Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
Evapotranspiration values (ET) are crucial for agriculture where estimates of water reserves available for crops are the basis for scheduling the time and intensity of irrigation, yield prognoses, etc. Detailed evapotranspiration data are, therefore, of essential value. However, stations performing direct measurements of evapotranspiration are very scarcely distributed in Poland, and for this reason the interpolation of data is necessarily biased. Hence, evapotranspiration values are calculated using indirect methods (usually empirical formulas). Data from geostationary meteorological satellites are used operationally for the determination of evapotranspiration with good spatial and temporal resolution (e.g. Land-SA F product). The study of the relation between evapotranspiration values determined with the use of satellite data and those calculated using the Penman-Monteith formula was performed for the study area in Poland. Daily values and cumulated (i.e. decadal, monthly and yearly) values were analysed to determine the quality and possible added value of the satellite product. The relation between the reference ET and actual ET in two consecutive years was discussed, both for the whole test area and for individual stations, taking into account land use and possible water deficit in the root zone, represented by H-SA F (EUMETSA T Satellite Application facility supporting Operational Hydrology and Water Management) soil wetness index product. The differences are presented and discussed.
Rocznik
Tom
Strony
3--13
Opis fizyczny
Bibliogr. 32 poz., rys., tab., wykr.
Twórcy
autor
- Institute of Meteorology and Water Management - National Research Institute, Podleśna 61, 01-673 Warsaw, Poland
autor
- Institute of Meteorology and Water Management - National Research Institute, Podleśna 61, 01-673 Warsaw, Poland
Bibliografia
- 1. 2005/2049(INI ), Resolution on Winning the Battle Against Global Climate Change, The European Parliament, EURLex, Brussels
- 2. 2008/2074(INI ), European Parliament Resolution of 9 October 2008 on Addressing the challenge of water scarcity and droughts in the European, The European Parliament, EURLex, Brussels
- 3. Allen R.G., Pereira L.S., Raes D., Smith M., 1998, Crop evapotranspiration. Guidelines for computing crop water requirements, FAO Irrigation and Drainage Paper, 56, 300 pp.
- 4. Bac S., Rojek M., 1979, Meteorology and climatology, (in Polish), PWN , 276 pp.
- 5. CO M(2007)414 final, Communication from the Commission to the European Parliament and the Council. Addressing the challenge of water scarcity and droughts in the European Union, Commission of the European Communities, EURLex, Brussels
- 6. CO M(2007)354 final, Commission of the European Communities, Green Paper from the Commission to the Council, the European Parliament, the European Economic and Social Committee and the Committee of the Regions, Adapting to climate change in Europe – options for EU action, Commission of the European Communities, EUR-Lex, Brussels
- 7. CO M(2008)875 final, Report from the Commission to the Council and the European Parliament. Follow up Report to the Communication on water scarcity and droughts in the European Union, Commission of the European Communities, EUR-Lex, Brussels
- 8. CO M(2009)147 final, White Paper. Adapting to climate change: Towards a European framework for actions, Commission of the European Communities, Commission of the European Communities, EUR-Lex, Brussels
- 9. CO M(2011)133, Report from the Commission to the European Parliament and the Council to the Communication on water scarcity and droughts in the European Union, Commission of the European Communities, EUR-Lex, Brussels
- 10. Dąbrowska-Zielińska K., Kowalik W., Budzyńska M., Małek L., Bochenek Z., 2011, Assessment of evapotranspiration and soil moisture for Biebrza wetlands using thermal remote sensing and in-situ data, [in:] Remote Sensing and Geoinformation not only for Scientific Cooperation, L. Halounová (ed.), EARS eL, 281-288
- 11. Eitzinger J., Marinkovic D., Hösch J., 2003, Sensitivity of different evapotranspiration calculation methods in different crop-weather models, Integrated Assessment and Decision Support, [in:] Proceedings of the 1st Biennial Meeting of the iEMSs, vol. 2, 395-400, http://www.iemss.org/iemss2002/(data access 06.07.2016)
- 12. EUMETSA T, 2010, SA F for Land Surface Analysis (LSA -SA F), Algorithm Theoretical Basis Document, Meteosat Second Generation Evapotranspiration (MET) Product, Daily MET (DMET) Product, EUMETSA T LSA -SA F
- 13. EUMETSA T, 2011, Algorithm Theoretical Baseline Document (ATBD) for product H14-SM-DAS -2 Soil Wetness Index in the roots region, EUMETSA T Satellite Application Facility on Support to Operational Hydrology and Water Management, 41 pp., http://hsaf.meteoam.it/documents/ATDD /SA F_HSA F_ATBD-14_0_2.pdf (data access 06.07.2016)
- 14. Ghilain N., Arboleda A., Sepulcre-Cantò G., Batelaan O., Ardö J., Gellens-Meulenberghs F., 2011. Improving evapotranspiration in land surface models by using biophysical parameters derived from MSG/SEVIRI satellite, Hydrology and Earth System Sciences. Discussion, 8 (5), 9113-9171, DOI :10.5194/hessd-8-9113-2011.
