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Allelopathic effect of Nerium oleander L. alcohol extract on growth and development of Arabidopsis thaliana (L.) Heynh. | ||
| Caspian Journal of Environmental Sciences | ||
| دوره 20، شماره 1، فروردین 2022، صفحه 155-163 اصل مقاله (992.26 K) | ||
| نوع مقاله: Research Paper | ||
| شناسه دیجیتال (DOI): 10.22124/cjes.2022.5411 | ||
| نویسندگان | ||
| Inas Sabah Mohammed Shareif* 1؛ Sahar A.A. Malik Al-saadi1؛ Hussein K. Al-Kaaby22 | ||
| 1Department of Biology, College of Science, University of Basrah, Iraq | ||
| 2Department of Biology, College of Education for Pure Sciences, University of Basrah, Basrah, Iraq | ||
| چکیده | ||
| The allelopathic interactions of different concentrations (0, 2, 4, 6, 10 g in 100 mL-1) of alcoholic extract of Nerium oleander flower on Arabidopsis thaliana (Columbia-0) were studied. The results showed that leaf area, plant height and inflorescence emerge period decreased by elevation in the treatment concentration. The highest value of leaf area (1.176 cm²) was recorded in control group, while it was 0.63 cm² in treatment 2 g in 100 mL-1 (T2) and 0.5 cm² in T10. Chlorophyll concentrations were decreased by the upraised concentrations. The highest value (4.15 mg g-1) was recorded in control, while the lowest (3.3 mg g-1) in T10. Anatomical study revealed that the internal structure of stem and root undergone numerous character changes. The thickness of the stem varies between treatments. The control exhibited the highest average (109.37 µm), while T10 had the lowest average (81.25 µm). Collenchyma layer increased in all exposure treatments, compared to control. There was a change in the internal structure of the roots between the control and the alcoholic extract treatment. The root shape exhibited a lot of modification: it seemed circular in control, semi-circular in T4, while elliptic or irregular shape in T10. The root thickness reached 95 µm in T2 and T4, whereas the lowest thickness in T10 (70.33 µm). Vascular bundle in the control was cylindrical. However, there was some irregular growth on one side of the root in T4. In T10, larger vascular bundles and random growth were observed, while the root shape appeared to be irregular, due to the abnormal growth of vascular bundles or irregular growth. | ||
| کلیدواژهها | ||
| Allelochemicals؛ allelopathy؛ Nerium؛ Arabidopsis thaliana؛ anatomy؛ stem؛ root | ||
| مراجع | ||
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Al-Abbawy, D, Al-Sweid, Z & Al-Saady, SA 2020, Effects of salinity stress on biochemical and anatomical characteristics of Ceratophyllum demersum L. EurAsian Journal of BioSciences, 14: 5219-5225.
Al-Saadi, SAM, Al-Asaadi, WM & Al-Waheeb, AN 2013, The effect of some heavy metal’s accumulation on physiological and anatomical characteristic of some Potamogeton L. plant. Journal of Ecology and Environmental Sciences, 4:100-108.
Al-Saadi, SA, Alutbi, AD & Madhi, ZJ 2017a, The effects of in vitro culture on the leaf anatomy of potato. International Journal of Current Research, 9: 54337-54342.
Al-Saadi, SAAM, Al-Derawi, KH & Abd Alrasool, S 2017b, The Effect of Steroidal Extract of Nerium oleander on the liver tissue structure of albino mice. IOSR Journal of Pharmacy and Biological Sciences, 12: 52-55.
Arnon, DI 1949, Copper enzymes in isolated chloroplasts polyphenol oxidase in Beta vulgaris. Plant Physiology, 24: 1-15.
Baziramakenga, R, Leroux, GD, Simard, RR & Nadeau, P 1997, Allelopathic effects of phenolic acids on nucleic acid and protein levels in soybean seedlings. Canadian Journal of Botany, 75: 445-450.
Begam, UJ, Srikrishnah S & Sutharsan, S 2020, Allelopathic suppressive effects of Thevetia peruviana L. and Nerium oleander L. leaf extracts on germination and seedling growth of Cyperus rotundus L. AGRIEAST: Journal of Agricultural Sciences, 14: 43-51.
Bray, E, Bailey-Serres, J & Weretilnyk, E 2000, Responses to abiotic stress. In BB, Buchanan, W, Guissem, RL, Jones (eds.) Biochemistry and molecular biology of plants, Rockville, MD: American Society of Plant Physiologists: 1158-1203.
Chaimovitsh, D, Abu-Abied, M, Belausov, E, Rubin, B, Dudai, N & Sadot, E 2012, Microtubules are an intracellular target of the plant terpene citral. The Plant Journal, 61: 399-408.
