English Intern
Institut für Geographie und Geologie

Dr. Tobias Landmann

Anstellung am Lehrstuhl

  • 12/2005 - 08/2012

Forschungsprojekte am Lehrstuhl

  • Arbeitsgruppenleiter: (Fernerkundung und "Landscape Dynamics") in West African Science Service Center on Climate Change and Adapted Land Use (WASCAL)
  • Mitarbeit im Forschungsprojekt "Wasser in Zentralasien" (CAWa)
  • Teilprojektleiter: BIOTA West, Fernerkundung für die Biodiversität in Afrika.
  • Projektleiter GLOWA VOLTA, Fernerkundung, Veränderung der Landoberfläche für die Hydrologische Modellierung (land cover and land cover change)

gewechselt nach

  • International Centre of Insect Physiology and Ecology (icipe), Nairobi, Kenia (seit 09/2012)

Publikationen am Lehrstuhl (Die Publikationsliste wird an dieser Stelle nicht weiter gepflegt.)

  • A comparison between MODIS (VCF) tree cover density and the 200-2002 South African National Land Cover (NLC) 2000 product. Landmann, T.; van den Berg, H. in African Journal of GeoInfo (2005).
  • A consensus Southern Africa regional burnes area validation protocol. Roy, D.P.; Landmann, T.; Le Roux, J.; Frost, P.; Makungwa, S.; Morisette, J.; Pereira, J.; du Toit, R.; Tacheba, B.; Zacarias, in International Journal of Remote Sensing (2005). 4265-4292.
  • A land cover change synthesis study for the GLOWA Volta Basin in West Africa using time trajectory satellite observations and cellular automation models. Landmann, T.; Machwitz, M.; Le, Q. B.; Desta, L.; Vlek, P.; Dech, S.; Schmidt, M. (2008).
  • A Land Cover Classification System (LCCS) based wetland biodiversity characterization method for West African savannas using 250-Meter MODIS observations. Landmann, T.; Colditz, R.; Schmidt, M.; Dech, S. (2007).
  • A new spatially-explicit and object-conditional land cover (LC) data set based on the FAO Land Cover Classification System (LCCS) for the GLOWA catchment area. Landmann, T.; Schmidt, M.; Dech, S.; Schramm, M.; Vogel, M. (2006).
  • An object-conditional approach for satellite remote sensing land cover mapping in African Savannas. Landmann, T.; Vlek, P. J.; Schmidt, M.; Dech, S.; Cord, A. (2007).
  • An object-conditional land cover classification system (LCCS) based wetland biodiversity characterization method for West African savannas using 250 meter MODIS observations. Landmann, T.; Schmidt, M.; Colditz, R. R.; Dech, S. (2007).
  • An object-conditional land cover classification system (LCCS) wetland probability detection method for west African savannas using 250-meter MODIS observations. Landmann, T.; Colditz, R. R.; Schmidt, M. (2006).
  • Bushfire distribution in the subsahelian West Africa using satellite Imagery. Yao, N. A.; Schmidt, M.; Landmann, T.; Konaté, S.; Dech, S.; Linsenmair, K. E. (2008).
  • Characterizing the surface heterogeneity of fire effects using multi-temporal reflective wavelength data. Roy, D.P.; Landmann, T. in International Journal of Remote Sensing (2005). 4197-4218.
  • Continuous tree density data as derived by remote sensing. Schramm, M.; Landmann, T.; Machwitz, M.; Schmidt, M.; Dech, S. A. Thiombiano, Kampmann, D. (eds.) (2010). 98 - 101.
  • Dynamics of MODIS time series for ecological applications in southern Africa. Colditz, R. R.; Geßner, U.; Conrad, C.; van Zyl, D.; Malherbe, J.; Newby, T.; Landmann, T.; Schmidt, M.; Dech, S. (2007).
  • Ein neues Modell für eine spektrale Entmischung ohne genaue Endmemberspektren. Schramm, M.; Landmann, T.; Lohmann, P.; Heipke, C. in Photogrammetrie - Fernerkundung - Geoinformation (2008). 5/2008 351 - 362.
  • Emissions of major gaseous and particulate species during experimental burns of southern African biomass. Keene, William C.; Lobert, Jürgen M.; Crutzen, Paul J.; Maben, John R.; Scharffe, Dieter H.; Landmann, Tobias; Hély, Christelle; Brain, Conrad in Journal of Geophysical Research: Atmospheres (2006). 111(D4)
  • Estimating fire severity from remote sensing information for experimental fires in the Kruger National Park (KNP). Landmann, T. in South African Journal of Sciences (2003). 99 357-360.
