@misc{12139, author = {{Daniels, R. and Kamke, Dominic and Kutz, Gerd}}, location = {{San Diego (USA)}}, title = {{{An Innovative Tool For Real-Time Particle Size Measurement During High-Shear Melt Granulation}}}, year = {{2017}}, } @misc{12140, author = {{Thipsay, P. and Bookwala, M. and Kutz, Gerd and Repka, M. and Ye, X.}}, location = {{San Diego (USA).}}, title = {{{Effect of Different HPMC Grades and Process Parameters on Physic-Chemical Properties of Sustained Release Matrix Granules Prepared via Twin Screw Melt Granulation}}}, year = {{2017}}, } @misc{12141, author = {{Thipsay, P. and Kutz, Gerd and Repka, M.}}, location = {{San Diego (USA)}}, title = {{{In-Line Particle Size Analysis of Sustained Release HPMC Matrix Granules to Study the Impact of Formulation and Process Parameters in Twin Screw Hot-Melt Granulation}}}, year = {{2017}}, } @misc{12142, author = {{Vo, A. and Kamke, Dominic and Kim, D. and Martin, S. and Repka, M. and Kutz, Gerd}}, location = {{San Diego (USA)}}, title = {{{Inline Particle Size Analysis to Monitor in Real Time Continuous Melt Extruded Pelletization}}}, year = {{2017}}, } @misc{12143, author = {{Vo, A. and Kutz, Gerd and He, H. and Zang, J. and Kim, D. and Kim, S. and Repka, M.}}, location = {{San Diego (USA)}}, title = {{{Continuous Manufacturing of NSAID Delayed Release Pellets by Hot Melt Extrusion Technology: Application of QbD Space Design, Inline FT-NIR, and Inline Pellet Size Analysis}}}, year = {{2017}}, } @misc{12144, author = {{Kamke, Dominic and Scherbaum, B. and Daniels, R. and Kutz, Gerd}}, location = {{Krakau}}, title = {{{One formulation, four granulation techniques - Comparison of energy consumption}}}, year = {{2017}}, } @misc{12238, abstract = {{Phytoplankton growth depends not only on mean intensity but also on the dynamics of the light supply. In surface mixed layers, phytoplankton may rapidly move between strong light and almost darkness. The nonlinear light‐dependency of growth may differ between constant and fluctuating light because of the different frequency distribution of light and/or acclimation processes. The present study compares for the first time light‐dependency of photosynthesis and growth of phytoplankton communities in situ under defined mixing conditions and at fixed depths. Maximum growth rates per day were not significantly different, but the growth efficiency was much higher under constant light than under fluctuating light of sub‐saturating daily irradiance. Phytoplankton incubated under fluctuating light needed about three times higher mean daily irradiances to balance photosynthesis and losses than under constant light. The difference in growth efficiency was mostly caused by the different frequency distribution of underwater light, as was estimated by a photosynthesis model of sufficient temporal resolution. The present study indicates a considerable overestimation of phytoplankton growth at sub‐saturating light in well‐mixed water layers by the common growth measurements under constant light. This implies an underestimation of the compensation light intensities and respective overestimations of the critical mixing depths.}}, author = {{Köhler, Jan and Wang, Lan and Guislain, Alexis and Shatwell, Tom}}, booktitle = {{Limnology and Oceanography}}, issn = {{1939-5590}}, number = {{3}}, pages = {{1156--1167}}, publisher = {{Wiley}}, title = {{{Influence of vertical mixing on light‐dependency of phytoplankton growth}}}, doi = {{10.1002/lno.10761}}, volume = {{63}}, year = {{2017}}, } @misc{12240, abstract = {{The hydrology of the lake-rich Tibetan Plateau is important for the global climate, yet little is known about the thermal regime of Tibetan lakes due to scant data. We (i) investigated the characteristic seasonal temperature patterns and recent trends in the thermal and stratification regimes of lakes on the Tibetan Plateau and (ii) tested the performance of the one-dimensional lake parameterization scheme FLake for the Tibetan lake system. For this purpose, we combined 3 years of in situ lake temperature measurements, several decades of satellite observations, and the global reanalysis data. We chose the two largest freshwater Tibetan lakes, Ngoring and Gyaring, as study sites. The lake model FLake faithfully reproduced the specific features of the high-altitude lakes and was subsequently applied to reconstruct the vertically resolved heat transport in both lakes during the last 4 decades. The model suggested that Ngoring and Gyaring were ice-covered for about 6 months and stratified in summer for about 4 months per year with a short spring overturn and a longer autumn overturn. In summer the surface mixed boundary layer extended to 6–8 m of depth and was about 20 % shallower in the more turbid Gyaring. The thermal regime of the transparent Ngoring responded more strongly to atmospheric forcing than Gyaring, where the higher turbidity damped the response. According to the reanalysis data, air temperatures and humidity have increased, whereas solar radiation has decreased, since the 1970s. Surprisingly, the modeled mean lake temperatures did not change, nor did the phenology of the ice cover or stratification. Lake surface temperatures in summer increased only marginally. The reason is that the increase in air temperature was offset by the decrease in radiation, probably due to increasing humidity. This study demonstrates that air temperature trends are not directly coupled to lake temperatures and underscores the importance of shortwave radiation for the thermal regime of high-altitude lakes.}}, author = {{Kirillin, Georgiy and Wen, Lijuan and Shatwell, Tom}}, booktitle = {{Hydrology and earth system sciences : HESS }}, issn = {{1607-7938}}, number = {{4}}, pages = {{1895--1909}}, publisher = {{Copernicus GmbH}}, title = {{{Seasonal thermal regime and climatic trends in lakes of the Tibetan highlands}}}, doi = {{10.5194/hess-21-1895-2017}}, volume = {{21}}, year = {{2017}}, } @misc{12241, abstract = {{Climate forecasts project a global increase in extreme weather events, but information on the consequences for ecosystems is scarce. Of particular significance for lakes are severe storms that can influence biogeochemical processes and biological communities by disrupting the vertical thermal structure during periods of stratification. An exceptional storm passing over northern Germany in July 2011 provided an opportunity to assess the consequences and underlying mechanisms of such extreme events on the interplay between the physics and ecological characteristics of a deep, nutrient-poor lake. Wind speeds were among the most extreme on record. A suite of variables measured throughout the event consistently indicates that a cascade of processes pushed the clear-water lake into an exceptionally turbid state. Specifically, thermocline deepening by the storm-entrained cyanobacteria of a deep chlorophyll maximum located at about 8 m depth into the surface mixed layer. Released from light limitation, intense photosynthesis of the cyanobacteria boosted primary production, increased algal biomass, raised the pH and thus induced massive calcite precipitation to a level never observed within three decades of lake monitoring. As a consequence, water transparency dropped from 6.5 to 2.1 m, the minimum on record for 40 years, and the euphotic zone shrank by about 8 m for several weeks. These results show that cyanobacterial blooms not only are promoted by climate warming, but can also be triggered by extreme storms. Clear-water lakes developing a deep chlorophyll maximum appear to be particularly at risk in the future, if such events become more intense or frequent.}}, author = {{Kasprzak, Peter and Shatwell, Tom and Gessner, Mark O. and Gonsiorczyk, Thomas and Kirillin, Georgiy and Selmeczy, Géza and Padisák, Judit and Engelhardt, Christof}}, booktitle = {{Ecosystems}}, issn = {{1435-0629}}, number = {{8}}, pages = {{1407--1420}}, publisher = {{Springer Science and Business Media LLC}}, title = {{{Extreme Weather Event Triggers Cascade Towards Extreme Turbidity in a Clear-water Lake}}}, doi = {{10.1007/s10021-017-0121-4}}, volume = {{20}}, year = {{2017}}, } @misc{12975, abstract = {{Properly handled fish is usually marketed as “fresh fish” until day 10 after fishing. About 40% of the total fishery that is used for direct human consumption is marketed in fresh form stored at temperatures up to +2 °C. Currently, there are no validated methods available for controlling the recommended period of storage. Apart from being a potential source for food fraud, spoiled fish represents a major source of foodborne illnesses and intoxications. In this study, a rapid MALDI-TOF mass spectrometry based screening method was developed using the vitreous fluid of fish eyes as specimen for the examination of different days of storage. The vitreous fluid was collected from n = 100 freshly fished brown trouts at day 0, 3, 7, 9, and 11 post mortem (n = 20 brown trouts each day of examination). The samples were immediately measured by MALDI-TOF mass spectrometry in linear positive mode (mass range m/z 2000–20,000 Da). For quality assurance the experiment was repeated with a set of brown trouts (n = 100) originating from the same fish farm and with brown trouts (n = 100) originating from a different fish farm. For specificity testing rainbow trouts (n = 10) were examined accordingly. All obtained mass spectra were processed by means of MALDI Biotyper OC 3.1 and ClinProTools 3.0 software. The MALDI Biotyper approach showed limited applicability for the identification of the time of storage. However, it was suitable to reliably discriminate between the closely related species brown and rainbow trout. Processing by ClinProTools revealed four crucial mass peaks (m/z 2594 Da, m/z 4857 Da, m/z 4879 Da, m/z 4899 Da) which enabled a reliable differentiation between day 0 and 3, 7, 9, 11 (rate of correct identification > 90%) as well as the differentiation between day 3 and 7, 9, 11 (rate of correct identification > 72%). However, this approach showed limited applicability within the end of the tested period of storage when comparing between day 7, 9, or 11.}}, author = {{Ulrich, Sebastian and Beindorf, Philipp–Michael and Biermaier, Barbara and Schwaiger, Karin and Gareis, Manfred and Gottschalk, Christoph}}, booktitle = {{Food Control}}, issn = {{0956-7135}}, keywords = {{MALDI-TOF, Mass spectrometry, Freshness, Fish, Quality control, Authenticity}}, number = {{10}}, pages = {{281--289}}, publisher = {{Elsevier }}, title = {{{A novel approach for the determination of freshness and identity of trouts by MALDI-TOF mass spectrometry}}}, doi = {{10.1016/j.foodcont.2017.05.005}}, volume = {{80}}, year = {{2017}}, } @misc{12976, abstract = {{The consumption of edible insects (entomophagy) will gain greater significance facing the increasing global population, which is suggested to reach 9 billion people in 2050 (FAO., 2009). Due to their high amount of proteins, fatty acids, vitamins, and minerals insects represent a valuable source of essential nutrients. While the consumption of insects is very common in many countries of Africa and Asia, there is a far smaller acceptance for entomophagy in Western cultures. Though, products such as noodles or burger paddies made from insect meal have a better compliance and can already be purchased in some countries of the European Union. This processing step however involves the risk of adulteration, because there is no more possibility to authenticate the insects once they are ground. The aim of this study was to investigate whether edible insects could be measured and distinguished by MALDI-TOF MS (matrix-assisted laser desorption ionization-time of flight mass spectrometry). Therefore, different kinds of edible insects (buffalo worms, mealworms, crickets and grasshoppers) were purchased via online shops and ground subsequently. The insect powder was extracted by vigorously shaking in diluted formic acid and measured by MALDI-TOF MS. The measurement provided reproducible as well as specific mass spectra and enabled a precise differentiation of the different species.