Knowledge on soil moisture is indispensable for a range of hydrological models, since it exerts a considerable influence on runoff conditions. Proper tools are nowadays applied in order to gain in-sight into soil moisture status, especially of uppermost soil layers, which are prone to weather changes and land use practices. In order to establish relationships between meteorological conditions and topsoil moisture, a simple model would be required, characterized by low computational effort, simple structure and low number of identified and calibrated parameters. We demonstrated, that existing model for shallow soils, considering mass exchange between two layers ( the upper and the lower), as well as with the atmosphere and subsoil, worked well for sandy loam with deep ground water table in Warsaw conurbation. GLUE (Generalized Likelihood Uncertainty Estimation) linked with GSA (Global Sensitivity Analysis) provided for final determination of parameter values and model confidence ranges. Including the uncertainty in a model structure, caused that the median soil moisture solution of the GLUE was shifted from the one optimal in deterministic sense. From the point of view of practical model application, the main shortcoming were the underestimated water exchange rates between the lower soil layer (ranging from the depth of 0.1 to 0.2 m below ground level) and subsoil. General model quality was found to be satisfactory and promising for its utilization for establishing measures to regain retention in urbanized conditions.
Area of the Czech Republic is located in headwater area of central Europe. As a result a flood concentration and travel times are quite short (generally from hours to 2 or 3 days). Therefore QPF must be used to provide sufficient lead-time of the hydrological forecast. In addition, the significant orography influence demands rather detailed spatial resolution of NWP model. ALADIN NWP precipitation forecast is used for hydrological models. ALADIN produces only deterministic QPF. Hence the evaluation of QPF uncertainty from the hydrological point of view is necessary. For different basins, time intervals and QPF intervals the difference of QPF and MAP was made and exceedance curves were derived. Using these curves we can post-process determinant QPF to obtain different QPF variants which input hydrological model. Despite its simplicity this approach provides some additional probabilistic information to main model run. and Česká republika z hydrologického pohledu leží ve zdrojové oblasti střední Evropy. Následkem toho doba koncentrace povodní a dotokové doby jsou relativně krátké (maximálně 2 až 3 dny). Z toho důvodu je pro dosažení dostatečného předstihu hydrologické předpovědi nezbytné využívat kvantitativní předpověď srážek (QPF) s relativně vysokým prostorovým rozlišením. Do hydrologického předpovědního systému AquaLog vstupují deterministické předpovědi srážek meteorologického modelu ALADIN. Nezbytné je vyhodnocení vstupujících QPF z hlediska hydrologických potřeb. Pro 88 povodí byly pro různé časové intervaly odvozeny křivky překročení odchylek QPF a MAP (průměrná srážka na povodí). Na jejich podkladě jsou z deterministické QPF odvozeny variantní srážkové předpovědi, které vstupují jako výpočtové varianty do hydrologického modelu. Výsledkem jsou hydrologické variantní předpovědi s určitou pravděpodobností dosažení. Přes jednoduchost daného přístupu tento poskytuje jakousi přidanou pravděpodobnostní informaci k hlavní deterministické předpovědi.
This paper discusses the phenomenon of linguistic taboo. It contrasts that phenomenon with the truth-conditional and non-truth-conditional dimensions of meaning, paying particular attention to slurs and coarseness. It then highlights the peculiarities of taboo and its meta-semantic repercussions: taboo is a meaning-related feature that is nevertheless directly associated with the tokening process. In the conclusion, it gestures to the role of taboo within a theory of linguistic action and the standard framework for conversational exchanges. On these results, I am going to end by looking at some of the harms that epistemic injustice inflicts upon its victims.
The paper reviews recent climate change impact studies for the Slovak National Climate Program (SNKP). Basic adaptation strategies are also discussed. Priorities for future research within the SNKP are suggested. and Článok prináša prehľad o metodických postupoch, používaných v súčasnosti na určovanie možného vplyvu zmeny klímy na odtokové procesy. Nadväzuje pritom na prehľad uvedený v prácach S z o l g a y, et al. (1997), S z o l g a y a H l a v č o v á (2000), H l a v č o v á, et al. (2000) a sústreďuje sa najmä na pokrok v uvedenej problematike za posledné 4 roky, dokumentovaný na základe publikácií v niektorých vedúcich karentovaných časopisoch a výsledkov správy IPCC. Identifikuje smery výskumu v oblasti analýzy časových radov pre posudzovanie možnej zmeny podmienok tvorby odtoku, ako aj v oblasti využívania závislostí medzi odtokom a jeho podmieňujúcimi činiteľmi na určovanie možnej zmeny odtoku v dôsledku klimatickej zmeny.
