بررسی اثرات تلقیح قارچ‎های مایکوریزا بر عملکرد و اجزای عملکرد اکوتیپ‎های مختلف سیاه‎دانه

رمضانی, سید حمید رضا; قربانی, مرتضی

doi:10.22034/csrar.2023.302907.1127

بررسی اثرات تلقیح قارچ‎های مایکوریزا بر عملکرد و اجزای عملکرد اکوتیپ‎های مختلف سیاه‎دانه

نوع مقاله : مقاله پژوهشی

نویسندگان

¹ گروه تولید و ژنتیک گیاهی، دانشکده کشاورزی ، دانشگاه بیرجند، بیرجند، ایران

² گروه زیست شناسی، دانشکده علوم، دانشگاه بیرجند، بیرجند، ایران

10.22034/csrar.2023.302907.1127

چکیده

کاربرد کودهای بیولوژیک به ویژه قارچ‎های مایکوریزا از مهم‎ترین راهبردهای تغذیه‎ای در کشاورزی پایدار و مدیریت بوم‎نظام‎های کشاورزی می‎باشد. بر همین اساس، پژوهش حاضر به منظور بررسی اثرات دو گونه قارچ مایکوریزا بر عملکرد و اجزای عملکرد سه اکوتیپ ایرانی سیاهدانه (سرایان، همدان و شهرکرد) بصورت فاکتوریل در قالب بلوک کامل تصادفی در سه تکرار در دانشکده کشاورزی سرایان اجرا شد. نتایج تجزیه واریانس نشان‎دهنده اختلاف معنی‌دار بین اکوتیپ‌های سیاهدانه برای اکثر صفات مورد بررسی بود. با این‎حال، هیچ‎کدام از صفات فوق تحت تأثیر برهمکنش بین تیمارهای مورد بررسی در پژوهش حاضر (اکوتیپ × مایکوریزا) قرار نگرفتند. بیشترین ارتفاع گیاه، ارتفاع اولین شاخه فرعی، طول ریشه، ارتفاع اولین کپسول و طول کپسول برای اکوتیپ همدان، بیشترین تعداد دانه در کپسول، عملکرد بیولوژیک، عملکرد دانه و عملکرد کاه برای اکوتیپ شهرکرد و بیشترین وزن هزار دانه و شاخص برداشت برای اکوتیپ سرایان حاصل شد. از طرفی، کاربرد هر دو گونه قارچ مایکوریزا موجب افزایش معنی‎دار صفات طول کپسول، قطر کپسول و تعداد شاخه گل‌دهنده اکوتیپ‎های مورد مطالعه نسبت به تیمار شاهد شدند. در تجزیه ضرایب مسیر، صفات تعداد شاخه گل‎دهنده و عملکرد بیولوژیک اثرات مستقیم مثبتی بر صفت عملکرد دانه داشتند و بیشترین اثر برای صفت عملکرد بیولوژیک به دست آمد. در مقابل، بیشترین اثر مستقیم منفی بر روی صفت عملکرد دانه مربوط به عملکرد کاه بود؛ لذا براساس نتایج پیشنهاد می‎شود اکوتیپ/ژنوتیپ‎هایی که از نظر صفات عملکرد بیولوژیک و کاه بهتر هستند را برای گزینش اکوتیپ‎های برتر مورد استفاده قرار دهند.

کلیدواژه‌ها

عنوان مقاله [English]

Investigating the effects of inoculation of mycorrhizal fungi on yield and yield components of different ecotypes of black seed

نویسندگان [English]

Seyyed Hamid Reza Ramazani ¹
Morteza Ghorbany ²

¹ Department of Plant Production and Genetics, College of Agriculture, University of Birjand, Birjand, Iran

² Department of Biology, College of Science, University of Birjand, Birjand, Iran

چکیده [English]

