Abstract
There exist proofs that the global warming, which is happening since the industrial revolution, is the consequence of the greenhouse emissions increase caused by the human activity. The development of computer models, besides the increasing evidences about the rising temperatures, and the more frequent weather variation are in accordance with the scientist’s predictions about the climate change. The modelling tools also showed that in the twenty-first century temperatures can increase hereafter and influence the nature and the human being.
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References
Allen R et al. (1998) Crop evapotranspiration – Guidelines for computing crop water requirements. FAO Irrigation and drainage paper 56, Rome. 1998. ISBN 92-5-104219-5
Hansen S (1984) Estimation of potential and actual evapotranspiration. Nordic Hydrol 15: 205–212
Hansen S, Jensen HE, Nielsen NE, Svendsen H (1990) DAISY: Soil Plant Atmosphere System Model. NPO Report No. A 10, The National Agency for Environmental Protection, Copenhagen: 272
Hargreaves GL, Hargreaves GH, Riley JP (1985) Agricultural benefits for Senegal. River Basin. Journal of Irrigation and Drainage Engineering 111: 111–124
Harrison PA, Butterfield RE, Downing TE (1995) Climate Change and Agriculture in Europe: Assessment of Impacts and Adaptation. Research Report No. 9. Environmental Change Unit. University of Oxford: 41
Lapin M, Melo M (2002) Time series scenarios of ten climate characteristics for horizon 2001–2090 according to models CCCM2000 a GISS98. In: Proceedings of Abstracts of XIV. Czechoslovak Bioclimatological Conference: Bioclimate–Environment–Economy. Lednice: 4 (In Slovak)
Lapin M, Melo M, Damborská I (2001) Scenarios of Set of Several Physically Consistent Climate Elements. National Climate Program of the SR, VI. 2001, vol. 11. (In Slovak)
Lapin M (2004) Climate Change and Their Possible Impact on Hydrological Cycle – Scenarios of Changes Till the Year 2100 https://www.dmc.fmph.uniba.sk (In Slovak)
Šiška B, Takáč J, Igaz D (2004) May we expect the yield distribution changes as an influence a climate change in Danubian Lowlands? In: Conference proceedings: Climate Change – Weather Extremes. Organisms and Ecosystems. International Bioclimatological Workshop. Viničky 2. – 26. 8. 2004. CD ROM. (In Slovak)
Sláma V (1971) Biological Consumptive Water Usage Curve. Research Final Report R VI- 4/1-04. Praha. (In Czech)
Sobocká J, Šurina B, Torma S, Dodok R (2005) Climate Change Impact on Soil Properties and Processes in Slovakia. Research Institute of Soil Science and Soil Conservation, Bratislava (In Slovak)
Špánik F, Šiška B, Repa Š (1996) Impact Assessment of Climate Change on Agriculture and Appropriate Adaptive Measures: National Climate Program of SR. III. 1996. vol. 4. (In Slovak)
Takáč J, Zuzula I (2000) Climate Change Adaptation Measures for Agriculture in the Slovak Republic. National Climate Program of SR. 2000. vol. 9. (In Slovak)
STN no. 83 0635 Irrigation water demand calculation
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Bárek, V., Halaj, P., Igaz, D. (2009). The Influence of Climate Change on Water Demands for Irrigation of Special Plants and Vegetables in Slovakia. In: Střelcová, K., et al. Bioclimatology and Natural Hazards. Springer, Dordrecht. https://doi.org/10.1007/978-1-4020-8876-6_23
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DOI: https://doi.org/10.1007/978-1-4020-8876-6_23
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