The Effect of Trichoderma Isolates on Morpho-Physiological Changes of Polianthes tuberose Under Drought Stress Conditions
محورهای موضوعی : مجله گیاهان زینتیHamidreza Zekavati 1 , Mahmoud Shoor 2 , Hamid Rohani 3 , Seyyed Fazel Fazeli Kakhki 4 , Ebrahim Ganji Moghadam 5
1 - Department of Ornamental Plants and Landscape, Faculty of Agriculture, Ferdowsi University of Mashhad, Mashhad, Iran
2 - Department of Ornamental Plants and Landscape, Faculty of Agriculture, Ferdowsi University of Mashhad, Mashhad, Iran
3 - Department of Plant Protection, Faculty of Agriculture, Ferdowsi University of Mashhad, Mashhad, Iran
4 - Razavi Khorasan Agriculture and Natural Resources Research and Education Center. Agricultural Research, Education and Extension Organization (AREEO), Mashhad, Iran
5 - Razavi Khorasan Agriculture and Natural Resources Research and Education Center. Agricultural Research, Education and Extension Organization (AREEO), Mashhad, Iran
کلید واژه: Proline, Photosynthesis, Root dry weight, Leaf relative water content,
چکیده مقاله :
In order to evaluate the effect of different Trichoderma isolates on reducing the effects of drought stress on Polianthes tuberose flower, two factorial experiments were carried out based on a completely randomized design with three replications. In the first and second experiments, the first factors were Bi and 65 isolates of Trichoderma harzianum at three levels (0, 10, 20% v/v) and the second factor in both experiments was three levels of drought stress (25, 50, 100% field capacity). The results showed that both isolates increased biomass fresh and dry weights and root dry weight of Polianthes tuberosa plants exposed to stress conditions. Biomass fresh weight was increased by 4 g at 25% stress level by the isolate Bi and 14 g by the isolate 65, indicating the growth of this flower in the presence of Trichoderma fungus. The amount of proline in the treatment of isolate 65 at 20% stress level was increased compared to other levels of the fungus at 25 and 50% stress levels. Relative water content and leaf green area were enhanced when the two fungal isolates were applied under increasing stress levels. In general, it seems that the isolates Bi and 65 of Trichoderma harzianum have different effects under drought stress conditions.
بهمنظور ارزیابی اثر جدایههای مختلف قارچ تریکودرما بر کاهش اثرات تنش خشکی در گیاه زینتی گل مریم، دو آزمایش بصورت فاکتوریل بر پایه طرح کاملا تصادفی در سه تکرار، اجرا گردید. در آزمایش اول و دوم، فاکتور اول جدایه Bi وجدایه 65 قارچ تریکودرما هاریزیانوم هر کدام در سه سطح (0، 10، 20 درصد حجمی گلدان) و فاکتور دوم در هر دو آزمایش، سه سطح تنش خشکی (25، 50 ،100 درصد ظرفیت زراعی) بود. نتایج نشان داد هر دو جدایه در شرایط تنش، باعث افزایش وزن تر و خشک زیستتوده و وزن خشک ریشه گل مریم در شرایط تنش شدند. وزن تر زیستتوده به مقدار 4 گرم در حالت تنش 25 درصد توسط جدایه Biو 14 گرم توسط جدایه 65 افزایش یافت که بیانگر افزایش رشد این گیاه در حضور قارچ تریکودرما میباشد. مقدار پرولین در جدایه 65 در سطح 20 درصد حجمی نسبت به سایر مقادیر همین قارچ در تنش 50 و 25 درصد افزایش یافت. میزان رطوبت نسبی و سطح سبز برگ با اعمال سطوح مختلف دو قارچ با افزایش سطح تنش افزایش یافت. به طور کلی به نظر میرسد که جدایه های Bi و 65 قارچ تریکودرما هارزیانوم تاثیرات متفاوتی در شرایط تنش خشکی دارد.
Altintas, S. and Bal, U. 2008. Effects of the commericial product based on Trichoderma harizianum on plant, bulb and yield characteristics of onion. Scientia Horticulturae, 116: 219-222.
Ansari, H., Sharifian, H. and Davari, K. 2010. Principles of general irrigation. Jahad Daneshgahi Press, Mashhad. (In Persian).
Araghi, M., Rahnama, K. and Latifi, N. 2011. Effect of Trichoderma fungus increased growth factors of tomato. Journal of Plant Production Research, 18 (2): 107-118.
Bahrehmand, S., Razmjoo, J. and Farahmand, H. 2014. Effects of nano-silver and sucrose applications on cut flower longevity and quality of tuberose. International Journal Horticulture Science and Technology, 1: 67-77.
Bal, U. and Altinas. S. 2008. Effect of Trichoderma harzianum on lettuce in protected cultivation. Journal Central Europian Agriculture, 9: 63-70.
Bates, L.S., Walden, R.P. and Teave, I.D. 1973. Rapid determination of free praline for water stress studies. Plant and Soil, 39: 205-207.
Beltrano, J. and Ronco, M. 2008. Improved tolerance of wheat plants (Triticum aestivum L.) to drought stress and rewatering by the arbuscular mycorrhizal fungus Glomus claroideum: Effect on growth and cell membrane stability. Brazilian Journal of Plant Physiology, 20: 29-31.
Blanchard, L.M. and Bjorkman, T. 1996. The role of auxin in enhanced root growth of Trichoderma-colonized. Europian Journal Plant Pathology, 102: 719-732.
Buyer, J.S., Roberts, D.P. and Ruussek-Cohen, E. 2002. Soil and plant effects on microbial community stucture. Canadian Journal Microbial, 48: 955-964.
Chang, Y.C., Chang, R., Baker, Y.C., Kleifeld, O. and Chet, I. 1986. Increased growth of plants in the presence of the biological control agent Trichoderma harzianum. Plant Disease. 70 (2):145-148.
Chaves, M.M. 1991. Effects of water deficits on carbon assimilation. Journal of Experimental Botany, 42: 1–16.
Cornic, G. 1994. Drought stress and high light effects on leaf photosynthesis. In: ‘Photoinhibition of Photosynthesis. From Molecular Mechanisms to the Field’. Eds N. R. Baker and J. R. Bowyer. 297-313.
Cuevas, C. 2006. Soil inoculation with Trichoderma pseudokoningiirifai enhances yield of rice. Philippine Journal Science, 135: 31-37.
Culter, H.G., Cox, R.H., Crumley, F.G. and Cole, P.D. 1986. 6-pentyl-α-pyrone from Trichoderma harzianum: Its plant growth inhibitory and antimicrobial properties. Agricultural and Biological Chemistry, 50: 2943-2945.
Eidyan, B., Hadavi, E. and Moalemi, N. 2014. Pre-harvest foliar application of iron sulfate and citric acid combined with urea fertigation effects growth and vase life of tuberose “Por-Par”. Horticulture Environment Biotechnology, 55: 9-13.
Flexas, J., Diaz-Espejo, A., Galmés, J., Kaldenhoff, R., Medrano, H. and Ribas-Carbo, M. 2007. Rapid variations of mesophyll conductance in response to changes in CO2 concentration around leaves. Plant, Cell and Environment, 30: 1284–1298.
Gravel, V., Antoun, H. and Tweddell, R.J. 2007. Growth stimulation and fruit yield improvement of greenhouse tomato plants by inoculation with Pseudomonas putida or Trichoderma atroviride: Possible role of indole acetic acid (IAA). Soil Biology and Biochemistry, 39: 1968-1977.
Gupta, N.K., Gupta, S. and Kumar, A. 2001. Effect of water stress on physiological attributes and their relationship with growth and yield of wheat cultivars at different stages. Journal Agronomy and Crop Science, 186: 55-62.
Harman, G. E., Howell, C.R., Viterbo, A., Chet. I. and Lorito. M. 2004. Trichoderma species- opportunistic, avirulent plant symbionts. Nature Review Microbiology, 2: 43-56.
Hirayama, M., Ada, Y.W. and Nemoto, H. 2006. Estimation of drought tolerance based on leaf temperature in upland rice breeding. Breeding Science, 56: 47-54.
Joshi, B.B., Bhatt, R.P. and Bahukhandi, D. 2010. Antagonistic and plant growth activity of Trichoderma isolates of Western Himalayas. Journal of Environmental Biology, 31: 921-928.
Kaewchai, S., Soytong, K. and Hyde, K.D. 2010. Mycofungicides and fungal biofertilizers. Fungal Diversity, 38: 25-50.
Khan, N.A., Shabian, S., Masood, A., Nazar, A. and Iqbal, N. 2010. Application of salicylic acid increases contents of nutrients and antioxidative metabolism in mungbean and alleviates adverse effects of salinity stress. International Journal Plant Biology, 1:1-8.
Kumar, R., Solankey, S.S. and Singh, M. 2012. Breeding for drought tolerance in vegetables. Vegetable Science, 39: 1-15.
Lawlor, D.W. and Cornic, G. 2002. Photosynthetic carbon assimilation and associated metabolism in relation to water deficits in higher plants. Plant, Cell and Environment, 25: 275–294.
Marcum, K.B. 1998. Cell membrane thermostability and whole-plant heat tolerance of Kentucky bluegrass. Crop Science, 38 (5): 1214-1218.
Masoomi, A., Kafi, M., Nabati, J., Khazaie, H. R., Davari, K. and Zarea, M. 2012 .The effect of drought stress on water status and leaf electrolyte leakage, photosynthesis and chlorophyll fluorescence in different stages of growth of two Caucasian masses (Kochia scoparia) in saline conditions. Iranian Journal of Field Crops Research, 10: 476-484. (In Persian).
