This page has only limited features, please log in for full access.

Unclaimed
Małgorzata Kleniewska
Department of Remote Sensing and Environmental Assessment, Institute of Environmental Engineering, Warsaw University of Life Sciences—SGGW, 02-787 Warsaw, Poland

Basic Info

Basic Info is private.

Honors and Awards

The user has no records in this section


Career Timeline

The user has no records in this section.


Short Biography

The user biography is not available.
Following
Followers
Co Authors
The list of users this user is following is empty.
Following: 0 users

Feed

Journal article
Published: 28 May 2021 in Remote Sensing
Reads 0
Downloads 0

Peatlands play an important role in the global carbon cycle due to the high carbon storage in the substrate. Ecosystem production depends, for example, on the solar energy amount that reaches the vegetation, however the diffuse component of this flux can substantially increase ecosystem net productivity. This phenomenon is observed in different ecosystems, but the study of the atmosphere optical properties on peatland production is lacking. In this paper, the presented methodology allowed us to disentangle the diffuse radiation impact on the net ecosystem production (NEP) of Rzecin peatland, Poland. It allowed us to assess the impact of the atmospheric scattering process determined by the aerosol presence in the air mass. An application of atmospheric radiation transfer (ART) and ecosystem production (EP) models showed that the increase of aerosol optical thickness from 0.09 to 0.17 caused NEP to rise by 3.4–5.7%. An increase of the diffusion index (DI) by 0.1 resulted in an NEP increase of 6.1–42.3%, while a DI decrease of 0.1 determined an NEP reduction of −49.0 to −10.5%. These results show that low peatland vegetation responds to changes in light scattering. This phenomenon should be taken into account when calculating the global CO2 uptake estimation of such ecosystems.

ACS Style

Kamila Harenda; Mateusz Samson; Radosław Juszczak; Krzysztof Markowicz; Iwona Stachlewska; Małgorzata Kleniewska; Alasdair MacArthur; Dirk Schüttemeyer; Bogdan Chojnicki. Impact of Atmospheric Optical Properties on Net Ecosystem Productivity of Peatland in Poland. Remote Sensing 2021, 13, 2124 .

AMA Style

Kamila Harenda, Mateusz Samson, Radosław Juszczak, Krzysztof Markowicz, Iwona Stachlewska, Małgorzata Kleniewska, Alasdair MacArthur, Dirk Schüttemeyer, Bogdan Chojnicki. Impact of Atmospheric Optical Properties on Net Ecosystem Productivity of Peatland in Poland. Remote Sensing. 2021; 13 (11):2124.

Chicago/Turabian Style

Kamila Harenda; Mateusz Samson; Radosław Juszczak; Krzysztof Markowicz; Iwona Stachlewska; Małgorzata Kleniewska; Alasdair MacArthur; Dirk Schüttemeyer; Bogdan Chojnicki. 2021. "Impact of Atmospheric Optical Properties on Net Ecosystem Productivity of Peatland in Poland." Remote Sensing 13, no. 11: 2124.

Journal article
Published: 14 February 2020 in Remote Sensing
Reads 0
Downloads 0

Despite covering only 2–6% of land, wetland ecosystems play an important role at the local and global scale. They provide various ecosystem services (carbon dioxide sequestration, pollution removal, water retention, climate regulation, etc.) as long as they are in good condition. By definition, wetlands are rich in water ecosystems. However, ongoing climate change with an ambiguous balance of rain in a temperate climate zone leads to drought conditions. Such periods interfere with the natural processes occurring on wetlands and restrain the normal functioning of wetland ecosystems. Persisting unfavorable water conditions lead to irreversible changes in wetland habitats. Hence, the monitoring of habitat changes caused by an insufficient amount of water (plant water stress) is necessary. Unfortunately, due to the specific conditions of wetlands, monitoring them by both traditional and remote sensing techniques is challenging, and research on wetland water stress has been insufficient. This paper describes the adaptation of the thermal water stress index, also known as the crop water stress index (CWSI), for wetlands. This index is calculated based on land surface temperature and meteorological parameters (temperature and vapor pressure deficit—VPD). In this study, an unmanned aerial system (UAS) was used to measure land surface temperature. Performance of the CWSI was confirmed by the high correlation with field measurements of a fraction of absorbed photosynthetically active radiation (R = −0.70) and soil moisture (R = −0.62). Comparison of the crop water stress index with meteorological drought indices showed that the first phase of drought (meteorological drought) cannot be detected with this index. This study confirms the potential of using the CWSI as a water stress indicator in wetland ecosystems.

ACS Style

Wojciech Ciężkowski; Sylwia Szporak-Wasilewska; Małgorzata Kleniewska; Jacek Jóźwiak; Tomasz Gnatowski; Piotr Dąbrowski; Maciej Góraj; Jan Szatyłowicz; Stefan Ignar; Jarosław Chormański. Remotely Sensed Land Surface Temperature-Based Water Stress Index for Wetland Habitats. Remote Sensing 2020, 12, 631 .

AMA Style

Wojciech Ciężkowski, Sylwia Szporak-Wasilewska, Małgorzata Kleniewska, Jacek Jóźwiak, Tomasz Gnatowski, Piotr Dąbrowski, Maciej Góraj, Jan Szatyłowicz, Stefan Ignar, Jarosław Chormański. Remotely Sensed Land Surface Temperature-Based Water Stress Index for Wetland Habitats. Remote Sensing. 2020; 12 (4):631.

Chicago/Turabian Style

Wojciech Ciężkowski; Sylwia Szporak-Wasilewska; Małgorzata Kleniewska; Jacek Jóźwiak; Tomasz Gnatowski; Piotr Dąbrowski; Maciej Góraj; Jan Szatyłowicz; Stefan Ignar; Jarosław Chormański. 2020. "Remotely Sensed Land Surface Temperature-Based Water Stress Index for Wetland Habitats." Remote Sensing 12, no. 4: 631.

Journal article
Published: 22 January 2020 in Applied Sciences
Reads 0
Downloads 0

The aim of the study was to calibrate coefficients and evaluate performance of simple, day-of-the-year, global solar radiation (H) models nominated from the literature. Day-of-the-year models enable estimation of global solar radiation when no meteorological data is available. The study used 16-year-long data series of daily H, taken at 15 actinometric stations located in various parts of Poland. The goodness-of-fit of the models to the actual long-term monthly average daily global solar radiation data expressed by determination coefficient (R2) ranges from 0.94 to 0.97. Depending on statistical indicators analysis (root mean square error—RMSE, mean absolute bias error—MABE, mean average percentage error—MAPE) the best model was selected. The averaged values of H computed by the recommended model deviate from those measured by 4.16% to 8.71%. Locally calibrated, day-of-the-year model provides satisfactory accuracy and—where meteorological data is unavailable—can be used to estimate mean monthly daily global solar radiation in Poland and similar climate conditions.

ACS Style

Małgorzata Kleniewska; Dorota Mitrowska; Michał Wasilewicz. Estimating Daily Global Solar Radiation with No Meteorological Data in Poland. Applied Sciences 2020, 10, 778 .

AMA Style

Małgorzata Kleniewska, Dorota Mitrowska, Michał Wasilewicz. Estimating Daily Global Solar Radiation with No Meteorological Data in Poland. Applied Sciences. 2020; 10 (3):778.

Chicago/Turabian Style

Małgorzata Kleniewska; Dorota Mitrowska; Michał Wasilewicz. 2020. "Estimating Daily Global Solar Radiation with No Meteorological Data in Poland." Applied Sciences 10, no. 3: 778.

Preprint
Published: 12 December 2018
Reads 0
Downloads 0

The research carried out concerned the laboratory assessment of the applicability of the Crop Water Stress Index (CWSI) as a practical tool for assessing the risk of desiccation for selected wetland habitats: transition mires and quaking bogs as well as alkaline fens. The analysis was carried out on 3 soil samples with a vegetation cover (with the dimensions of 40×40×30 cm) collected during the full vegetation season for each mentioned habitat, with a characteristic species composition. Experimental research was carried out between 17th May 2018 and 19th June 2018. Thermal, RGB and multispectral images, chlorophyll content, volumetric soil moisture, air temperature and relative humidity measurements were taken for each sample every two days. The obtained results clearly indicate the dependence between CWSI and plant condition parameters in the first phase of desiccation. At the same time, as a result of the observations taken, thresholds have been set, indicating different desiccation phases.

