Changes in bioclimatic indices in the Republic of Moldova (1960–2012): consequences for tourism

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Dumitru Mihăilă
Adrian Piticar
Andrei-Emil Briciu
Petruţ-Ionel Bistricean
Liliana Gina Lazurca
Anatolie Puţuntică

Resumen

El presente estudio incluye el análisis diagnóstico y evolutivo del bioclima de la República de  Moldavia según Wind Chill Index (WCI) y Cooling Power (CP). Entre 1960 y 2012,  el bioclima de la temporada fría (octubre-marzo) presentó una tendencia de calentamiento gradual, evidenciada por la baja de los valores de WCI. Durante la temporada cálida, el bioclima de la República de Moldovia registró un calentamiento gradual, evidenciado por la baja  de los valores de CP. Los valores del índice CP han sido analizados según los valores  del Índice Climático turístico  (TCI), útil para planificar actividades turísticas de cualquier tipo. Los valores actuales de TCI y los anticipados para el futuro indican un clima favorecedor para todo tipo o toda clase de turismo en la República Moldavia.



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Mihăilă, D., Piticar, A., Briciu, A.-E., Bistricean, P.-I., Lazurca, L. G., & Puţuntică, A. (2018). Changes in bioclimatic indices in the Republic of Moldova (1960–2012): consequences for tourism. Boletín De La Asociación De Geógrafos Españoles, (77), 521-548. https://doi.org/10.21138/bage.2550

Bibliografía

Abegg, B. (1996). Klimaänderung und Tourismus. Zürich: Hochschulverlag AG an der ETH.

Amelung, B., & Moreno, A. (2009). Impacts of climate change in tourism in Europe. PESETA-Tourism study (EUR 24114 EN). Joint Research Centre, Institute for Prospective Technological Studies. doi: 10.2791/3418

Amelung, B., & Viner, D. (2006). Mediterranean tourism: Exploring the Future with the Tourism Climate Index. Journal of Sustainable Tourism, 14, 349–366.

Apostol, L., & Gaceu, O., (2011). The climatic-touristic potential of the Romanian Black Sea Coast during summer established according to the method of Besancenot, Mounier and de Lavenne. Carpathian Journal of Earth and Environmental Sciences, 6(1).

Beçancenot, J. P. (1974). Premieres donnes sur les stress bioclimatiques moyens en France. Annales de geographie, 83(459), 497–530.

Becker, F. (1972). Bioklimatische Reizstufen für eine Raumbeurteilung zur Erholung, Forschungs. Sitzungsberichte der Akademie für Raumforschung und Landesplanung Hannover, 76, 45–61.

Besancenot, J. P., Mounier J., De Lavenne F. (1978). Les conditions climatique du tourism littoral, une méthode de recherche comprehensive. Norois, 25(99).

Blazejczyk, K., Epstein, Y., Jendritzky, G., Staiger, H., & Tinz, B. (2012). Comparison of UTCI to selected thermal indices. International Journal of Biometeorology, 56(3), 515–535.

Buttner, K. (1938). Physikalische Bioklimatologie. Probleme und Methoden (Probleme der Kosmische Physik, Bd. XVIII). Leipzig: Akademische Verlagsgesellschaft.

Croitoru, C., & Overcenco, A. (2013). Extreme temperatures impact on human health in the R. Moldova. In Abstracts of Days of the University of Medicine and Pharmacy of Târgu Mureș. Târgu Mureș.

Curtis, S., Long, P., & Arrigo, J. (2011). Climate, Weather and Tourism: Issues and Opportunities. In American Meteorological Society, Meeting Summaries. Greenville, North Carolina.

De Freitas, C. R.; Scott, D., & Mcboyle, G. (2008). A second generation climate index for tourism (CIT): specification and verification. International Journal of biometeorology, 52(5), 399–407.

Dobrinescu, A., Busuioc, A., Bîrsan, M. V., Ştefan, S., & Orzan, A. (2013). Spatial and temporal variability of the thermal stress index in Romania. In Geophysical Research Abstracts - EGU General Assembly 2013, EGU 2013–11217, vol. 15.

Farajzadeh, H., & Matzarakis, A. (2012). Evaluation of thermal comfort conditions in Ourmieh Lake, Iran. Theoretical and Applied Climatology, 107, 451–459.

