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1

Prace fotointerpretacyjne dla potrzeb planu ochrony Wolinskiego Parku Narodowego

100%
Furmanczyk K.
Klify
|
2000
|
tom 04
227-237
2
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Wykorzystanie pakietu R w zagadnieniach dotyczących procedur jednoczesnego testowania wielu hipotez

72%
Dudzinski M., Furmanczyk K.
Przegląd Naukowy. Inżynieria i Kształtowanie Środowiska
|
2007
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tom 16
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nr 1[35]
In our paper, we give the simulation results concerning the multiple-comparison procedures, especially their error measures, such as FWER and FDR. We compare the powers of four popular multiple-comparison procedures, applied to three standard statistical models. All of our simulations were carried out by using the R-project package.
3

Plant communities of the Admiralty Bay region (King George Island, South Shetland Islands, Antarctic) I. Jasnorzewski Gardens

72%
Furmanczyk K., Ochyra R.
Polish Polar Research
|
1982
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tom 03
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nr 1-2
4

Distribution of macroalgae groupings in shallow waters of Admiralty Bay (King George Island, South Shetland) Islands, Antarctic), plotted with the help of air photographs analysis

72%
Furmanczyk K., Zielinski K.
Polish Polar Research
|
1982
|
tom 03
|
nr 1-2
5

Application of XBeach to model a storm response on a sandy spit at the Southern Baltic

58%
Bugajny N., Furmanczyk K., Dudzinska-Nowak J.
Oceanological and Hydrobiological Studies
|
2015
|
tom 44
|
nr 4
6
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Analiza zmienności parametrów klimatycznych i hydrologicznych w dolinie rzeki Biebrzy

51%
Maksymiuk A., Furmanczyk K., Ignar S., Krupa J., Okruszko T.
Przegląd Naukowy. Inżynieria i Kształtowanie Środowiska
|
2008
|
tom 17
|
nr 3[41]
Wetlands are endangered ecosystems. The main, most observe and forecast risk for the wetlands is global climate change. The paper presents the analysis of multiyear tendencies of changes of climatic and hydrologic characteristics in the Biebrza River basin in 1966–2003 with the use of Mann-Kendall test. The analysis of climatic characteristics let to state, that climate warming is noticeable in Poland and in the Biebrza River too. In case of the analysis of hydrologic characteristics the changes are less noticeable. Nevertheless we can talk about the initial phase of lowering of maximum water levels and of maximum discharges which in decisive way infl uence the wetlands.
7

Practical applicability and preliminary results of the Baltic environmental satellite remote sensing system (SatBaltyk)

51%
Ostrowska M., Darecki M., Krezel A., Ficek D., Furmanczyk K.
Polish Maritime Research
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2015
|
tom 22
|
nr 3
The SatBałtyk (Satellite Monitoring of the Baltic Sea Environment) project is being realized in Poland by the SatBałtyk Scientific Consortium, specifically appointed for this purpose, which associates four scientific institutions: the Institute of Oceanology PAN in Sopot – coordinator of the project, the University of Gdańsk (Institute of Oceanography), the Pomeranian Academy in Słupsk (Institute of Physics) and the University of Szczecin (Institute of Marine Sciences). The project is aiming to prepare a technical infrastructure and set in motion operational procedures for the satellite monitoring of the Baltic Sea ecosystem. The main sources of input data for this system will be the results of systematic observations by metrological and environmental satellites such as TIROS N/NOAA, MSG (currently Meteosat 10), EOS/AQUA and Sentinel -1, 2, 3 (in the future). The system will deliver on a routine basis the variety of structural and functional properties of this sea, based on data provided by relevant satellites and supported by hydro-biological models. Among them: the solar radiation influx to the sea’s waters in various spectral intervals, energy balances of the short- and long-wave radiation at the Baltic Sea surface and in the upper layers of the atmosphere over the Baltic, sea surface temperature distribution, dynamic states of the water surface, concentrations of chlorophyll a and other phytoplankton pigments in the Baltic waters, spatial distributions of algal blooms, the occurrence of coastal upwelling events, and the characteristics of primary production of organic matter and photosynthetically released oxygen in the water and many others. The structure of the system and preliminary results will be presented
8
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Short-term whole body vibration exercise in adult healthy horses

44%
Carstanjen B., Balali M., Gajewski Z., Furmanczyk K., Bondzio A., Remy B., Hartmann H.
Polish Journal of Veterinary Sciences
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2013
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tom 16
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nr 2
The purpose of this study was to analyze the acute effect of whole body vibration exercise (WBVE) on clinical parameters and blood values in horses. Seven horses were exposed to a 10 min WBVE at a frequency of 15-21 Hz. Clinical parameters and venous blood samples were taken before and directly after WBVE. Acute short-term WBVE produced a decrease in serum cortisol (p=0.02) and creatine-kinase (p=0.02) values. Clinical parameters, hematology, fibrinogen, lactate, IGF-I, GGT, creatinine, myeloperoxidase activity and bone marker values were not significantly changed by WBVE. In adult sound horses WBVE was well tolerated and did not cause any sign of measured discomfort.
9
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Extent of protective or allergy-inducing effects in cats and dogs

