Details zur Publikation |
Kategorie | Textpublikation |
Referenztyp | Tagungsbeiträge |
URL | http://www.iemss.org/society/index.php/iemss-2014-proceedings |
Titel (primär) | Analysis of vegetation heterogeneity as sensor for soil moisture patterns using remote sensing |
Titel (sekundär) | Proceedings of the 7th International Congress on Environmental Modelling and Software (iEMSs), June 15-19, San Diego, California, USA |
Autor | Lausch, A.; Schütze, C.; Siemon, B.; Zacharias, S. ; Werban, U. |
Herausgeber | Ames, D.P.; Quinn, N.W.T.; Rizzoli, A.E. |
Erscheinungsjahr | 2014 |
Department | CLE; MET |
Seite von | 1 |
Seite bis | 8 |
Sprache | englisch |
Keywords | Vegetation heterogeneity; soil variability, soil moisture patterns; electromagnetic induction (EMI); Helicopter-borne electromagnetic (HEM) |
UFZ Querschnittsthemen | RU2 |
Abstract | Soil moisture patterns are key parameters when it comes to controlling and managing process-pattern interactions in processes relating to soil, vegetation, landscape, climate and the ecosystem Soil pattern heterogeneity is hard to determine in European landscapes using direct procedures, which are used on soil with little or no vegetation, because the soil is often covered with vegetation all year round. The goal of this study is therefore to develop indirect procedures to analyze soil moisture patterns, which “use the biochemical-biophysical characteristics of plants as sensors and indicators” for soil moisture heterogeneity. For this research, geoelectrical methods which include electromagnetic induction (EMI) via a mobile geoplatform with a tractor) and the helicopter electromagnetic method (HEM) are used in the two test areas to quantify model information for soil moisture patterns. At the same time, in both study areas the suitability of optical airborne and satellite remote sensing data (hyperspectral AISA-DUAL, Modis, Landsat TM) will be examined to predict the connection between the spectral response of biochemical- biophysical vegetation characteristics and underlying soil moisture patterns. The first results show the best univariate models for predicting electrical conductivity for the vertical dipole EM38DD V with an R²=0.54 based on the spectral information NPCI (Normalized Pigments Reflectance Index). To predict the horizontal dipole EM38DD H with the spectral index NPCI an R²=0.65 was achieved. The combination of variables including the geographical elevation was tested as the input for a multivariate regression analysis. An improvement could be made to explain the variance of EMI measurement signals by combining elevation and spectral information. |
dauerhafte UFZ-Verlinkung | https://www.ufz.de/index.php?en=20939&ufzPublicationIdentifier=14969 |
Lausch, A., Schütze, C., Siemon, B., Zacharias, S., Werban, U. (2014): Analysis of vegetation heterogeneity as sensor for soil moisture patterns using remote sensing In: Ames, D.P., Quinn, N.W.T., Rizzoli, A.E. (eds.) Proceedings of the 7th International Congress on Environmental Modelling and Software (iEMSs), June 15-19, San Diego, California, USA International Environmental Modelling and Software Society (iEMSs), Manno, 1 - 8 |