Sunflower Cultivars Research Articles

Boosting resilience and yields in water-stressed sunflower through coordinated irrigation scheduling and silica gel applications

Sunflower (Helianthus annuus L.) is a globally significant oilseed crop, yet its yields may suffer due to water deficiency. A field experiment was conducted through two summer seasons (2021 and 2022) at the agricultural research station, Luxor, Egypt, to study the effects of irrigation regime, cultivar selection, and silica gel application on sunflower growth and yield parameters. The experiment utilized a split-split plot design with three irrigation levels based on field capacity (85 %, 70 %, 55 %), three sunflower cultivars (Sakha-53, Giza-102, and Giza-120), and two Silica gel treatments (0 and 300 kg/ha). Analysis of variance revealed significant effects of irrigation (P < 0.001) on all measured traits except 100-seed weight. Utilizing various cultivars also revealed substantial influence, affecting most traits consistently across the two seasons. Silica gel application positively impacted head diameter, 100-seed weight, oil content, and oil yield (P < 0.05). Furthermore, treatments combining moderate irrigation with silica gel application exhibited the highest water productivity, with values reaching 1.35 kg/m³ in the first season and 1.38 kg/m³ in the second season, indicating the synergistic effects of improved water management and silica gel on crop water use efficiency. Multivariate analysis of principal component analysis and clustering heatmap revealed that treatment combinations such as I2S1 (moderate irrigation with silica gel) optimized sunflower productivity, particularly for seed yield and oil content, reinforcing the importance of tailored agronomic practices for maximizing crop performance under varying environmental conditions. These findings underscore the significance of integrated agronomic approaches in enhancing sunflower productivity while promoting sustainable crop management practices.

Genomic Insights into Disease Resistance in Sunflower (Helianthus annuus): Identifying Key Regions and Candidate Genes for Verticillium dahliae Resistance.

Sunflower (Helianthus annuus) is a globally significant field crop, and disease resistance is crucial for ensuring yield stability and crop quality. Verticillium dahliae is a notorious soilborne pathogen that causes Verticillium Wilt (VW) and threatens sunflower production worldwide. In this study, we conducted a comprehensive assessment of sunflower resistance to V. dahliae across 231 sunflower cultivar lines, from the Sunflower Association Mapping (SAM) population. We employed EMMAX and ridge regression best linear unbiased prediction (rrBLUP) and identified 148 quantitative trait loci (QTLs) and 23 putative genes associated with V. dahliae resistance, including receptor like kinases, cell wall modification, transcriptional regulation, plant stress signalling and defense regulation genes. Our enrichment and quantitative real-time PCR validation results highlight the importance of membrane vesicle trafficking in the sunflower immune system for efficient signaling and defense upon activation by V. dahliae. This study also reveals the polygenic architecture of V. dahliae resistance in sunflowers and provides insights for breeding sunflower cultivars resistant to VW. This research contributes to ongoing efforts to enhance crop resilience and reduce yield losses due to VW, ultimately benefiting sunflower growers and the agricultural sector.

Monitoring of parasite Orobanche cumana using Vis-NIR hyperspectral imaging combining with physio-biochemical parameterson host crop Helianthus annuus.

This study provided a non-destructive detection method with Vis-NIR hyperspectral imaging combining with physio-biochemical parameters in Helianthus annuus in response to Orobanche cumana infection that took insights into the monitoring of sunflower weed. Sunflower broomrape (Orobanche cumana Wallr.) is an obligate weed that attaches to the host roots of sunflower (Helianthus annuus L.) leading to a significant reduction in yield worldwide. The emergence of O. cumana shoots after its underground life-cycle causes irreversible damage to the crop. In this study, a fast visual, non-invasive and precise method for monitoring changes in spectral characteristics using visible and near-infrared (Vis-NIR) hyperspectral imaging (HSI) was developed. By combining the bands sensitive to antioxidant enzymes (SOD, GR), non-antioxidant enzymes (GSH, GSH + GSSG), MDA, ROS (O2-, OH-), PAL, and PPO activities obtained from the host leaves, we sought to establish an accurate means of assessing these changes and conducted imaging acquisition using hyperspectral cameras from both infested and non-infested sunflower cultivars, followed by physio-biochemical parameters measurement as well as analyzed the expression of defense related genes. Extreme learning machine (ELM) and convolutional neural network (CNN) models using 3-band images were built to classify infected or non-infected plants in three sunflower cultivars, achieving accuracies of 95.83% and 95.83% for the discrimination of infestation as well as 97.92% and 95.83% of varieties, respectively, indicating the potential of multi-spectral imaging systems for early detection of O. cumana in weed management.

YIELD AND QUALITY CHARACTERISTICS OF SUNFLOWER (Helianthus annuus L.) CULTIVARS BY DIFFERENT SOWING DATES

A field trial was initiated to ascertain the optimal sowing date for five distinct sunflower cultivars in Turkey’s Mardin Province. The trial scrutinised various parameters including plant height, head diameter, seed yield, protein content, oil content and oil yield. The first sowing produced the highest seed yields (3484 kg ha−1), with the Şems (3255 kg ha−1) and Zuhat (3157 kg ha−1) cultivars producing the highest values. The highest overall oil content was achieved in the second sowing (31.7%) and in the Zuhat cultivar (34.6%). The highest mean oil yields were observed in the Zuhat cultivar (1096 kg ha−1) and in the first sowing (1084 kg ha−1). There was a general decrease in yield as the sowing date was delayed. Winter sowing is suggested for the Zuhat cultivar. If possible, the second sunflower crop should be sown shortly following the harvest of the main crop.

The Effect of Different Nitrogen Doses on Growth Attributes of Some Sunflower (Helianthus annuus L.) Cultivars Grown as Second Crop

Objective: The current study investigated the impact of different N doses on growth traits of some sunflower (Helianthus annuus L.) cultivars grown as second crop. Materials and Methods: The experiment was conducted according to randomized complete block design with split-plot arrangements and three replications. Three sunflower cultivars (‘Bosfora’, ‘P64LE119’, and ‘LG5582’) and four N doses (0, 50, 100, 150, 200 kg ha-1 pure N) were included in the study and data relating to different growth traits were recorded. Results: The results revealed that individual effects of cultivars and N doses exerted significant impacts on the studied growth traits, whereas their interactive effects were significant for some of the studied parameters. The earliest emergence duration was recorded under 150 and 200 kg ha-1 N. Similarly, the earliest head formation, flowering initiation and seed filling duration were recorded for ‘Bosfora’ cultivar with 200 kg ha-1 N. Conclusion: The earliest physiological maturity was recorded for ‘P64LE119’ cultivar, whereas the widest head diameter and the highest head weight was noted for ‘LG5582’ cultivar under 200 kg ha-1 N application. Overall, ‘Bosfora’ cultivar under 200 kg ha-1 N application performed better for head formation, flowering initiation, and seed filling duration, whereas cultivar ‘LG5582’ under 200 kg ha-1 N application performed better for head diameter and head weight.It is recommended that cultivars ‘Bosfora’ and ‘LG5582’ should be provided 200 kg ha-1 N for better growth in southeastern Anatolia.

Seed Quality of Two Sunflower Cultivar by Seed Priming Effect with Seaweed Extract

Seed Quality of Two Sunflower Cultivar by Seed Priming Effect with Seaweed Extract

Potassium silicate as a new micronutrient agent in the initial development of sunflower (Helianthus annuus L.)

Silicon (Si) is considered a non-essential micronutrient for vegetables, although it has important functions during vegetative development in some large crops of agricultural interest. This study aimed to evaluate the action of Silicon on vegetative development in a sunflower cultivar ‘Multissol’. The experiment was carried out in full sun in February 2024, with five dosages (0; 150; 300; 600 and 900 kg ha-1) using potassium silicate as a source of Si. The vigor variables for humidity, germination, accelerated aging, weight of 100 grains, electrical conductivity, cold test and emergence in sand and soil were analyzed. Vegetative parameters for plant height, root size, number of leaves, aerial and root fresh mass and aerial and root dry mass were also evaluated. The germination rate was greater than 90%, the electrical conductivity was 100 µS cm-1.g-1, emergence in sand and soil was greater than 90%, regarding the variables of the vegetative phase, there were substantial gains (p &lt; 0.05) in all parameters analyzed, especially for the highest dosage of 900 kg ha-1 when compared between the control. Si has a positive effect on the evaluated parameters and is a non-essential element that has positive effects on sunflower crops, especially on the Multissol cultivar.

Integrated transcriptome and metabolome analysis revealed that HaMYB1 modulates anthocyanin accumulation to deepen sunflower flower color

Key messageHanMYB1 was found to play positive roles in the modulation of anthocyanins metabolism based on the integrative analysis of different color cultivars and the related molecular genetic analyses.As a high value ornamental and edible crop with various colors, sunflowers (Helianthus annuus L.) provide an ideal system to understand the formation of flower color. Anthocyanins are major pigments in higher plants, which is associated with development of flower colors and ability of oxidation resistance. Here, we performed an integrative analysis of the transcriptome and flavonoid metabolome in five sunflower cultivars with different flower colors. According to differentially expressed genes and differentially accumulated flavonoids, these cultivars could be grouped into yellow and red. The results showed that more anthocyanins were accumulated in the red group flowers, especially the chrysanthemin. Some anthocyanins biosynthesis-related genes like UFGT (UDP-glycose flavonoid glycosyltransferase) also expressed more in the red group flowers. A MYB transcriptional factor, HanMYB1, was found to play vital positive roles in the modulation of anthocyanins metabolism by the integrative analysis. Overexpressed HanMYB1 in tobacco could deepen the flower color, increase the accumulation of anthocyanins and directly active the express of UFGT genes. Our findings indicated that the MYB transcriptional factors provide new insight into the dynamic regulation of the anthocyanin biosynthesis in facilitating sunflower color formation and anthocyanin accumulation.

Response of conventional sunflower cultivars to drift rates of synthetic auxin herbicides.

The agrochemical industry has launched several new synthetic auxin herbicides in rice to combat increasing numbers of herbicide resistant weeds to other modes of action. Excessive or inappropriate use of these herbicides has resulted in unintended consequences near the sites of application, such as herbicide drift. This study was conducted to determine the impact of drift of quinclorac and florpyrauxifen-benzyl+penoxsulam (FBP) on the yield and yield components of two sunflower cultivars. In a growth chamber experiment, quinclorac and FBP were applied to 2-4 true leaf stages at rates ranging from 2.93 to 93.75 and from 0.51 to 16.25 g ai ha-1, respectively. Nonlinear regression analyses indicated that the cultivar Bosfora was more sensitive to quinclorac and FBP than the cultivar Tunca. In field experiments, these sunflower cultivars were treated with drift rates of quinclorac (<375 g ai ha-1) and FBP (<65 g ai ha-1) when they were at the 8-10 true leaf stage. Quinclorac and FBP drift rates resulted in up to 52-61% and 85-100% injury and 82-88% and 100% yield loss, respectively. Crop injury and yield data clearly showed that cultivar Bosfora was more sensitive to FBP and quinclorac rates than cultivar Tunca, and both cultivars were more sensitive to FBP than quinclorac. In our work, we also found that plant height reduction caused by quinclorac at early growth stages may be a valuable indicator to evaluate crop injury and yield loss.

The trait-specific collection of large-seeded sunflower at VIR: ba source for breeding cultivars and hybrids

Background. In recent years, an increase has been observed in the share of sunflower seeds in the confectionery and food industries. There are 30 cultivars and only 3 hybrids for confectionery use among 839 zoned sunflower cultivars and hybrids listed in the State Register for Selection Achievements Admitted for Usage in 2023. Thus, the development of source material for breeding large-seeded cultivars and hybrids remains a relevant task.Materials and methods. The studied material included 90 accessions selected for their large seed size from VIR’s sunflower collection. The following characters were assessed: 1000 seed weight, days from sprouting to maturation, plant height, head diameter, cypsela color and size, and resistance to downy mildew. DNA markers were used to identify accessions with the Rf1 gene and CMS.Results. Accessions k-2818 (Primorsky Territory), k-3633, k-3748, k-3782 (China), and k-3578 (Ukraine) were the best in 1000 seed weight. Russian cvs. ‘Alekseyevsky Krupnoplodny 2’ (k-3552), ‘Gyar-Gyar’ (k-1589), ‘SPK’ (k-3426), and ‘Lakomka’ (k-3526) confirmed their large seed size. The sterile type of cytoplasm was identified in 12 accessions. Fourteen accessions with fertile cytoplasm had diagnostic markers of the nuclear Rf1 gene.Conclusion. The large-seeded cultivars developed at VNIIMK, ‘SPK’, ‘Lakomka’, and k-3782 from China were the best not only in their large seed size but also in downy mildew resistance. As a result of long-term studies, a trait-specific collection was established for the large seed size trait. It included 90 accessions that can be used in the development of confectionery cultivars. Large-seeded sunflower accessions carrying the Rf1 gene were identified. Some of them became the ancestors of donor lines for both pollen fertility restoration genes and large seed size.

Sunflower genotype performance in different spacing in the northeast for Rio Grande do Sul

The sunflower productivity development is conditionate to the harvest period, density, seeding spacing, genotype, soul fertility and hydric availability. This work evaluated the adaptability and stability of 14 sunflower genotypes in the Northwest region of RS, in different row spacing. The experiment was carried in Frederico Westphalen, in the 2019/2020 harvest, with a randomized block design in a 14x2 two-factor scheme, with 14 cultivars and two spacing. Plants were sampled between the useful samples for its evaluations of: Plant height; Chapter diameter; Stem diameter; Thousand weight seeds; Grain production. The spacing of 0.90 meters provided greater chapter size. When analyzed the cultivars production between spacing, is noticeable that for spacing of 0.45 meters, cultivar 1 differed from the others, obtaining the highest productivity 1.93 ton.ha-1, and cultivar 7 the lowest productivity 0 .64 ton.ha-1, a reduction of 66.8%. The variable PMS presented better results in the spacing of 0.90 meters. Cultivar 9 showed the highest values in both spacing. The spacing between rows did not influence the variables of plant height and stem diameter for the different sunflower cultivars.

Sunflower grain quality as affected by sulphur added to nitrogen fertilizer under different planting seasons

The objective of the study was to investigate the effect of sulphur added to nitrogen fertilizer on sunflower grain quality under different planting seasons. This study was executed in the 2020/21, 2021/22 and 2022/23 planting seasons at Molelwane farm, North-West Province, South Africa. The experiment was a 5x2 factorial fitted into a randomized complete block design (RCBD). Two sunflower cultivars (PAN7057 and AGSUN8251) were planted. The five fertilizer combinations used were 30S kg/ha + 120N kg/ha, 30S kg/ha + 180N kg/ha, 60S kg/ha + 120N kg/ha, 60S kg/ha + 180N kg/ha and a control. The quality parameters measured included oil, protein, crude fibre, starch, and ash content. Planting season had no significant effect (p&gt;0.05) on grain oil content. However, planting season had a significant effect (p&lt;0.05) on grain protein content. Sunflower planted during the first and third planting seasons (2020/21 and 2022/23) produced a significantly higher protein content. Sulphur/nitrogen rate had a significant effect (p&lt;0.05) on sunflower oil and protein content. Sunflower treated with sulphur/nitrogen rates of S30+N180 and S60+N120 kg/ha produced a significantly high oil and protein content. Sunflower treated with sulphur/nitrogen rates of S60+N180 kg/ha also produced a significantly high protein content. The results of this study suggest that variations in climatic conditions during planting seasons affect sunflower quality parameters. A sunflower cultivar PAN7057 showed an increase on the performance in terms of grain quality parameters. In this study, sulphur/nitrogen fertilizer rates of S60+N120 and S60+N180 kg/ha are considered effective in promoting sunflower grain quality performance.

Selection Index of Ideal Genotype (SIIG) in Order to Evaluate Drought Stress Tolerance in Some Sunflower Cultivars

Selection Index of Ideal Genotype (SIIG) in Order to Evaluate Drought Stress Tolerance in Some Sunflower Cultivars

Relações lineares em genótipos de girassol no estado do Rio Grande do Sul, Brasil

ABSTRACT: The state of Rio Grande do Sul (RS) is the third largest sunflower producer in Brazil. This study verified the existence of linear relationships between grain yield, oil content, and oil yield in sunflower (Helianthus annuus L.) genotypes evaluated in RS. The data on grain yield (GY), oil content (OC), and oil yield (OY) were obtained from 73 sunflower cultivar trials in 21 municipalities in RS from 1999 to 2018. Scatter diagrams were createdto investigate the relationships between the variables GY, OC, and OY. Then, Pearson’s linear correlation coefficient (r) was calculated between the variables, and the Student’s t-test was performed at a 5% significance level. There is a positive and significant linear relationship between PG and OY. However, no linear relationship was found between grain yield and oil content in sunflower genotypes. Additionally, a positive linear association of high magnitude (r = 0.9672) was observed between grain yield and oil yield, while a low magnitude (r = 0.2245) was found between oil content and oil yield.

PHYSIOLOGICAL AND BIOCHEMICAL COMPOSITION OF SUNFLOWER (HELIANTHUS ANNUUS L.)

The evaluation of sunflower (Helianthus annuus L.) cultivar leaves belonging to different exotic and local genotypes for physiological traits, viz., chlorophyll a and b, total chlorophyll, carotenoid pigments, and concentration of total pigments transpired spectrophotometrically. The exotic sunflower genotypes used in the study consisted of 9859 (USA), 30837 (Australia), 33673 (France), 9843 and 30835 (Turkey), 9853 and 9848 (Russia), and a local cultivar Jakhongir (Uzbekistan). In the budding phase, the exotic accession 33673 (France) showed higher contents of chlorophyll a and b, carotenoids, and total pigments (17.8  0.55, 6.61  0.40, 5.82  0.19, and 24.47  0.95 mg/ml, respectively). For the flowering phase, exotic genotype 30835 (Turkey) excelled for chlorophyll a and b, carotenoids, and total pigments concentration (17.10  0.37, 6.31  0.24, 5.42  0.24, and 23.41  0.55 mg/ml, respectively). In the ripening phase, the amount of chlorophyll a and carotenoids were 16.64  0.84 and 5.82  0.12 mg/ml, respectively, in genotype 9853 (Russia), and chlorophyll b and total pigments correspond to 6.04  0.33 mg/ml and 21.19  0.57 mg/ml in the local cultivar Jakhongir. No significant quantitative variations were evident for nitrogen content and total protein content in sunflower genotype seeds. However, higher values of total protein content (21.8%) manifested in the exotic genotypes, i.e., 30837 (Australia), 33673 (France), and 9848 (Russia). During 2021, the seed oil content ranged from 31.9%  0.51% to 54.4%  0.87%, while the highest oil content (54.4%  0.87%) emerged in genotype 9853 (Russia). In 2022 planting, the sunflower seeds’ highest fat content percentage surfaced in sample 9848 (Russia), 53.99%  0.14%. In addition, genotype 9853 (Russia) also contained various micro-macro elements, i.e., Mg, Al, Ca, Fe, Sr, and Ba, compared with the rest of the sunflower genotypes.

Evaluation of the Impacts of Climate Change on Sunflower with Aquacrop Model

Climate change has become one of the most significant risk factors in agricultural production. Plant productivity declines caused by climate change pose a serious threat to food supply and security. Crop simulation models have been widely used in recent years for the assessment of the impacts of climate change on agricultural production. In Konya, there have been limited studies on the potential effects of climate change on sunflower production. Sunflower, the main crop of the most imported agricultural product group, in which the production amount is currently insufficient to cover domestic consumption demand, is strategically important for the Turkish economy. The goal of this study was to examine the effects of climate change on sunflower yield in Türkiye by using the Aquacrop model. The data of the field experiment carried out on the Ekllor sunflower cultivar for two years in Konya conditions were used as material. The daily projection dataset of three Global Climate Models (HadGEM2-ES, MPI-ESM-MR, GFDL-ESM2M) and two scenarios (RCP4.5 and RCP8.5) were used to analyze climate change impacts. The 1971-2000 period was considered as the reference period and the 2022-2098 period was selected as the future period. The results confirmed that the Aquacrop model was able to satisfactorily simulate yield with NRMSE 2.10 % for the rainfed condition and 10.55 % for the irrigated condition, a d-index of 0.97, and a modeling efficiency of 0.91. Aqaucrop climate change impacts simulation which was based on 3 global climate models covering with 2022 -2098 period simulations projected that sunflower yield would be decreased in a range of 21% to 44% for RCP4.5 and 18% to 50% for RCP8.5 scenarios under rainfed conditions. In contrast, the yield would be increased in a range of 11% to 23% for RCP4.5 and 10% to 33% for RCP8.5 scenarios under irrigated conditions. The findings point to the use of appropriate water management measures for future sunflower production as a means of adapting to climate change.

EVALUATION OF YIELD AND QUALITY CHARACTERISTICS OF OIL SUNFLOWER (Helianthus annuus L.) VARIETIES CULTIVATED IN SEMIARID IRRIGATED CONDITIONS IN THE NORTHEAST OF TURKEY

Sunflower is an oil plant grown in many parts of the world, capable of growing in many different climatic conditions. It is of great importance to carry out studies on the adaptation of new varieties and to determine the varieties suitable for the ecology of the region in areas where sunflower cultivation is intense. This study was carried out to determine some sunflower cultivars' yield and quality characteristics (SANBROMR, BOSFORA, SYBARBATİ, ROSETTA, LG5485, P64LL62, SYGIBRALTAR, P64LC108 P64LE119, P64LP130, P63LE113, 11TR077, ESNIEGARA, ADELYA, and DERAY) in 2020-2021 Bayburt conditions. It has been determined that there are significant differences between the cultivars in terms of the parameters examined. The highest average seed yield (4194.2 kg ha-1) and average linoleic acid content (65.09%) were obtained from the BOSFORA variety, the highest average oil content (48.78%) and average oil yield (186.02 kg ha-1) were obtained from ESNİEGARA variety, and the highest average oleic acid content (41.78%) was obtained from 11TR077 variety. The results obtained from the research emphasize the importance of varieties in sunflower plants. They show that BOSFORA and ESNIEGARA varieties come to the fore regarding yield and quality elements in ecologies with a semi-arid climate.

Adubação orgânica e mineral determina o desempenho agronômico de cultivares de girassol e atributos químicos do solo

ABSTRACT This study aimed to verify the effect of the application of filter cake, via soil and in association with mineral fertilization, on sunflower cultivars (Helianthus annuus L.) and the chemical properties of the soil. The experimental design used was randomized blocks in a 3 × 2 factorial scheme with six replicates, totaling 36 experimental units. Three sunflower cultivars (Sany 66, Nusol 4140, and Nusol 4170) and two fertilization strategies (mineral fertilization with and without filter cake) were used. Resorting to the filter cake increased the oil concentration in Sany 66. Mineral fertilization did not significantly affect achene production, with mean values being 2561.58 kg ha-1. However, including filter cake resulted in a 21% increase in phosphorus (P) content in the 0-0.20 m soil layer in sunflower crops of the Nusol 4140 variety. Therefore, fertilization with filter cake, in combination with chemical fertilizers or alone, can be an effective strategy to increase soil P content and oil concentration in sunflower cultivation.

Controlling Sunflower (Helianthus annuus L.) Fertility with Bio-Nutrition

To investigate the effects of certain plant extracts and seaweed on the yield and quality of three sunflower cultivars, as well as their fertility rate. A field experiment was carried out in the Al-Yousifiyah region - Al-Rasheed district, during the spring season of 2022, in one of the fields dominated by the Dabbana Modern Agricultural Equipment factors. A randomized complete block design (RCBD) was utilized in a split-plot with three replications. The main plots included five nutrition treatments (spraying BMstart biostimulants, spraying Alga600 seaweed extract, adding Seek (bamboo plant residue), and spraying Moringa leaf extract, with water as the control treatment), and the sub – plot included three cultivars (Lilo, Ishaqi-2, and Flamy). The results demonstrated the superiority of Alga600 seaweed extract with a weight of 1000 seeds (103.78 g) and the number of seeds per head (2162.73 seeds head−1). Whereas the Moringa leaf extract was superior in terms of head diameter (28.48 cm), fertility rate (96.410%), seed yield (4.980 tons h−1) and oil percentage (45.61%). The Ishaqi-2 cultivar exhibited the highest seed production (5.222 tons h−1), however the Flamy cultivar revealed the highest fertility (96.63%) and oil percentage (43.20%), consequently. we advocate planting the Ishaqi-2 cultivar and implementing moringa leaf extract to boost output by 17%.

Response of Qualitative Traits of Sunflower Helianthus annuus (L.) Cultivars to Spraying with Glycine Acid

Field experiment was carried out during the spring seasons of 2021 and 2022 in the fields of a farmer in the district of Ramadi - Anbar province, in silty loam soil texture, with the aim of studying the response of qualitative traits of sunflower cultivars (Sakha, Luluah, and Akmar) to spraying with Glycine acid at concentrations of (0, 100, 200, and 300 mg L−1). The experiment was conducted according to randomized complete block design with split plot arrangement with three replicates, with a total of 36 experimental units, where the Glycine acid concentrations occupied the main plots, and the cultivars occupied the sub-plots. The most important results indicate that cultivars had a significant effect on most of the studied traits, with the Akmar cultivar achieving the highest percentage of oleic acid, linoleic acid, and unsaturated fatty acid percentage in both seasons, while the Luluah cultivar achieved the highest percentage of stearic and palmitic acids, and saturated fatty acid percentage in both seasons. The superiority of the Akmar cultivar and the high concentrations of Glycine acid, and their interaction in the percentage of oleic and linoleic acids, led to an increase in the percentage of unsaturated fatty acids, which improved the quality of sunflower oil, as the high percentage of unsaturated fatty acids and low percentage of saturated fatty acids are a desirable trait in sunflower oil.