. "RIV/62156489:43210/07:00111681" . . . . . . . . "Porozumn\u011Bn\u00ED dopad\u016Fm region\u00E1ln\u00ED klimatick\u00E9 zm\u011Bny prost\u0159ednictv\u00EDm zm\u011Bn v re\u017Eimech p\u016Fdn\u00ED vlhkosti"@cs . "43210" . "Understanding Regional Climate Change Consequences through the Changes in Soil Moisture Regimes"@en . "P(ME 844), Z(MSM6215648905)" . "Pokorn\u00FD, Eduard" . . . "Hlavinka, Petr" . . "Svoboda, Mark" . "Understanding Regional Climate Change Consequences through the Changes in Soil Moisture Regimes" . "Soils are an important control on water fluxes in the landscape and in many parts of the world act as the most important water reservoir mitigating the effects of rainfall variability. Soil moisture and temperature regimes are inherently more stable and quantifiable than their atmospheric counterparts and are essential in determining the environmental conditions of any region. They can also be used to demonstrate the impacts of climate change on a given region as they integrate not only the change of climate variables but also existing soil condition status and plant cover. In addition, the globally valid analysis of soil moisture and temperature regimes makes it possible to present a variety of consequences of climate change in terms of analogs. In order to easily estimate the soil moisture and temperature regime at a given site, or within a selected region, a software SoilClim was developed, tested, and applied in two markedly different regions of the Northern Hemisphere. SoilClim is based on an enh" . "Eitzinger, Josef" . . . . "Understanding Regional Climate Change Consequences through the Changes in Soil Moisture Regimes"@en . "Hayes, Michael" . "25th Annual meeting of American Geosciences Union, 10-14th December 2007, San Francisco" . "Ve dvou r\u016Fzn\u00FDch regionech severn\u00ED polokoule byl testov\u00E1n a aplikov\u00E1n program SiolClim."@cs . . "Barto\u0161ov\u00E1, Lenka" . . "Wilhite, Donald" . . "Balek, Jan" . "Soils are an important control on water fluxes in the landscape and in many parts of the world act as the most important water reservoir mitigating the effects of rainfall variability. Soil moisture and temperature regimes are inherently more stable and quantifiable than their atmospheric counterparts and are essential in determining the environmental conditions of any region. They can also be used to demonstrate the impacts of climate change on a given region as they integrate not only the change of climate variables but also existing soil condition status and plant cover. In addition, the globally valid analysis of soil moisture and temperature regimes makes it possible to present a variety of consequences of climate change in terms of analogs. In order to easily estimate the soil moisture and temperature regime at a given site, or within a selected region, a software SoilClim was developed, tested, and applied in two markedly different regions of the Northern Hemisphere. SoilClim is based on an enh"@en . "Porozumn\u011Bn\u00ED dopad\u016Fm region\u00E1ln\u00ED klimatick\u00E9 zm\u011Bny prost\u0159ednictv\u00EDm zm\u011Bn v re\u017Eimech p\u016Fdn\u00ED vlhkosti"@cs . "Trnka, Miroslav" . "SoilClim; water balance; climate change"@en . "Understanding Regional Climate Change Consequences through the Changes in Soil Moisture Regimes" . "456592" . "[0D5A43AEAE78]" . . . . "10"^^ . "Dubrovsk\u00FD, Martin" . . "4"^^ . "RIV/62156489:43210/07:00111681!RIV08-MSM-43210___" .