Room: 0/98A
Phone: (+48) 22 59 325 25
E-mail: magdalena_cetner@sggw.pl
Major research interests: chlorophyll a fluorescence technique in evaluation of light-harvesting apparatus efficiency
Didactics:
Plant physiology – laboratory classes
Current research projects:
Research task financed by WULS—SGGW internal competition procedure for young scientists/ PhD students in 2016
Project no 505-10-010200-N00230-99
Title: Potassium deficiency-induced changes in photosynthetic efficiency of radish
Principal Investigator: mgr inż. Magdalena Cetner
Research papers:
Kalaji H.M., Schansker G., Brestic M., Bussotti F., Calatayud A., Ferroni L., Goltsev V., Guidi L., Jajoo A., Li P., Losciale P., Mishra V.K., Misra A.N., Nebauer S.G., Pancaldi S., Penella C., Pollastrini M., Suresh K., Tambussi E., Yanniccari M., Zivcak M., Cetner M.D., Samborska I.A., Stirbet A., Olsovska K., Kunderlikova K., Shelonzek H., Rusinowski S., Bąba W. (2017) Frequently asked questions about chlorophyll fluorescence, the sequel. Photosynth Res (2017) 132:13–66 DOI 10.1007/s11120-016-0318-y
Kalaji H.M., Dąbrowski P., Cetner M.D., Samborska I.A., Łukasik I., Brestic M., Zivcak M., Horaczek T., Mojski J., Kociel H., Balaji P.M. (2017) A comparison between different chlorophyll content meters under nutrient deficiency conditions. Journal of Plant Nutrition, 40:7, 1024-1034, DOI:10.1080/01904167.2016.1263323
Kalaji H.M., Jajoo A., Oukarroum A., Brestic M., Zivcak M., Samborska I.A., Cetner M.D., Łukasik I., Goltsev V., Ladle R.J. (2016) Chlorophyll a fluorescence as a tool to monitor physiological status of plants under abiotic stress conditions. Acta Physiol Plant (2016) 38:102; DOI 10.1007/s11738-016-2113-y
Kalaji H.M., Sytar O., Brestic M., Samborska I.A., Cetner M.D., Carpentier C. (2016) Risk assessment of urban lake water quality based on in-situ cyanobacterial and total chlorophyll-a monitoring. Pol. J. Environ. Stud. Vol. 25, No. 2 (2016), 1-7; DOI: 10.15244/pjoes/60895
Kowalczyk K., Gajc-Wolska J., Marcinkowska M., Cetner M.D., Kalaji H.M. (2016) Response of growth, quality parameters and photosynthetic apparatus of endive plant to different culture media. Folia Hort. 28/1(2016): 25-30; DOI: 10.1515/fhort-2016-0004
Kowalczyk K., Niedzińska M., Przybył J., Metera A., Cetner M.D. (2016) The effect of nutrient solution on yield, its quality and the reaction of photosynthetic apparatus of endive (Cichorium endivia) grown in hydroponics. Acta Hortic. 1142. ISHS 2016. p. 335-342. DOI 10.17660/ActaHortic.2016.1142.51
Kalaji M.H., Cetner M.D., Samborska I.A., Łukasik I., Oukarroum A., Rusinowski S., Pietkiewicz S., Świątek M., Dąbrowski D. (2016) Effective microorganisms impact on photosynthetic activity of Arabidopsis plant grown under salinity stress conditions. Ann.Warsaw Univ. of Life Sci. - SGGW. Land Reclam. 48 (2): 153–163
Dąbrowski P., Cetner M.D., Samborska I.A., Kalaji M.H. (2015) Measuring light spectrum as a main indicator of artificial sources quality. Journal of Coastal Life Medicine 3(5): 400-406
Cetner M.D., Pietkiewicz S., Podlaski S., Wiśniewski G., Chołuj D., Łukasik I., Kalaji M.H. (2014) Photosynthetic efficiency of Virginia mallow (Sida hermaphrodita (L.) Rusby) under differentiated soil moisture conditions. Int. J. of Sustainable Water and Environmental Systems 6 (2)
Kalaji M.H., Oukarroum A., Alexandrov V., Kouzmanova M., Brestic M., Zivcak M., Samborska I.A., Cetner M.D., Allakhverdiev S.I., Goltsev V. (2014) Identification of nutrient deficiency in maize and tomato plants by in vivo chlorophyll a fluorescence measurements, Plant Physiology and Biochemistry 81: 16-25 http://dx.doi.org/10.1016/j.plaphy.2014.03.029
Samborska I.A., Alexandrov V., Sieczko L., Kornatowska B., Goltsev V., Cetner M.D., Kalaji M.H (2014) Artificial neural networks and their application in biological and agricultural research. Signpost Open Access J. NanoPhotoBioSciences Vol 2: 14-30
Pietkiewicz S., Dratkiewicz P.†, Horaczek T., Stępień W., Wyszyński Z., Gozdowski D., Łukasik I., Cetner M. D., Kalaji M.H. (2014) Evaluation of post hydrothermal stress activity on photosynthetic apparatus and yield in Miscanthus cultivated under static fertilizer experimental conditions. Int. J. of Sustainable Water and Environmental Systems 6 (2): 73-79
Review papers:
Cetner M.D., Dąbrowski P., Samborska I.A., Łukasik I., Swoczyna T., Pietkiewicz S., Bąba W., Kalaji H.M. (2016) Zastosowanie pomiarów fluorescencji chlorofilu w badaniach środowiskowych. KOSMOS Vol. 65, 2, 197–205
Books:
Kalaji M.H., Jajoo A., Oukarroum A., Brestic M., Zivcak M., Samborska I.A., Cetner M.D., Łukasik I., Goltsev V., Ladle R.J., Dąbrowski P., Ahmad P. (2014) The Use of Chlorophyll Fluorescence Kinetics Analysis to Study the Performance of Photosynthetic Machinery in Plants. Emerging Technologies and Management of Crop Stress Tolerance, Vol. 2: 347-384, P. Ahmad (Ed) ©2014 Elsevier Inc.
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