Abstract:
The intensity of selection, improvement of different traits and the influence of climate change collectively amplify the
frequency of detrimental alleles. This phenomenon causes genetic drift, resulting in an accidental decline in the
diversity of plant germplasm sources. Genetic variability is of great importance for the adaptability and tolerance of a
species to stress factors. Our investigation centres on Triticum germplasm within the agroclimatic conditions of the
Ezareni Farm Iași, encompassing 2021–2022 field trials. Phenotypic characterization was performed for 15 genotypes,
which belong to two species of Triticum (T. aestivum L. and T. monococcum L.). The data analysis involved the
calculation of amplitude of variation, variance (s2), standard deviation (√s), and coefficients of variation (s%) for three
pivotal agronomical traits: plant height, spikelets per spike, and total seeds per spike. The results showed a high
coefficient of variation, indicating a significant variability within the analyzed germplasm. The genotypes that stood out
with high results of the analyzed parameters can be used in future breeding programs.