Cheng, F & Cheng, Z 2016, Research Progress on the use of plant allelopathy in agriculture and the physiological and ecological mechanisms of allelopathy. Frontiers in Plant Science, 7: 1-16.
Chon, SU, Choi, SK, Jung, S, Jang, HG, Pyo, BS & Kim, SM 2002, Effects of alfalfa leaf extracts and phenolic allelochemicals on early seedling growth and root morphology of alfalfa and barnyard grass. Journal of Crop Protection, 21: 1077-1082.
Cruz-Ortega, R, Lara-Núñez, A & Anaya, AL 2007, allelochemical stress can trigger oxidative damage in receptor plants: Mode of action of phytotoxicity. Plant Signaling & Behavior, 2: 269-270.
Devakumar, C & Parmar, BS, 1993, Pesticides of higher plant and microbialorigin. In: BS, Parmar, C, Devakumar (eds.) Botanical and pesticides. SPS Publication No. 4, Society of Pesticide Science, India and Westvill Publishing House, New Delhi, pp. 1-73.
Dey, P 2020, Review The pharmaco-toxicological conundrum of oleander: Potential role of gut microbiome. Biomedicine & Pharmacotherapy, Vol. 129, https://doi.org/10.1016/j.biopha.2020.110422.
Dey, P & Chaudhuri, TK 2014, Pharmacological aspects of Nerium indicum Mill.: A comprehensive review. Pharmacognosy Reviews, 8: 156-162.
Ding, HY, Cheng, ZH, Liu, ML, Hayat, S & Feng, H 2016, Garlic exerts allelopathic effects on pepper physiology in a hydroponic co-culture system. Biology Open, 5: 631-637.
Duke, SO, Cedergreen, N, Velini, ED & Belz, RG 2006, Hormesis: Is it an important factor in herbicide use and allelopathy? Outlooks Pest Manag, 17: 29-33.
Einhellig, FA 2004, Mode of allelochemical action of phenolic compounds. In: FA, Macias, JCG, Galindo, JMC, Molinilo & HG, Cutler (eds.) Allelopathy: chemistry and mode of action of allelochemicals. CRC Press, Boca Raton. pp: 217-238.
El-Shabasy, A 2017, Study on allelopathic effect of Prosopis juliflora on mineral content of Acacia ehrenbergiana in Farasan Islands, KSA. Journal of Medicinal Plants Studies, 5: 130-134.
Ferguson, JJ, Rathinasabapathi, B & Reichenbach, R 2003, Evaluation of allelopathic potential of wood chips used for weed suppression in sustainable fruit crops production systems. Annual meeting of the American Society of Horticultural Science, Providence, RI, pp. 3-6.
Gitelson, AA & Merzlyak, MN 2003, Relationships between Leaf Chlorophyll Content and Spectral Reflectance and Algorithms for Non-Destructive Chlorophyll Assessment in Higher Plant Leaves. Journal of Plant Physiology, 160: 271-282.
Gross, EM 2009, Allelochemical Reactions. Encyclopedia of Inland Waters, pp. 715-726.
Hamza, SM, Al-Saadi, SAM & Al-Abbawy, DA 2020, A study of physiological and anatomical characteristics of the heavy metal accumulation of Juncus rigidus defaunations, 1798 (family, juncaceae) in Basrah province, southern of Iraq. Bulletin of the Iraq Natural History Museum, 16: 63-81.
Hussein, WM, Abdul-Qadir, LH & Al-Kaaby, HK 2020, Rapid and cost-effective protocol for planting Arabidopsis thaliana L. in Iraq. Journal of Basrah Researches (Sciences), 46: 159-169.
Javaid, A & Anjum, T 2005, Biological control of Parthenium IV: Allelopathic effect of Desmostachya bipinnata on distribution and early seedling growth of Parthenium hysterophorus L. Pakistan Journal of Weed Sciences Research, 11: 75-79.
Johansen, DA 1940, Plant Microtechnique, McGrow Hill, New York.
Khan, MZ 2017, Effect of allelopathic plants on morpho-anatomical feature of wheat. PhD Dissertation, Pakistan Research Repository, 1: 287.
Koornneef, M & Meinke, D 2010, The development of Arabidopsis as a model plant. The Plant Journal, 61: 909-921.
Li, ZH, Wang, Q, Ruan, X, Pan, CD & Jiang, DA 2010, Phenolics and plant allelopathy. Molecules, 15: 8933-8952.
Metcalfe, CR & Chalk, L 1950, Anatomy of Dicotyledon. Clarendon Press, Oxford, 2: 724.
