Vytautas Suchockas
Vytautas Magnus University
11 Papers
10 Citations
Vytautas Suchockas is an academic researcher from Vytautas Magnus University. The author has contributed to research in topics: Picea abies & Biology. The author has an hindex of 5, co-authored 10 publications. Previous affiliations of Vytautas Suchockas include University of Copenhagen & Aleksandras Stulginskis University.
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Papers
Advanced spectroscopy-based phenotyping offers a potential solution to the ash dieback epidemic
Caterina Villari,Caterina Villari,Arnaud Dowkiw,Rasmus Enderle,Rasmus Enderle,Marjan Ghasemkhani,Thomas Kirisits,Erik Dahl Kjær,Diana Marčiulynienė,Lea Vig McKinney,Berthold Metzler,Facundo Muñoz,Lene Rostgaard Nielsen,Alfas Pliūra,Lars-Göran Stener,Vytautas Suchockas,Luis E. Rodriguez-Saona,Pierluigi Bonello,Michelle Cleary +18 more
TL;DR: It is shown that Fourier-transform infrared spectroscopy of phenolic extracts from uninfected bark tissue, coupled with a model based on soft independent modelling of class analogy (SIMCA), can robustly discriminate between ADB-resistant and susceptible European ash.
Response of juvenile progeny of seven forest tree species and their populations to simulated climate change-related stressors, heat, elevated humidity and drought
Alfas Pliura,J. Jankauskiene,Vaidotas Lygis,Vytautas Suchockas,G. Bajerkevičiene,R. Verbylaite +5 more
TL;DR: In most cases, drought had a negative effect on production of pigments in deciduous tree species, which, together with increased amounts of malondialdehyde and hydrogen peroxide, indicated a presence of an oxidative stress.
Genetic Diversity and Its Spatial Distribution in Self-Regenerating Norway Spruce and Scots Pine Stands
Rita Verbylaitė,Alfas Pliūra,Vaidotas Lygis,Vytautas Suchockas,Jurga Jankauskienė,Juozas Labokas +5 more
TL;DR: Information on the genetic dynamics of the studied natural populations of long-lived coniferous tree species may be important for evaluating possible changes in genetic diversity at a local scale following forest ecosystem disturbances and changes in land-use legacies.
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Response of juveniles of seven forest tree species and their populations to different combinations of simulated climate change-related stressors: spring-frost, heat, drought, increased UV radiation and ozone concentration under elevated CO2 level.
Alfas Pliūra,Jurga Jankauskienė,Gintarė Bajerkevičienė,Vaidotas Lygis,Vytautas Suchockas,Juozas Labokas,Rita Verbylaitė +6 more
TL;DR: Assessment of juvenile progeny of forest tree species and their populations to different combinations of climate change-related multiple stressors showed variation in response of populations, implying that this reflects adaptive potential of each tree species.
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