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Prof. Dr. Birgit Kleinschmit

Lupe

Head

Phone: +49 (0)30 / 314 - 72 84 7

Email:

Room: EB 235a
Consultation hour: by arrangement

Personal Data
Date and place of birth: 1973 (Münster, Westphalia, Germany)
Employment and academic vita
2011
Announced as University Professor and Head of the Department of Geoinformation in Environmental Planning at the Institute of Landscape Architecture and Environmental Planning of the Berlin University of Technology
2003-2011
Assistant Professor (“Juniorprofessorin”) at the Department of Geoinformation Processing for Landscape and Environmental Planning of the Berlin University of Technology
2001-2003
Consultant and software developer, INTEND Geoinformatik GmbH, Kassel, Germany
1998-2001
Scientific staff member ("Wissenschaftliche Mitarbeiterin"), Georg-August-Universität, Göttingen, Department of Forest Assessment & Remote Sensing, Forest Growth, Forest Planning
1993-1998
Diploma study of forest science at the University of Göttingen
Degrees
2001
Doctorate (doctor forest), Georg-August Universität Göttingen, Grade: magna cum laude
1998
Diploma, Georg-August Universität Göttingen, Grade: 1,9 (on a scale from 1 to 6, where 1 is highest)

Research Topics

    • Studying land use dynamics on different scales to understand natural and human environmental systems using geospatial information technologies (GIS & Remote Sensing)
    • Modelling environmental changes and assessing the impacts on humans and ecosystems
    • Knowledge-based combination of geoinformation and remote sensing data
    • Evaluating of new sensor technologies

      Articles

      2019

      Schulz, C. and Kleinschmit, B. (2019). Zentralasiatische Tugai-Auwälder – Ein gefährdetes Ökosystem. Auenmagazin, 11-17.


      2018

      Holtgrave, A.-K., Förster, M., Greifeneder, F., Notarnicola, C. and Kleinschmit, B. (2018). Estimation of Soil Moisture in Vegetation-Covered Floodplains with Sentinel-1 SAR Data Using Support Vector Regression. PFG – Journal of Photogrammetry, Remote Sensing and Geoinformation Science, 85–101.


      Klinke, R., Kuechly, H., Frick, A., Förster, M., Schmidt, T., Holtgrave, A.-K. a. K. B., Spengler, D. and Neumann, C. (2018). Indicator-Based Soil Moisture Monitoring ofWetlands by Utilizing Sentinel and Landsat Remote Sensing Data. PFG – Journal of Photogrammetry, Remote Sensing and Geoinformation Science, 71–84.


      Heuner, M., Schröder, B., Schröder, U. and Kleinschmit, B. (2018). Contrasting elevational responses of regularly flooded 4 marsh plants in navigable estuaries. Ecohydrology & Hydrobiology, 1-17.


      Luan, X., Buyantuev, A., Baur, A. H., Kleinschmit, B., Wang, H., Wei, S., Liu, M. and Xu, C. (2018). Linking greenhouse gas emissions to urban landscape structure: the relevance of spatial and thematic resolutions of land use/cover data. Landscape Ecology, 1211–1224.


      Gras, P., Knuth, S., Börner, K., Marescot, L., Benhaiem, S., Aue, A., Wittstatt, U., Kleinschmit, B. and Kramer-Schadt, S. (2018). Landscape Structures Affect Risk of Canine Distemper in Urban Wildlife. Frontiers in Ecology and Evolution, 1-16.


      2017

      Koch, R., Almeida-Cortezb, J. S. and Kleinschmit, B. (2017). Revealing areas of high nature conservation importance in aseasonally dry tropical forest in Brazil: Combination of modelled plantdiversity hot spots and threat patterns. Journal for Nature Conservation. Elsevier, 24-39.


      Neumann, C., Itzerott, S., Weiss, G., Kleinschmit, B. and Schmidtlein, S. (2017). Mapping multiple plant species abundance patterns - A multiobjective optimization procedure for combining reflectance spectroscopy and species ordination. Ecological Informatics. Elsevier, 61-76.


      Ayazli, I. E., Kilic, F., Lauf, S., Kleinschmit, B. and Demir, H. (2017). Creating urban growth simulation models driven by the bosphorus bridges. Fresenius Environmental Bulletin, 113-117.


      Moran, N., Nieland, S., Tintrup gen. Suntrup, G. and Kleinschmit, B. (2017). Combining machine learning and ontological data handling for multi-source classification of nature conservation areas. International Journal of Applied Earth Observation and Geoinformation, 124–133.


      Other Publications

      Creating urban growth simulation models driven by the bosphorus bridges
      Citation key Ayazli2017
      Author Ayazli, I. E. and Kilic, F. and Lauf, S. and Kleinschmit, B. and Demir, H.
      Pages 113-117
      Year 2017
      Journal Fresenius Environmental Bulletin
      Volume 26
      Number 1
      Abstract In the past and today, Istanbul has always been one of the most important cities in the world because of its historical, cultural and natural features. This fact has caused increase in population and great transportation problem since 1950s. To surmount the transportation problem, two bridges were built and a third one is being constructed on the Bosphorus. Although zone plans, which made in the 1960s, suggested the urban growth to east-west direction, each bridge created its own traffic and triggered urbanization to northward. Main objectives of this paper are to determine the land use changes driven by Bosphorus bridges, predict potential impacts of the 3rd bridge and compare the effects of different routes on urbanization in Istanbul. Two motorways were selected among for alternative routes preparing for 3rd bridge. To find out the impacts of Bosphorus bridges on the urbanization, cellular automata (CA) based urban growth simulation models were created for the year 2030 and change detection analysis were implemented between 2009 and 2030. According to the results, Istanbul will continue grow northward and almost the half of forest area will be damaged and transformed to urban area in 2030.
      Bibtex Type of Publication Kleinschmit
      Download Bibtex entry

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      Geoinformation in Environmental Planning Lab
      Office EB5
      Straße des 17. Juni 145
      D - 10623 Berlin
      Phone: +49 (0)30 314 - 73 29 0
      Fax: +49 (0)30 314 - 23 50 7