Gómez-Martín, M. B. (2004). An evaluation of the tourist potential of the climate in Catalonia (Spain): a regional study. Geografiska Annaler: Series A, Physical Geography, 86(3), 249–264.

Gómez-Martín, M. B. (2006). Climate potential and tourist demand in Catalonia (Spain) during the summer season. Climate Research, 32(1), 75-87.

Government of Republic of Moldova (2014). Tourism 2020. Tourism Development Strategy. Retrieved from http://lex.justice.md/index.php?action=view&view=doc&lang=1&id=353037

Hamilton, J. M., & Tol, R. S. J. (2007). The Impact of Climate Change on Tourism in Germany, the UK and Ireland: a simulation study. Regional Environmental Change, 7, 161–172.

Huang, K. T., Lin, T. P. & Lien, H. C. (2015). Investigating Thermal Comfort and User Behaviors in Outdoor Spaces: A Seasonal and Spatial Perspective. Advances in Meteorology, 2015. doi: 10.1155/2015/423508

Ionac, N. , & Ciulache, S. (2008). Atlasul bioclimatic al României. Bucharest: Ars Docendi.

Jahanbakhsh, S. (1998). Assessment of human bioclimate in Tabriz and thermal need of buildings. Geograghical Research Quarterly, 48.

Jaúregui, E., Moreno, M. C., & Tejada, A. (2002). The energy balance of central Barcelona (Spain). In the urban environment. American Meteorological Society, Norfolk, VA .100–102.

Katerusha, O., & Matzarakis, A. (2015). Thermal bioclimate and climate tourism analysis for Odessa, Black Sea. Geografiska Annaler: Series A, Physical Geography, 97, 671–679.

Kovacs, A., & Unger, J. (2014). Analysis of tourism climatic conditions in Hungary considering the subjective thermal sensation characteristics of the South-Hungarian residents. Acta Climatologica et Chorologica, 47–48, 77–84.

Lin, T. P., & Matzarakis, A. (2008). Tourism climate and thermal comfort in Sun Moon Lake, Taiwan. International Journal of Biometeorology, 52(4), 281–290.

Marin, L., Birsan, M. V., Bojariu, R., Dumitrescu, A., Micu, D. M., & Manea, A. (2014). An overview of annual climatic changes in Romania: Trends in air temperature, precipitation, sunshine hours, cloud cover, relative humidity and wind speed during the 1961–2013 period. Carpathian Journal of Earth and Environmental Sciences, 9(4), 253–258.

Martínez-Ibarra, E. (2011). The use of webcam images to determine tourist–climate aptitude: favourable weather types for sun and beach tourism on the Alicante coast (Spain). International Journal of Biometeorology, 55, 373–385.

Martínez-Ibarra, E., Belén, M., & Gómez-Martín M. B. (2012). Weather, climate and tourist behaviour: the beach tourism of the Spanish Mediterranean Coast as a case study. European Journal of Tourism, Hospitality and Recreation, 3, special issue, 77–96.

Maureen, A. D., & Jean, P. P. (2001). Climate impacts on the demand for tourism. In Proceedings of the First International Workshop on Climate, Tourism and Recreation, 41–50.

Merciu, G. L. (2010). Analysis of bioclimatic indicators in white dominant area. Case of study the northern sector of the Parâng Mountains. Annals of the University of Craiova, Series Geography, 13, 47–54.

Mieczkowski, Z. (1985). The tourism climatic index: a method of evaluating world climates for tourism. The Canadian Geographer, 29, 220–33.

Mihăilă, D., Briciu, A. E., Bistricean, P., & Lazurca, L. G. (2015). The analysis of the spatial distribution and temporal trends of THI index in the Republic of Moldova. In SGEM2015 Conference Proceedings, vol. 4, 1105–1112, doi: 10.5593/SGEM2015/B41/S19.142

Miró, J., Estrela, M., Caselles, V., & Olcina, J. (2016). Fine-scale estimations of bioclimatic change in the Valencia region, Spain. Atmospheric Research, 180, 150–164. doi: 10.1016/j.atmosres. 2016.05.020.