Introduction: The application of bio-fertilizers, especially mycorrhizal fungi, is known as one of the most important nutritional approaches in sustainable agriculture and agricultural ecosystem management. Among the numerous microorganisms in the rhizosphere, some have positive effects on plant growth promotion. These microorganisms are bio fertilizers such as plant-growth-promoting rhizobacteria, which colonize the rhizosphere and roots of many plant species and confer beneficial effects to plants. Therefore, the present study aimed to investigate the effects of two species of arbuscular mycorrhizal funguswas assessed on yield and yield components of three Iranian ecotypes of black seed medicinal plant.
Materials and Methods: To determine the inoculation of mycorrhizal fungi on yield and yield components of different ecotypes of black seed, a factorial experiment in randomized complete block design with three replications was conducted. The experiment was conducted as factorial in Sarayan faculty of agriculture at 2018, with two factors, the Rhizophagus fasciculatum and Rhizophagus mosseae species of mycorrhizal as first factor, Sarayan, Hamedan, and Shahrekord ecotypes of black seed as second factor, in three replications. The traits studied in this research were plant height, stem diameter, number of branches, the average height of the first branch, root length, total chlorophyll, number of flowering branches, the average height of the first capsule, capsule length, capsule diameter, number of capsules per plant, number of seeds per capsules, 1000-seed weight, grain yield, biological yield, harvest index, and straw yield.
Results and Discussion: The analysis of variance showed significant differences among investigated ecotypes of black seed for all traits. However, none of the above traits were affected by the interaction of Ecotype × mycorrhiza. In addition, the highest values of plant height (19.85 cm), the average height of the first branch (8.99 cm), root length (13.63 cm), the average height of the first capsule (19.16 cm), and capsule length (8.38 cm) for Hamadan ecotype, the highest values of the number of seeds per capsule (53.31 grains), biological yield (75.8 g.m^-2), grain yield (26.16 g.m^-2), and straw yield (49.64 g.m^-2) for Shahrekord ecotype, and the highest 1000-seed weight (2.34 g) and harvest index (42.67%) for Sarayan cultivar were obtained. In other hand, the means of pod diameter, pod length, and number of flowering branches were increased in plants treated with both species of mycorrhizal bio-fertilizer than the control treatment so that the highest values in the number of flowering branches (8.24 cm) and capsule length (8.18 cm) were obtained under the application of Rhizophagus mosseae, and the thickest capsules (8.24 cm) were achieved under the application of frtilizers contained Rhizophagus fasciculatum. The results of simple correlation analysis showed the positive and significant correlation of seed yield trait with root length, number of secondary branches, number of flowering branches, number of pods per plants, and number of seeds per pod, at 5% probability level, and with biological yield and straw yield traits at 1% probability level. Results of path analysis showed positive direct effect of number of flowering branches and biological yield traits on grain yield and the highest positive direct effect was recorded for biological yield. In contrast, the highest negative direct effect on the grain yield of investigated ecotypes was obtained for the straw yield.
Conclusion: It was shown that there was a significant difference between the three black seed ecotypes in morphological and functional traits, so that Shahrekord and Hamedan ecotypes were superior in all traits (except thousand seed weight and harvest index) compared to Sarayan ecotype. In general, our findings demonstrated the relationship between morphological traits and yield components of black seed ecotypes under the inoculation of mycorrhiza strains, which can be employed in black seed breeding programs as a reference. Also, it is suggested that ecotypes/genotypes that are better in biological and straw yield traits were used for cretia selection traits in future.

کلیدواژه‌ها [English]

Medicinal plant
Path analysis
Seed yield
Symbiotic fungi

مراجع

Abadi, B.H.M., Ganjali, H.R. and Mobasser, H.R. 2015. Effect of mycorrhiza and phosphorus fertilizer on some characteristics of black cumin. Biological Forum-Research Trend, 7, PP.1115-1120 [In Persian]. doi: 10.22092/ijmapr.2018.121269.2287

Abdipour, M., Ramazani, S.H.R., Younessi Hmazekhanlu, M. and Niazian, M. 2018. Modeling oil content of sesame (Sesamum indicum L.) using artificial neural network and multiple linear regression approaches. Journal of the American Oil Chemists' Society, 95, PP.283-297. doi:10.1002/aocs.12027

Arnon, DI. 1949. Copper enzymes in isolated chloroplasts. Polyphenol-oxidase in Beta vulgaris. Plant Physiology, 24, PP.1-15. doi:10.1104/pp.24.1.1

Bahmani, K., Darbandi, A.I., Ramshini, H.A., Moradi, N. and Akbari, A. 2015. Agro-morphological and phytochemical diversity of various Iranian fennel landraces. Industrial Crops and Products, 77, PP.282-294. doi:10.1016/j.indcrop.2015.08.059

Bahrami Najad, S. and Papzan, A. 2006. Effect of row spacing on different characteristics of black cumin (Nigella sativa L.) under Kermanshah conditions. Iranian Journal of Crop Sciences, 8, PP.241-249 [In Persian].

