Dr. Oliver Körner
Dr.
Oliver Körner
Großbeeren
033701 - 78 355
koerner@igzev.de
Forschende
Head of PA HORTSYS (acting)
Ausbildung
Berufliche Tätigkeiten
Sonstige Tätigkeiten
SiEUGreen – Sustainable Food Security – Resilient and resource-efficient value
SiEUGreen ist bestrebt, die Zusammenarbeit zwischen der EU und China und dabei die Förderung der städtischen Landwirtschaft für Ernährungssicherhe...
Curriculum Vitae
Occupation
| 11/2017 – today |
Head of Programme Area 4 (acting) `Horticultural Systems of the Future´ Leibniz Institute of Vegetable and Ornamental Crops, IGZ (www.igzev.de), Grossbeeren, Germany
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| 07/2017 – 10/2017 |
Head Systems Modelling Danish Technological Institute (DTI, www.dti.dk), Taastrup, Denmark |
| 01/2016 – 06/2017 |
Senior Specialist Danish Technological Institute (DTI, www.dti.dk), Taastrup,Denmark
|
| 12/2008 – 12/2015 |
R&D Specialist AgroTech A/S, Aarhus and Taastrup, Denmark
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| 10/2007 – 12/2008 |
Scientist Wageningen UR Greenhouse Horticulture, Wageningen, The Netherlands
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| 04/2003 – 12/2007 |
Assistant/Associate Professor University of Copenhagen, Department of Agricultural Sciences, Crop Science, Copenhagen, Denmark
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| 01/1999 – 03/2003 |
Research Assistant and PhD student Wageningen University, Agrotechnology and Food Science, The Netherlands
|
| 06/1996 – 09/1996 |
Research Assistant Department of Plant Science, Cornell University, Ithaca, New York, USA
|
| 01/1995– 07/1995 |
Research Assistant Kiwifruit Breeding Group, Hort-Research Institute, Mount Albert Research Centre, Auckland, New Zealand
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Education |
|
| 06/2003 |
PhD (Dr. ir.) of C.T. de Wit, Graduate School for Production Ecology & Resource Conservation (PE&RC), Wageningen, The Netherlands |
| 10/1998 |
M.Sc. in Horticultural Sciences (Dipl.-Ing. agr.), University of Hanover, Germany
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| 09/1998 | M.Sc. Thesis at Wageningen Agricultural University, The Netherlands |
| 10/1994 |
B.Sc. (Vordiplom) Horticulture, University of Hanover, Germany
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Crop photosynthetic performance monitoring based on a combined system of measured and modelled chloroplast electron transport rate in greenhouse tomato
Yu, W., O. Körner and U. Schmidt 2020. Crop photosynthetic performance monitoring based on a combined system of measured and modelled chloroplast electron transport rate in greenhouse tomato. Frontiers in Plant Science 11: 1-15.
DOI: 10.3389/fpls.2020.01038
→Design of a Real-Time Gas-Exchange Measurement System for Crop Stands in Environmental Scenarios
Kläring, H.P. and O. Körner 2020. Design of a real-time gas-exchange measurement system for crop stands in environmental scenarios. Agronomy 10: 1-22.
DOI: 10.3390/agronomy10050737
→Effect of temperature and CO2 concentration on leaf expansion in a tomato crop canopy
Effect of temperature and CO2 concentration on leaf expansion in a tomato crop canopy. W. Yu, O. Körner. ISHS Acta Horticulturae 1296: International Symposium on Advanced Technologies and Management for Innovative Greenhouses: GreenSys2019
→In-situ leaf-surface micro-topography -the case of stomata detection-
In-situ leaf-surface micro-topography -the case of stomata detection-. R.Klose, O. Körner, J. Gräfe. Acta horticulturae 1296:477-484
→Stomatal behavior following mid- or long-term exposure to high relative air humidity: A review
Fanourakis, D., S. Aliniaeifard, A. Sellin, H. Giday, O. Körner, A.R. Nejad, C. Delis, D. Bouranis, G. Koubouris, E. Kambourakis, N. Nikoloudakis and G. Tsaniklidis 2020. Stomatal behavior following mid- or long-term exposure to high relative air humidity: A review. Plant Physiology and Biochemistry 153: 92-105.
→An integrated simulation and decision support system for greenhouse climate control (itGrows 2.0) based on an open source greenhouse modelling platform (HortSim V0.0 )
Kjaer, K.H., O. Körner, N. Holst, J.M. Huet, J.S. Pedersen and J.M. Aaslyng 2020. An integrated simulation and decision support system for greenhouse climate control (itGrows 2.0) based on an open source greenhouse modelling platform (HortSim V0.0 ). Acta Horticulturae 1271: 47-53.
→
A fully integrated simulation model of multi-loop aquaponics: A case study for system sizing in different environments
Goddek, S.; Körner, O. 2019. A fully integrated simulation model of multi-loop aquaponics: A case study for system sizing in different environments. Agricultural Systems 171, 143-154.
DOI: 10.1016/j.agsy.2019.01.010
→Analyzing quality and modelling weight loss of onions during drying and storage
Islam, M.N.; Körner, O.; Pedersen, J.S.; Sørensen, J.N.; Edelenbos, M.; 2019. Analyzing quality and modelling weight loss of onions during drying and storage. Computers and Electronics in Agriculture 164, 104865.
DOI: 10.1016/j.compag.2019.104865
→Long term measurements of carbon dioxide gas exchange under interrupted supplemental lighting on greenhouse tomato crops
Ramírez, T.; Kläring, H.-P.; Körner, O. 2019. Long term measurements of carbon dioxide gas exchange under interrupted supplemental lighting on greenhouse tomato crops. Biosystems Engineering, 187, 69-80.
DOI: 10.1016/j.biosystemseng.2019.08.008
→Low air humidity during growth promotes stomatal closure ability in potted roses (Rosa hybrida)
Fanourakis, D.; Giday, H.; Hyldgaard, B.; Bouranis, D.; Körner, O.; Ottosen, C.O., 2019. Low air humidity during growth promotes stomatal closure ability in potted roses (Rosa hybrida). European Journal of Horticultural Science 84(4), 245–252
DOI: 10.17660/eJHS.2019/84.4.7
→Online measurement of temperature and relative humidity as marker tools for quality changes in onion bulbs during storage
Islam, M.N.; Wei, A.; Pedersen, J.S.; Sørensen, J.N.; Körner, O.; Edelenbos, M. 2019. Online measurement of temperature and relative humidity as marker tools for quality changes in onion bulbs during storage. PLOS ONE 14(1): e0210577.
→Stomatal anatomy and closing ability is affected by supplementary light intensity in rose (Rosa hybrida L.).
Fanourakis, D., Hyldgaard, B., Giday, H., Aulik, I., Bouranis, D., Körner, O., Ottosen, C.O., 2019. Stomatal anatomy and closing ability is affected by supplementary light intensity in rose (Rosa hybrida L.). Hort. Sci. (Prague) 46, 81-89.
DOI: 10.17221/144/2017-HORTSCI
→Nutrient mineralization and organic matter reduction performance of RAS-based sludge in sequential UASB-EGSB reactors
Goddek, S.; Delaide, B.P.L.; Joyce, A.; Wuertz, S.; Haissam Jijakli, M.; Gross, A.; Eding, E.H.; Bläser, I.; Reuter, M.; Keizer, L.C.P.; Morgenstern, R.; Körner, O.; Verreth, J.; Keesman, K.J. 2018. Nutrient mineralization and organic matter reduction performance of RAS-based sludge in sequential UASB-EGSB reactors. Aquacultural Engineering 83, 10-19.
DOI: 10.1016/j.aquaeng.2018.07.003
→Simulating lettuce production in a multilayer moving gutter system
Körner, O.; Pedersen, J.S.; Jægerholm, J. 2018. Simulating lettuce production in a multilayer moving gutter system. Acta Horticulturae 1227, 283-290.
DOI: 10.17660/ActaHortic.2018.1227.34
→Industrie 4.0 im Zierpflanzenbau
Körner, O. 2018. Industrie 4.0 im Zierpflanzenbau. Gartenbau-Profi 7, 29.
Klimasteuerung, Frühwarnsysteme und Phänotypisierung im Gewächshausgartenbau – Risikominimierung durch bessere Datengrundlage
Körner, O. 2017. Klimasteuerung, Frühwarnsysteme und Phänotypisierung im Gewächshausgartenbau – Risikominimierung durch bessere Datengrundlage. Gartenbau-Profi 12/17, 44.
Decoupled Aquaponic Systems.
Goddek, S., Bläser, I., Reuter, M., Wuertz, S., Körner, O., Joyce, A., Keesman, K.J., 2019. Decoupled Aquaponic Systems. In: Goddek, S., Joyce, A., Kotzen, B., Burnell, G. (Ed.), Aquaponics Food Production Systems. Springer Nature, SpringerOpen, pp. 201-229.
Nutrient Cycling.
Eck, M., Körner, O., Jijakli, M.H., 2019. Nutrient Cycling. In: Goddek, S., Joyce, A., Kotzen, B., Burnell, G. (Ed.), Aquaponics Food Production Systems. Springer Nature, SpringerOpen, pp. 231-246.
System Modelling.
Keesman, K.J., Körner, O., Wagner, K., Urban, J., Karimanzira, D., Rauschenbach, T., Goddek, S., 2019. System Modelling. In: Goddek, S., Joyce, A., Kotzen, B., Burnell, G. (Ed.), Aquaponics Food Production Systems. Springer Nature, SpringerOpen, pp. 267-299.