Microbial growth in soil and nitrogen turnover: a theoretical model considering the activity state of microorganisms SA Blagodatsky, O Richter Soil Biology and Biochemistry 30 (13), 1743-1755, 1998 | 217 | 1998 |
Scaling input data by GIS for hydrological modelling AH Thieken, A Lücke, B Diekkrüger, O Richter Hydrological processes 13 (4), 611-630, 1999 | 135 | 1999 |
Parameter estimation in ecology: the link between data and models O Richter, D Söndgerath | 123 | 1990 |
Ecological risk assessment of a coastal zone in Southern Vietnam: Spatial distribution and content of heavy metals in water and surface sediments of the Thi Vai Estuary and Can … S Costa-Böddeker, P Hoelzmann, HD Huy, HA Nguyen, O Richter, ... Marine Pollution Bulletin 114 (2), 1141-1151, 2017 | 113 | 2017 |
Voltinism flexibility of a riverine dragonfly along thermal gradients E Braune, O Richter, D Söndgerath, F Suhling Global Change Biology 14 (3), 470-482, 2008 | 110 | 2008 |
Spatially explicit modelling of transgenic maize pollen dispersal and cross-pollination C Loos, R Seppelt, S Meier-Bethke, J Schiemann, O Richter Journal of Theoretical Biology 225 (2), 241-255, 2003 | 110 | 2003 |
Environmental fate modelling of pesticides: from the laboratory to the field scale O Richter, B Diekkrüger, P Nörtersheuser John Wiley & Sons, 2008 | 102 | 2008 |
Are habitat models transferable in space and time B Schröder, O Richter Zeitschrift für Ökologie und Naturschutz 8 (4), 195-205, 1999 | 98 | 1999 |
Simulation des Verhaltens okologischer Systeme O Richter VCH, 1985 | 90 | 1985 |
Guidance document on estimating persistence and degradation kinetics from environmental fate studies on pesticides in EU registration J Boesten, K Aden, C Beigel, S Beulke, M Dust, JS Dyson, IS Fomsgaard, ... Report of the FOCUS Work Group on Degradation Kinetics, EC Doc. Ref. Sanco …, 2005 | 81 | 2005 |
Temperature response of growth of larval dragonflies–an overview F Suhling, I Suhling, O Richter International Journal of Odonatology 18 (1), 15-30, 2015 | 78 | 2015 |
A model for predicting the emergence of dragonflies in a changing climate O Richter, F Suhling, OLE Müller, D Kern Freshwater Biology 53 (9), 1868-1880, 2008 | 73 | 2008 |
The response of oscillating glycolysis to perturbations in the NADH/NAD system: a comparison between experiments and a computer model O Richter, A Betz, C Giersch Biosystems 7 (1), 137-146, 1975 | 68 | 1975 |
Rising temperature and development in dragonfly populations at different latitudes IDA Flenner, O Richter, F Suhling Freshwater Biology 55 (2), 397-410, 2010 | 64 | 2010 |
“It was an artefact not the result”: A note on systems dynamic model development tools R Seppelt, O Richter Environmental Modelling & Software 20 (12), 1543-1548, 2005 | 58 | 2005 |
Modelling spatio‐temporal dynamics of herbicide resistance O Richter, P Zwerger, U Böttcher Weed Research 42 (1), 52-64, 2002 | 54 | 2002 |
Flow of genetic information through agricultural ecosystems: a generic modelling framework with application to pesticide-resistance weeds and genetically modified crops O Richter, R Seppelt Ecological Modelling 174 (1-2), 55-66, 2004 | 50 | 2004 |
Pharmacokinetics of dexamethasone in children. O Richter, B Ern, D Reinhardt, B Becker Pediatric Pharmacology (New York, NY) 3 (3-4), 329-337, 1983 | 46 | 1983 |
Phytoremediation by mangrove trees: Experimental studies and model development O Richter, HA Nguyen, KL Nguyen, VP Nguyen, H Biester, P Schmidt Chemical Engineering Journal 294, 389-399, 2016 | 37 | 2016 |
Effects of data availability on estimation of evapotranspiration H Bormann, B Diekkrüger, O Richter Physics and Chemistry of the Earth 21 (3), 171-175, 1996 | 34 | 1996 |