Mazhabi, M., Nemati, H., Rouhani, H., Tehranifar, A., Moghadam, E.M., Kaveh, H. and Rezaee, A. 2011. The effect of Trichoderma on polianthes qualitative and quantitative properties. Journal of Animal and Plant Sciences, 21: 617-621. (In Persian).
Mazlumi, A., Alizade, H., Broumand, N. and Azami, Z. 2016. Evaluation of Trichoderma stability in different soils and its effects on the growth performance of cucumber. Biological Control of Pests and Plant Diseases, 4: 99-109. (In Persian).
Nasrabadi, F., Enaiati, N., Shamili, M. and Mehrabi, M. 2015. Effect of inoculation of Trichoderma viranus fungi on the reduction of sugar cane salinity. The First International and The Fourth National Conference of Iran’s Environmental and Agricultural Research. (In Persian).
Peng, Y.L., Gao, Z.W., Gao, Y., Liu, G.F., Sheng, L.X. and Wang, D.L. 2008. Ecophysiological characteristics of alfalfa seedlings in response to various mixed salt-alkaline stresses. Journal of Plant Biology, 50: 29-39.
Putra, A. and Yuliando, H. 2015. Soilless culture system to support water use efficiency and product quality: A review. Agriculture and Agricultural Science Procedia, 3: 283-288.
SabetTeimouri, M., Kafi, M., Avarseji, Z. and Orooji, K. 2010. Effect of drought stress, corm size and corm tunicon morphoecophysiological characteristics of saffron (Crocus sativus L.) in greenhouse conditions. Journal of Agroecology, 2: 323-334. (In Persian).
Salarimiri, F., Rahimi, A., Alaie, H. and Mohamadi, A. 2016. Effect of dryness and Trichoderma fungi on some growth indices. Thirty National Conferences on Research and Technology Finding in Natural and Agricultural Ecosystems. 10. (In Persian).
Taghavi Ghasemkheyli, F., Pirdashti, H., Bahmanyar, M.A. and Tajick Ghanbary, M.A. 2014. The effect of Trichoderma harzianum and cadmium on tolerance index and yield of barley (Hordeum vulgare L.). Journal of Crop Ecophysiology, 8: 465-482. (In Persian)
Taghinasab, M. 2012. Effect of some Trichoderma isolates on growth of cucumber seedlings in greenhouse conditions. Journal of Science and Technology of Greenhouse Culture, 11: 85-92. (In Persian).
Taher, T., Golchin, A. and Shafeie, S. 2014. Effect of nitrogen and phosphate solubilizing bacteria on performance and qualitative characteristics of tuberose cut flowers (Polianthes tuberose). Journal of Horticultural Science, 29: 287-295. (In Persian).
Taiz, L. and Zeiger, E. 2007. Auxins: Growth and tropisms. Plant Physiology, Chapter, 25: 398-425.
Vannozi, G. and Larner, F. 2007. Proline accumulation during drought rhizogene in maize. Journal Plant Physiology, 85: 441-467.
Vessey, J.K. 2003. Plant growth promoting rhizobacteria as biofertilizers. Plant and Soil, 255: 571-586.
Vinale, F., D`Ambrosio, G., Abadi, K., Scala, F., Marra, R., Turra, D., Woo, S.L. and Lorito, M. 2004. Application of Trichoderma harzianum (T22) and Trichoderma atroviride (P1) as plant growth promoters and their compatibility with copper oxychloride. Journal Zhejiang University Science, 30: 2-8.
Waithaka, K., Reid, M.S. and Dodge, L.L. 2001. Cold storage and flower keeping quality of cut tuberose. Horticulture Science Biotechnology, 76: 271-275.
Yeidia, I., Srivastva, A., Kapulink, Y. and Chet, I. 2001. Effect of Trichoderma harzianum on microelement concentration and increased growth of cucumber plants. Plant and Soil, 235 (2): 235-242.
Zhung, S., Gan, Y. and Xu, B. 2016. Application of plant-growth -promoting fungi Trichoderma longibrachiatum T6 enhances tolerance of wheat to salt stress through improvement of antioxidative defense system and gene expression. Plant Science, 7: 1-11.
Zomorodi, N. 2013. Study rooting and stomata behavior of two species ficus (Ficus benjamina and Ficus elastica) under the conditions of carbon dioxide enrichment in the gill. M.Sc. Thesis Faculty of Agriculture Ferdowsi University. (In Persian)
Zou, G.H., Liu, H.Y., Mei, H.W., Liu, G.L., Yu, X.Q., Li, M.S., Wu, J.H., Chen, L. and Luo, L. J. 2007. Screening for drought resistance of rice recombinant inbred populations in the field. Journal Integrative Plant Biology, 49: 1508-1516.