ACS Style

Maciej Góraj; Wojciech Ciężkowski; Piotr Sikorski; Małgorzata Kleniewska; Sylwia Szporak-Wasilewska; Jacek Jóźwiak; Tomasz Gnatowski; Jan Szatyłowicz; Jarosław Chormański. Characterizing Selected Wetland Habitats’ Desiccation Phenomena Using the Crop Water Stress Index. 2018, 1 .

AMA Style

Maciej Góraj, Wojciech Ciężkowski, Piotr Sikorski, Małgorzata Kleniewska, Sylwia Szporak-Wasilewska, Jacek Jóźwiak, Tomasz Gnatowski, Jan Szatyłowicz, Jarosław Chormański. Characterizing Selected Wetland Habitats’ Desiccation Phenomena Using the Crop Water Stress Index. . 2018; ():1.

Chicago/Turabian Style

Maciej Góraj; Wojciech Ciężkowski; Piotr Sikorski; Małgorzata Kleniewska; Sylwia Szporak-Wasilewska; Jacek Jóźwiak; Tomasz Gnatowski; Jan Szatyłowicz; Jarosław Chormański. 2018. "Characterizing Selected Wetland Habitats’ Desiccation Phenomena Using the Crop Water Stress Index." , no. : 1.

Journal article
Published: 28 November 2018 in Water
Reads 0
Downloads 0

Evapotranspiration (ET) estimation through the surface energy balance (SEB) and soil-vegetation-atmosphere-transfer (SVAT) models are uncertain due to the empirical parameterizations of the aerodynamic and canopy-substrate conductances (gA and gS) for heat and water vapor transfers. This study critically assessed the impact of conductance parameterizations on ET simulation using three structurally different SEB and SVAT models for an ecologically important North-Eastern European wetland, Upper Biebrza National Park (UBNP) in two consecutive years 2015 and 2016. A pronounced ET underestimation (mean bias −0.48 to −0.68 mm day−1) in SEBS (Surface Energy Balance System) was associated with an overestimation of gA due to uncertain parameterization of momentum roughness length and bare soil’s excess resistance to heat transfer (kB−1) under low vegetation cover. The systematic ET overestimation (0.65–0.80 mm day−1) in SCOPE (Soil Canopy Observation, Photochemistry and Energy fluxes) was attributed to the overestimation of both the conductances. Conductance parameterizations in SEBS and SCOPE appeared to be very sensitive to the general ecohydrological conditions, with a tendency of overestimating gA (gS) under humid (arid) conditions. Low ET bias in the analytical STIC (Surface Temperature Initiated Closure) model as compared to SEBS/SCOPE indicated the critical need for calibration-free conductance parameterizations for improved ET estimation.

ACS Style

Kaniska Mallick; Loise Wandera; Nishan Bhattarai; Renaud Hostache; Malgorzata Kleniewska; Jaroslaw Chormanski. A Critical Evaluation on the Role of Aerodynamic and Canopy–Surface Conductance Parameterization in SEB and SVAT Models for Simulating Evapotranspiration: A Case Study in the Upper Biebrza National Park Wetland in Poland. Water 2018, 10, 1753 .

AMA Style

Kaniska Mallick, Loise Wandera, Nishan Bhattarai, Renaud Hostache, Malgorzata Kleniewska, Jaroslaw Chormanski. A Critical Evaluation on the Role of Aerodynamic and Canopy–Surface Conductance Parameterization in SEB and SVAT Models for Simulating Evapotranspiration: A Case Study in the Upper Biebrza National Park Wetland in Poland. Water. 2018; 10 (12):1753.

Chicago/Turabian Style

Kaniska Mallick; Loise Wandera; Nishan Bhattarai; Renaud Hostache; Malgorzata Kleniewska; Jaroslaw Chormanski. 2018. "A Critical Evaluation on the Role of Aerodynamic and Canopy–Surface Conductance Parameterization in SEB and SVAT Models for Simulating Evapotranspiration: A Case Study in the Upper Biebrza National Park Wetland in Poland." Water 10, no. 12: 1753.