Bardideh, K., Kahrizi, D. and Ghobadi, M.E. 2013. Character association and path analysis of black cumin (Nigella sativa L.) genotypes under different irrigation regimes. Notulae Scientia Biologicae, 5, PP.104-108. doi: 10.15835/nsb518968

Begum, N., Qin, C., Ahanger, M.A., Raza, S., Khan, M.I., Ashraf, M. and Zhang, L. 2019. Role of arbuscular mycorrhizal fungi in plant growth regulation: implications in abiotic stress tolerance. Front Plant Science, 1068. doi: 10.3389/fpls.2019.01068

Bhandari, H.R., Bhanu, A.N., Srivastava, K., Singh, M.N. and Shreya, H.A. 2017. Assessment of genetic diversity in crop plants-an overview. Advances in Plants and Agriculture Research, 7, PP.279-286. doi: 10.15406/apar.2017.07.00255

Boskabady, M.H. and Shirmohammadi, B. 2002. Effect of Nigella sativa on isolated guinea pig trachea. Archives of Iranian Medicine, 5, PP.103-107.

Campo, S., Martín-Cardoso, H., Olivé, M., Pla, E., Catala-Forner, M., Martínez-Eixarch, M. and San Segundo, B. 2020. Effect of root colonization by arbuscular mycorrhizal fungi on growth, productivity and blast resistance in rice. Rice, 13, PP.1-14. doi: 10.1186/s12284-020-00402-7

Cely, M.V., De Oliveira, A.G., De Freitas, V.F., De Luca, M.B., Barazetti, A.R., Dos Santos, I.M. and Andrade, G. 2016. Inoculant of arbuscular mycorrhizal fungi (Rhizophagus clarus) increase yield of soybean and cotton under field conditions. Frontiers in Microbiology, 7, PP.1-9. doi: 10.3389/fmicb.2016.00720

Chen, M., Arato, M., Borghi, L., Nouri, E. and Reinhardt, D. 2018. Beneficial services of arbuscular mycorrhizal fungi–from ecology to application. Frontiers in Plant Science, 1270. doi: 10.3389/fpls.2018.01270

Dalkani, M., Darvishzadeh, R. and Hassani, A. 2011. Correlation and sequential path analysis in Ajowan (Carumcopticum L.). Journal of Medicinal Plants Research, 5, PP.211-216.

Dalkani, M., Hassani, A. and Darvishzadeh, R. 2012. Determination of the genetic variation in Ajowan (CarumCopticum L.) populations using multivariate statistical techniques. Revista Ciência Agronômica, 43, PP.698-705. doi: 10.1590/s1806-66902012000400011

D'Antuono, L.F., Moretti, A. and Lovato, A.F. 2002. Seed yield, yield components, oil content and essential oil content and composition of Nigella sativa L. and Nigella damascena L. Industrial Crops and Products, 15, PP.59-69. doi: 10.1016/s0926-6690(01)00096-6

Darakeh, S.A.S.S., Weisany, W., Diyanat, M. and Ebrahimi, R. 2021. Bio-organic fertilizers induce biochemical changes and affect seed oil fatty acids composition in black cumin (Nigella sativa Linn). Industrial Crops and Products, 164, PP.1-8. doi:10.1016/j.indcrop.2021.113383

Dogan, R. 2009. The correlation and path coefficient analysis for yield and some yield components of durum wheat (Triticumturgidum var. durum L.) in west Anatolia conditions. Pakistan Journal of Botany, 41, PP.1081-1089.

Fallahi, H.R., Taherpour Kalantari, R., Asadian, A.H., Aghhavani-shajari, M. and Ramazani, S.H.R. 2018. Effect of different soil fertilizing agents on growth and yield of isabgol and black seed as two medicinal plants. Iranian Journal of Field Crop Science, 49(3), PP.1-11. 1120 [In Persian]. doi: 10.22059/ijfcs.2017.211513.654152

Faravani, M., Razavi, A.R. and Farsi, M. 2006. Study of variation in some agronomic and anatomiccharacters of Nigella sativa landraces in Khorasan. Iranian Journal of Medicinal and Aromatic Plants, 22. PP.193-197. [In Persian]. Available from: https://sid.ir/paper/105620/en

Fraser, J. and Eaton, G.W. 1983. Application of yield component analysis to crop research. Field Crop Research, 39, PP.787-797.

Ghorbanzadeh Neghab, M. and Zare Mehrjerdi, M. 2018. The study of genetic diversity, correlation between traits and path analysis in black cumin (Nigella sativa L.) ecotypes. Journal of Plant Production Research, 25, PP.1-12 [In Persian]. doi: 10.22069/jopp.2018.12268.2111

Ghosheh, O.A., Houdi, A.A. and Crooks, P.A. 1999. High performance liquid chromatographic analysis of the pharmacologically active quinones and related compounds in the oil of the black seed (Nigella sativa L.). Journal of Pharmaceutical and Biomedical Analysis, 19, PP.757-762. doi: 10.1016/s0731-7085(98)00300-8

Golkar, P. and Nourbakhsh, V. 2019. Analysis of genetic diversity and population structure in Nigella sativa L. using agronomic traits and molecular markers (SRAP and SCoT). Industrial Crops and Products, 130, PP.170-178. doi: 10.1016/j.indcrop.2018.12.074

Hasanzadeh Ghorttapeh, A. and Javadi, H. 2016. Study on the effects of inoculation with biofirtilizers (azotobacter and azospirillum) and nitrogen application on oil, yield and yield components of spring canola in west azerbaijan. Journal of Crop Production and Processing, 5(18), PP.39-50 [In Persian]. doi: 10.18869/acadpub.jcpp.5.18.39

Helgason, T. and Fitter, A. 2009. Natural selection and the evolutionary ecology of the Arbuscular mycorrhizal fungi (Phylum Glomeromycota). Journal of Experimental Botany, 60, PP.2465-2480. doi: 10.1093/jxb/erp144

Ilcim, A., Kokdil, G., Ozbilgin G. and Uygun, C. 2006. Morphology and stem anatomy of some species of Nigella sativa L. in Turkey. Journal of Faculty of Pharmacy, 35, PP.19-41.

Javadi Hedayat Abad, F., Nezami, A., Kafi, M. and Shabahang, J. 2015. Effects of sowing time on yield of black seed (Nigella Sativa L.) ecotypes under Mashhad conditions. Iranian Journal of Field Crops Research, 12, PP.632-640 [In Persian]. doi: 10.22067/gsc.v12i4.45146

Javanmard, A. and Shekari, F. 2016. Improvement of seed yield, its components and oil content of sunflower (Helianthus annuus L.) by applications of chemical and organic fertilizers. Journal of Crop Ecophysiology, 1, PP.35-56 [In Persian].

Kafi, M., Borzoi, A., Salehi, M., Kamandi, A., Masoumi, A. and Nabati, J. 2012. Physiology of environmental stresses in plants. Second edition. Publication of University of Mashhad. 502 PP. [In Persian].

Kheiry, A., Barkhori Mehani, F., Soleimani, A., Sani Khani, M. and Arghavani, M. 2021. Study of some morphophysiological characteristics in endemic population of Nigella sativa under water deficits stress in Zanjan climate conditions. Journal of Agricultural Science and Sustainable Production, 31, PP.213-226 [In Persian]. doi: 10.22034/saps.2021.43976.2610

Khorramdel, S., Kouchaki, A., Nasiri Mahallati, M. and Ghorbani, R. 2008. The effect of biological fertilizer application on growth indices of black seed (Nigella sativa L.). Iranian Journal of Field Crops Research, 6, PP.285-293 [In Persian]. doi: 10.22034/saps.2021.43976.2610

Lal, R.K. 2007. Associations among agronomic traits and path analysis in fennel (Foeniculum vulgare Miller). Journal of Sustainable Agriculture, 30, PP.21-29. doi: 10.1300/J064v30n01_04

Litrico, I. and Violle, C. 2015. Diversity in plant breeding: a new conceptual framework. Trends in Plant Science, 20, PP.604-613. doi: 10.1016/j.tplants.2015.07.007

López-Caamal, A. and Tovar-Sánchez, E. 2014. Genetic, morphological, and chemical patterns of plant hybridization. Revista Chilena de Historia Natural, 87, PP.1-14. doi: 10.1186/s40693-014-0016-0

Malik, M.F.A., Ashraf, M., Qureshi, A.S. and Ghafoor, A. 2007. Assessment of genetic variability, correlation and path analyses for yield and its components in soybean. Pakistan Journal of Botany, 39, PP.405-413.