  • Evaluating the sequential masking classification approach for improving crop discrimination in the Sudanian Savanna of West Africa. Forkuor, Gerald; Conrad, Christopher; Thiel, Michael; Landmann, Tobias; Barry, Boubacar in Computers and Electronics in Agriculture (2015). 118 380 - 389.
  • Fire as an agent for vegetation structure & diversity. Yao, N. A.; Landmann, T.; Schmidt, M.; Konaté, S.; Dech, S.; Linsenmair, K. E. A. Thiombiano, Kampmann, D. (eds.) (2010). 64 - 71.
  • Integration of remote sensing products in regional information systems to support decision making in land and water management in Central Asia. Ruecker, G.; Wehrmann, T.; Schettler, I.; Conrad, C.; Landmann, T.; Klein, D.; Fritsch, S.; Schorcht, G.; Mund, J.P.; Kuenzer, C.; Keil, M.; Mehl, H.; Dech, S. (2009).
  • Land cover analysis on sub-continental scale: FAO LCCS standard with well-defined 250 meter MODIS satellite observations in West Africa. Machwitz, M.; Landmann, T.; Cord, A.; Conrad, C.; Dech, S. (2008).
  • Land cover change analysis within the GLOWA Volta basin in West Africa using 30-meter Landsat data snapshots. Landmann, T.; Herty, C.; Dech, S.; Schmidt, M.; Vlek, P. (2007).
  • Land cover change in West Africa as observed by satellite remote sensing. Landmann, T.; Machwitz, M.; Schmidt, M.; Dech, S.; Vlek, P. A. Thiombiano, Kampmann, D. (eds.) (2010). 92 - 97.
  • Land cover mapping in the Upper Shire River catchment in Malawi using Landsat satellite data. Palamuleni, L.G.; Annegarn, H.J.; Landmann, T. in Geocarto International (2010). 25(7) 503-523.
  • Maize pest and diseas mapping using RapidEye-based vegetation indices and machine learning methods. Abdel-Rahman, Elfatih; Kyalo, Richard; Landmann, Tobias; Thiel, Michael; Nyasani Le Ru B., Johnson (2016).
  • MODIS-based change vector analysis for assessing wetland dynamics in Southern Africa. Landmann, T.; Schramm, M.; Huettich, C.; Dech, S. in Remote Sensing Letters (2012).
  • Remote Sensing Of Vegetation Fires And Its Contribution To A Fire Management Information System. Flasse, Stephane; Trigg, Simon; Ceccato, Pietro; Perryman, Anita; Hudak, Andrew; Thompson, Mark; Brockett, Bruce; Drame, Moussa; Ntabeni, Tim; Frost, Philip; Landmann, Tobias; le Roux, Johan (2004).
  • Satellite derived spatial and temporal distribution of fire activity in subsahelian West Africa. Yao, N. A.; Schmidt, M.; Landmann, T.; Wegmann, M.; Konaté, S.; Penner, J.; Rödel, M.-O.; Fahr, J.; Linsenmair, K. E. (2006).
  • Spatio-temporal analysis of African landscapes for biodiversity research. Wegmann, M.; Colditz, R. R.; Fahr, J.; Landmann, T.; Linsenmair, K. E.; Penner, J.; Rödel, M.-O.; Schmidt, M.; Sommer, H.; Dech, S. (2006).
  • The use of RapidEye observations to map cropping systems in highly fragmented agro-ecological landscapes in Africa. Kyalo, Richard; Landmann, Tobias; Abdel-Rahman, Elfatih; Subramanian, Sevgan; Nyasani, Johnson; Thiel, Michael; Jozani, Hossein (2016).
  • The utility of satellite fire product accuracy information - perspectives and recommendations from the southern Africa fire network. Roy, D. P.; Trigg, S. N.; Bhima, R.; Brockett, B.; Dube, O.; Frost, P.; Govender, N.; Landmann, T.; Roux, J. Le; Lepono, T. in IEEE Transactions on Geoscience and Remote Sensing (2006). 44 1928 - 1930.
  • Tree density detection using spectral unmixing without known target spectra. Schramm, M.; Landmann, T.; Schmidt, M.; Dech, S. (2008).
  • Using the Land Cover Classification System (LCCS) for interoperable determination of land cover and land cover change in Africa. Landmann, T.; Machwitz, M.; Cord, A.; Hüttich, C.; Dech, S. (2009).
  • Wide Area Wetland Mapping in Semi-Arid Africa Using 250-Meter MODIS Metrics and Topographic Variables. Landmann, Tobias; Schramm, Matthias; Colditz, René R.; Dietz, Andreas; Dech, Stefan in Remote Sensing (2010). 2(7) 1751-1766.

Lehrstuhl für Fernerkundung
Oswald-Külpe-Weg 86
Campus Hubland Nord
97074 Würzburg


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