Conference paper
Published: 01 July 2018 in IGARSS 2018 - 2018 IEEE International Geoscience and Remote Sensing Symposium
Reads 0
Downloads 0

This study is focused on adaptation of the water stress index to make use of it on bogs and mires of temperate transitional climate zone. Investigated object is located in Janowskie Forest Landscape Park (south-east Poland), area protected within Natura 2000 network and recognized as habitat 7140 (transition mires and quaking bogs). In order to obtain dataset UAV flights with thermal camera and airborne mission with hyperspectral sensor were performed. Field measurements included collection of both meteorological and biophysical parameters. It is shown that CWSI is a promising method for monitoring of water stress on Natura 2000 habitats.

ACS Style

Wojciech Ciężkowski; Jacek Jozwiak; Sylwia Szporak-Wasilewska; Piotr Dąbrowski; Małgorzata Kleniewska; Maciej Goraj; Jaroslaw Chormanski. Water Stress Index for Bogs and Mires Based on UAV Land Surface Measuremnts and Its Dependency on Airborne Hyperespectral Data. IGARSS 2018 - 2018 IEEE International Geoscience and Remote Sensing Symposium 2018, 9257 -9260.

AMA Style

Wojciech Ciężkowski, Jacek Jozwiak, Sylwia Szporak-Wasilewska, Piotr Dąbrowski, Małgorzata Kleniewska, Maciej Goraj, Jaroslaw Chormanski. Water Stress Index for Bogs and Mires Based on UAV Land Surface Measuremnts and Its Dependency on Airborne Hyperespectral Data. IGARSS 2018 - 2018 IEEE International Geoscience and Remote Sensing Symposium. 2018; ():9257-9260.

Chicago/Turabian Style

Wojciech Ciężkowski; Jacek Jozwiak; Sylwia Szporak-Wasilewska; Piotr Dąbrowski; Małgorzata Kleniewska; Maciej Goraj; Jaroslaw Chormanski. 2018. "Water Stress Index for Bogs and Mires Based on UAV Land Surface Measuremnts and Its Dependency on Airborne Hyperespectral Data." IGARSS 2018 - 2018 IEEE International Geoscience and Remote Sensing Symposium , no. : 9257-9260.

Conference paper
Published: 01 July 2018 in IGARSS 2018 - 2018 IEEE International Geoscience and Remote Sensing Symposium
Reads 0
Downloads 0

This study shows results of parallel measurements of greenhouse gases fluxes (carbon dioxide and water vapour) and canopy reflectance of alkaline fen. Fluxes were measured using eddy-covariance technique on micrometeorological station located in the Upper Biebrza Basin (NE Poland) in Rogożynek Village. Study site is located in the Biebrza National Park which was established to protect one of the biggest coherent lowland wetland area in the Central Europe. Statistical relations of reflectance and spectral indices with fluxes were calculated based on measurements during two growing season (2015 and 2016). Four types of functions were examined: linear, quadratic, exponential and logarithmic and for two timestamps: half-hour and day. The correlation between carbon dioxide fluxes and reflectance is better than for water vapour fluxes. For both carbon dioxide and water vapour we obtained higher correlations coefficients using selected spectral indices than using reflectance and higher correlations for daily timestamp than for half-hour fluxes.

ACS Style

Wojciech Ciężkowski; Tomasz Berezowski; Małgorzata Kleniewska; Jaroslaw Chormanski. Carbon Dioxide and Water Vapour Fluxes of a Alkaline Fen and Their Dependence on Reflectance. IGARSS 2018 - 2018 IEEE International Geoscience and Remote Sensing Symposium 2018, 9253 -9256.

AMA Style

Wojciech Ciężkowski, Tomasz Berezowski, Małgorzata Kleniewska, Jaroslaw Chormanski. Carbon Dioxide and Water Vapour Fluxes of a Alkaline Fen and Their Dependence on Reflectance. IGARSS 2018 - 2018 IEEE International Geoscience and Remote Sensing Symposium. 2018; ():9253-9256.

