Konferencja – 100-lecie Katedry Fizjologii Roślin
Szkoły Głównej Gospodarstwa Wiejskiego w Warszawie
Fizjologia roślin w XXI wieku

The Conference - 100th Anniversary of the Department of Plant Physiology
Warsaw University of Life Sciences
Plant Physiology in the 21st century

Program Konferencji (Conference Program)

Dzień I (Day I) 15 września 2022 (September 15, 2022)

9.30-10.00

Rejestracja (Registration)

Obchody Jubileuszu 100-lecia powołania Katedry Fizjologii Roślin

10.00-11.40

Inauguracja Konferencji (Inauguration of the Conference)

10.00-10.20

Powitanie. Wystąpienie Przedstawicieli Władz
(Welcome. Speech by Representatives of the Authorities)

10.20-10.50

Prof. dr hab. Sławomir Podlaski

Historia Katedry Fizjologii Roślin (History of Department of Plant Physiology)

10.50-11.10

Prof. dr hab. Hazem Kalaji 

Produktywność fotosyntetyczna roślin (Plant photosynthetic productivity)

11.00-11.20

Dr Anita Wiśniewska

Katedra Fizjologii Roślin Obecnie (Department of Plant Physiology Nowadays)

11.20-11.40

Dr hab. Urszula Krasuska

Fizjologiczne oblicze toksycznych gazotransmiterów

11.40-12.00

Przerwa na kawę (Coffee Break)

12.00-14.00

Wystąpienia Pracowników Katedry Fizjologii Roślin
(Presentations by the Scientists of the Department of Plant Physiology)

14-00-14.15

Zakończenie

14.15

Poczęstunek Jubileuszowy

Zwiedzanie Katedry Fizjologii Roślin

Dzień II (Day II) 16 września 2022 (September 16, 2022)

9.45-10.00

Technical Checking

Celebration of the 100th Anniversary of Establishing of the Department of Plant Physiology

10.00-11.25

10.00-10.10

Inauguration of the Conference

10.10-10.25

Urszula KRASUSKA

(Warsaw University of Life Sciences, Poland)

Introduce to 100 Years of History of Department of Plant Physiology

10.25-10.55

Leslie WESTON

(Graham Centre Charles Sturt University, Australia

Applications in the use of metabolic profiling in the study of plant interactions – a focus on allelopathy and interference

10.55-11.25

Christophe BAILLY

(Sorbonne Université, France)

An overview of the role of ROS in seed biology: advances and prospects

11.25-11.40

Coffee Break

11.40-13.10

11.40-12.10

Françoise CORBINEAU

(Sorbonne Université, France)

Oxygen, a key factor in energy metabolism and hormone signaling pathway involved in seed germination and dormancy regulation

12.10-12.40

Francisco Javier CORPAS

(Estación Experimental del Zaidín, Spain

Functions of nitric oxide (NO) and hydrogen sulfide (H2S) in higher plants

12.40-13.10

Ian Max MØLLER

(Aarhus University, Denmark

The Plant Mitochondrial Proteome

13.10-13.25

Coffee Break

13.25-14.40

13.25-13.40

Shiguo CHEN

(Nanjing Agricultural University, China

Structure-based ligand design and discovery of novel tenuazonic acid derivatives with high herbicidal activity

13.40-13.55

Jos PUTHUR

(Calicut University, India

UV-B priming imparts cross tolerance towards multiple abiotic stresses in plants

13.55-14.10

Fabrizio ARANITI

(Università degli Studi di Milano, Italy)

Metabolic changes induced by Cuscuta campestris Yunck on the host species Artemisia campestris subsp. variabilis (Ten.) Greuter as a strategy for successful parasitization

14.10-14.25

Marian BRESTIĆ

(Slovak Agricultural University in Nitra, Slovak Republic)  

Coming soon

14.25-14.40

Filippo BUSSOTTI

(University of Firenze, Italy)

Chlorophyll fluorescence studies between Poland and Italy

14.40-14.55

Coffee Break

14.55-15.55

14.55-15.10

Juan de Dios ALCHÉ RAMIREZ

(Estación Experimental del Zaidín, Spain)

Reproductive biology in the olive tree: physiological, agronomical and biomedical implications

15.10-15.25

Marek PETRIVALSKY

(Palacky University, Czech Republic)

Nitric oxide – a multitask player in plant interactions with pathogenic fungi and oomycetes

15.25-15.40

Natalia BYKOVA

(Cereal Research Centre Agriculture and Agri-Food, Canada)

Proteogenomic and redox proteomic analysis of seed dormancy reveals phenotype- and genotype-associated signatures of pre-harvest sprouting resistance in hexaploid wheat

15.40-15.55

Claudio STASOLLA

(University of Manitoba, Canada)

Arabidopsis root apical meristem survival during hypoxia-induced waterlogging is determined by phytoglobin through nitric oxide and auxin

15.55-16.15

Discussion and Closing of Celebration