Masomi Zavarian, A., Yousefirad, M. and Asghari, M. 2015. Effects of mycorrhizal fungi on quantitative and qualitative characteristics of Anise plant (Pimpinella anisum) under salt stress. Journal of Medicinal Plants, 14, PP.139-148 [In Persian]. doi: 20.1001.1.2717204.2015.14.56.3.0

Mehri, N., Moheb AlDini, M., Behnamian, M. and Farmanpour-Kalalagh K. 2022. Phylogenetic, genetic diversity, and population structure analysis of iranian black cumin (Nigella sativa L.) genotypes using ISSR molecular markers. International Journal of Horticultural Science and Technology, 9(2), PP.151-163. doi: 10.22059/ijhst.2021.311894.402

Mirzaei, K. and Mirzaghaderi, G. 2017. Genetic diversity analysis of Iranian Nigella sativa L. landraces using SCoT markers and evaluation of adjusted polymorphism information content. Plant Genetic Resources, 15, PP.64-71. doi: 10.1017/s1479262115000386

Mohammadi, L. and Reezi, S. 2017. Root quality increasing and absorption improvement of some nutrients with arbuscular mycorrhiza (Rhizophagus mosseae) application in New Guinea impatiens (Impatiens hawkeri) cuttings. Journal of Plant Process and Function, 6(21), PP.301-310 [In Persian]. doi: 20.1001.1.23222727.1396.6.21.22.4

Mohebodini, M., Mehri, N. and Fathi, R. 2019. Evaluation of Genotype and Environment Effects on Agro-Morphological Traits in Black Cumin (Nigella Sativa L.) Ecotypes. Journal of Crop Breeding, 11, PP.108-117 [In Persian]. doi: 10.29252/jcb.11.30.108

Mouhajir, F., Pedersen, J.A., Rejdali, M. and Towers, G.H. 1999. Antimicrobial thymohydroquinones of Moroccan Nigella sativa seeds detected by electron spin resonance. Pharmaceutical Biology, 37, PP.391-395. doi:
10.1076/phbi.37.5.391.6052

Nadeem, M.A., Nawaz, M.A., Shahid, M.Q., Doğan, Y., Comertpay, G., Yıldız, M. and Baloch, F.S. 2018. DNA molecular markers in plant breeding: current status and recent advancements in genomic selection and genome editing. Biotechnology & Biotechnological Equipment, 32, PP.261-285. doi:10.1080/13102818.2017.1400401

Niazian, M., Rajabi, A., Amiri, R., Orazizadeh, M.R. and Sharifi, H. 2012. Surveying the relations among traits affecting root yield and sugar content in o-type lines of sugar beet for winter sowing. Plant Production, 35, PP.115-135 [In Persian].

Niazian, M., Sadat Noori, S.A., Tohidfar, M. and Mortazavian, S.M.M. 2017. Essential oil yield and agro-morphological traits in some Iranian ecotypes of ajowan (Carum copticum L.). Journal of Essential Oil Bearing Plants, 20, PP.1151-1156. doi:10.1080/0972060x.2017.1326849

Niazian, M., Sadat-Noori, S.A. and Abdipour, M. 2018a. Modeling the seed yield of Ajowan (Trachyspermumammi L.) using artificial neural network and multiple linear regression models. Industrial Crops and Products, 117, PP.224-234. doi: 10.1016/j.indcrop.2018.03.013

Pandey, J., Scheuring, D.C., Koym, J.W., Coombs, J., Novy, R.G., Thompson, A.L. and Vales, M.I. 2021. Genetic diversity and population structure of advanced clones selected over forty years by a potato breeding program in the USA. Scientific Reports, 11, PP.1-18. doi:10.1038/s41598-021-87284-x

Rahimi, A., Siavash Moghaddam, S., Ghiyasi, M., Heydarzadeh, S., Ghazizadeh, K. and Popović-Djordjević, J. 2019. The influence of chemical, organic and biological fertilizers on agrobiological and antioxidant properties of Syrian Cephalaria (Cephalaria syriaca L.). Agriculture, 9, PP.122-135. doi: 10.3390/agriculture9060122

Rakeei, A. and Maali-Amiri, R. 2012. The role of epigenetic changes in plant response to abiotic environmental stresses. Genetics in the Third Millennium, 10, PP.2834-2845 [In Persian].

