At present this team is participating in the SatBałtyk project, f

At present this team is participating in the SatBałtyk project, focusing on the dynamics of Baltic shoreline changes (see e.g. Furmańczyk

1994, Schwarzer et al. 2003, Dudzińska-Nowak 2006, Furmańczyk & Dudzińska-Nowak 2009, Furmańczyk et al. 2011). But the greatest Polish achievements in satellite remote sensing of sea came with the check details advent of the 21st century, when cooperation between the first three of the four institutes mentioned earlier was established and generously subsidised by the Polish state. In 2001–2005 IOPAN, together with IOUG and IFPUinS, worked on a project commissioned by the Polish National Committee for Scientific Research entitled The Development of a Satellite Method for Baltic Ecosystem Monitoring (project No. PBZ-KBN 056/P04/2001). Selleckchem VX809 The first major result of this cooperation was the derivation of the first

version of the DESAMBEM algorithm (the name is taken from the project’s acronym) 5 and its application to remote sensing data recorded on 8 May 2001, which yielded a set of distribution maps of four significant characteristics of the Baltic Sea, namely, sea surface PAR 6 irradiation, sea surface temperature, surface chlorophyll a concentration and total primary production in the water column ( Woźniak et al. 2004). This historically important result is presented in Figure 1. Cooperation between the three institutes continued within the framework of the Inter-Institute Cobimetinib molecular weight Team for Satellite Observations of the Marine Environment, partly funded by the Ministry of Science and Higher Education, (MNiSW Decision

No. 31/E-45/BWSN-0105/2008). The main aim of these activities was to establish the scientific foundations and methodology for employing remote sensing techniques to monitor the Baltic as an inland sea with a high biological productivity yet under serious threat from the effects of economic development. From this work there emerged a number of detailed models of different physical, chemical and biological phenomena taking place in the Baltic and in the atmosphere above it, enabling numerous parameters characterizing the state and functioning of the Baltic ecosystem to be determined from remote sensing data (see, for example: Woźniak et al. 1992a, b, 1995, a, b, 2000, 2002a, b, 2003, 2004, 2007a, b, Dera 1995, Kaczmarek & Woźniak 1995, Krężel 1997, Majchrowski & Ostrowska 1999, 2000, Majchrowski et al. 2000, 2001, Ostrowska et al. 2000a, b, 2007, Ficek et al. 2000a, b, 2003, 2004, Ficek 2001, Majchrowski 2001, Ostrowska 2001, Darecki & Stramski 2004, Kowalewski & Krężel 2004, Darecki et al. 2005, Krężel et al. 2005a, b, 2008). Synthesis of these detailed models yielded a more ramified and more precise version of the comprehensive DESAMBEM algorithm (version 2008) consisting of many subalgorithms ( Woźniak et al. 2008).

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