Growth and yield of safflower genotypes grown under irrigated and non-irrigated conditions in a highland environment

Öztürk, Erdoğan; Özer, Harun; Polat, Taşkın

doi:10.17221/403-pse

Cited by 26 publications

(8 citation statements)

References 15 publications

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“…The results indicate that increasing the concentration of ethephon had a significant effect(P>0.05) on gradually reducing the plant height in the safflower yield, as the plants that were treated with a concentration of 2000 mg / L (E4) gave the lowest average plant height of 107.60 cm with the comparison treatment in which the average plant height was 123.30 cm The reason for the decrement i in plant height may be due to the action of ethylene liberated from the athephon in the plant tissues, which works to inhibit the transport of auxin in the stem tissues and thus reduce the ability to elongate the stem, as well as it encourages an increase in the size of cells in the horizontal direction and affects the rate of cell division It prevents longitudinal growth as it causes a decrease in the elongation of cells in the sub-apical meristem region, and thus a reduction in stem elongation [10]. These results were similar to what was obtained by [11,12], who indicated that spraying athephon with different concentrations led to a significant decrease in the height of plants wheat.…”

Section: Plant Heightsupporting

confidence: 80%

Effect of Ethephon and Incomplete Irrigation on some Growth and Yield Characteristics of Safflower

Hussain,

Al-Refai

2023

IOP Conf. Ser.: Earth Environ. Sci.

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The experiment was conducted to study the effect of ethephon and moisture stress in different growth stages on the yield, its components, and the water consumption efficiency of safflower (Gilla) variety. This experiment was carried out during the winter season 2021-2022, on 11/24/2021, in the Al-Bulatif area, which is 3 km from the governorate center, in the fields of a farmer in Al-Muthanna Governorate. It was implemented that using the split-section design with three replications, where the first factor included four levels (full irrigate-Drop irrigation when branching-Drop irrigation at the flower bud-Drop an irrigation when it is full), which is denoted by the symbol. I 1, I 2, I 3, I 4. The second factor: spraying with Ethephon at five levels 2000-1500-1000-500-0 mg/l, which is coded as E0, E1, E2, E3, and E4, with a plant density of 40,000 plants/ha. The results showed a significant effect of the athephon for most of the studied traits. Treatment E2 gave the highest mean for the two characteristics of plant height and number of leaves, which reached 125.40 cm and 410.60 leaves per plant, while treatment E3 showed the highest average number of branching, reaching 81.6 branches, and finally with regard to the athephon, the treatment gave E4 was the highest mean of grain yield, reaching 5.10 kg H-1. As for the effect of lack of irrigation, the significant effect was only for the characteristics of the number of leaves, the weight of 500 seeds, and the grain yield. As the I1 treatment excelled in giving the highest average grain yield of 4.49 kg H-1, while the I2 treatment presented the highest average weight of 500 seeds, which amounted to 23.19 g. As a final point I3 treatment is the highest average number of leaves, as it reached 341.00 leaves per plant. As for the bilateral overlap between the ethephon and the lack of irrigation, the overlap treatment (I3 * E2) excelled in giving the highest average height, reaching 135.6 cm, while the overlap treatment (I2 * E3) gave the highest average number of branching, reaching 97.30 branches per plant. As for the overlap treatment (I2 * E2), it gave the highest average weight of 500 seeds, reaching 25.55 gm, while the overlap treatment between (I1 * E4) gave the highest average grain yield, reaching 7.186 kg H-1.

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Section: Plant Heightsupporting

confidence: 80%

Effect of Ethephon and Incomplete Irrigation on some Growth and Yield Characteristics of Safflower

Hussain,

Al-Refai

2023

IOP Conf. Ser.: Earth Environ. Sci.

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“…Safflower (Carthamus tinctorius L.) is one of the most important cold and drought-tolerant oilseed crops (Majidi et al 2011;Öztürk et al 2008). It produces oil rich in polyunsaturated fatty acids that play a vital role in reducing blood cholesterol levels (Velasco and Fernandez-Martinez 2001).…”

Section: Introductionmentioning

confidence: 99%

Virulence and genetic diversity among Fusarium oxysporum f. sp. carthami isolates of India using multilocus RAPD and ISSR markers

Singh

Anand

Kapoor

2019

Trop. plant pathol.

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Safflower wilt, incited by Fusarium oxysporum f. sp. carthami (Foc) is one of the most devastating diseases of safflower. Virulence and genetic diversity of 90 Foc isolates representing four major safflower growing states (Maharashtra, Karnataka, Telangana, and Madhya Pradesh) in India were analyzed. Out of 45 RAPD and 45 ISSR primers screened, 17 of each RAPD and ISSR markers revealed a comprehensive picture of genetic diversity. Primers depicting maximum heterozygosity, effective number of alleles, and Shannon information index were identified. Cluster and principal coordinate analyses distributed isolates from a given state among different clusters and quadrants, respectively, indicating high genetic diversity. However, certain region-specific groupings within clusters were found. The population structure comprised two sub-populations with admixture of alleles. AMOVA indicated maximum molecular variation within states (95%), and within races (79%). Among the six races identified on the basis of disease reactions on differential cultivars, Race 6 was the most virulent and Race 2 as the most prevalent. Groupings on the basis of molecular markers and geographical origin showed some degree of concurrence with the virulence of isolates. The findings are useful in screening of newly developed pathogen resistant varieties for the deployment of regionspecific resistant cultivars of safflower.

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“…In comparison with other oilseed crops, safflower is a crop with high adaptation ability in regions where winter months are cool and summer months are arid. Especially due to its high tolerance for aridity and moderate tolerance to the cold, it is one of the alternative crops to be utilized in the arid and semi-arid agricultural lands of Turkey, particularly in Eastern Anatolia, South-eastern Anatolia, and Central Anatolia Regions (Baydar and Erbas, 2007;Öztürk, 2008). Even though genotypes with high oil content (above 40%) have been identified thorough germplasm screenings, the oil content of the current safflower cultivars remains far below this level (Johnson et al, 1999).…”

Section: Introductionmentioning

confidence: 99%

VARIATIONS IN THE AGRONOMIC AND QUALITY CHARACTERISTICS OF DOMESTIC AND FOREIGN SAFFLOWER (Carthamus tinctorius L.) GENOTYPES

Erbaş¹,

Tonguç²,

Şanli³

2016

Turkish Journal of Field Crops

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The present study was carried out to determine the agronomic and quality characteristics of domestic and foreign safflower (Carthamus tinctorius L.) genotypes in the 2011-2012 growing season in Isparta. In the study, 39 safflower genotypes were used as the plant material. The highest 1000 seed weight and hull content were detected in Ziyang. Arizona SC III was determined as the genotype with the lowest 1000 seed weight, hull content, seed yield, and oil yield. The highest seed yield was recorded in UC-1 (215.9 kg da-1). Oil contents of the genotypes ranged from 22.6 to 33.8% on average and Arizona SC III, Oleic Leed, Centennial, Finch, Ole, S-517, Enana and Leed were determined as the genotypes with the highest oil content. Variation for oleic acid was between 11.1 and 68.3% in 2011 and between 12.0 and 71.6% in 2012. Linoleic acid content varied between 18.0 and 74.7% in 2011 and between 14.2 and 73.9% in 2012. Montola 2000, Ole, UC-1, NO 55-663 and S-517 were found to contain more than 60% oleic acid. Both performances of the genotypes used in the study could further examined by cultivating in different locations and a successful hybridization program compatible with the desired goals of breeding may be drawn up using wide variations reported among the examined morphological and agronomic characters.

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Growth and yield of safflower genotypes grown under irrigated and non-irrigated conditions in a highland environment

Cited by 26 publications

References 15 publications

Effect of Ethephon and Incomplete Irrigation on some Growth and Yield Characteristics of Safflower

Effect of Ethephon and Incomplete Irrigation on some Growth and Yield Characteristics of Safflower

Virulence and genetic diversity among Fusarium oxysporum f. sp. carthami isolates of India using multilocus RAPD and ISSR markers

VARIATIONS IN THE AGRONOMIC AND QUALITY CHARACTERISTICS OF DOMESTIC AND FOREIGN SAFFLOWER (Carthamus tinctorius L.) GENOTYPES

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