Presented study is aimed at using additional information to improve process represen-tativity of hydrological modelling. The study region is the Haute-Mentue catchment lo-cated in the western part of Switzerland, 20 km north of Lausanne. Previous research in this catchment allowed improving of the understanding of the runoff generation by combining point soil moisture measurements (TDR) and integrating measurements both at the hillslope scale (dye tracing) and at the catchment scale (environmental tracing). In this work, environmental tracing information will be integrated into a semi-distributed hydrological model, which is a modified version of TOPMODEL taking into account a rapid stormflow generation above a less permeable soil horizon. Additional information has been incorporated by using a version of simulated annealing adapted for multi-criteria optimisation. and Štúdia je venovaná využitiu dodatkových informácií pri reálnejšej simulácii hydrologických procesov v zrážkovo-odtokovom modeli. Študovanou oblasťou je povodie Haute-Mentue, ležiace v západnej časti Švajčiarska, 20 km od Lausanne. Predchádzajúci výskum v tomto povodí, založený na kombinácii bodových meraní (TDR) a integrovaných meraní v mierke svahu (farbiace skúšky) a povodia (prirodzené stopovače), zlepšil vedomosti o tvorbe odtoku. V tejto štúdii sú informácie získané prirodzenými stopovačmi použité pri posudzovaní výsledkov simulácie odtoku pomocou semidistribuovaného hydrologického modelu (modifikovaná verzia modelu TOPMODEL, ktorá uvažuje s mechanizmom tvorby odtoku nasýtením nad vrstvou pôdy s nižšou priepustnosťou). Ďalšou dodatkovou informáciou boli výsledky automatickej optimalizácie parametrov modelu pmocou metódy vychádzajúcej z analógie medzi optimalizáciou parametrov modelu a rozdelením častíc v tuhnúcej kvapaline (tzv. simulated annealing), adaptovanej na optimalizáciu podľa viacerých kritérií.
Accurate measurement of shallow flows is important for hydraulics, hydrology and water resources management. The objective of this paper is to discuss a technique for shallow flow and overland flow velocity estimation that uses infrared thermography. Laboratory flumes and different bare, vegetated and paved field surfaces were used to test the technique. Results show that shallow flow surface velocities estimated using thermal tracers and infrared technology are similar to estimates obtained using the Acoustic Doppler Velocimeter; similar results were also obtained for overland flow velocity estimates using thermography, here comparing with the dye tracer technique. The thermographic approach revealed some potential as a flow visualization technique, and leaves space for future studies and research.
The paper describes results of validation of authors' recently proposed formulae for sediment transport and bed friction in the upper plane bed regime using laboratory experiments in a pressurized pipe. Flows of mixture of water and fine to medium ballotini (d50 = 0.18 mm) were observed in a rectangular pipe (51 x 51 mm) with a deposit at the bottom of the pipe. A comparison of test results with transport-formula predictions shows a satisfactory match confirming a good prediction ability of the proposed transport formula at high bed shear. A prediction ability of the friction formulae appears to be less convincing but still reasonable. A joint use of the formulae for transport and friction predicts the delivered concentration of transported sediment within the accuracy range of ± 40 per cent for flows in which transported sediments strongly affect the bed friction, i.e. for flows with delivered concentration of sediment higher than say 3 per cent.
In this paper, I investigate the scalar semantics of evaluative adjective in general, and of good in particular. Lassiter (2017) has argued that good, when taking propositions as arguments, has an interval scale. I argue that there’s evidence in support of the view that good, when taking individuals as argument, has a scale that is stronger than interval, but weaker than ratio. In particular, I propose that individual-level good has a “round” ratio scale, which allows a broader set of ratio transformations than standard ratio scales. This conclusion is consistent with the fact that good admits round ratio modifiers (twice as good), but eschews precise ones (# 1.38x as good). An important consequence of this view is that the scales of individual and propositional-level good are severed.