Chicago/Turabian Style

Wojciech Ciężkowski; Tomasz Berezowski; Małgorzata Kleniewska; Jaroslaw Chormanski. 2018. "Carbon Dioxide and Water Vapour Fluxes of a Alkaline Fen and Their Dependence on Reflectance." IGARSS 2018 - 2018 IEEE International Geoscience and Remote Sensing Symposium , no. : 9253-9256.

Journal article
Published: 05 January 2018 in Water
Reads 0
Downloads 0

This study estimates rainfall interception losses from natural wetland ecosystems based on maximum canopy storage measurements. Rainfall interception losses play an important role in water balance, which is crucial in wetlands, and has not yet been thoroughly studied in relation to this type of ecosystem. Maximum canopy storage was measured using the weight method. Based on these measurements, daily values of interception losses were estimated and then used to calculate long-term interception losses based on precipitation and potential evapotranspiration data for the 1971–2015 period. Depending mainly on the number of days with precipitation, the results show that total interception losses for the growing season as well as monthly interception losses are around 13% of gross rainfall. This value is similar to the values observed for some forests. Hence, interception losses should not be disregarded in hydrologic models of wetlands, especially because data trends in meteorological conditions (mainly number of days with precipitation) show that interception losses will increase in the future if those trends stay the same.

ACS Style

Wojciech Ciężkowski; Tomasz Berezowski; Małgorzata Kleniewska; Sylwia Szporak-Wasilewska; Jarosław Chormański. Modelling Wetland Growing Season Rainfall Interception Losses Based on Maximum Canopy Storage Measurements. Water 2018, 10, 41 .

AMA Style

Wojciech Ciężkowski, Tomasz Berezowski, Małgorzata Kleniewska, Sylwia Szporak-Wasilewska, Jarosław Chormański. Modelling Wetland Growing Season Rainfall Interception Losses Based on Maximum Canopy Storage Measurements. Water. 2018; 10 (1):41.

Chicago/Turabian Style

Wojciech Ciężkowski; Tomasz Berezowski; Małgorzata Kleniewska; Sylwia Szporak-Wasilewska; Jarosław Chormański. 2018. "Modelling Wetland Growing Season Rainfall Interception Losses Based on Maximum Canopy Storage Measurements." Water 10, no. 1: 41.

Preprint
Published: 14 December 2017
Reads 0
Downloads 0

This study estimates rainfall interception losses from natural wetland ecosystems based on maximum canopy storage measurements. Rainfall interception losses play an important role in water balance, which is crucial in wetlands, and has not yet been thoroughly studied in relation to this type of ecosystem. Maximum canopy storage was measured using the weight method. Based on these measurements, daily values of interception losses were estimated and then used to calculate long term interception losses based on precipitation and potential evapotranspiration data for the 1971–2015 period. Depending mainly on the number of days with precipitation, the results show that total interception losses for the growing season as well as monthly interception losses are around 13% of gross rainfall. This value is similar to the values observed for some forests. Hence, interception losses should not be disregarded in hydrologic models of wetlands, especially because data trends in meteorological conditions (mainly number of days with precipitation) show that interception losses will increase in the future if those trends stay the same.

ACS Style

Wojciech Ciężkowski; Tomasz Berezowski; Małgorzata Kleniewska; Sylwia Szporak-Wasilewska; Jarosław Chormański. Modelling Wetland Growing Season Rainfall Interception Losses Based on Maximum Canopy Storage Measurements. 2017, 1 .

AMA Style

Wojciech Ciężkowski, Tomasz Berezowski, Małgorzata Kleniewska, Sylwia Szporak-Wasilewska, Jarosław Chormański. Modelling Wetland Growing Season Rainfall Interception Losses Based on Maximum Canopy Storage Measurements. . 2017; ():1.

Chicago/Turabian Style

Wojciech Ciężkowski; Tomasz Berezowski; Małgorzata Kleniewska; Sylwia Szporak-Wasilewska; Jarosław Chormański. 2017. "Modelling Wetland Growing Season Rainfall Interception Losses Based on Maximum Canopy Storage Measurements." , no. : 1.

