Seed vitality of sunflower inbred lines influenced by meteorological factors and seed size

Krstić, Miloš; Ovuka, Jelena; Gvozdenac, Sonja; Butaš, Daliborka; Ćuk, Nemanja; Babec, Brankica; Cvejić, Sandra

doi:10.5937/jpea26-42032

Cited by 2 publications

(2 citation statements)

References 19 publications

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“…This can be attributed to their hybrid origin and heterosis effect. Genotype significantly influences seed quality variation, as reported by Mr da et al [64] and Krstić et al [65]. Genotype G5 (91%) stood out and demonstrated the highest seed quality throughout all years of the study.…”

Section: The Behavior and Influence Of Different Genotypes Of Sunflow...supporting

confidence: 61%

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Can Modification of Sowing Date and Genotype Selection Reduce the Impact of Climate Change on Sunflower Seed Production?

Krstić,

Mladenov,

Banjac

et al. 2023

Agriculture

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Climate change projections for the 21st century pose great threats to semi-arid regions, impacting seed production and the quality of sunflowers. Crop yields are negatively affected by climate variability, especially in the event of droughts during the crucial growth stages. Understanding the relationships between agrometeorological, genetic, and agronomic factors is crucial for maintaining crop sustainability. Optimal sowing dates are an essential condition for maximizing crop genetic potential, but challenges come from annual weather variations. This study analyzes how sunflower genotypes respond to different sowing dates under climate change and focuses on the conditions for obtaining maximum seed yields and favorable agronomic traits. From 2020 to 2022, the experiment featured six genotypes sown across four different dates at two-week intervals, simulating seed sunflower production. The results obtained by ANOVA indicated that the seed yield and oil yield were significantly affected by the sowing date, the genotype, and their interaction, with coefficients of variation ranging from 7.6% for oil yield to 41.1% for seed yield. Besides seed yield and oil yield, LDA biplot and Discriminant Functions confirmed that seed germination energy also played a significant role in separating genotypes into clusters. A Visual Mixed Model showed that shifting the optimal sowing date (mid-April) to early May allows a reduction in the number of days the plants spend in critical growth stages, thereby escaping stressful conditions during pollination and seed filling. The findings resulted, on average, in increased yields and improved seed quality, which are the primary goals of seed production, but not in increased 1000-seed weight. Notably, high temperatures during the critical sunflower growth stages negatively affected the measured parameters of seed production. The increased precipitation during seed filling boosted the 1000-seed mass and seed yield. Extended flowering reduced the growth rate and seed germination, but longer seed filling increased the 1000-seed mass and seed yield. Our future breeding goals will be to create genotypes with a shorter flowering period and an extended seed-filling period to better respond to climate change.

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Section: The Behavior and Influence Of Different Genotypes Of Sunflow...supporting

confidence: 61%

“…Climate change affects plant production, thereby impacting the vitality (germination) of produced seeds [65,76]. Increased average daily temperatures during flowering (over 23.7 • C) and seed filling (over 19.8 • C) negatively affected germination (Figure 3).…”

Section: Germination (Gr)mentioning

confidence: 99%

Can Modification of Sowing Date and Genotype Selection Reduce the Impact of Climate Change on Sunflower Seed Production?

Krstić,

Mladenov,

Banjac

et al. 2023

Agriculture

Self Cite

View full text Add to dashboard Cite

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Response of oilseed rape seed quality parameters to chemical treatment

Ovuka,

Krstić,

Butaš

et al. 2023

J Proc Ener Agri

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Rapeseed is a major oilseed crop that has various uses in the food, feed, and industrial sectors. The first condition for successful production and achieving high yields is to provide high-quality seeds, which, in addition to high seed vitality, also implies good seedling protection. The goal is to ensure an optimal number of plants per hectare, which is also a basic prerequisite for achieving high yields. Quality seed treatment has proven to be the best solution for plant protection in the initial stages of development. The seeds were treated with fungicides with the a.i. carboxin + thiram and fluopicolide + fluoxastrobin, as well as an insecticide with a.i. flupyradifuron, and the control was untreated seed. Treatments had a great influence on germination energy, seed germination, number of abnormal seedlings, length and weight of seedlings. The fungicidal fluopicolide + fluoxastrobin treatment had the greatest positive effect on most of the tested parameters, while the carboxin + thiram + flupyradifuron treatment had the greatest negative effect on the seed germination parameter.

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Seed vitality of sunflower inbred lines influenced by meteorological factors and seed size

Cited by 2 publications

References 19 publications

Can Modification of Sowing Date and Genotype Selection Reduce the Impact of Climate Change on Sunflower Seed Production?

Can Modification of Sowing Date and Genotype Selection Reduce the Impact of Climate Change on Sunflower Seed Production?

Response of oilseed rape seed quality parameters to chemical treatment

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