Nastos, P. T., & Matzarakis, A. (2013). Human Bioclimatic Conditions, Trends, and Variability in the Athens University Campus, Greece. Advances in Meteorology, 2013. doi: 10.1155/2013/976510

National Bureau of Statistics of The Republic of Moldova (2015). Statistical Yearbook of the Republic of Moldova. Chișinău.

Nedealcov, M. (2014). Climate change and anomalies associated in the Republic of Moldova. Present Environment and Sustainable Development, 8(1), 59–68.

Parmacli, D., & Staicova, T. (2013). Natural hazards and their effects on agricultural development (case of the Republic of Moldova). Journal of the Geographical Institute "Jovan Cvijic", 63(3), 313–320. doi: 10.2298/IJGI1303313P

Patriche, C. V. (2009). Metode statistice aplicate în climatologie. Iași. Terra Nostra.

Perry, A. (2001). More heat and drought – Can Mediterranean tourism survive and prosper? In Proceedings of the First International Workshop on Climate, Tourism and Recreation, 35–40.

Potop, V., & Soukup, J. (2009). Spatiotemporal characteristics of dryness and drought in the Republic of Moldova. Theoretical and Applied Climatolology, 96(3), 305–318.

Ramezani, B., & Fallahzadeh, M. (2014). Assessment and analysis of thermal comfort based on bioclimatic indices. Case study: Port of Anzal – Iran. Journal of Applied Environmental and Biological Sciences, 4(1), 116–125.

Ramezani, B. G., & Palic, M. (2012). Recognition of monthly human bioclimatic comfort with tourism climate index in Ramsar, South-West of Caspian Sea, Iran. AGD Landscape & Environment, 6(1), 1–14.

Robine, J. M., Cheung, S. L. K., Le Roy, S., Van Oyen, H., Griffiths, C., Michel, J. P., & Herrmann, F. R. (2008). Death toll exceeded 70,000 in Europe during the summer of 2003. Comptes Rendus, 331(2), 171–178.

Sabine, L., Perch, N., Amelung, B., & Knutti, R. (2010). Future climate resources for tourism in Europe based on the daily Tourism Climatic Index. Climatic Change, 103, 363–381.

Salmi, T., MäättÇa, A., Anttila, P., Airola, T. R., & Amnell, T. (2002). Detecting Trends of Annual Values of Atmospheric Pollutants by the Mann-Kendall Test and Sen's Slope Estimates: The Excel Template Application Makesens. Helsinki: Finnish Meteorological Institute.

Schär, C., Vidale, P. L., Lüthi, D., Frei, C., Häberli, C., Liniger, M. A., & Appenzeller, C. (2004). The role of increasing temperature variability in European summer heatwaves. Nature, 427(6972), 332–336.

Scott, D., & Mcboyle, G. (2001). Using a ‘tourism climate index’ to examine the implications of climate change for climate as a tourism resource. In First International Workshop on Climate, Tourism and Recreation, 69–88.

Scott, D., Mcboyle, G., & Schwartzentruber, M. (2004). Climate Change and the Distribution of Climatic Resources for Tourism in North America. Climate Research, 7, 105–117.

Sen, P. K. (1968). Estimates of the regression coefficient based on Kendall's Tau. Journal of the American Statistical Association, 63(324), 1379–1389.

Siple, P. A., & Passel, C. F. (1945). Measurements of dry atmospheric cooling in subfreezing air temperatures. Proceedings of the American Philosophical Society, 89, 177–199.

Teodoreanu, E., & Mihăilă, D. (2012). Is the bioclimate of Suceava Plateau comfortable or uncomfortable? Analysis based on TEE and THI. Present Environment and Sustainable Development, 6(1), 205–217.

Teodoreanu, E., & Mihăilă, D. (2012). Is the bioclimate of the Suceava Plateau comfortable or uncomfortable? Analysis based on Wind Cooling Power index and Skin and Lung Stress index. Present Environment and Sustainable Development, 6(1), 229–251.

Tzenkova, A. S., Kandjov, I. M., & Ivancheva, J. N. (2003). Some biometeorological aspects of urban climate in Sofia. In Proceedings of 5th International Conference on Urban Climate, 2, 103–106.

Zaninovic, K., Cegnar, T., & Matzarakis, A. (2006). Thermal comfort trends and variability in the Croatian and Slovenian mountains. Meteorologische Zeitschrift, 15(2), 243–251.