Mishyna, M, Laman, N, Prokhorov, V, Fujii, Y 2015, Angelicin as the principal allelochemical in Heracleum sosnowskyi fruit. Natural Product Communications, 10: 1-5.
Mojarad, AK, Majd, A & Fahimi, H 2013, Allopathic effects of Nerium oleander L. on growth and anatomy structure of Hordeum vulgare (monocotyledon) and Vicia sativa (dicotyledon) seedlings. Advances in Environmental Biology, 7: 766-771.
Mousavi & Rad, JS 2014, Anatomical, palynological and micromorphological study of seed, trichome and stomata of Cardaria draba L. Desv. (Brassicaceae) in Sistan, Iran. International Journal of Biosciences, 5: 63-69.
Orcan, N & Binzet, R 2003, The Anatomical and palynological properties of Alyssum obtusifolium Steven ex. DC (Brassicaceae). Turkish Journal of Botany, 27: 63-68.
Pawlowski, A, Kaltchuk-Santos, E, Zini, CA, Caramao, EB & Soares, GLG 2012, Essential oils of Schinus terebinthifolius and S. molle (Anacardiaceae): Mitodepressive and aneugenic inducers in onion and lettuce root meristems. South African Journal of Botany, 80: 96-103.
Pereyra, MS, Davidenco, V, Nunez, SB & Argüello, JA 2014, Chlorophyll content estimation in oregano leaves using a portable chlorophyll meter: relationship with mesophyll thickness and leaf age. Review, Agronomía and Ambiente, 34: 77-84.
Porra, JR 2002, The chequered history of the development and use of simultaneous equations for the accurate determination of chlorophyll and b. Photosynthesis Research, 73: 149-156.
Rice, EL 1984, Allelopathy, Academic Press, Inc., Orlando. 2nd edition, 422 p.
Sabeh, D, Alutbi Sahar, AA, Malik Al-Saadi, Z & Madhi, J 2017, The Effect of Salicylic Acid on the Growth and Microtuberization of Potato (Solanum tuberosum L.) cv. Arizona Propagated in Vitro. Journal of Biology, Agriculture and Healthcare, 7: 64-70.
Saieed, NT 1990, Studies of variation in primary productivity morphology in relation to elective improvement of broad -leaved tree species. PhD Dissertation. Naational University of Ireland, 249 p.
Sarkar, E, Chatterjee, SN & Chakraborty, P 2012, Allelopathic effect of Cassia tora on seed germination and growth of mustard. Turkish Journal of Botany, 36: 488-494.
Schulz, M, Kussmann, P, Knop, M, Kriegs, B, Gresens, F, Eichert, T, Ulbrich, A, Marx, F, Fabricius, H, Goldbach, H & Noga, G 2007, Allelopathic monoterpenes interfere with Arabidopsis thaliana cuticular waxes and enhance transpiration, Plant Signaling & Behavior, 2: 231-239.
Singh, N, Yadav, K & Amist, N 2013, Phytotoxic Effects of Cinnamic Acid on Cabbage (Brassica oleracea var. Capitata). Journal of Stress Physiology & Biochemistry, 9: 307-317.
Uslu, ÖS, Gedik, O, Kaya, AR, Erol, A, Khan, MA, Tassever, MN, TÜrkkaya, E 2018, Allelopathic effects of flower extract of Oleander (Nerium oleander) on the germination of seed and seedling growth of Lolium multiflorum. Iğdır University Journal of the Institute of Science and Technology, 8: 309-317.
Whittaker, RH & Feeny, PP 1971, Allelochemics: Chemical inter-actions between species. Science, 171: 757-770.
Wu, C, Niu, Z, Tang, Q & Huang, W 2008, Estimating chlorophyll content from hyperspectral vegetation indices: Modeling and validation. Agricultural and Forest Meteorology, 148: 1230-1241.
Xuan, TD, Shinkichi, T, Hong, NH, Khanh, TD & Min, CI 2004, Assessment of phytotoxic action of Ageratum conyzoides L. (billy goat weed) on weeds. Crop Protection 23: 915-922.
Yang, CM, Chang, F, Lin, SJ & Chou, CH 2004, Effects of three allelopathic phenolics on chlorophyll accumulation of rice (Oryza sativa) seedlings: II. Stimulation of consumption-orientation. Botanical Bulletin of Academia Sinica, 45: 119-125.
Yang, CM, Lee, CN & Chou, CH 2002, Effects of three allelopathic phenolics on chlorophyll accumulation of rice (Oryza sativa) Seedlings: I. Inhibition of supply-orientation. Botanical Bulletin of Academia Sinica, 43: 299-300. | ||
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