Mineral uptake and biochemical responses of hydroponically grown Rosa hybrid cv. Dulce Vita to polyamines
الموضوعات :
Mohammad Mahdi Jowkar
1
,
Mehdi Hosseinifarahi
2
,
Mina Bayanati
3
,
Eligio Malusa
4
1 - Department of Horticulture Science, College of Agriculture, Kermanshah Branch, Islamic Azad University, Kermanshah, Iran
2 - Department of Horticultural Science, Islamic Azad University, Yasuj Branch, Yasuj, Iran
3 - Department of Horticultural Science, Ferdowsi University of Mashhad, Mashhad, Iran
4 - Research Institute of Horticulture–National Research Institute, 96-100 Skierniewice, Poland.
الکلمات المفتاحية: Vase life, Spermidine, spermine, putrescine, ACC synthase,
ملخص المقالة :
Among plant growth regulators, Polyamines (PA) have a major role in diverse plant physiological responses throughout vegetative to reproductive phase and senescence. The present study was conducted to study the impact of polyamine on different physiological and biochemical aspects of hydroponic grown rose (cv. 'Dulce Vita') plants. Putrescine (Put) (at 1, 2, 3 mM), Spermidine (Spd) (at 0.5, 1, 1.5 mM) and Spermine (Spm) (at 1, 2, 4 mM) were sprayed on rose plants during growth and subsequently, different aspects of vegetative growth, flower quality, mineral uptake and plant response to some biochemical responses were studied. Foliar application of Spd at 1.5 mM concentration caused the highest flower stem length and flower bud size. Vase life was affected by PA application, in which, Spd had the greatest beneficial outcome. Absorption and accumulation of the studied macro- and micro-nutrient content in leaves were also influenced by PA treatment. ACC synthase and chlorophyllase activity in leaves of cut flowers harvested from PA treated plants was affected, in which 4mM Spm treatment lead to the least. Although malondialdehyde production in flower stem leaves of ‘Dolce Vita’ rose increased during postharvest life as flowers aged, but the increment was retarded by PA application.
Abd El-Dayem, H.M.M., M.A.M. Mady, M.M.M. Abd El-All and R.S.M. Eid. 2015. Effect of Some Antioxidants, Potassium and Arbuscular Mycorrhiza on Growth, Yield and Quality of Snap Bean Plants Grown Under Water Stress Levels. Annals of Agricultural Sciences Moshtohor. 53(1): 15–30.
Abdel Aziz, N. G., L. S. Taha and S. M. Ibrahim. 2009. Some studies on the effect of putrescine, ascorbic acid and thiamine on growth, flowering and some chemical constituents of gladiolus plants at Nubaria. Ozean J Appl Sci, 2, (2) 169-179.
Adil, A. M., E. E. Ahmed, A. T. Al-Chalabi and A. F. Al-Ma’athedi. 2021. Effect of planting time and corms treatment with gibberellic acid on growth, flowering, and vase life of ‘Corona’. Journal of Horticultural Research, 29, (2) 23-30.
Alhaithloul, H. A., M. H. Soliman, K. L. Ameta, M. A. El-Esawi and A. Elkelish. 2019. Changes in ecophysiology, osmolytes, and secondary metabolites of the medicinal plants of Mentha piperita and Catharanthus roseus subjected to drought and heat stress. Biomolecules, 10, (1) 43.
Boojar, M. M. A. and M. H. Farahi. 2011. The role of antioxidative enzymes in copper tolerance strategy of Mimosaceace prosopis farcta growing in a copper mine. International Journal of Plant Biology, 2, (1) e1.
Borromeo, I., F. Domenici, M. Del Gallo and C. Forni. 2023. Role of Polyamines in the Response to Salt Stress of Tomato. Plants, 12, (9) 1855.
Dastyaran, M. and M. Hosseini Farahi. 2015. Effects of humic acid and puterscine on vegetative properties and vase life of rose in soilless culture system. Journal of Soil and Plant Interactions-Isfahan University of Technology, 5, (4) 241-250.
Desmedt, W., W. Jonckheere, V. H. Nguyen, M. Ameye, N. De Zutter, K. De Kock, J. Debode, T. Van Leeuwen, K. Audenaert and B. Vanholme. 2021. The phenylpropanoid pathway inhibitor piperonylic acid induces broad‐spectrum pest and disease resistance in plants. Plant, Cell & Environment, 44, (9) 3122-3139.
Dunn, M. F. and V. A. Becerra-Rivera. 2023. The Biosynthesis and functions of polyamines in the interaction of plant growth-promoting rhizobacteria with plants. Plants, 12, (14) 2671.
El-Ghait, A., A. Gomaa, A. Youssef and A. El-Nemr. 2022. EFFECT OF SOME GROWTH SUBSTANCES AND CHEMICAL FERTILIZATION ON VEGETATIVE GROWTH AND CHEMICAL COMPOSITION OF MATTHIOLA INCANA L. PLANT. Scientific Journal of Flowers and Ornamental Plants, 9, (3) 167-182.
El Habba, E., N.G. Abdel Aziz, A.M.Z. Sarhan, A. M. S. Arafa, N. M. Youssef. 2016. Effect of Putrescine and Growing Media on Vegetative Growth and Chemical Constituents of Populus euramericana Plants. Journal of Innovations in Pharmaceuticals and Biological Sciences, 3 (1): 61-73.
Emami, A. 1996. Plant analysis methods. Technical Bulletin No. 982. Plant, Soil and Water Research Institute. Tehran, Iran.
Farjadi Shakib, M., R. Naderi and M. Mashhadi Akbar Boujar. 2013. Effects of spermidine spray on morphological, physiological and biochemical characteristics of Cyclamen persicum Miller. Journal of Plant Ecophysiology, 5, (13) 96-113.
Farooq, S., M. L. Lone, S. Parveen, F. Altaf and I. Tahir. 2021. Polyamines accentuate vase life by augmenting antioxidant system in cut spikes of Consolida ajacis (L.) Schur. Ornamental Horticulture, 27, 495-504.
Gaurav, A. K., Namita, D. Raju, M. Ramkumar, M. Singh, B. Singh, S. G. Krishnan, S. Panwar and A. M. Sevanthi. 2021. Genetic diversity analysis of wild and cultivated Rosa species of India using microsatellite markers and their comparison with morphology based diversity. Journal of Plant Biochemistry and Biotechnology, 1-10.
Ghorbani, H., A. Ebrahimzadeh, B. Eftekhari Sis and M. B. Hasanpouraghadm. 2018. Impact of exogenous spermine application on the vase life of cut rose flowers ‘Dolce Vita’. Journal of Ornamental Plants, 8, (1) 57-66.
Harpaz-Saad, S., T. Azoulay, T. Arazi, E. Ben-Yaakov, A. Mett, Y. M. Shiboleth, S. Hortensteiner, D. Gidoni, A. Gal-On and E. E. Goldschmidt. 2007. Chlorophyllase is a rate-limiting enzyme in chlorophyll catabolism and is posttranslationally regulated. The Plant Cell, 19, (3) 1007-1022.
Harpaz‐Saad, S., G.M. Yoon, A.K. Mattoo and J.J. Kieber. 2018. The Formation of ACC and Competition between Polyamines and Ethylene for SAM. The Plant Hormone Ethylene. Vol. 44. Jhon Wily and Son. https://doi.org/10.1002/9781119312994.apr0475
Hosseini Farahi, M. and A. Aboutalebi Jahromi. 2018. Effect of pre-harvest foliar application of polyamines and calcium sulfate on vegetative characteristics and mineral nutrient uptake in Rosa hybrida. Journal of Ornamental Plants, 8, (4) 241-253.
Hosseini Farahi, M., B. Kholdebarin, S. Eshghi, B. Jamali and H. Reza Roosta. 2019. Changes in plant growth substances, contents and flower quality of rose cv.‘Dolce Vita’in response to nitrogen sources under soilless culture conditions. Journal of Plant Nutrition, 42, (9) 1047-1060.
Karimi, M., F. Akbari and A. Heidarzade. 2017. Protective effects of polyamines on regulation of senescence in spray carnation cut flowers (Dianthus caryophyllus’ Spotlight’). Acta Agriculturae Slovenica, 109, (3) 509–515-509–515.
Kasem, M. M., M. M. Abd El-Baset, A. A. Helaly, E.-S. A. El-Boraie, M. D. Alqahtani, A. Alhashimi, A. M. Abu-Elsaoud, A. Elkelish, A. G. Mancy and A. Alhumaid. 2023. Pre and postharvest characteristics of Dahlia pinnata var. pinnata, cav. As affected by SiO2 and CaCO3 nanoparticles under two different planting dates. Heliyon, 9, (6)
Killiny, N. and Y. Nehela. 2020. Citrus polyamines: structure, biosynthesis, and physiological functions. Plants, 9, (4) 426.
Liang, S.-M., F.-L. Zheng and Q.-S. Wu. 2022. Elucidating the dialogue between arbuscular mycorrhizal fungi and polyamines in plants. World Journal of Microbiology and Biotechnology, 38, (9) 159.
Lin, K.-H., J.-M. Li, C.-W. Wu and Y.-S. Chang. 2021. Effects of plant growth regulators and polyamines on bract longevity in Bougainvillea buttiana. Horticulture, Environment, and Biotechnology, 62, 149-157.
Mustafavi, S. H., H. Naghdi Badi, A. Sękara, A. Mehrafarin, T. Janda, M. Ghorbanpour and H. Rafiee. 2018. Polyamines and their possible mechanisms involved in plant physiological processes and elicitation of secondary metabolites. Acta Physiologiae Plantarum, 40, 1-19.
Nandy, S., T. Das, C. K. Tudu, T. Mishra, M. Ghorai, V. S. Gadekar, U. Anand, M. Kumar, T. Behl and N. K. Shaikh. 2022. Unravelling the multi-faceted regulatory role of polyamines in plant biotechnology, transgenics and secondary metabolomics. Applied Microbiology and Biotechnology, 106, (3) 905-929.
Nounjan, N. and P. Theerakulpisut. 2023. Transgenerational stress memory and transgenerational effects caused by wood vinegar and spermidine are associated with early germination of rice seeds under salt stress. Plant Growth Regulation, 1-14.
Raju Dantuluri, V., R. Misra and V. Singh. 2008. Effect of polyamines on post harvest life of gladiolus spikes. Journal of Ornamental Horticulture, 11, (1) 66-68.
Rezvanypour, S., A. Hatamzadeh, S. A. Elahinia and H. R. Asghari. 2015. Exogenous polyamines improve mycorrhizal development and growth and flowering of Freesia hybrida. Journal of Horticultural Research, 23, (2)
Roosta, H. R. and I. Rezaei. 2014. Effect of nutrient solution pH on the vegetative and reproductive growth and physiological characteristics of rose cv.‘Grand Gala’in hydroponic system. Journal of Plant Nutrition, 37, (13) 2179-2194.
Sankaran, M., D. Kalaivanan, S. Mishra, P. Singh, M. S. Prasad and M. T. R. Kannan. 2022. Abstracts of ICAR-IIHR PhD thesis. ICAR-IIHR.
Yao, X.-C., L.-F. Meng, W.-L. Zhao and G.-L. Mao. 2023. Changes in the morphology traits, anatomical structure of the leaves and transcriptome in Lycium barbarum L. under salt stress. Frontiers in Plant Science, 14, 1090366.
Sedaghathoor, S., Z. Narouei, S. A. Sajjadi and S. Piri. 2020. The effect of chemical treatments (silver thiosulfate and putrescine) on vase life and quality of cut Chrysanthemum morifolium (Ram.) flowers. Cogent Biology, 6, (1) 1754320.
Sharma, A., D. Kapoor, S. Gautam, M. Landi, N. Kandhol, F. Araniti, M. Ramakrishnan, L. Satish, V. P. Singh and P. Sharma. 2022. Heavy metal induced regulation of plant biology: Recent insights. Physiologia Plantarum, 174, (3) e13688.
Sivaprakasam, G., V. Singh and A. Ajay. 2009. Physiological and molecular analysis of effect of spermine on senescing petals of gladiolus. Indian Journal of Plant Physiology, 14, (4) 384-391.
Stolarska, E., E. Paluch-Lubawa, M. Grabsztunowicz, U. Kumar Tanwar, M. Arasimowicz-Jelonek, O. Phanstiel, A. K. Mattoo and E. Sobieszczuk-Nowicka. 2023. Polyamines as Universal Bioregulators across Kingdoms and Their role in Cellular Longevity and Death. Critical Reviews in Plant Sciences, 1-21.
Tränkner, M., E. Tavakol and B. Jákli. 2018. Functioning of potassium and magnesium in photosynthesis, photosynthate translocation and photoprotection. Physiologia plantarum, 163, (3) 414-431.
Xiao, W., R.-S. Wang, D. E. Handy and J. Loscalzo. 2018. NAD (H) and NADP (H) redox couples and cellular energy metabolism. Antioxidants & redox signaling, 28, (3) 251-272.
Xue, W. 2008. Effects of Polyamines on Nutrient Element Absorption in the Leaves of Nymphoides peltatum under Zn Stress. Journal of Anhui Agricultural Sciences, (http://en.cnki.com.cn/Article_en/CJFDTotal-AHNY200830016.
Yousefi, F., Z. Jabbarzadeh, J. Amiri and M. H. Rasouli-Sadaghiani. 2019. Response of roses (Rosa hybrida L.‘Herbert Stevens’) to foliar application of polyamines on root development, flowering, photosynthetic pigments, antioxidant enzymes activity and NPK. Scientific Reports, 9, (1) 16025.
Zhang, Q., M. Liang, R. Song, Z. Song, H. Song and X. Qiao. 2022. Brassinosteroids enhance resistance to manganese toxicity in Malus robusta Rehd. via modulating polyamines profile. Journal of Plant Physiology, 277, 153808.
Zlesak, D. C. 2007. Rose: Rosa x hybrida. In Flower breeding and genetics: issues, challenges and opportunities for the 21st century:695-740: Springer. Number of 695-740 pp.
