Ireviken event in the Polish Lowland

Principal Investigator :
Dr Justyna Smolarek-Łach
University of Silesia in Katowice

Panel: ST10

Funding scheme : PRELUDIUM 7
announced on 17 March 2014

The main purpose of the project was to reconstruct the conditions of rocks sedimentation (deposition) in the Lower Silurian (433-430 million years ago) in order to determine the causes of what is known as the Ireviken extinction, during which mainly deep-sea organisms, such as graptolites, conodonts, and trilobites became extinct. The causes are still widely debated in the scientific community. Funded within the framework of PRELUDIUM 7, the research project aimed to reconstruct the water column oxygenation levels that obtained before, during and after the Ireviken event. Its innovative character resided in the application of state-of-the-art methods of organic and inorganic geochemistry, such as gas chromatography coupled with mass spectrometry (GC-MS), total organic carbon concentration (TOC%) and measurements of microscopic framboidal pyrite diameters and trace elements content.

Three models of sedimentation conditions before – A, during – B and after – C the Ireviken eventThree models of sedimentation conditions before – A, during – B and after – C the Ireviken event The results obtained with the above methods served as a basis for developing a conceptual model of the sedimentation environment before, during and after the Ireviken extinction (Fig. 1). The period leading up to the event was characterized by an absence of framboidal pyrites, low concentrations of trace elements (such as molybdenum) and low TOC%, which suggests stable oxygen conditions in the water column (Fig.1A). In contrast, fluctuations in the diameter of framboidal pyrites, trace elements concentrations and TOC% pointed to rapid changes in oxygenation and strong chemistry gradients in the water column (chemoclines) during the Ireviken event. These changes were likely to contribute to the extinction of Silurian organisms (Fig.1B). In the aftermath of the event, large quantities of small framboidal pyrites typical of anoxic environments appeared and TOC% increased; trace elements concentrations were not significantly elevated, which suggests that the seabed was occasionally ventilated, probably in connection with upwellings (sea currents that push cold deep sea water toward the ocean surface) (Fig.1C).

A detailed geochemical analysis of the sedimentation conditions of the Ireviken event allowed us to confirm its similarity to the earlier great Ordovician-Silurian extinction. Based on the identification of biomarkers characteristic for green sulphur bacteria, the project was also able to document the presence of an anoxic photic zone (layer of the water column that is accessible to sunlight) in the Lowest Silurian. This discovery helped to connect the Ireviken extinction to other biotic crises of the Phanerozoic (Ordovician, Devonian, Permian and Triassic). The project findings shed new light on the structure of the water column and the possible causes and consequences not only of the Ireviken event, but also the Ordovician-Silurian extinction. The aims of the project were accomplished and its results were published in prestigious JCR-listed journals and presented at international academic conferences.

Project title: Depositional conditions of the Ireviken event from the Polish Lowland – the comprehensive geochemical characteristics

Dr Justyna Smolarek-Łach

Kierownik - dodatkowe informacje

Having graduated in geology from the Faculty of Earth Science of the University of Silesia in Katowice, she earned her PhD in 2017. She has authored numerous publications in journals such as Global and Planetary Changes, Organic Geochemistry and Geological Magazine. She won first prize in a competition for the best doctoral dissertation in mineralogical sciences organized by the Mineralogical Society of Poland (2017) and the scholarship for the best PhD student at the Faculty of Earth Sciences of the University of Silesia. Her research interests include organic geochemistry, sedimentology and paleoenvironmental reconstruction.

Dr Justyna Smolarek-Łach

Success of Polish researchers in the CHIST-ERA Call 2017

Mon, 10/29/2018 - 13:52

We are pleased to announce that two projects involving researchers from Poland have been awarded funding within the CHIST-ERA Call 2017. Within this funding opportunity over EUR 12 million have been granted to 14 research projects in the following topics:

  • Object recognition and manipulation by robots: Data sharing and experiment reproducibility
  • Big data and process modelling for smart industry

Polish researchers will be involved in the following 2 of 14 awarded projects:

  • PACMEL: Process-aware Analytics Support based on Conceptual Models for Event Logs, which will be coordinated by dr hab. inż. Grzegorz Jacek Nalepa (the leader of the international consortium) from the AGH University of Science and Technology. The project will involve research teams from Poland, Spain and Italy.
  • BIG-SMART-LOG: The Use of Big Data Analytics for Process Modelling in Smart Logistics Operations, which will involve a Polish research team led by dr Paweł Karczmarek from the John Paul II Catholic University of Lublin in cooperation with partners from Greece, Romania and Turkey.

Complete list of the CHIST-ERA Call 2017 projects recommended for funding

We would also like to take this opportunity to invite all researchers to participate in the new CHIST-ERA Call 2018 targeting the following topics:

  • Analog Computing for Artificial Intelligence
  • Smart Distribution of Computing in Dynamic Networks

Deadline for submitting applications is scheduled for January 15th, 2019.

More information about the CHIST-ERA Call 2018.

Contact:

CHIST-ERA Call 2018

Fri, 10/26/2018 - 10:58

CHIST-ERA Network is pleased to announce a new call in the field of Information and Communication Sciences & Technologies targeting the following topics:

  • Analog Computing for Artificial Intelligence (ACAI)
  • Smart Distribution of Computing in Dynamic Networks (SDCDN)

Electronic Submission System (ESS) for the CHIST-ERA Call 2018 will be published at http://www.chistera.eu/.

