A5044954807- Climate variability and models
- Hydrology and Watershed Management Studies
- Geophysics and Gravity Measurements
- Hydrology and Drought Analysis
- Meteorological Phenomena and Simulations
- Precipitation Measurement and Analysis
- Plant Water Relations and Carbon Dynamics
- Consumer Market Behavior and Pricing
- Advanced Malware Detection Techniques
- Soil erosion and sediment transport
- Anomaly Detection Techniques and Applications
- Data Analysis with R
- Tree-ring climate responses
- Network Security and Intrusion Detection
- Digital Media Forensic Detection
- Hydrological Forecasting Using AI
- Oceanographic and Atmospheric Processes
- Cryospheric studies and observations
- Air Quality and Health Impacts
- Ecology and biodiversity studies
- Atmospheric aerosols and clouds
- Enhanced Oil Recovery Techniques
- Soil and Unsaturated Flow
- Water-Energy-Food Nexus Studies
- Infrastructure Resilience and Vulnerability Analysis
Czech University of Life Sciences Prague
2019-2025
Tulane University
2024
Khalifa University of Science and Technology
2017
Masdar Institute of Science and Technology
2017
Abstract Storms include a range of weather events resulting in heavy liquid and solid precipitation high winds. These critically impact crops natural resources and, turn, health, economy, infrastructure safety. The intensity frequency the physical mechanisms triggering storms will most likely increase under global warming due to changing flows water energy atmosphere. Addressing storm threats holistically requires nexus approach that links climate change, infrastructure, human prosperity...
Rainfall intermittency is a defining characteristic of the hydrology in arid and semi-arid regions. These climates experience prolonged droughts interrupted by brief, intense rainfall events, which have substantial effects on landforms, ecosystems, water resources. Under climate change, intermittent precipitation patterns are expected to become more prevalent across wider range climates. Despite this, there limited research link between physical aridity. Furthermore, high-resolution...
Abstract. The water cycle in Czechia has been observed to be changing recent years, with precipitation and evapotranspiration rates exhibiting a trend of acceleration. However, the spatial patterns such changes remain poorly understood due heterogeneous network ground observations. This study relied on multiple state-of-the-art reanalyses hydrological modeling. Herein, we propose novel method for benchmarking hydroclimatic data fusion based budget closure. We ranked closure 96 different...
Abstract. Since the beginning of this century, Europe has been experiencing severe drought events (2003, 2007, 2010, 2018 and 2019) which have had adverse impacts on various sectors, such as agriculture, forestry, water management, health ecosystems. During last few decades, projections impact climate change hydroclimatic extremes often used for quantification changes in characteristics these extremes. Recently, research interest extended to include reconstructions conditions provide...
Time series of annual maxima daily precipitation are crucial for understanding extreme behavior and its shifts toward nonstationarity with global warming. Extreme insight assists hydraulic infrastructure design, water resource management, natural hazard prevention, climate change adaptation. However, not even a third the records sufficient length, number active stations keeps decreasing. Herein, we present HYADES: archive yearly records, dataset derived from Global Historical Climatology...
Abstract Droughts exert widespread impacts on both natural and social systems, there is accumulating evidence that this situation may worsen in the context of global warming. Despite importance assessing changes droughts to understand their potential future society, studies are unevenly distributed worldwide. In study, utilizing bias-corrected CMIP6 simulations a standard precipitation-evaporation index based approach, we quantified expected drought properties across 735 Brazilian catchments...
Abstract The study of the water cycle at planetary scale is crucial for our understanding large-scale climatic processes. However, very little known about how terrestrial precipitation distributed across different environments. In this study, we address gap by employing a 17-dataset ensemble to provide, first time, estimates over suite land cover types, biomes, elevation zones, and intensity classes. We estimate annual approximately 114,000 ± 9400 km 3 , with 70% falling tropical,...
Abstract Climate reanalyses complement traditional surface-based measurements and offer unprecedented coverage over previously inaccessible or unmonitored regions. Even though these have improved the quantification of global water cycle, their varying performances uncertainties limit applicability. Herein, we discuss how a framework encompassing precipitation, evaporation, difference, sum could further constrain uncertainty by unveiling discrepancies otherwise overlooked. Ahead, physically...
Wettability has been recognized to play a fundamental role in the efficacy of water flooding processes carbonate oil and gas reservoirs.
Earth and Space Science Open Archive This preprint has been submitted to is under consideration at Geophysical Research Letters. ESSOAr a venue for early communication or feedback before peer review. Data may be preliminary.Learn more about preprints preprintOpen AccessYou are viewing an older version [v1]Go new versionAn Alternative Approach Assess Water Cycle Intensification the Global ScaleAuthorsMijael RodrigoVargas GodoyiDYannisMarkonisiDSee all authors Mijael Rodrigo Vargas...
Abstract. Hydrological models are essential tools for assessing and predicting changes in the hydrological cycle, offering detailed quantification of components like runoff (Q), total water storage (TWS), actual evapotranspiration (AET). Precipitation (PRE) potential (PET) major required drivers modeling these components. In modeling, linkage PRE to cycle is well understood compared PET. Here, we focus on PET their influence (AET, Q, TWS). We consider 12 distinct methods from three different...
Evapotranspiration (ET) is a key climate indicator closely related to the water, energy, and carbon cycles. ET datasets are produced using various methods, including satellite-based observations, hydrological models, reanalysis. However, relying on single product might lead high uncertainty due spatio-temporal inhomogeneity of dataset, highlighting crucial need for multiple available options. evapoRe addresses pressing issue inhomogeneous datasets. This package (available at...
The study of water distribution and movement in the Earth's atmosphere on its surface plays a pivotal role understanding intricate dynamics resources crucial for sustaining ecosystems, agriculture, human societies worldwide. Therefore, precipitation data becomes linchpin, shaping foundation informed decision-making resource management environmental planning. This undertakes comprehensive comparison 20 sets (CMAP, CMORPH, CPC-Global, CRU TS v4.07, EM-Earth, ERA5, ERA5-Land, FLDAS, GPCC v2020,...
The study of the water cycle at planetary scale is crucial for our understanding large-scale climatic processes. There have been numerous studies that quantified and its components, i.e., precipitation, evaporation, runoff, over land ocean. However, very little known about how fluxes are distributed across regions with different or properties. Here, we address this gap by providing robust estimates terrestrial precipitation a suite cover types, biomes, elevation zones, intensity classes. We...
Abstract Heatwaves pose significant threats to socioeconomic and environmental systems, with their intensity frequency expected increase due climate change. Despite critical impacts, future heatwaves in Brazil remain underexplored, especially from a human-perceived perspective, which is crucial for assessing potential public health impacts. Here, we propose method assess using the humidex ( <mml:math xmlns:mml="http://www.w3.org/1998/Math/MathML" overflow="scroll"> <mml:mi>H</mml:mi>...