Journal article
Published: 22 September 2016 in Meteorology Hydrology and Water Management
Reads 0
Downloads 0

This study is based on a 50-year data series (1964-2013) of total solar radiation (G) from the Kołobrzeg - station that is located on the Polish Baltic Sea coast and is characterised by a very high level of air quality. To find and remove gross errors, quality control checking procedures were...

ACS Style

Małgorzata Kleniewska; Bogdan Chojnicki; Manuel Acosta. Long-term total solar radiation variability at the Polish Baltic coast in Kołobrzeg within the period 1964-2013. Meteorology Hydrology and Water Management 2016, 4, 35 -40.

AMA Style

Małgorzata Kleniewska, Bogdan Chojnicki, Manuel Acosta. Long-term total solar radiation variability at the Polish Baltic coast in Kołobrzeg within the period 1964-2013. Meteorology Hydrology and Water Management. 2016; 4 (2):35-40.

Chicago/Turabian Style

Małgorzata Kleniewska; Bogdan Chojnicki; Manuel Acosta. 2016. "Long-term total solar radiation variability at the Polish Baltic coast in Kołobrzeg within the period 1964-2013." Meteorology Hydrology and Water Management 4, no. 2: 35-40.

Journal article
Published: 26 January 2016 in Journal of Hydrology and Hydromechanics
Reads 0
Downloads 0

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.

ACS Style

Andrzej Brandyk; Adam Kiczko; Grzegorz Majewski; Małgorzata Kleniewska; Marcin Krukowski. Uncertainty of Deardorff’s soil moisture model based on continuous TDR measurements for sandy loam soil. Journal of Hydrology and Hydromechanics 2016, 64, 23 -29.

AMA Style

Andrzej Brandyk, Adam Kiczko, Grzegorz Majewski, Małgorzata Kleniewska, Marcin Krukowski. Uncertainty of Deardorff’s soil moisture model based on continuous TDR measurements for sandy loam soil. Journal of Hydrology and Hydromechanics. 2016; 64 (1):23-29.

Chicago/Turabian Style

Andrzej Brandyk; Adam Kiczko; Grzegorz Majewski; Małgorzata Kleniewska; Marcin Krukowski. 2016. "Uncertainty of Deardorff’s soil moisture model based on continuous TDR measurements for sandy loam soil." Journal of Hydrology and Hydromechanics 64, no. 1: 23-29.

Conference paper
Published: 14 October 2015 in Remote Sensing for Agriculture, Ecosystems, and Hydrology XIX
Reads 0
Downloads 0
ACS Style

Joanna Suliga; Jarosław Chormański; Sylwia Szporak-Wasilewska; Małgorzata Kleniewska; Tomasz Berezowski; Ann Van Griensven; Boud Verbeiren. Derivation from the Landsat 7 NDVI and ground truth validation of LAI and interception storage capacity for wetland ecosystems in Biebrza Valley, Poland. Remote Sensing for Agriculture, Ecosystems, and Hydrology XIX 2015, 96371Z -96371Z-13.

AMA Style

Joanna Suliga, Jarosław Chormański, Sylwia Szporak-Wasilewska, Małgorzata Kleniewska, Tomasz Berezowski, Ann Van Griensven, Boud Verbeiren. Derivation from the Landsat 7 NDVI and ground truth validation of LAI and interception storage capacity for wetland ecosystems in Biebrza Valley, Poland. Remote Sensing for Agriculture, Ecosystems, and Hydrology XIX. 2015; ():96371Z-96371Z-13.

Chicago/Turabian Style

Joanna Suliga; Jarosław Chormański; Sylwia Szporak-Wasilewska; Małgorzata Kleniewska; Tomasz Berezowski; Ann Van Griensven; Boud Verbeiren. 2015. "Derivation from the Landsat 7 NDVI and ground truth validation of LAI and interception storage capacity for wetland ecosystems in Biebrza Valley, Poland." Remote Sensing for Agriculture, Ecosystems, and Hydrology XIX , no. : 96371Z-96371Z-13.

Conference paper
Published: 01 July 2015 in 2015 IEEE International Geoscience and Remote Sensing Symposium (IGARSS)
Reads 0
Downloads 0

In this study we develop a spatial model for interception capacity of vegetation based on LiDAR data. The study is conducted in the natural wetland river valley dominated meadows, reeds and small bushes. The multiple regression model was chosen to relate the field measurements of interception capacity and LiDAR statistics at 2m grid. The optimal model was chosen by stepwise selection and further manual variables selection resulting in the r 2 of 0.52 and the residual standard error of 0.27 mm. The model preserved the vegetation pattern spatially and showed reasonable estimates for both vegetation covered and not covered by field sampling. The model was, however, affected by LiDAR measurements corrupted by river inundation. The results show good perspective for using LiDAR data for interception capacity estimation.

ACS Style

Tomasz Berezowski; Jaroslaw Chormanski; Małgorzata Kleniewska; Sylwia Szporak-Wasilewska. Towards rainfall interception capacity estimation using ALS LiDAR data. 2015 IEEE International Geoscience and Remote Sensing Symposium (IGARSS) 2015, 735 -738.

AMA Style

Tomasz Berezowski, Jaroslaw Chormanski, Małgorzata Kleniewska, Sylwia Szporak-Wasilewska. Towards rainfall interception capacity estimation using ALS LiDAR data. 2015 IEEE International Geoscience and Remote Sensing Symposium (IGARSS). 2015; ():735-738.

Chicago/Turabian Style

Tomasz Berezowski; Jaroslaw Chormanski; Małgorzata Kleniewska; Sylwia Szporak-Wasilewska. 2015. "Towards rainfall interception capacity estimation using ALS LiDAR data." 2015 IEEE International Geoscience and Remote Sensing Symposium (IGARSS) , no. : 735-738.

Journal article
Published: 01 January 2015 in Polish Journal of Environmental Studies
Reads 0
Downloads 0

The Polish Journal of Environmental Studies publishes original papers and critical reviews

ACS Style

Małgorzata Kleniewska; Dariusz Gołaszewski; Grzegorz Majewski; Sylwia Szporak-Wasilewska; Katarzyna Rozbicka; Tomasz Rozbicki. Diurnal Course of the Main Heat Balance Components of a Marshy Meadow in the Lower Biebrza River Valley. Polish Journal of Environmental Studies 2015, 24, 945 -950.

AMA Style

Małgorzata Kleniewska, Dariusz Gołaszewski, Grzegorz Majewski, Sylwia Szporak-Wasilewska, Katarzyna Rozbicka, Tomasz Rozbicki. Diurnal Course of the Main Heat Balance Components of a Marshy Meadow in the Lower Biebrza River Valley. Polish Journal of Environmental Studies. 2015; 24 ():945-950.

Chicago/Turabian Style

Małgorzata Kleniewska; Dariusz Gołaszewski; Grzegorz Majewski; Sylwia Szporak-Wasilewska; Katarzyna Rozbicka; Tomasz Rozbicki. 2015. "Diurnal Course of the Main Heat Balance Components of a Marshy Meadow in the Lower Biebrza River Valley." Polish Journal of Environmental Studies 24, no. : 945-950.

Journal article
Published: 09 June 2013 in Theoretical and Applied Climatology
Reads 0
Downloads 0
ACS Style

Grzegorz Majewski; Wiesława Przewoźniczuk; Małgorzata Kleniewska. The effect of urban conurbation on the modification of human thermal perception, as illustrated by the example of Warsaw (Poland). Theoretical and Applied Climatology 2013, 116, 147 -154.

AMA Style

Grzegorz Majewski, Wiesława Przewoźniczuk, Małgorzata Kleniewska. The effect of urban conurbation on the modification of human thermal perception, as illustrated by the example of Warsaw (Poland). Theoretical and Applied Climatology. 2013; 116 ():147-154.

Chicago/Turabian Style

Grzegorz Majewski; Wiesława Przewoźniczuk; Małgorzata Kleniewska. 2013. "The effect of urban conurbation on the modification of human thermal perception, as illustrated by the example of Warsaw (Poland)." Theoretical and Applied Climatology 116, no. : 147-154.