A two-stage application procedure (pre-proposals and full proposals) will be open for consortia composed of researchers from at least three countries participating in the CHIST-ERA Call 2018: Austria*, Belgium, Bulgaria, Canada (Québec), Czech Republic, Estonia, Finland, France, Greece, Ireland, Lithuania, Poland, Romania, Slovakia, Spain, Switzerland, Turkey and United Kingdom**.

*only within the first topic of this call (ACAI)

**only within the second topic of this call (SDCDN)


Call documents:


Draft timetable for applications:

  • Deadline for pre-proposal submission: 15th January 2019, 17.00 CET
  • Notification of accepted pre-proposals: March 2019
  • Deadline for full proposal submission: May 2019
  • Notification of accepted proposals: October 2019

CHIST-ERA projects have a duration of either 24 or 36 months.

All applicants are advised to check the relevant national eligibility criteria and requirements, as those provide important information, for instance on how to fill out the budget tables.

Applicants are invited to use the Partner Search Tool (available at http://www.chistera.eu/node/add/call-2018-eoi ) which facilitates matches between potential partners with similar ideas. It provides the opportunity to express interest either in joining a research proposal or to search for partner(s) for an existing proposal.

MORE INFORMATION ABOUT THE CALL


Information for Polish applicants:

  1. We strongly encourage all applicants to read information on rules of participation and eligible costs included in the Annex to NCN Council’s Resolution on funding granted within calls for proposals for international research projects (UNISONO).
  2. On the full proposal stage Polish applicants must submit their national applications in the ZSUN/OSF submission system. The application will include a budget that should be calculated according to the Annex to NCN Council’s Resolution on funding granted within calls for proposals for international research projects (UNISONO).
  3. If one international project includes partners from two or more different Polish Host Institutions, these institutions apply as a group of projects. Each entity within the group has a separate budget, but the limit on the remuneration applies to the group as a whole (please see UNISONO). Please note that groups of projects have higher limits on the remuneration. 
  4. Projects including Polish teams may last 24 or 36 months.
  5. Budget of the Polish part of the research project in the ZSUN/OSF system should be given in PLN: 1 EUR= 4,2024 PLN.

Contact:

dr Jakub Gadek, jakub.gadek@ncn.gov.pl, +48 12 341 9152

Marlena Wosiak, marlena.wosiak@ncn.gov.pl, + 48 12 341 9093

Biomaterials for regenerative medicine

Principal Investigator :
Prof. Aleksandra Czyrska-Filemonowicz
AGH University of Science and Technology in Kraków

Panel: ST8

Funding scheme : HARMONIA 4
announced on 15 December 2012

Degenerative joint diseases, such as osteoarthritis, represent an increasingly serious problem for society, not only in elderly patients. Damage to tissue and its progressive degradation are a natural result of the ageing process, but other risk factors for the disease include lack of exercise, sedentary lifestyle, unhealthy diet and obesity. Because of its special structure, cartilage can regenerate only to a small extent. Despite significant advances in medicine, still the gold standard in severe osteoarthritis remains the total joint replacement with implant.

Prof. Dr hab. Aleksandra Czyrska-Filemonowicz and mgr inż. Joanna Karbowniczek with Titan Cubed G2 60-300 microscope (photo by Michał Łepecki)Prof. Dr hab. Aleksandra Czyrska-Filemonowicz and mgr inż. Joanna Karbowniczek with Titan Cubed G2 60-300 microscope (photo by Michał Łepecki) The primary objective of the research project was to develop innovative biomaterials (such as bioactive composite coatings and polymer nanofibre scaffolds) designed to significantly improve the treatment of bone loss and degenerative bone and cartilage lesions. This was achieved through interdisciplinary research in cutting-edge materials science and stem cell-based tissue engineering. Detailed project objectives included producing of novel biomaterials followed by detailed qualitative and quantitative characterization of their micro- and nanostructure as well as their micromechanical properties. Additionally coatings adhesion strength and surface topography were examined; finally their biocompatibility was studied. The project postulated that a microporous composite coating, like PEEK/Bioglass (fabricated through electrophoretic deposition), or TiO2/Ca-P and TiO2/HAp (produced by plasma electrolytic oxidation), would improve the quality of the interface between titanium alloys and bone tissue. To test this hypothesis, basic research was conducted to determine the impact of the micro- and nanostructure, phase composition and porosity of surface-modified biomaterials on their bioactivity and biocompatibility.

