Viktor Tishchenko

TL;DR: In this article, a controlled environment study was conducted to evaluate the response of advanced breeding lines to growth temperature and evaluate the utility of rapid, fluorescence-based measurements (the OJIP test) as indicators of plant growth response to day/night temperature regimes (20/15, 30/20, 35/25, and 40/30 °C).

TL;DR: This work identified a class of natural mutants from the subspecies hypogaea and provided new additional genetic resources for breeders to use and demonstrates a good example of the importance and usefulness for preserving natural genetic diversity and utilizing plant germplasm collections.

TL;DR: Under controlled environmental conditions, human pathogens inoculated onto flowers of vegetable plants can result in the contamination of sprouts/seedlings via seeds produced by the inoculated flowers, however, the frequency of sprout/seedling contamination was low and could be affected by characteristics of the pathogens and plant species tested.

TL;DR: In this paper, a comprehensive fluorescence analysis was conducted for cotyledons from both temperature regimes in response to incubation temperatures ranging from 30 to 50˚°C, and it was shown that low growth temperature did not alter reaction center density (RC/CS 0 ), but increased antenna size (ratio of antenna chlorophyll to reaction center chlorophyLL; ABS/RC) and decreased the amplitude of the I to P phase of the fluorescence transient.