}}, author = {{Ulrich, Sebastian and Kühn, Ulrike and Biermaier, Barbara and Piacenza, Nicolo and Schwaiger, Karin and Gottschalk, Christoph and Gareis, Manfred}}, booktitle = {{Food Control}}, issn = {{0956-7135}}, keywords = {{MALDI-TOF MS, Mass spectrometry, Edible insects, Authenticity, Food quality}}, number = {{6}}, pages = {{96--101}}, publisher = {{Elsevier}}, title = {{{Direct identification of edible insects by MALDI-TOF mass spectrometry}}}, doi = {{10.1016/j.foodcont.2017.01.010}}, volume = {{76}}, year = {{2017}}, } @inbook{9755, abstract = {{Die kooperative Landschaftsbewertung erfasst Landschaftswerte der Öffentlichkeit systematisch mit dem Ziel, die gewonnenen Informationen so zu verarbeiten, dass sie in einem bisher überwiegend positivistisch geprägten Planungssystem (räumliche Gesamtplanung, Landschaftsplanung) verwendbar sind und den ermittelten Inhalten und Werten ein eigenes Gewicht bei der Entscheidungsvorbereitung und -findung verliehen wird. Das Konzept basiert auf einem sozialkonstruktivistischen Landschaftsverständnis, nach dem Expertenurteile insbesondere beim Handlungsgegenstand Landschaft nur unter großen Unsicherheiten getroffen werden können. Am Beispiel der Ergebnisse kooperativer Landschaftsbewertungen lässt sich zeigen, mit welchen Problemen der planerische Umgang mit Landschaftswandel und Landschaftsästhetik in der postmodernen Gesellschaft konfrontiert wird. Gleichzeitig werden aber auch die Grenzen partizipatorischer Prozesse beschrieben und insbesondere unter Gerechtigkeitsaspekten analysiert. Gerade im Bereich der sozialen Medien werden sich diesbezüglich in der Zukunft zahlreiche weitere Möglichkeiten und daraus abgeleitete neue Fragen für die Landschaftsplanung ergeben.}}, author = {{Stemmer, Boris and Bruns, Diedrich}}, booktitle = {{Landschaftsästhetik und Landschaftswandel}}, editor = {{Kühne, Olaf and Weber, Florian and Megerle, Heidi}}, isbn = {{978-3-658-15847-7}}, pages = {{283–302}}, publisher = {{Springer}}, title = {{{Kooperative Landschaftsbewertung in der räumlichen Planung – Planbare Schönheit?}}}, doi = {{https://doi.org/10.1007/978-3-658-15848-4_16}}, year = {{2017}}, } @misc{9756, author = {{Stemmer, Boris and Bruns, Diedrich}}, booktitle = {{Fundberichte aus Hessen / Landesamt für Denkmalpflege Hessen Archäologie : Beiheft }}, issn = {{2940-5378}}, number = {{Beiheft 9}}, pages = {{167–182}}, publisher = {{Habelt }}, title = {{{Ausbau des Kulturlandschafts-Informationssystems KuLaDig zu einem partizipatorischen Landschaftsinformationssystem}}}, year = {{2017}}, } @inbook{9766, author = {{Moczek, Nicola and Stemmer, Boris}}, booktitle = {{Teaching-X-Change - Innovative Lehrideen und -formate an der Hochschule Ostwestfalen-Lippe}}, editor = {{Bartel, Yvonne-Christin and Kerber, Ulrike and Eller-Studzinsky, Bettina and Schäffer, Dennis and To, Kieu-Anh}}, isbn = {{978-3-940330-31-4}}, pages = {{113--133}}, title = {{{Planungsbezogene Soziologie – Psychologische Methoden zur Landschaftsbildbewertung}}}, doi = {{10.3278/6004753w}}, volume = {{2}}, year = {{2017}}, } @misc{9767, author = {{Rehhausen, Anke and Stemmer, Boris}}, booktitle = {{UVP-Report}}, issn = {{0933-0690}}, number = {{2}}, pages = {{118–126}}, publisher = {{UVP-Gesellschaft e.V.}}, title = {{{SUP auf Bundesebene: Aktuelle Berücksichtigung von kumulativen Wirkungen beim Ausbau von Infrastrukturen}}}, volume = {{31}}, year = {{2017}}, } @book{9904, abstract = {{In dem Sammelband beschreiben Vertreter:innen unterschiedlicher Fächer experimentelle Lehrveranstaltungen an Hochschulen. Die Ideen und Konzepte werden auf eine didaktische Metaebene gehoben, um sie in anderen Disziplinen zu adaptieren. }}, editor = {{Schäffer, Dennis and To, Kieu-Anh and Eller-Studzinsky, Bettina and Bartel, Yvonne-Christin}}, pages = {{182}}, title = {{{TeachingXchange}}}, doi = {{10.3278/6004753w}}, volume = {{2}}, year = {{2017}}, } @inbook{9938, author = {{Kunkel, Sabine and Utesch, Bernd and Winker, Martina and Felmeden, Jörg}}, booktitle = {{Wasserinfrastruktur: Den Wandel gestalten. Technische Varianten, räumliche Potenziale, institutionelle Spielräume}}, editor = {{Winker, Martina and Trapp, Jan and Libbe, Jens and Schramm, Engelbert}}, isbn = {{978-3-88118-584-4 }}, pages = {{99–115}}, publisher = {{Deutsches Institut für Urbanistik }}, title = {{{Wärmerückgewinnung und Betriebswassernutzung - Umsetzung einer Systemalternative in Frankfurt am Main}}}, volume = {{16}}, year = {{2017}}, }