328–341.
- 10. Jonkeren, O., Rietveld, P. & van Ommeren, J. (2007) Climate Change and Inland Waterway Transport. Journal of Transport Economics and Policy 41, 3, pp. 387–411.
- 11. Jonkreren, O., Jourquin, B. & Rietveld, P. (2011) Modal-split effects of climate change: The effect of low water levels on the competitive position of inland waterway transport in the river Rhine area. Transportation Research Part A 45, pp. 1007–1019.
- 12. Kuo, C.C., Gan, T.Y. & Gizaw, M. (2015) Potential impact of climate change on intensity duration frequency curves of central Alberta. Climatic Change 130, pp. 115–129.
- 13. Nankervis, M. (1999) The Effect of Weather and Climate on Bicycle Commuting. Transportation Research Part A 33, pp. 417–431.
- 14. Regional Management of Water Management in Szczecin (2016) [Online] Available from: http://informator.szczecin. rzgw.gov.pl/pl/ocena_hydrologiczno_nawigacyjna/pliki/ ocena_hydro_nawig_2016.pdf [Accessed: March 01, 2019].
- 15. Rymsza, B. (2010) Opracowanie wskaźników wrażliwości sektora transport na zmiany klimatu. Warszawa: Instytut Badawczy Dróg i Mostów.
- 16. Scheepers, H., Wang, J., Gan, T.Y. & Kuo, C.C. (2018) The impact of climate change on inland waterway transport: Effects of low water levels on the Mackenzie River. Journal of Hydrology 566, pp.285–298.
- 17. Sipiński, D. (2018) Płytsze rzeki w Europie kolejnym skutkiem zmian klimatu. [Online] 02 December. Available from: https://www.polityka.pl/tygodnikpolityka/ludzieistyle/177 3724,1,plytsze-rzeki-w-europie-kolejnym-skutkiem-zmianklimatu.read [Accessed: March 20, 2019].
- 18. Somanathan, S., Flynn, P.C. & Szymański, J.K. (2007) Feasibility of a sea route through the Canadian Arctic. Maritime Economics and Logistics 9 (4), pp. 324–334.
- 19. Suarez, P., Anderson, W., Mahal, V. & Lakshmanan, T.R. (2005) Impacts of flooding and climate change on urban transportation: A systemwide performance assessment of the Boston Metro Area. Transportation Research Part D: Transport and Environment 10, 3, pp. 231–244.
- 20. Weller, G., et al. (2005) Summary and synthesis of the ACIA. In: Arctic Climate Impact Assessment. Cambridge: Cambridge University Press.
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-5c72d6a9-cc99-4595-b1c6-54daea15b862