Determination of Some Physiological Parameters of Acanthiophilus Helianthi Rossi (Diptera: Tephritidae) Before and After Damage on Different Safflower (Carthamus Tinctorius L.) Varieties
Abstract
One of the principal pests of safflower plants is Acanthiophilus helianthi, also known as the safflower fly. The safflower plant (Carthamus tinctorius), one of its hosts, is a significant energy plant whose cultivation has expanded recently in our nation. It is drought-resistant and highly adaptable. This study aims to investigate the effect of A. helianthi on some physiological (sugar, mineral substance, chlorophyll, total phenol, and antioxidant content) parameters in five different safflower cultivars, whose production has increased in the province of Van in recent years. The findings showed that under stress conditions brought on by the development of the pest, A. helianthi responded physiologically to the five different forms of safflower in a significant way. The mineral values of iron and potassium increased under stress conditions brought on by A. helianthi damage, but the mineral values of zinc, manganese, copper, phosphorus, and calcium declined. According to the sugar content results, only the fructose amounts of Ayaz and Göktürk varieties differed before and after the damage. Before the damage, the antioxidant content of the cultivars Asol, Ayaz, Balcı, and Dinçer was found to be low, whereas the antioxidant content of the Göktürk cultivar was high, and the antioxidant content of the Göktürk cultivar significantly decreased after the damage. It was found that under stress, the chlorophyll content of the cultivars of safflower used reduced. As a result, it was concluded that the safflower fly has different effects on safflower varieties before and after damage and that it can provide practical ideas to the producers who will produce safflower as a solution to the drought and energy problem.
Supporting Institution
Van Yüzüncü Yıl Üniversitesi Bilimsel Araştırma Projeleri Başkanlığı
Project Number
FDK-2019-8280
References
- Azizabadi E, Golchin A, & Delavar M A. 2014. Effect of potassium and drought stress on growth indices and mineral content of safflower leaf. Journal of Soil and Plant Interactions-Isfahan University of Technology, 5(3), 65-80.
- Benzie IEF, Strain J J. 1996. The ferric reducing ability of plasma (FRAP) as a measure of ‘‘antioxidant power’’: the FRAP assay. Analytical Biochemistry, 239 (1): 70-76. https://doi.org/10.1006/abio.1996.0292
- Bolat İ, & Kara Ö. 2017. Plant nutrients: Sources, functions, deficiencies and excesses. Journal of Bartın Faculty of Forestry, 19(1), 218-228.
- Dajue L, Mündel H H. 1996. Safflower (Carthamus tinctorius L.). Promoting the conservation and use of underutilized and neglected crops. 7. International Plant Genetic Resources Institute, 1-83.
- Erdal ŞC, Cakirlar H. 2014. Impact of salt stress on photosystem II efficiency and antioxidant enzyme activities of safflower (Carthamus tinctorius L.) cultivars, Turkish Journal of Biology, 38 (4), 549-560. https://doi.org/10.3906/biy-1401-33
- Gengmao Z, Yu H, Xing S, Shihui L, Quanmei S, Changhai W. 2015. Salinity stress increases secondary metabolites and enzyme activity in safflower. Industrial Crops And Products, 64, 175-181. https://doi.org/10.1016/j.indcrop.2014.10.058
- Gyulai J. 1996. Market outlook for safflower. In Proceedings of North American Safflower Conference, Great Falls, Montana, Lethbridge, Canada.
- Hasanshahi G, Askarianzadeh A. 2012. Effect of drought stress on the damage safflower fly, Acanthiophilus helianthi Rossi (Dip., Tephritidae) on three cultivars of safflower, (Carthamus tinctorius L.) in Tehran region. Iranain Journal of Entomological Research, 2 (1).
- Hasanshahi G, Askarianzadeh A, Karimi J, Jahan F, Abbasipour H, Askarianzade A, Karimi J. 2013. Effect of drought stress on the damage of safflower weevils, on three cultivars of Carthamus tinctorius L. Biharean Biologist, 2 (7). http://biozoojournals.3x.ro/bihbio l/index.html
- Hussain MI, Lyra DA, Farooq M, Nikoloudakis N, Khalid N. 2016. Salt and drought stresses in safflower: a review. Agronomy for sustainable development, 36 (1), 4. https://doi.org/10.1007/s13593-015-0344-8
- Kacar B. 1984. Plant Nutrition Application Guide, Ankara University Faculty of Agriculture Publications: 900. Application Guide, 214. Ankara. 140.
- Khalili M, Pour-Aboughadareh A, Naghavi MR, Mohammad-Admini E. 2014. Evaluation of drought tolerance in safflower genotypes based on drought tolerance indices. Notulae Botanicae Horti Agrobotanici Cluj-Napoca, 42 (1), 214-218. https://doi.org/10.15835/nbha4219331
- Khuhro SA, Mari JM, Jatoi GH, Soomro N, Leghari UA, & Mengal A N. 2021. Resistant Cultivars of Safflower Carthamus tinctorius based on Yield Performance and Infestation against Acanthiophilus helianthi (Diptera: Tephritidae). International Journal on Emerging Technologies, 12(1), 175-180.
- Knowles P F. 1989. Safflower, Oil Crops of the World, their Breeding and Utilization. (Eds. Robbelen, G., Downey, R.K., Ashri, A.) McGraw Hill, New York. 363–374.
- Korkmaz H, & Durmaz A. 2017. Responses of Plants to Abiotic Stress Factors. 192-207.
- Kumar ES, Kuna A, Padmavathı P, Ranı CVD, Sarkar S. 2018. Nutrient composition of selected cultivars of safflower (Carthamus tinctorius L.) leaves during different crop growth stages to water stress. The Indıan Socıety Of Oılseeds Research, 216.
- Kumar ES, Kuna A, Padmavathi P, Rani CVD, & Sarkar S. 2016. Nutrient composition of selected cultivars of safflower (Carthamus tinctorius L.) leaves during different crop growth stages to water stress. The Indıan Socıety of Oılseeds Research, 216.
- Li D, Mündel H H. 1996. Safflower. Carthamus tinctorius L. Institute of Plant Genetics and Crop Plant Research, Gatersleben/International Plant Genetic Resources Institute, Vol 7. Rome.
- McPherson MA, Good AG, Topinka L, Hall L M. 2004. Theoretical hybridization potential of transgenic safflower (Carthamus tinctorius L.) with weedy relatives in the New World. Canadian Journal of Plant Science, 84 (3), 923-934. https://doi.org/10.4141/P03-150
- Nimbkar N. 2008. Issues in safflower production in India. Paper presented at: Safflower: unexploited potential and world adaptability 7th International Safflower Conference Wagga, NSW, Australia.
- Riaz M, & Sarwar M. 2014. A new record of safflower fly Acanthiophilus helianthi (Rossi) of genus Acanthiophilus Becker in subfamily Tephritinae (Diptera: Tephritidae) from the Fauna of Pakistan. Journal of Agriculture and Allied Sciences, 3(1), 39-44.
- Ozkan A. 2019. Changes ın growth parameters, oıl yıeld, fatty acıd composıtıon and mıneral content of two safflower (Carthamus tınctorıus L.) genotypes ın response to water stress. Applıed Ecology And Envıronmental Research, 18 (1), 499-514. http://dx.doi.org/10.15666/aeer/1801_499514
- Singh V, Nimbkar N. 2006. Safflower (Carthamus tinctorius L.) (Ed. Ram J. Singh, Chapter 6 Genetic Resources, Chromosome Engineering, and Crop Improvement: Oilseed Crops, Chapter 6. CRC Press, Boca Raton, 320. https://doi.org/10.17211/tcd.48394
- Swain T, Hillis W. 1959. The phenolic constituents of Prunus domestica. I.—The quantitative analysis of phenolic constituents. J Sci Food Agric, 10, 63–68. https://doi.org/10.1002/jsfa.2740100110
- Şengonca Ç. 1983. A research on safflower pests in Çukurova region. Turkish Journal of Plant Protection, (7), 117-127.
- Talpur MA, Hussain T, Rustamani MA, Gaad M A. 1995. Relative resistance of safflower varieties to safflower shoot fly, Acanthiophilus helianthi Rossi (Diptera: Tephritidae). In Proceedings of Pakistan Congress of Zoology, (15), 177-181.
- Weiss E A. 1983. Oilseed Crops. Chapter 6. Safflower. Longman Group Limited, Longman House, London, UK. 216-281.
- Yavaş İ, & İlker E. 2020. Changes in Photosynthesis and Phytohormone Levels in Plants Exposed to Environmental Stress Conditions. Bahri Dağdaş Journal of Herbal Research, 9(2), 295-311.
- Yeloojeh KA, Saeidi G, Sabzalian M R. 2020. Drought stress improves the composition of secondary metabolites in safflower flower at the expense of reduction in seed yield and oil content. Industrial Crops and Products, 154, 112496. https://doi.org/10.1016/j.indcrop.2020.112496
- Zareie S, Golkar P, Mohammadi-Nejad G. 2011. Effect of nitrogen and iron fertilizer on seed yield and yield components of safflower genotypes. African Journal of Agricultural Research, 6 (16), 3924-3929. https://doi.org/10.5897/AJAR11.683
Determination of Some Physiological Parameters of Acanthiophilus Helianthi Rossi (Diptera: Tephritidae) Before and After Damage on Different Safflower (Carthamus Tinctorius L.) Varieties
Abstract
One of the principal pests of safflower plants is Acanthiophilus helianthi, also known as the safflower fly. The safflower plant (Carthamus tinctorius), one of its hosts, is a significant energy plant whose cultivation has expanded recently in our nation. It is drought-resistant and highly adaptable. This study aims to investigate the effect of A. helianthi on some physiological (sugar, mineral substance, chlorophyll, total phenol, and antioxidant content) parameters in five different safflower cultivars, whose production has increased in the province of Van in recent years. The findings showed that under stress conditions brought on by the development of the pest, A. helianthi responded physiologically to the five different forms of safflower in a significant way. The mineral values of iron and potassium increased under stress conditions brought on by A. helianthi damage, but the mineral values of zinc, manganese, copper, phosphorus, and calcium declined. According to the sugar content results, only the fructose amounts of Ayaz and Göktürk varieties differed before and after the damage. Before the damage, the antioxidant content of the cultivars Asol, Ayaz, Balcı, and Dinçer was found to be low, whereas the antioxidant content of the Göktürk cultivar was high, and the antioxidant content of the Göktürk cultivar significantly decreased after the damage. It was found that under stress, the chlorophyll content of the cultivars of safflower used reduced. As a result, it was concluded that the safflower fly has different effects on safflower varieties before and after damage and that it can provide practical ideas to the producers who will produce safflower as a solution to the drought and energy problem.
Project Number
FDK-2019-8280
References
- Azizabadi E, Golchin A, & Delavar M A. 2014. Effect of potassium and drought stress on growth indices and mineral content of safflower leaf. Journal of Soil and Plant Interactions-Isfahan University of Technology, 5(3), 65-80.
- Benzie IEF, Strain J J. 1996. The ferric reducing ability of plasma (FRAP) as a measure of ‘‘antioxidant power’’: the FRAP assay. Analytical Biochemistry, 239 (1): 70-76. https://doi.org/10.1006/abio.1996.0292
- Bolat İ, & Kara Ö. 2017. Plant nutrients: Sources, functions, deficiencies and excesses. Journal of Bartın Faculty of Forestry, 19(1), 218-228.
- Dajue L, Mündel H H. 1996. Safflower (Carthamus tinctorius L.). Promoting the conservation and use of underutilized and neglected crops. 7. International Plant Genetic Resources Institute, 1-83.
- Erdal ŞC, Cakirlar H. 2014. Impact of salt stress on photosystem II efficiency and antioxidant enzyme activities of safflower (Carthamus tinctorius L.) cultivars, Turkish Journal of Biology, 38 (4), 549-560. https://doi.org/10.3906/biy-1401-33
- Gengmao Z, Yu H, Xing S, Shihui L, Quanmei S, Changhai W. 2015. Salinity stress increases secondary metabolites and enzyme activity in safflower. Industrial Crops And Products, 64, 175-181. https://doi.org/10.1016/j.indcrop.2014.10.058
- Gyulai J. 1996. Market outlook for safflower. In Proceedings of North American Safflower Conference, Great Falls, Montana, Lethbridge, Canada.
- Hasanshahi G, Askarianzadeh A. 2012. Effect of drought stress on the damage safflower fly, Acanthiophilus helianthi Rossi (Dip., Tephritidae) on three cultivars of safflower, (Carthamus tinctorius L.) in Tehran region. Iranain Journal of Entomological Research, 2 (1).
- Hasanshahi G, Askarianzadeh A, Karimi J, Jahan F, Abbasipour H, Askarianzade A, Karimi J. 2013. Effect of drought stress on the damage of safflower weevils, on three cultivars of Carthamus tinctorius L. Biharean Biologist, 2 (7). http://biozoojournals.3x.ro/bihbio l/index.html
- Hussain MI, Lyra DA, Farooq M, Nikoloudakis N, Khalid N. 2016. Salt and drought stresses in safflower: a review. Agronomy for sustainable development, 36 (1), 4. https://doi.org/10.1007/s13593-015-0344-8
- Kacar B. 1984. Plant Nutrition Application Guide, Ankara University Faculty of Agriculture Publications: 900. Application Guide, 214. Ankara. 140.
- Khalili M, Pour-Aboughadareh A, Naghavi MR, Mohammad-Admini E. 2014. Evaluation of drought tolerance in safflower genotypes based on drought tolerance indices. Notulae Botanicae Horti Agrobotanici Cluj-Napoca, 42 (1), 214-218. https://doi.org/10.15835/nbha4219331
- Khuhro SA, Mari JM, Jatoi GH, Soomro N, Leghari UA, & Mengal A N. 2021. Resistant Cultivars of Safflower Carthamus tinctorius based on Yield Performance and Infestation against Acanthiophilus helianthi (Diptera: Tephritidae). International Journal on Emerging Technologies, 12(1), 175-180.
- Knowles P F. 1989. Safflower, Oil Crops of the World, their Breeding and Utilization. (Eds. Robbelen, G., Downey, R.K., Ashri, A.) McGraw Hill, New York. 363–374.
- Korkmaz H, & Durmaz A. 2017. Responses of Plants to Abiotic Stress Factors. 192-207.
- Kumar ES, Kuna A, Padmavathı P, Ranı CVD, Sarkar S. 2018. Nutrient composition of selected cultivars of safflower (Carthamus tinctorius L.) leaves during different crop growth stages to water stress. The Indıan Socıety Of Oılseeds Research, 216.
- Kumar ES, Kuna A, Padmavathi P, Rani CVD, & Sarkar S. 2016. Nutrient composition of selected cultivars of safflower (Carthamus tinctorius L.) leaves during different crop growth stages to water stress. The Indıan Socıety of Oılseeds Research, 216.
- Li D, Mündel H H. 1996. Safflower. Carthamus tinctorius L. Institute of Plant Genetics and Crop Plant Research, Gatersleben/International Plant Genetic Resources Institute, Vol 7. Rome.
- McPherson MA, Good AG, Topinka L, Hall L M. 2004. Theoretical hybridization potential of transgenic safflower (Carthamus tinctorius L.) with weedy relatives in the New World. Canadian Journal of Plant Science, 84 (3), 923-934. https://doi.org/10.4141/P03-150
- Nimbkar N. 2008. Issues in safflower production in India. Paper presented at: Safflower: unexploited potential and world adaptability 7th International Safflower Conference Wagga, NSW, Australia.
- Riaz M, & Sarwar M. 2014. A new record of safflower fly Acanthiophilus helianthi (Rossi) of genus Acanthiophilus Becker in subfamily Tephritinae (Diptera: Tephritidae) from the Fauna of Pakistan. Journal of Agriculture and Allied Sciences, 3(1), 39-44.
- Ozkan A. 2019. Changes ın growth parameters, oıl yıeld, fatty acıd composıtıon and mıneral content of two safflower (Carthamus tınctorıus L.) genotypes ın response to water stress. Applıed Ecology And Envıronmental Research, 18 (1), 499-514. http://dx.doi.org/10.15666/aeer/1801_499514
- Singh V, Nimbkar N. 2006. Safflower (Carthamus tinctorius L.) (Ed. Ram J. Singh, Chapter 6 Genetic Resources, Chromosome Engineering, and Crop Improvement: Oilseed Crops, Chapter 6. CRC Press, Boca Raton, 320. https://doi.org/10.17211/tcd.48394
- Swain T, Hillis W. 1959. The phenolic constituents of Prunus domestica. I.—The quantitative analysis of phenolic constituents. J Sci Food Agric, 10, 63–68. https://doi.org/10.1002/jsfa.2740100110
- Şengonca Ç. 1983. A research on safflower pests in Çukurova region. Turkish Journal of Plant Protection, (7), 117-127.
- Talpur MA, Hussain T, Rustamani MA, Gaad M A. 1995. Relative resistance of safflower varieties to safflower shoot fly, Acanthiophilus helianthi Rossi (Diptera: Tephritidae). In Proceedings of Pakistan Congress of Zoology, (15), 177-181.
- Weiss E A. 1983. Oilseed Crops. Chapter 6. Safflower. Longman Group Limited, Longman House, London, UK. 216-281.
- Yavaş İ, & İlker E. 2020. Changes in Photosynthesis and Phytohormone Levels in Plants Exposed to Environmental Stress Conditions. Bahri Dağdaş Journal of Herbal Research, 9(2), 295-311.
- Yeloojeh KA, Saeidi G, Sabzalian M R. 2020. Drought stress improves the composition of secondary metabolites in safflower flower at the expense of reduction in seed yield and oil content. Industrial Crops and Products, 154, 112496. https://doi.org/10.1016/j.indcrop.2020.112496
- Zareie S, Golkar P, Mohammadi-Nejad G. 2011. Effect of nitrogen and iron fertilizer on seed yield and yield components of safflower genotypes. African Journal of Agricultural Research, 6 (16), 3924-3929. https://doi.org/10.5897/AJAR11.683
Details
| Primary Language | English |
|---|---|
| Subjects | Engineering |
| Journal Section | Research Articles |
| Authors | |
| Project Number | FDK-2019-8280 |
| Early Pub Date | June 16, 2023 |
| Publication Date | June 30, 2023 |
| Published in Issue | Year 2023 Volume: 2 Issue: 1 |