Salamati, M.S. and Zeinali, H. 2013. Evaluation of genetic diversity of some Nigella sativa L. genotypes using Agro-morphological characteristics. Iranian Journal of medicinal and Aromatic Plants, 29, PP.201-214 [In Persian]. doi:10.22092/ijmapr.2013.2901

Shah, S. and Kasturi, S.R. 2003. Study on antioxidant and antimicrobial properties of black cumin (Nigella sativa Linn). Journal of Food Science and Technology, 40, PP.70-73.

Shamshirgaran, Z., Saeid Nematpour, F. and Safipour Afshar, A. 2016. Effect of mycorrhizal symbiosis on growth, some physiological parameters and cadmium accumulation in black seed (Nigella sativa L.). Journal of Plant Process and Function, 5(17), PP.133-144 [In Persian]. doi: 20.1001.1.23222727.1395.5.17.12.9

Sharma, A.K. 2002. Biofertilizers for sustainable agriculture. Agrobios, India. 300 PP.

Sousa, N.R., Ramos, M.A., Marques, A.P. and Castro, P.M. 2012. The effect of ectomycorrhizal fungi forming symbiosis with Pinus pinaster seedlings exposed to cadmium. Science of the Total Environment, 414, PP.63-67. doi: 10.1016/j.scitotenv.2011.10.053

Tadayyon, A. and Zarei, M. 2014. The effect of arbuscular mycorrhizal fungus Rhizophagus mosseae on the growth and yield of three ecotype of hemp (Cannabis sativa L.) under saline soil and saline water. Journal of Plant Process and Function, 3, PP.105-114 [In Persian]. doi: 20.1001.1.23222727.1393.3.7.2.5

Yaman, M. 2022. Evaluation of genetic diversity by morphological, biochemical and molecular markers in sour cherry genotypes. Molecular Biology Reports, 49, PP.5293–5301. doi:10.1007/s11033-021-06941-6

Ying-ning, Z.O.U., Qiang-sheng, W.U., Yan, L.I. and Yong-ming, H.U.A.N.G. 2014. Effects of arbuscular mycorrhizal fungi on root system morphology and sucrose and glucose contents of Poncirus trifoliata. Yingyong Shengtai Xuebao, 25, PP.1125-1129.

Zamani, F., Amirnia, R., Rezaei-Chiyaneh, E. and Rahimi, A. 2019. The effect of bacterial bio-fertilizers and mycorrhizal fungi on seed yield and chemical composition of essential oil from three fennel landrace. Crops Improvments (Journal of Agricultural Crops Production), 20, PP.831-848 [In Persian]. doi: 20.1001.1.83372008.1397.20.4.6.5

Zare Kohan, M., Babaiean Jelodar, N., Tabatabaei, S.A. and Ghasemi Nejad Raeini, M.R. 2020. Stepwise regression analysis of barley genotypes under normal conditions and salinity stress. 4^th International Conference on Applied Research in Agriculture, Natural Resources and Environment. Hamedan, February 17, 2020 [In Persian]. Available from: https://civilica.com/doc/1000374

Zhang, F., Wang, P., Zou, Y.N., Wu, Q.S. and Kuča, K. 2019. Effects of mycorrhizal fungi on root-hair growth and hormone levels of taproot and lateral roots in trifoliate orange under drought stress. Archives of Agronomy and Soil Science, 65, PP.1316-1330. doi:10.1080/03650340.2018.1563780

Zhong, W.L., Li, J.T., Chen, Y.T., Shu, W.S. and Liao, B. 2012. A study on the effects of lead, cadmium and phosphorus on the lead and cadmium uptake efficacy of Viola baoshanensis inoculated with Arbuscular mycorrhizal fungi. Journal of Environmental Monitoring, 14, PP.2497-2504. doi: 10.1039/c2em30333g