2005 - German National Academy of Sciences Leopoldina - Deutsche Akademie der Naturforscher Leopoldina – Nationale Akademie der Wissenschaften Organismic and Evolutionary Biology
The scientist’s investigation covers issues in Botany, Auxin, Xylem, Phloem and Cell biology. Many of his research projects under Botany are closely connected to Hydathode and Leaf morphogenesis with Hydathode and Leaf morphogenesis, tying the diverse disciplines of science together. His research on Auxin frequently connects to adjacent areas such as Vascular cambium.
His research in Xylem is mostly concerned with Cambium. His research in Phloem tackles topics such as Vascular tissue which are related to areas like Anatomy. The concepts of his Cell biology study are interwoven with issues in Gibberellin, Plant stem and Cytokinin.
Roni Aloni mostly deals with Botany, Xylem, Auxin, Phloem and Cambium. His biological study deals with issues like Anatomy, which deal with fields such as Plant stem. His Auxin research is multidisciplinary, incorporating elements of Gibberellin, Coleus and Cell biology.
His Phloem research is multidisciplinary, relying on both Callose, Vascular tissue and Vascular cambium, Meristem. His research integrates issues of Pith and Girdling in his study of Cambium. His Cytokinin research is multidisciplinary, incorporating perspectives in Root cap and Abscisic acid.
Roni Aloni mainly investigates Xylem, Botany, Phloem, Cell biology and Fructokinase. His work in Plant physiology and Thuja are all subfields of Botany research. His Phloem research includes themes of Sugar and Ecology.
His Cell biology research integrates issues from Gibberellin and Gene. His studies deal with areas such as Cambium, Vascular cambium and Vascular tissue as well as Fructokinase. His Vascular cambium study incorporates themes from Genetically modified tomato and Vascular bundle.
His primary scientific interests are in Xylem, Phloem, Cambium, Fructokinase and Fructose. His Xylem research is classified as research in Botany. His work deals with themes such as Germination and Sucrose, which intersect with Fructose.
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.
Role of cytokinin and auxin in shaping root architecture: regulating vascular differentiation, lateral root initiation, root apical dominance and root gravitropism.
R. Aloni;E. Aloni;M. Langhans;C. I. Ullrich.
Annals of Botany (2006)
Differentiation of Vascular Tissues
Annual Review of Plant Biology (1987)
Gradual shifts in sites of free-auxin production during leaf-primordium development and their role in vascular differentiation and leaf morphogenesis in Arabidopsis
Roni Aloni;Katja Schwalm;Markus Langhans;Cornelia I. Ullrich.
Role of auxin in regulating Arabidopsis flower development
Roni Aloni;Erez Aloni;Erez Aloni;Markus Langhans;Markus Langhans;Cornelia I. Ullrich.
Foliar and Axial Aspects of Vascular Differentiation: Hypotheses and Evidence
Journal of Plant Growth Regulation (2001)
The control of vessel size and density along the plant axis: a new hypothesis
Roni Aloni;Martin H. Zimmermann.
The Induction of Vascular Tissues by Auxin and Cytokinin
Root-synthesized cytokinin in Arabidopsis is distributed in the shoot by the transpiration stream.
Roni Aloni;Markus Langhans;Erez Aloni;Ellen Dreieicher.
Journal of Experimental Botany (2005)
The Induction of Vascular Tissues by Auxin
Role of auxin and sucrose in the differentiation of sieve and tracheary elements in plant tissue cultures.
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: