Zoran G. Cerovic mainly investigates Chlorophyll, Chlorophyll fluorescence, Botany, Horticulture and Fluorescence. The study incorporates disciplines such as Ferulic acid, Canopy and Agronomy, Crop in addition to Chlorophyll. His study in Chlorophyll fluorescence is interdisciplinary in nature, drawing from both Fluorometer, Remote sensing and Uv absorbance.
His work in the fields of Botany, such as Epidermis, intersects with other areas such as Far-red. Zoran G. Cerovic integrates many fields in his works, including Horticulture, Nitrogen balance and Non destructive. His work on Fluorescence lidar as part of general Fluorescence research is frequently linked to Ultraviolet radiation, thereby connecting diverse disciplines of science.
Zoran G. Cerovic mainly focuses on Fluorescence, Chlorophyll fluorescence, Botany, Chlorophyll and Analytical chemistry. His work on Fluorescence spectrometry and Fluorophore as part of general Fluorescence study is frequently connected to Excitation and Redox, therefore bridging the gap between diverse disciplines of science and establishing a new relationship between them. His work deals with themes such as Photochemistry, Absorbance, Anthocyanin and Photosystem II, which intersect with Chlorophyll fluorescence.
The various areas that Zoran G. Cerovic examines in his Botany study include Vineyard and Horticulture. In general Horticulture study, his work on Shoot and Cultivar often relates to the realm of Nitrogen balance and Non destructive, thereby connecting several areas of interest. His Chlorophyll research is multidisciplinary, relying on both Dry weight, Agronomy, Fluorometer, Canopy and Remote sensing.
Zoran G. Cerovic spends much of his time researching Botany, Photosystem II, Chlorophyll, Vineyard and Photosynthesis. Zoran G. Cerovic works in the field of Botany, focusing on Apiaceae in particular. His research integrates issues of Electron transport chain, Dehydration and Darkness in his study of Photosystem II.
The concepts of his Vineyard study are interwoven with issues in Stilbenoid, Phytoalexin, Remote sensing and Vitis vinifera. His Chlorophyll fluorescence and Photoinhibition study in the realm of Photosynthesis connects with subjects such as Chloroplast relocation. His Chlorophyll fluorescence research is multidisciplinary, incorporating elements of Oxidative stress, Photosynthetic reaction centre, Nuclear chemistry, Quenching and Photosystem I.
This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.
Optically assessed contents of leaf polyphenolics and chlorophyll as indicators of nitrogen deficiency in wheat (Triticum aestivum L.)
A. Cartelat;Z.G. Cerovic;Y. Goulas;S. Meyer.
Field Crops Research (2005)
A new optical leaf-clip meter for simultaneous non-destructive assessment of leaf chlorophyll and epidermal flavonoids
Zoran G. Cerovic;Zoran G. Cerovic;Zoran G. Cerovic;Guillaume Masdoumier;NaÏma Ben Ghozlen;NaÏma Ben Ghozlen;NaÏma Ben Ghozlen;Gwendal Latouche;Gwendal Latouche;Gwendal Latouche.
Physiologia Plantarum (2012)
The use of chlorophyll fluorescence excitation spectra for the non‐destructive in situ assessment of UV‐absorbing compounds in leaves
Z. G. Cerovic;A. Ounis;A. Cartelat;G. Latouche.
Plant Cell and Environment (2002)
Ultraviolet-induced fluorescence for plant monitoring: present state and prospects
Zoran G. Cerovic;Guy Samson;Fermín Morales;Nicolas Tremblay.
A new instrument for passive remote sensing 1. Measurements of sunlight-induced chlorophyll fluorescence
I Moya;L Camenen;S Evain;Y Goulas.
Remote Sensing of Environment (2004)
Steady-State and Maximum Chlorophyll Fluorescence Responses to Water Stress in Grapevine Leaves: A New Remote Sensing System
Jaume Flexas;Jean-Marie Briantais;Zoran Cerovic;Hipólito Medrano.
Remote Sensing of Environment (2000)
Dualex: a new instrument for field measurements of epidermal ultraviolet absorbance by chlorophyll fluorescence
Yves Goulas;Zoran G. Cerovic;Aurélie Cartelat;Ismaël Moya.
Applied Optics (2004)
Non-Destructive Optical Monitoring of Grape Maturation by Proximal Sensing
Naïma Ben Ghozlen;Zoran G. Cerovic;Claire Germain;Sandrine Toutain.
Sensing crop nitrogen status with fluorescence indicators. A review
Nicolas Tremblay;Zhijie Wang;Zoran G. Cerovic.
Agronomy for Sustainable Development (2012)
Relationships between optically assessed polyphenols and chlorophyll contents, and leaf mass per area ratio in woody plants: a signature of the carbon-nitrogen balance within leaves?
S. Meyer;Z. G. Cerovic;Y. Goulas;P. Montpied.
Plant Cell and Environment (2006)
If you think any of the details on this page are incorrect, let us know.
We appreciate your kind effort to assist us to improve this page, it would be helpful providing us with as much detail as possible in the text box below: