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تأثیر عصاره آبی اندامهای مختلف اسپند (Peganum harmala L.) بر جوانهزنی بذر و نمو تاجخروس (Amaranthus retroflexus L.) و سلمهتره (Chenopodium album L.) | ||
| علوم و فناوری بذر ایران | ||
| مقاله 1، دوره 12، شماره 1 - شماره پیاپی 29، اردیبهشت 1402، صفحه 1-14 اصل مقاله (790.42 K) | ||
| نوع مقاله: مقاله پژوهشی | ||
| شناسه دیجیتال (DOI): 10.22092/ijsst.2022.359764.1451 | ||
| نویسندگان | ||
| رضا رضوانی* 1؛ علیرضا دادخواه2 | ||
| 1دانشآموخته کارشناسیارشد فیزیولوژی گیاهان زراعی، دپارتمان تولید و ژنتیک گیاهی، دانشکده کشاورزی شیروان، دانشگاه بجنورد، ایران. | ||
| 2استاد، عضو هیئت علمی دپارتمان تولید و ژنتیک گیاهی، دانشکده کشاورزی شیروان، دانشگاه بجنورد، بجنورد، ایران. | ||
| چکیده | ||
| این پژوهش بهمنظور تأثیر عصاره آبی اندامهای مختلف اسپند (Peganum harmala) بر جوانهزنی و نمو تاجخروس و سلمهتره در دو آزمایش (آزمایشگاه و گلخانه) بهترتیب در قالب طرح کاملاً تصادفی با سه تکرار و طرح بلوکهای کامل تصادفی با چهار تکرار اجراء گردید. تیمارهای آزمایش شامل غلظتهای %10 و %20 ریشه، %10 و %20 اندامهای هوایی (ساقه و برگ) و شاهد (آب مقطر) بود. نتایج نشان داد که با افزایش غلظت عصاره، صفات رشدی و کلروفیلکل هر دو گیاه بهطور معنیداری کاهش یافت. بهطوری که بالاترین و پایینترین میزان بازدارندگی بهترتیب مربوط به عصاره %20 ساقه و عصاره %10 ریشه بود ولی قندهای محلولکل و فعالیت آنتیاکسیدانی علفهای هرز با افزایش سطح عصارهی ریشه و ساقه اسپند افزایش یافتند. عصاره اندامهوایی، سرعت جوانهزنی را در سلمهتره و تاجخروس به ترتیب 35/87 و %22/91 نسبت به شاهد کاهش داد. عصاره %20 ریشه و %20 اندامهوایی در تاجخروس، شاخصطولی بنیهگیاهچه را بهترتیب (33/63) و (67/96) درصد کاهش داد. همچنین عصاره %20 ریشه و اندام هوایی، طول ریشه در تاجخروس را به ترتیب 49/50 و %94/86 و در سلمهتره 87/47 و %80 /81 نسبت به شاهد کاهش داد. بیشترین قند محلولکل در سطح %20 ساقه مشاهده شد که تاجخروس با %9/64 افزایش نسبت به شاهد، دارای قند محلولکل بیشتری بود. اکثر صفات بررسی شده در تاجخروس حساسیت بیشتری به اثرات آللوپاتیک اسپند نسبت به سلمهتره داشت. نتایج نشان داد عصاره آبی اندامهوایی قویتر از عصاره ریشه بود، که این موضوع میتواند در تهیه علفکشهایی با منبع طبیعی مورد مصرف قرار گیرد. | ||
| کلیدواژهها | ||
| آلکالوئید؛ آللوپاتی؛ آنتیاکسیدان؛ علفکش؛ قند کل | ||
| عنوان مقاله [English] | ||
| A study of The effect of the aqueous extract of different organs of Peganum harmala L. on the germination and growth of Amaranthus retroflexus L. and Chenopodium album L. | ||
| نویسندگان [English] | ||
| Reza Rezvani1؛ Alireza Dadkhah2 | ||
| 1Graduate M.Sc of Agrotechnology, Crop Physiology of Plant Production and Genetic Department, Faculty Agriculture of Shirvan, University of Bojnord, Bojnord, Iran. | ||
| 2Professor, Faculty Member of Plant Production and Genetic Department, Faculty Agriculture of Shirvan, University of Bojnord, Bojnord, Iran. | ||
| چکیده [English] | ||
| This research was conducted in order to investigate the effect of aqueous extract of different organs of harmel (Peganum harmala) on the growth and germination of Amaranthus retroflexus and Chenopodium album in two experiments (laboratory and greenhouse) respectively, based on CRD with three replications and RCBD with four replications. The treatments included aqueous harmel extracts in concentrations of 10% and 20% root, 10% and 20% Aerial organ and control. with increasing extract concentration, the growth traits and total chlorophyll of both plants decreased significantly. The highest and lowest levels of inhibition rates were associated with 20% stem extract and 10% root extract, respectively, but total soluble sugars and antioxidant activity of weeds increased with increasing levels of harmel root and stem extract. shoot extract decreased the germination speed in Chenopodium and Amaranthus by 87.35% and 91.22%, respectively, compared to the control. In Amaranthus the length index of the plant by 63.33% and 96.67% respectively. the highest root and shoot concentrations (20%) decreased. The length of root by 50.49 and 86.94%, In Amaranthus and 47.87 and 81.80% in Chenopodium compared to the control. The highest total soluble sugar was observed at the level of 20% of the stem, and Amaranthus had more total soluble sugar with an increase of 64.9% compared to the control. Most traits in Amaranthus were more sensitive to the allelopathic effects of harmel compared to Chenopodium. extract of shoot was stronger than the root extract, which can be used in the preparation of herbicides with natural sources. | ||
| کلیدواژهها [English] | ||
| Alkaloid, Allelopathy, Antioxidant, Herbicide, Total sugar | ||
| مراجع | ||
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Alipoor, Z. and S. Mahmoodi. 2015. Allelopathic effects of leaf and corm water extract of saffron (Crocus sativus L.) on germination and seedling growth of flixweed (Descurainia sophia L.) and downy brome (Bromus tectorum L). Saffron Agro. Tech. 3:13-24. (In Persian) Arnon, A.N. 1967. Method of extraction of chlorophyll in the plants. Agro. J. 23: 112-121. Azizi, M., L. Alimoradee. and M.H. Rashedmohassel. 2006. Allelopathic Effects of Bunium persicum and Cuminum cyminum Essential Oils on Seed Germination of some Weeds Species. Iranian J. of Med. and Aromatic Plants. 22 (3): 198 -208. (In Persian) Bagheri, M., Rashed Mohassel, M., Golzarian, M. 2019. Preparation of Plants, Seeds and Image Seeds Collections of Mashhad Area Weeds. Iranian Journal of Seed Science and Technology, 7(2): 275-287. (in Persian) Bayat, H., Naseri Moghaddam, A., & Aminifard, M. 2020. Allelopathic effects of narcissus (Narcissus tazetta L.) extract on germination, growth and physiological characteristics of couch grass (Agropyron repens) and wild oat (Avena fatua). Iranian Journal of Seed Science and Research. 6(4), 457-469. Behdad, A., P. Abrishamchi. and M. Jankju. 2015. Relation to phonology, phenolics content and allelopathic effect of Artemisia khorassanica Krasch. on growth and physiology of Bromus kopetdaghensis Drobov. J. Plant Res, 28: 243-256. (In Persian) Bogatek, R., A. Gniazdowka, J. Stepien. and E. Kupidlowska. 2005. Sunflower allelochemicals mode of action in germinating mustard seeds. Proceedings of the 4th World Congress on Allelopathy, 4-7 May, Wagga Wagga, Australia, Pp. 277-279. Bond, W. and R. Turner. 2006. The biology and non-chemical control of common amaranth (Amarantus retroflexus L. ). New York. John Wiley and Sons, INC. Ebrahimi Mohammadabadi, N., H. Ruhani, E. Gholamalipour. And H. Mostafalou. 2015. Allelopathic effect of Atriplex canesence and Atriplex lentiformis on germination traits, the total chlorophyll and phenols content of Agropyron elongatum. Iranian Journal of Seed Science and Research. 28: 2-9. (In Persian) Eghbali, S., M.H. Rashed-Mohassel., M. Nassiri-Mahallati. and E. Kazerooni-Monfared. 2007. Allelopathic potential of shoot and corm of saffron residues on wheat, rye, vetch and bean. Iranian J. Agri. Res. 6:227-234. (In Persian) Ehlers, B.K. and J. Thompson. 2004. Do co-occurring plant species adapt to one another? The response of Bromus erectus to the presence of different Thymus vulgaris chemotypes. Oecologia. 141: 5 - 8. El-Khatib, A. A., A. K. Hegazy, H. K. Gala. 2004. Does allelopathy have a role in the ecology of Chenopodium mural. Annales Bot. Fennici, 41: 37-45. Frison, G., D. Favretto. F, Zancanaro. G. Fazzin. and S. Davide Ferrara. 2008. A case of b-carboline alkaloid intoxication following ingestion of Peganum harmala seed extract. Forensic Sci. Inter. 179: 37 – 43. Ghasemi-Arian, A., R. Ghorbani, M. Nasripour Yazdi. & M. Mesdaghi. 2016. Effect of temperature on seed germination characteristics of Doremaammoniacum. J. Plant Res. (Iranian Journal of Biology), 29(3): 686-693. Gholami. B., M. Faravani. And M. Farahmandian. 2012. Investigation of allelopathic effects of artichoke and garlic extracts on germination and seedling growth of some weeds. National Conference on Natural Products Med. Plants. (In Persian) Hatami hampa, A., , A. javanmard. M. Alebrahim. O. Sofalian. 2018. Allelopathic Effects of Aqueous Extracts from Sorghum (Sorghum bicolor L.) and Russian Knapweed (Acroptilon repens L.) on Seedling Growth and Enzymes Activity of Wheat, Sugar beet, Common Lambsquarters and Redroot Pigweed. J. Iranian Plant Protection Res, 32(1): 101-119. (In Persian) Iqbal. Z., H. Nasir., S. Hiradate. And Y. Fujii. 2006. Plant growth inhibitory activity of Lycoris radiate Herb. and the possible involvement of lycorine as an allelochemical. Weed Biol. Management, 6: 221–227. Ivan, C., C. Sulmon. G. Gwenola and A. Amrani. 2006. Involvement of soluble sugars in reactive oxygen species balance and responses to oxidative stress in plants. J. Exp. Bot. 57(3): 449-459. Kruse, M., M. Strandberg, and B. Strandberg. 2000. Ecological effects of allelopathic Plants. A review National Environment Research Institute, Sikleborg, Denmark, p. 66. Leon, R. G. and A. D. Knapp. 2004. Effect of temperature on the germination of common waterhemp (Amaranthus tuberculatus), giant foxtail (Setaria faberi), and velvetleaf (Abutilon theophrasti). Weed Sci. 52: 67-73. Makizadeh Tafti, M., M. Salimi. R. Farhoudi. 2009. Allelopathic effect of rue (ruta graveolens L.) On seed germination of three weeds. Iranian j. med. aromatic plants, 24(4 (42)): 463-471. (In Persian) Makkizadeh Tafti, M., R. Farhoudi. M. Rabiee. M Rasifar. 2011. Allelopathic effect of harmel (Peganum harmala L.) On germination and growth of three weeds. Iranian j. med. aromatic plants, 27(1 (51)): 135-146. (In Persian) McCready, R.M., J. Guggolz, V. Silviera, H.S. Owens. 1950. Determination of starch and amylose in vegetables. Anal. Chem. 22: 1156–1158. Meyghani, F. 2003. Allelopathy from Concept to Application. Incident Beam Press. p. 41-107. Mohammaddoust Chamanabad, H., & Sayah, M., & Asghari, A., & Pourmorad Kaleibar, B. 2015. The allelopathic effects of fresh and dry residual extract of wild mustard (Sinapis arvensis) and canada thistle (Cirsium arvense) on germination and nutrient uptake of canola (Brassica napus). Applied field crops research (pajouhesh & sazandegi), 27(105): 41-47. (in persian) Mojab, M. and M. Mahmoodi. 2008. Allelopathic effects of shoot and root water extracts of hoary cress (Cardaria draba) on germination characteristic and seedling growth of sorghum (Sorghum bicolor L.). Crop Prod. J. 1(4): 65-78. (In Persian) Montazeri, A., Sahneh, B., Ghanghermeh, A. 2021. The Role of Water Resources Management in the Sustainable Livelihood of Rural Households (Case Study: Northern and Southern Mazraeh of Aq Qala Township). Iranian Journal of Spatial Planning, 11(1): 67-86. (In Persian) Naghdi Badi, H., H. Omidi. H. Shams. Y. Kian. M. Dehghani Mashkani. M. Sahandi. 2010. Allelopathic Effects of Harmal (Peganum harmala L.) Aqueous Extract on Seed Germination and Seedling Growth of Purslan (Portulaca oleracea L.) and Black Weed (Chenopodium album L.). J. Med. Plants. 9 (33) :116-127. (In Persian) Narwal, S.S. and P. Tauro. 1996. Allelopathy in pest management for sustainable agriculture. Proceding of the International Conference on Allelopathy, New Delhi, India, 1: 67-76. Prabhakaran, J. and S. Maharaj. 2013. Allelopathic potential of Cissus quadrangularis L. on growth of floral millet (Pennesetum typhoides ST. and HUB). Inter. J. Res. Bio. Sci. 3(1): 18-21. Rahmati, E., M. Aghaalikhani, F. Maighani. F. Dehghani. 2015. Evaluation of allelopathic effects of aqueous extracts of wheat shoot in different stages of phenology on seed germination and early growth of weed species. J. plant research (iranian j. bio.), 28(5): 974-985. (In Persian) Ramezani, S., M. Saharkhiz. F. Ramezani. and M.H. Fotokian. 2008. Use of essential oils as bioherbicides. J. Essential Oil Bearing Plant. 11:319-327. Rashed Mohasel, M., J. Gharakhlou. M. Rastgou. 2009. Allelopathic effects of saffron (crocus sativus) leaves and corms on seedling growth of redroot pigweed (amaranthus retroflexus) and lambsquarter (chenopodium album). Iranian j. field crops res. 7(1): 53-61. (In Persian) Saberi, M., A. Shahriari. , M. JafariTarnian. H. Safari. 2012. Allelopathic effect ofthymus kotschyanus on seed germination and initial growth of bromus inermis and agropyron elongatum. Watershed management researches, 24(4 (93)), 18-25. (In Persian) Saberi, M., V. Karimian, M. khazaei. 2021. Allelopathic Effects of Eucalyptus camaldulensis on Seed Germination and Initial Growth of Three Medicinal species. J. of Range and Watershed Managment, 74(3): 585-596. (In Persian) Safahani Langroudi, A.R., F. Ghoshchi. 2014. Allelopathic effects of aqueous and residue of different weeds on germination and seedling growth of wheat. J. Plant Res. (Iranian J. Bio.), 27(1), 100-109. (In Persian) Saraei, R., M. Lahouti. and A. Ganjeali. 2012. Evaluation of allelopathic effects of eucalyptus (Eucalyptus globules Labill.) on germination, morphological and biochemical criteria of barley (Hordeum vulgare) and flixweed (Descurainia sophia L.). J. Agr. 4: 215-222. (In Persian) Singh, H. P. 2006. α-Pinene inhibits growth and induces oxidative stress in roots. Annal. of Bot. 98 (6): 1261 -1269. Sodaeizadeh, H., M. Rafieiolhossaini and P.V. Dammea. 2010. Herbicidal activity of a medicinal plant, Peganum harmala L., and decomposition dynamics of its hytotoxins in the soil, Industrial Crops and Products, 31:385–394. Tawaha Khaled, F., M. Gharaibeh, M. Mohammad and T. El-Elimat. 2007. Antioxidant activity and total phenolic content of selected Jordanian plant species. Food Chem. 104: 1372 – 8. Turkmen, N., F. Sari. and Y.S, Velioglu. 2005. The effect of cooking methods on total phenolics and antioxidant activity of selected green vegetables. Food Chemistry, 93: 713-718. Vafaei, M., S.M. Seyyed nejad, A. Gilani. and A. Saboora. 2015. A study on allelopathic effect of olive pomace (Olea europaea L.) on some biochemical characteristics of three seedlings wheat cultivars (Triticum aestivum L.). J. of Plant Res, 28: 243-256. (In Persian) Yan, Z.Q., D.D. Wang. L. Ding, H.Y. Cui, H. Jin, X.Y. Yang, J S. Yang. and B. Qin. 2015. Mechanism of artemisinin phytotoxicity action: Induction of reactive oxygen species and cell death in lettuce seedlings. Plant Physio. and Bio., 88: 53-59. Zand, A., M. Rahimian, H. Ashhadi, A. Koocheki, J. Khalghani, K. Mosavi. and K. Ramzani. 2004. Weed ecology (application management). Mashhad University Press. p. 558. (In Persian) | ||
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