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Physiologia Plantarum
|
November 15, 2022
Light-induced damage to photosystem II at a very low temperature (195 K) depends on singlet oxygen
Heta Mattila, Esa Tyystjärvi
Tree Physiology
|
January 30, 2023
Red pigments in autumn leaves of Norway maple do not offer significant photoprotection but coincide with stress symptoms
Heta Mattila, Esa Tyystjärvi
Biology Open
|
June 17, 2024
Flavonols do not affect aphid load in green or senescing birch leaves but coincide with a decrease in Photosystem II functionality
Heta Mattila, Sergey Khorobrykh, Esa Tyystjärvi
Functional Plant Biology : FPB
|
April 15, 2024
Both external and internal factors induce heterogeneity in senescing leaves of deciduous trees
Heta Mattila, Sergey Khorobrykh, Esa Tyystjärvi
Photosynthesis Research
|
June 26, 2026
Siphonous green macroalgae with contrasting capacities for the energy-dependent quenching, qE, rely on different photoprotective mechanisms
Heta Mattila, Vesa Havurinne, Paulo Cartaxana, et al.
Plants (Basel, Switzerland)
|
January 16, 2020
Oxygen and ROS in Photosynthesis
Sergey Khorobrykh, Vesa Havurinne, Heta Mattila, et al.
Physiologia Plantarum
|
October 26, 2023
Biophysical and molecular characteristics of senescing leaves of two Norway maple varieties differing in anthocyanin content
Marjaana Rantala, Paula Mulo, Esa Tyystjärvi, et al.
The New Phytologist
|
September 26, 2022
Singlet oxygen production by photosystem II is caused by misses of the oxygen evolving complex
Heta Mattila, Sujata Mishra, Taina Tyystjärvi, et al.
Journal of Photochemistry and Photobiology. B, Biology
|
October 27, 2015
Reactive oxygen species: Reactions and detection from photosynthetic tissues
Heta Mattila, Sergey Khorobrykh, Vesa Havurinne, et al.
Physiologia Plantarum
|
September 7, 2018
Unresolved quenching mechanisms of chlorophyll fluorescence may invalidate MT saturating pulse analyses of photosynthetic electron transfer in microalgae
Vesa Havurinne, Heta Mattila, Mikko Antinluoma, et al.
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of 2
Search research articles
Search
Showing results (1-10 of 18) with videos related to
Sort By:
Page
of 2
Physiologia Plantarum
|
November 15, 2022
Light-induced damage to photosystem II at a very low temperature (195 K) depends on singlet oxygen
Heta Mattila, Esa Tyystjärvi
Tree Physiology
|
January 30, 2023
Red pigments in autumn leaves of Norway maple do not offer significant photoprotection but coincide with stress symptoms
Heta Mattila, Esa Tyystjärvi
Biology Open
|
June 17, 2024
Flavonols do not affect aphid load in green or senescing birch leaves but coincide with a decrease in Photosystem II functionality
Heta Mattila, Sergey Khorobrykh, Esa Tyystjärvi
Functional Plant Biology : FPB
|
April 15, 2024
Both external and internal factors induce heterogeneity in senescing leaves of deciduous trees
Heta Mattila, Sergey Khorobrykh, Esa Tyystjärvi
Photosynthesis Research
|
June 26, 2026
Siphonous green macroalgae with contrasting capacities for the energy-dependent quenching, qE, rely on different photoprotective mechanisms
Heta Mattila, Vesa Havurinne, Paulo Cartaxana, et al.
Plants (Basel, Switzerland)
|
January 16, 2020
Oxygen and ROS in Photosynthesis
Sergey Khorobrykh, Vesa Havurinne, Heta Mattila, et al.
Physiologia Plantarum
|
October 26, 2023
Biophysical and molecular characteristics of senescing leaves of two Norway maple varieties differing in anthocyanin content
Marjaana Rantala, Paula Mulo, Esa Tyystjärvi, et al.
The New Phytologist
|
September 26, 2022
Singlet oxygen production by photosystem II is caused by misses of the oxygen evolving complex
Heta Mattila, Sujata Mishra, Taina Tyystjärvi, et al.
Journal of Photochemistry and Photobiology. B, Biology
|
October 27, 2015
Reactive oxygen species: Reactions and detection from photosynthetic tissues
Heta Mattila, Sergey Khorobrykh, Vesa Havurinne, et al.
Physiologia Plantarum
|
September 7, 2018
Unresolved quenching mechanisms of chlorophyll fluorescence may invalidate MT saturating pulse analyses of photosynthetic electron transfer in microalgae
Vesa Havurinne, Heta Mattila, Mikko Antinluoma, et al.
Page
of 2