37%
Krzych-Falta E., Furmanczyk K., Piekarska B., Raciborski F., Tomaszewska E., Walkiewicz A., Samel-Kowalik P., Borowicz J., Namyslowski A., Smolinski B. K.
Annals of Agricultural and Environmental Medicine
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2018
|
tom 25
|
nr 2
10
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SatBaltyk – A Baltic environmental satellite remote sensing system – an ongoing project in Poland. Part 2: Practical applicability and preliminary results

30%
Wozniak B., Bradtke K., Darecki M., Dera J., Dudzinska-Nowak J., Dzierzbicka-Glowacka L., Ficek D., Furmanczyk K., Kowalewski M., Krezel A., Majchrowski R., Ostrowska M., Paszkuta M., Ston-Egiert J., Stramska M., Zapadka T.
Oceanologia
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2011
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tom 53
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nr 4
This paper is the second part of the description of the first stage of the SatBałtyk project’s implementation. Part 1 (Woźniak et al. 2011, in this issue) presents the assumptions and objectives of SatBałtyk and describes the most important stages in the history of our research, which is the foundation of this project. It also discusses the operation and general structure of the SatBałtyk system. Part 2 addresses various aspects of the practical applicability of the SatBałtyk Operational System to Baltic ecosystem monitoring. Examples are given of the Baltic’s characteristics estimated using the preliminary versions of the algorithms in this Operational System. At the current stage of research, these algorithms apply mainly to the characteristics of the solar energy influx and the distribution of this energy among the various processes taking place in the atmosphere-sea system, and also to the radiation balance of the sea surface, the irradiance conditions for photosynthesis and the condition of plant communities in the water, sea surface temperature distributions and some other marine phenomena correlated with this temperature. Monitoring results obtained with these preliminary algorithms are exemplified in the form of distribution maps of selected abiotic parameters of the Baltic, as well as structural and functional characteristics of this ecosystem governed by these parameters in the Baltic’s many basins. The maps cover practically the whole area of the Baltic Sea. Also given are results of preliminary inspections of the accuracy of the magnitudes shown on the maps. In actual fact, the errors of these estimates are relatively small. The further practical application of this set of algorithms (to be gradually made more specific) is therefore entirely justified as the basis of the SatBałtyk system for the effective operational monitoring of the state and functioning of Baltic ecosystems. This article also outlines the plans for extending SatBałtyk to include the recording of the effects and hazards caused by current and expected storm events in the Polish coastal zone.
11
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SatBałtyk – A Baltic environmental satellite remote sensing system – an ongoing project in Poland. Part 1: Assumptions, scope and operating range

30%
Wozniak B., Bradtke K., Darecki M., Dera J., Dudzinska-Nowak J., Dzierzbicka-Glowacka L., Ficek D., Furmanczyk K., Kowalewski M., Krezel A., Majchrowski R., Ostrowska M., Paszkuta M., Ston-Egiert J., Stramska M., Zapadka T.
Oceanologia
|
2011
|
tom 53
|
nr 4
This article is the first of two papers on the remote sensing methods of monitoring the Baltic ecosystem, developed by a Polish team. The main aim of the five- year SatBałtyk (2010–2014) research project (Satellite Monitoring of the Baltic Sea Environment) is to prepare the technical infrastructure and set in motion operational procedures for the satellite monitoring of the Baltic environment. This system is to characterize on a routine basis the structural and functional properties of this sea on the basis of data supplied by the relevant satellites. The characterization and large-scale dissemination of the following properties of the Baltic is anticipated: the solar radiation influx to the sea’s waters in various spectral intervals, energy balances of the short- and long-wave radiation at the Baltic Sea surface and in the upper layers of the atmosphere over the Baltic, sea surface temperature distribution, dynamic states of the water surface, concentrations of chlorophyll a and other phytoplankton pigments in the Baltic water, distributions of algal blooms, the occurrence of upwelling events, and the characteristics of primary organic matter production and photosynthetically released oxygen in the water. It is also intended to develop and, where feasible, to implement satellite techniques for detecting slicks of petroleum derivatives and other compounds, evaluating the state of the sea’s ice cover, and forecasting the hazards from current and future storms and providing evidence of their effects in the Baltic coastal zone. The ultimate objective of the project is to implement an operational system for the routine determination and dissemination on the Internet of the above-mentioned features of the Baltic in the form of distribution maps as well as plots, tables and descriptions characterizing the state of the various elements of the Baltic environment. The main sources of input data for this system will be the results of systematic recording by environmental satellites and also special-purpose ones such as TIROS N/NOAA, MSG (currently Meteosat 9), EOS/AQUA and ENVISAT. The final effects of the SatBałtyk project are to be achieved by the end of 2014, i.e. during a period of 60 months. These two papers present the results obtained during the first 15 months of the project. Part 1 of this series of articles contains the assumptions, objectives and a description of the most important stages in the history of our research, which constitute the foundation of the current project. It also discusses the way in which SatBałtyk functions and the scheme of its overall operations system. The second article (Part 2), will discuss some aspects of its practical applicability in the satellite monitoring of the Baltic ecosystem (see Woźniak et al. (2011) in this issue).
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