Titanium alloys are the most frequently used materials in implant elements that come into direct contact with bone tissue, because of their high corrosion resistance, excellent mechanical properties, as well as low density. In addition, titanium alloys often undergo surface modification in order to facilitate post-surgery implant stabilization. The very first results of our research on surface-modified titanium implants showed a pressing need to expand the scope of the project, which found its reflection in a PhD dissertation prepared by Joanna Karbowniczek, MSc. Its goal was to design, produce and comprehensively characterize coatings used to improve the bioactivity and biocompatibility of titanium alloys. The coatings were produced through micro-arc oxidation (MAO) and electrophoretic deposition; different parameters of these two processes were tested. Optimization of the MAO process parameters allowed to obtain coatings with high surface roughness, porosity, good adhesion strength and outer layer composed of crystalline hydroxyapatite. During in vitro tests good bioactivity and biocompatibility of the coatings was confirmed. Their properties were studied using advanced techniques of microscopy, spectroscopy, and electron tomography. The use of the latest-generation analytical electron microscope (S)TEM FEI Titan Cubed 60-300 and its unique equipment, available at the International Centre of Electron Microscopy for Materials Science (IC-EM), allowed the cutting-edge methods of electron microscopy to be harnessed for the study of the micro- and nanostructure of biomaterials down to the hitherto inaccessible atomic scale. In addition, the project conducted a pioneering 3D visualisation study of the interface between the cells and the coating with the use of a focused-ion beam (FIB) scanning electron microscope.

Interdisciplinary research, combined with the latest achievements in various disciplines (such as materials science, biotechnology, tissue engineering), cutting-edge technologies (fabrication of coatings and cell scaffolds) and advanced research methods allowed objectives and the tasks of the project to be successfully completed. Its results were presented at international scientific congresses and conferences, and published in JCR-listed journals. Another tangible outcome of the project is the doctoral dissertation by Dr inż. Joanna Karbowniczek entitled "Microstructure, cellular response and selected properties of titanium based biomaterials applied in regenerative medicine of bone tissue and joints” (currently in its final elaboration).

Funded within the framework of the HARMONIA 3 programme, the project served as an excellent platform to establish new or deepen already existing international research co-operation. It was conducted in co-operation with Professor F. Rustichelli from Università Politecnica delle Marche (Ancona, Italy), Professor Aldo R. Boccaccini from Friedrich-Alexander-Universität Erlangen-Nürnberg (Erlangen, Germany), and Professor E. Amler from the Institute of Experimental Medicine of the Czech Academy of Sciences (Prague, Czech Republic), as well as Professor H. Cimenoglu from the Istanbul Technical University (Istanbul, Turkey). An important factor that contributed to the successful accomplishment of project objectives was the vast research experience of project partners and the opportunity to use equipment available at foreign research institutions. The international experience gained by our research team made it possible to finally open a new Biomaterials Laboratory, which expanded the research and teaching offer of the Microscopy Centre and the Faculty of Metals Engineering and Industrial Computer Science of the AGH University of Science and Technology.

Team of International Centre of Electron Microscopy for Materials Science during the project OPTYMED realisation (photo by Stanisław Malik, 2015)Team of International Centre of Electron Microscopy for Materials Science during the project OPTYMED realisation (photo by Stanisław Malik, 2015)

 

Project title: Design, processing and characterization of micro/nanostructure and selected properties of biomaterials for regenerative medicine (OPTYMED)

Prof. Aleksandra Czyrska-Filemonowicz

Kierownik - dodatkowe informacje

Full professor at AGH University of Science and Technology, Faculty of Metals Engineering and Industrial Computer Science as well as the Head of the International Centre of Electron Microscopy for Materials Science at AGH-UST (untill 2016). Since 2017- Professor in this Centre and Professor Emeritus of the Faculty of Metals Engineering and Industrial Computer Science.

She specializes in materials science. Main research interests: microstructure and properties of metallic biomaterials, materials for the energy systems and aeronautics (superalloys, titanium alloys, intermetallics, steels, ODS alloys, coatings, ...), nanomaterials, materials for high-temperature and extreme environment. Science and application of electron microscopy.

She has published over 500 scientific papers and peer-review conference articles, 4 monographs and 16 chapters. She participated in more than 150 projects as a coordinator or principal investigator. She has won grants from the State Committee for Scientific Research, the National Science Centre, the National Centre for Research and Development, EU FP6 and FP7 as well as EIT KIC InnoEnergy. Within the framework of the Operational Programme–Innovative Economy (POIG, 2007-2013), she coordinated a project entitled "Purchasing an analytical transmission electron microscope with unique equipment for research of materials' micro- and nanostructure", which allowed the AGH-UST to be equipped with a next-generation transmission electron microscope (S)TEM FEI Titan Cubed 60-300 with the top-end ChemiSTEM system for materials' analyses down to an atomic scale (resolution: 70 pm).

Professor Aleksandra Czyrska-Filemonowicz has lectured on electron microscopy, materials for the energy systems and aeronautics, as well as metallic biomaterials (in Polish and English). Visiting professor in Germany (Christian-Albrechts-Universität zu Kiel, RWTH Aachen/Forschungszentrum Jülich) and Switzerland (Ecole Polytechnique Fédérale de Lausanne, EPFL). Coordinator of Erasmus-Socrates agreement with EPFL. Supervisor of 13 PhD students (eight PhD theses awarded) and academic tutor for 5 PhD students at Forschungszentrum Jülich.

For many years, she has been incredibly active in her efforts for internalization Polish science. On her initiative, 15 PhD students and researchers have completed long-term research internships (mainly in Germany, Austria, and Switzerland). She has acted in more than 40 congress programme committees and often chaired sessions during global and European congresses on electron microscopy and materials science. She has initiated and headed 10 European Schools on electron microscopy regularly organized at the AGH University of Science and Technology since 2003.  