- 15. IPCC , 2007, Climate Change 2007: Synthesis Report. Contribution of Working Groups I, II and III to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change, R.K. Pachauri, A. Reisinger (eds.), IPCC , Geneva, Switzerland, 104 pp.
- 16. Irmak S., Evapotraspiration, http://watercenter.unl.edu/downloads/ ResearchInBrief/IrmakSuatET.pdf (data access 06.07.2016)
- 17. Irmak S., Haman D.Z., 2003, Evapotranspiration: Potential or reference? Institute of Food and Agricultural Sciences, IFAS , University of Florida, Extension Publication No: ABE343 (AE 256), http://edis.ifas.ufl.edu/pdffiles/AE /AE 25600.pdf (data access 06.07.2016)
- 18. Kasperska-Wołowicz W., Łabędzki L., 2004, A comparison of reference evapotranspiration according do Penman and Penman-Monteith in various regions of Poland, (in Polish), Woda-Środowisko-Obszary Wiejskie, 4 (2a) (11), 123-136
- 19. Keller T., Gellens-Meulenberghs F., Portmann F., Hanton P., Debal F., Arboleda A., 2002, Soil moisture and evapotranspiration Land SA F products, [in:] Proceedings of the 2002 EUMETSA T LSA SA F Workshop, Lisbon, Portugal, 8 pp., http://oiswww.eumetsat.org/WE BOPS /iotm/iotm/20050908_moisture/keller.pdf (data access 06.07.2016)
- 20. Kępińska-Kasprzak M., 2013, Hydrological droughts and their impact on water management in Poland, Ph.D. Thesis, IMGW-PI B, Warsaw, 195 pp.
- 21. Kępińska-Kasprzak M., Struzik P., 2011, Evapotranspiration as a part of water balance – comparison of ground and satellite measurements, presentation on COS T Action 734 Final Conference: International Conference on current knowledge of Climate Change Impacts on Agriculture and Forestry in Europe, Topolcianki, http://www.cost734.eu/reports-andpresentations (data access 06.07.2016)
- 22. Kożuchowski K., Żmudzka E., 2001, Warming in Poland: the range and seasonality of changes in air temperature in the second half of the 20th century, (in Polish), Przegląd Geofizyczny, 46 (1-2), 81-90
- 23. Kundzewicz Z., Kowalczak P., 2008, Changes of the climate and their consequences, (in Polish), Zmiany klimatu i ich skutki. Kurpisz S.A., Poznań, 214 pp.
- 24. Kuźniar A., 2010, The spatial distribution of agricultural-climatic water balance in the upper Vistula River basin designated by applying the FAO -56 Penman-Monteith method, (in Polish), Woda-Środowisko-Obszary Wiejskie, Rozprawy naukowe i monografie, 28, 103 pp.
- 25. Lechnio J., 2005, Hydrological conditions of substance cycle in variant landscape systems, [in:] The problems of lowland landscape systems functioning, J. Lechnio, A. Richling (eds.), Warsaw University, Warsaw, 95-126
- 26. Łabędzki L., 2006, Agricultural droughts. An outline of problems and methods of monitoring and classification, WodaŚrodowisko-Obszary Wiejskie, Rozprawy naukowe i monografie, 17, 107 pp.
- 27. Masson V., Champeaux J.L., Chauvin F., Meriguet C., Lacaze R.A., 2003, Global database of land surface parameters at 1-km resolution in meteorological and climate models, Journal of Climate, 16 (9), 1261-1282, DOI : 10.1175/1520-0442-16.9.1261
- 28. Michalska B., 2010, The tendencies of air temperature changes in Poland, [in:] International Conference BIOK LIMA 2010, Praga, Czech Republic, 79-80
- 29. Mu Q., Zhao M., Running S.W., 2013, MODIS Global Terrestrial Evapotranspiration (ET) Product (NASA MOD 16A2/A3), Algorithm Theoretical Basis Document, Collection 5,
- 30. NASA , Washington, DC , USA , 66 pp., http://www.ntsg.umt.edu/sites/ntsg.umt.edu/files/MOD 16_ATBD.pdf (data access 06.07.2016)
- 31. UN, 1994, United Nations Convention to Combat Desertification in Countries Experiencing Serious Drought and/or Desertification, Particularly in Africa, http://www.unccd.int/en/about-theconvention/Pages/Text-overview.aspx (data access 06.07.2016)
- 32. Żmudzka E., 2004, Climatic background of the agricultural production in Poland in the second half of the 20th century, (in Polish), Acta Agrophysica, 3, 399-408
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-f5167320-b998-420c-89de-12eece2c27c9