She has held several foreign fellowships, including eight-year (at total) scientific stay at Forschungszentrum Jülich (FZJ), Germany. After returning to Poland, she modernized the electron microscopy laboratory at the AGH-UST and significantly developed international co-operation, which allowed the International Centre of Electron Microscopy for Materials Science to be opened, which she headed up until 2016. The Centre was invited to join the prestigious electron microscopy network, Distributed European Infrastructure for Advanced Electron Microscopy for Nanoscience.

She has also held important functions in various European organizations, such as the Board of the European Microscopy Society (until 2016), the Scientific Committee of ArcelorMittal (until 2013), the Executive Committee of the Federation of European Materials Societies, FEMS (until 2009), several Managing Committees of European projects (FP6-NoEs, COST Actions, FP7-INFRA, EIT KIC) and the Helmholtz Management Academy in Berlin. She has been a member of many national organizations, including the Materials Science Committee of the Polish Academy of Sciences (until 2014), and headed the National Committee for Cooperation with IFSEM and the National Committee for Cooperation with ICSU at the Polish Academy of Sciences (until 2010). She is a member of several European science associations (DGE and DGM in Germany and the Royal Microscopy Society, UK), a founding member of the Polish Society of Materials Science, as well as initiator and first president of the Polish Society of Microscopy (until 2014).

She has received e.g. the Gold Cross of Merit of the Republic of Poland, the award of the Minister of Higher Education and Technology, the Medal of National Education and several awards of the Rector of AGH-UST for research and teaching, including the 1st prize for career overall achievement (2016). She was awarded with Pratt Whitney Award for Outstanding Effort in Supporting the GMS Program (USA, 2009) and the Helmholtz International Fellow Award for scientific achievements (Germany, 2013).

Dr inż. Joanna Karbowniczek

Graduated in biotechnology from the University of Agriculture in Kraków and completed a PhD programme at the Faculty of Metals Engineering and Industrial Computer Science of the AGH University of Science and Technology in Kraków. She defended her PhD dissertation entitled "Microstructure, cellular response and selected properties of titanium based biomaterials applied in regenerative medicine of bone tissue and joints" under the supervision of Prof. Dr Aleksandra Czyrska-Filemonowicz. Between 2013 and 2017, she completed 5 foreign research internships, e.g. joining Professor A.R. Boccaccini's team at the Institute of Biomaterials (Erlangen, Germany). Since 2015, she has been employed as teaching assistant at the Faculty of Metals Engineering and Industrial Computer Science. Her main scientific interest are within biomaterials field including metallic implant materials and polymer scaffolds used in tissue engineering applications.

prof. Aleksandra Czyrska-Filemonowicz

The fire safety of buildings

Principal Investigator :
Dr inż. Michał Malendowski
Poznan University of Technology

Panel: ST8

Funding scheme : ETIUDA 4
announced on 15 December 2015

The research project investigated structural fire safety in building. The investigation based on an originally-developed integrated computing system that employs fire simulation results to analyse the thermo-mechanical response of the structure. The computing system has been designed to support structural designers in important design decisions.

fot. Michał Łepeckifot. Michał Łepecki The cognitive value of the research project resides in its comprehensive view of fire phenomena. Fire safety was assessed based on simulations that relied on three coupled physical models: hydrodynamic, heat flow and structural mechanics. It is contrary to the traditional approach, in which fire safety assessments do not consider the actual impact of the fire, but instead relies on standardized relationship between fire gas temperature and time.

A main part of an integrated computing system is the heat flow model that coupled fire simulations and thermo-mechanical response analyses. The validity of the model was verified experimentally. Both numerical and experimental tests adopted an innovative approach to describing thermal impacts, which relied on the concept of adiabatic surface temperature. An analytical solution to the adiabatic surface thermal equilibrium equation allowed to determine the boundary conditions in thermal analysis and facilitated the correlation of experimental data with the theoretical model.

Applying the newly-developed computing system to the analysis of the mechanical response of an actual building allows to consider a number of physical phenomena that directly affect its condition and cause structural deformations, but which are not taken into account in the traditional approach. This helped boost the cognitive potential of the project and allowed for a more complete analysis, which in turn makes it possible to carry out more accurate safety level assessments.

Project title: Performance-based fire engineering for civil engineering structural design

Dr inż. Michał Malendowski

Kierownik - dodatkowe informacje

He graduated from the Faculty of Civil Environmental Engineering of the Poznan University of Technology, where he works as an assistant in the Department of Civil Construction since 2011. He has completed four international research fellowships: at the University of Tampere (Finland), the University of Sheffield (Great Britain), the Technical Research Centre of Finland (VTT), and the R&D Department of Weidlinger Associates, Inc., a New York-based consulting company. The three-month stay in Sheffield was financed within the framework of the ETIUDA 4 funding scheme. Malendowski's research interests centre on the issues of structural fire safety of buildings. His research aims to include a comprehensive assessment of fire safety, based on the incorporation of physical models in integrated computing systems. He has presented his findings at several dozen, mainly international, conferences. He is an author or co-author of 21 scientific publications, including papers published in indexed journals.

Dr inż. Michał Malendowski

QuantERA Call 2019 Pre-announcement

Tue, 10/23/2018 - 14:33

In November 2018 the QuantERA Consortium, coordinated by the National Science Centre, will announce a 2nd Call for Proposals in the field of quantum technologies.

Thematic scope of proposals should include one or more of the following areas:

  • Quantum communication
  • Quantum simulation
  • Quantum computation
  • Quantum information sciences
  • Quantum metrology sensing and imaging

One stage application procedure (joint submission of short and full proposals) will be open for consortia composed of researchers from at least three countries participating in the Call: Austria, Belgium, Bulgaria, Croatia, Czech Republic, Denmark, France, Germany, Greece, Hungary, Israel, Italy, Latvia, Lithuania, Norway, Poland, Portugal, Romania, Slovakia, Slovenia, Spain, Sweden, Switzerland, Turkey and the United Kingdom.

Proposals will be evaluated according to the following criteria:

  • excellence
  • impact
  • quality and efficiency of the implementation

The national/regional eligibility criteria will be defined by each participating funding agency.

The anticipated deadline for proposals is 18th February 2019. The results of the Call will be released in the Autumn of 2019.

For details please see the attached document and the QuantERA website.

Please note that this announcement is for information purposes only. It does not create any obligation for the QuantERA consortium nor for any of the participating funding organisations. The official Call Announcement, to be published later, shall prevail.

Partner Search Tool

QuantERA has secured a dedicated networking space for researchers interested in applying for funding within the QuantERA Call 2019. QuantERA Call 2019 Partner Search Tool gives applicants the opportunity to express interest either in joining an existing network or to search for new partner(s) in an already established network. To search for potential partners and share your project ideas you have to fill in the registration form available here.

Contact:

Military masculinity in Polish literature and culture in the context of the Great War

Principal Investigator :
Prof dr hab. Monika Szczepaniak
Kazimierz Wielki University in Bydgoszcz

Panel: HS2

Funding scheme : OPUS 5
announced on 15 March 2013

­­­­­­­­­­­Against the masculinist landscape of the first decades of the 20th century, Polish military masculinity stands out not only for its special historical image, but also its political status. In the period leading up to the First World War, Polish culture did not employ the tripartite reference system state – nation – politics that had shaped western conceptions of "classical" militarism and masculinism. Polish military masculinity had to constitute itself in isolation from its own state structures, in the shadow of strong partitioning powers and their hegemonic masculinities, but continued a national heroic tradition and thus reflected the mental structures of long duration.

The objective of the research project carried out in 2014-2017 was to describe how Polish masculinity was constructed in the period leading up to the Great War, in the conditions of dependence from partitioning powers with their own consolidated military traditions and institutions, and to analyse the war experience of Polish soldiers from the perspective of the history of masculinity (taking into account, on the one hand, the "elitist" character of the Polish Legions, and on the other, the mass recruitment of soldiers to fight for the partitioning powers). The research project also investigated the role of military masculinity in the new state, both in the 1920s and during the remilitarization of Europe (in the following decade), which culminated in the outbreak of the Second World War. Cultural and political processes were discussed to contextualize a reflection on masculinity in the wartime constellation of power – body – emotions and an interpretation of literary works and selected pieces of visual art that manifested, and at the same time deconstructed, military masculinity. The methodology behind the interpretation treated cultural texts as sources of knowledge about gender constructions, archives attesting to the continuity of cultural myths, media "agents" participating in the discursive processes of the "formation" of military masculinity, but also as a platform where its patterns, norms and staging forms are critically analysed and deconstructed.

Photo by Michał ŁepeckiPhoto by Michał Łepecki The project provided a comprehensive analysis of the phenomenon of soldiership in the context of the First World War, presented in a monograph entitled Habitus żołnierski w literaturze i kulturze polskiej w kontekście Wielkiej Wojny [The Soldier's Habitus in Polish Literature and Culture in the Context of the Great War] (Kraków: Universitas 2017) and ten articles in collective volumes and journals, mainly on the international forum. The imperatives of the national liberation struggle, which implied the need for military action and problematized pacifism, caused Polish literature to get "implicated in soldiership". However, it featured not only images of incontrovertible heroes, "mad patriots", but also images of active participation in the "craft" of killing, anti-heroism and oppression. A critical interpretation of the heroic paradigm and the inclusion of a broad spectrum of material allowed cultural texts to be probed for the aporias, conflicts and contradictions inherent in the construction of military masculinity, made up of actions and interactions, bodies and discourses, and constituted by media texts and images. The military habitus is strictly linked to the national habitus, creating an intersectional construction built from historical, geographical, mental, social, local and situational elements, a combination of factors supplied by culture, history, ideology and geography. A characteristic feature of Polish military masculinity, which resurges and regenerates over and over again due to anachronistic memorial discourses still preserved in the national imaginary and continues to influence the gender system, is  a specific meaning attributed todeath and sacrifice. The analysis of war and postwar culture leads to  the conclusion that patterns of military masculinity may be renegotiated in different historical situations. Narrations in which masculinity is functionalized, dehumanized or humiliated in a war or peace context cannot compete against the appeal of the figure of the soldier, the uniform and the military parade. Masculinist cultural norms display immense generative power, which is why knowing the history of Polish masculinity and its cultural representations allows us to better appreciate the importance of masculine patterns for Polish culture and mentality and to understand their contemporary emanations.

Project title: Military masculinity in Polish literature and culture in the context of the Great War

Prof dr hab. Monika Szczepaniak

Kierownik - dodatkowe informacje

A literature and culture scholar, she studied German Philology at universities in Rzeszów, Erfurt and Hamburg. In 1998, she earned a PhD with honours, and in 2007, she completed her habilitation at the University of Wrocław. Since 2007, she has served as the Head of the Culture Studies Unit at the Department of German Philology of the Kazimierz Wielki University in Bydgoszcz. She has held scholarships from the Foundation for Polish Science, German institutions such as Alexander von Humboldt-Stiftung and Deutscher Akademischer Austauschdienst, and the Austrian government. She has completed numerous research stays at universities in Vienna, Berlin, Bielefeld, Cologne and Mainz, and taken part in more than 70 academic conferences in Germany, Austria, Switzerland, Belgium, Greece, Spain, Norway, the USA, South Africa and Poland. Her research interests focus on literary and cultural studies and include 20th- and 21st-century German-language literature, the writings of Elfriede Jelinek,, masculinity studies, war and violence studies,  representations of space, atmosphere, love and desire in cultural texts. She has penned four monographs: Dekonstruktion des Mythos in ausgewählten Prosawerken von Elfriede Jelinek (Frankfurt a. M., Peter Lang, 1998), Männer in Blau. Blaubart-Bilder in der deutschsprachigen Literatur (Köln/Weimar/Wien, Böhlau, 2005), Militärische Männlichkeiten in Deutschland und Österreich im Umfeld des Großen Krieges. Konstruktionen und Dekonstruktionen (Würzburg, Königshausen & Neumann, 2011), Habitus żołnierski w literaturze i kulturze polskiej w kontekście Wielkiej Wojny (Kraków, Universitas, 2017) and numerous articles published in, e.g. Journal of Austrian Studies, Colloquia Germanica, Zeitschrift für Germanistik, Sprachkunst, Fabula, European History Yearbook, Wiek XIX, Przegląd Humanistyczny.

dr hab. Monika Szczepaniak

National Science Centre signs the DORA Declaration

Tue, 10/23/2018 - 09:46

Prof. Zbigniew Błocki, NCN Director, has signed the San Francisco Declaration on Research Assessment – DORA, which relates to the ways in which the outputs of scholarly research are evaluated, e.g. by funders, journals and research institutes.

The chief postulate of the declaration holds that research quality evaluation should rely on merit-based criteria rather than quantitative metrics. Its signatories argue that researchers should be judged primarily on the originality of their research and its impact on the development of the discipline, rather than on metrics such as, e.g. the Impact Factor. Merit-based criteria should be employed in decisions concerning both research funding and researchers’ promotion.

DORA includes a set of recommendations on specific researchers’ evaluation criteria, including some more general in scope and others targeted at individual stakeholder groups: funders, research institutes, research journal publishers, organizations that supply metrics and the researchers themselves.

The San Francisco declaration was drafted in December 2012 at a session of the American Society for Cell Biology (ASCB) and originally signed by 78 organizations, including research-funding agencies, research and academic institutes, journals, research foundations and societies, as well as 154 researchers (including many Noble Prize winners) and other individuals affiliated with the academic world, e.g. editors-in-chief of prestigious research journals. Until today, the declaration has been signed by 580 organizations and nearly 13 thousand people from all over the world. Its Polish signatories also include the Foundation for Polish Science.

Read the declaration

 

How viruses fight for survival

Principal Investigator :
prof. dr hab. Krystyna Bieńkowska-Szewczyk
University of Gdańsk

Panel: NZ1

Funding scheme : MAESTRO 2
announced on 15 December 2011

The purpose of the project was to study specific pathways along which viruses can quickly spread between cells. Viruses may infect susceptible cells from the outside, binding to their surface receptors and gradually penetrating into their interior. Inside the cell, these viral molecules fall apart and release genetic material (DNA or RNA), which is then replicated, followed by the synthesis of viral proteins; new viral molecules are then formed, which can travel out and infect more cells. However, some viruses are also able to penetrate neighbouring cells without being released into the extracellular environment. To do so, they use sites of direct contact between adjacent cells or various intercellular connections. This direct transmission pathway allows them to spread faster and avoid contact with antibodies and immune cells. For some enveloped viruses (e.g. HIV, measles, human leukaemia virus), cell-to-cell spread has been shown to account for perhaps more than 60% of all infections. Targeting the cell-to-cell transmission mechanism is thus being hailed as a promise of important new treatments, especially for neurological disorders.

Our project focuses primarily on herpesviruses, which persist in the host in latent form for a lifetime after primary infection and may reactivate multiple times, which means they must particularly good at evading the host’s immune response (at primary infection). Around 80% of the human population is chronically infected with at least two viruses from the family, such as the herpes virus (HSV-1) or the cytomegalovirus (CMV), although in most people the infection is latent and asymptomatic. Herpesvirus strains with an impaired ability to spread via the cell-to-cell pathway are not pathogenic and can be used as vaccines against animal herpesviruses. However, no similar strains have been obtained for human herpesviruses. Another research model we used was the hepatitis C virus (HCV), one of the most dangerous human pathogens, which is very difficult to cultivate in a lab and mutates quickly, which has stalled any efforts to create an effective vaccine thus far. Our knowledge of the process by which the HCV enters host cells has increased, but it is still far from fully understood. It is only recently that it was discovered that the virus is also able to spread directly from cell to cell without being released into the extracellular environment.

Our methodology involves producing virus mutants, modifying genes involved in cell-to-cell transmission, studying their purified products, and analysing their mutual interactions and important functional domains. In an important experiment, we were able to directly track the movements of viruses in live cells, using fluorescent-labelled, “glowing” specimens constructed in our labs. This allowed us to show, for instance, that herpesviruses can travel between distant cells via long and thin projections, known as tunnelling nanotubes, which serve as specialised bridges and were only identified in recent years. What is more, we managed to demonstrate that the presence of the virus stimulates the formation of such intercellular connections and one of the viral kinases is involved in the process. This was an important discovery because, until then, this pathway had only been observed for HIV and some RNA viruses. The findings of our study were published in the Journal of Virology (DOI: 10.1128/JVI.00090-18). 

We also identified a number of cell proteins that interact directly with glycoprotein gE, an envelope protein of an animal herpesvirus (BHV-1), which is essential for its rapid transmission, and developed new methods for measuring the speed of cell-to-cell spread. Our findings indicate that this pathway is frequently used in the course of natural infection.

Intercellular transport of fluorescent labelled particles of BHV-1 virus through tunnelling nanotubes. Green marker: GFP, fused to the capsid; red marker: mitochondriaIntercellular transport of fluorescent labelled particles of BHV-1 virus through tunnelling nanotubes. Green marker: GFP, fused to the capsid; red marker: mitochondria We are particularly interested in the still poorly-studied issue of how viruses are transported between cells of various lineages (e.g. epithelial cells that line the infected organs) and blood cells. Studying the molecular mechanisms that allow viruses to quickly spread between cells may be crucial for developing new methods to control viral infections. As a follow-up to this study, we are now planning to look into the cell-to-cell spread mechanisms of coronaviruses. To date, very few preliminary reports exist on this transmission pathway for viruses from this family. Considering how effective the SARS-CoV2 virus is at infecting a variety of organs (not only the lungs, but also the intestines, kidneys and heart), it may be assumed to rely on the same transmission mechanism. This is the subject of our next NCN project, which will be carried out under PRELUDIUM BIS. The project aims to identify the transport pathways of coronaviruses between nearby and distant cells, initially based on a murine model of MHV, with a focus on the transmission of the virus between different types of infected and non-infected cells via intercellular connections. Until now, we have managed to adapt our lab to meet the security standards for working with SARS-CoV2, which will allow us to experiment with human coronaviruses. Our research experience, as well as the methodology we developed in our MAESTRO project, are now being put to use in our research on the SARS-CoV2 virus.

Project title: Mechanism of virus transmission between cells: strategies to survive

prof. dr hab. Krystyna Bieńkowska-Szewczyk

Kierownik - dodatkowe informacje

She heads the Department of Molecular Biology of Viruses at the Intercollegiate Faculty of Biotechnology UG-MUG. She is a graduate of the University of Gdansk. Initially, her research focused on the molecular biology of bacteriophages, which was the subject of her PhD dissertation at the Faculty of Biology of the University of Gdańsk and her post-doc fellowship at the University of San Francisco, California. It was during her second post-doc, when she worked on the translation mechanism of the poliovirus at the University of Utah (Salt Lake City, USA), that she first developed an interest in human viruses. Upon her return to Poland, she teamed up with her husband, Professor Bogusław Szewczyk, to create a state-of-the-art molecular virology lab at the University of Gdańsk, which now studies viruses such as alpha-herpesviruses, the hepatitis C virus, the flu virus and a variety of animal pathogens. The lab also uses other viruses, such as insect baculoviruses, retroviruses and adenoviruses to express foreign genes and construct virus vectors. The research group cooperates with many foreign research centres, including the Institute for Animal Health in the Netherlands and the MRC-University of Glasgow Centre for Virus Research. Prof. Bieńkowska-Szewczyk has served as a principal investigator under many research grants and headed a partner group in five international projects funded from successive EU Framework Programs. She has also repeatedly served as an expert in EC programs. In 2011, she was invited to host the prestigious International Herpeswirus Workshop, which was held in Gdańsk, and in 2023, she will host the European Congress of Virology, the largest virology conference in Europe. She has authored c. 56 publications in international journals such as the Journal of Virology, Virology, PNAS, Oncogene, Vaccine, Euro Surveill. Her initiative led to the creation of the International Centre for Cancer Vaccine Science at the University of Gdańsk within the framework of the International Research Agenda programme run by the Foundation for Polish Science. During the coronavirus pandemic, Prof. Bieńkowska-Szewczyk became actively involved in organising SARS-CoV2 diagnostic programmes and conducted research on the genetic sequencing of the virus. She was a member of the Advisory Team on COVID-19 Prevention, Mitigation and Response. She actively reached out to the public to increase the general level of knowledge about the virus, track the pandemic and promote Covid-19 vaccines.  A jury of journalists recognised her media activities with the title of Pomeranian Woman of 2021.

""

Beginnings of popular culture in Poland from the perspective of transmediality

Principal Investigator :
Dr hab. Mirosław Filiciak
SWPS University of Social Sciences and Humanities

Panel: HS2

Funding scheme : SONATA BIS 2
announced on 15 September 2012

The last three decades around the world have brought a number of new monographs devoted to the cultural dimension of early cinema, the high-circulation illustrated press published at the turn of the 19th and the 20th centuries, the phenomenon of department stores, suspense novels, the urban iconosphere and entertainment parks. Not only do they allow us to study the history of mass media, but they also show the cultural dimension of modernization. In Poland, however, new approaches to pre-1989 Polish popular culture have been few and far between, which means that researchers tend to rely on the history of popular culture in Western Europe and the US. However, it is difficult to describe its development in our country without the use of local materials and a theoretical reflection that would take into account the local context.

Fot. Michał Łepecki. Wnętrza do sesji udostępnił Fotoplastikon Warszawski, oddział Muzeum Powstania Warszawskiego.Fot. Michał Łepecki. Wnętrza do sesji udostępnił Fotoplastikon Warszawski, oddział Muzeum Powstania Warszawskiego. The purpose of the research project entitled "History of popular culture in Poland in the first half of the 20th century from the perspective of transmediality" was to collect and make available a variety of materials pertinent to the popular culture of the first half of the 20th century, to develop an approach based on contemporary research methodology, but also to revive the Polish tradition of cultural studies and their reflection on popular culture. The project adopted a transmedial perspective, which allowed light to be shed on the relationships between content circulated in different media and placed the pop culture of the period in the context of broader civilizational changes. This entailed a shift away from traditional, trite conceptualizations based on a dichotomy between the high- and the low-brow, which are focused on a narrow section of popular culture that could be subsumed under the scope of traditional disciplines (such as literature or film studies) and study culture in isolation from other areas of social reality. The new perspective also allowed for comparative studies analysing the well-described cultures of other regions of Europe.

The project was conducted by the SWPS University in partnership with researchers from the University of Łódź and the University of Warsaw, and in cooperation with Centrum Cyfrowe [Digital Centre]. The research team consisted of Dr Hab. Mirosław Filiciak (principal investigator) and Dr Łukasz Biskupski from the SWPS University, Dr Justyna Jaworska and Dr Piotr Morawski from the University of Warsaw, and Dr Piotr Olkusz, Dr Michał Pabiś-Orzeszyna, Dr Monika Wąsik, and Mgr Monika Rawska from the University of Łódź.

Photo by Michał Łepecki. The photo shoot was organized at Fotoplastikon Warszawski, branch of the Warsaw Uprising MuseumPhoto by Michał Łepecki. The photo shoot was organized at Fotoplastikon Warszawski, branch of the Warsaw Uprising Museum The project included an international workshop entitled "Transmediality in Modern Popular Culture”, organized during the NECS – European Network for Cinema and Media Studies 2015 conference. A symposium has also been held dedicated to the "POP-PL Popular Culture in Poland before 1939". Presentations delivered at these events by Polish and foreign experts were published in two issues of "Kultura popularna", an open-access quarterly devoted to cultural studies. Alongside the official project website, the SWPS University launched a number of open online archives hosted on its servers: a "Paper bandits" database, containing a bibliography of Polish pulp fiction published before WWII, a database with scans of all the issues of the "Organ" (an art bimonthly published in the Polish territory between 1910 and 1915), as well as a "Silver Screen" database of sources devoted to the film culture of the interwar period in Poland. Three books were published: a monograph by Łukasz Biskupski, entitled Kinofilia zaangażowana. Stowarzyszenie miłośników filmu artystycznego „Start” i upowszechnianie kultury filmowej w latach 30 XX w. [Engaged Cinephilia. The "Start" Association of Art Film Lovers and the Dissemination of Film Culture in the 1930s], a collection Papierowi bandyci. Wypisy z polskojęzycznych powieści obiegu brukowego do 1939 r. [Paper Bandits. Selections from pre-1939 Polish-Language Pulp Fiction Novels], edited by Łukasz Biskupski and Monika Rawska, and an anthology of primary sources, Teatry dla masowej publiczności [Mass-Audience Theatres], edited by Piotr Olkusz and Monika Wąsik. We also handed out awards for the best MA and BA theses devoted to Polish popular culture in the interwar period.

Project title: History of popular culture in Poland in the first half of the 20th century from the perspective of transmediality

Dr hab. Mirosław Filiciak

Kierownik - dodatkowe informacje

Cultural scholar, Dean of the Faculty of Social Sciences and Humanities at the SWPS University. His research interests include relations between media and cultural practices, cultural studies theory and media archaeology. He has coordinated numerous research projects, such as "Młodzi i media”, "Tajni kulturalni”, and "Obiegi kultury”. He is the author of the following books: "Wirtualny plac zabaw. Gry sieciowe i przemiany kultury współczesnej” ["A Virtual Playground. Online Games and the Transformations of Contemporary Culture" (2006), "Media, wersja beta” ["Media, Beta Version"(2014), and, together with Alek Tarkowski, "Dwa zero. Alfabet nowej kultury i inne teksty” [Two-Zero. The Alphabet of New Culture and Other Essays] (2015).

Dr hab. Mirosław Filiciak