بررسی تأثیر تراکم بوته بر برخی خصوصیات بیوشیمیایی و اسانس گیاه دارویی زوفایی ((Thymbra Spicata

ملک ملکی, فاطمه; عباسی, نصرت اله; شریفی عاشور آبادی, ابراهیم; زارع, محمدجواد; براری, مهرشاد

doi:10.22055/ppd.2020.30250.1789

نوع مقاله : علمی - پژوهشی

نویسندگان

¹ دانش‌آموخته دکتری اکولوژی گیاهان زراعی، گروه زراعت و اصلاح نباتات، دانشکده کشاورزی دانشگاه ایلام، ایلام، ایران

² استادیار ،گروه زراعت و اصلاح نباتات، دانشکده کشاورزی، دانشگاه ایلام، ایلام، ایران

³ دانشیار، بخش تحقیقات گیاهان دارویی، مؤسسه تحقیقات جنگل‌ها و مراتع کشور، سازمان تحقیقات، آموزش و ترویج کشاورزی، تهران، ایران

⁴ دانشیار، گروه زراعت و اصلاح نباتات، دانشکده کشاورزی، دانشگاه ایلام، ایلام، ایران

⁵ استادیار، گروه زراعت و اصلاح نباتات، دانشکده کشاورزی، دانشگاه ایلام، ایلام، ایران

https://doi.org/10.22055/ppd.2020.30250.1789

چکیده

چکیده
جهت بررسی تغییرات برخی از خصوصیات فیزیولوژیکی و فیتوشیمیایی برگ و سرشاخه دو اکوتیپ از گیاه دارویی زوفایی (Thymbra spicata) در پاسخ به تغییر تراکم بوته، آزمایشی به‌صورت فاکتوریل بر پایه بلوک‌های کامل تصادفی در سه تکرار و در سال زراعی 1396-1395 در مزرعه تحقیقاتی دانشکده کشاورزی دانشگاه ایلام انجام شد. تیمارهای آزمایش شامل سه تراکم کشت (فاصله روی ردیف 20، 30 و 45 سانتی‌متر) و دو اکوتیپ بومی گیاه زوفایی از ارتفاعات زاگرس ایلام (ملکشاهی و سومار) بودند. بر اساس نتایج حاصل از این آزمایش میزان ترکیبات آنتی‌اکسیدانتی، رنگیزه‌های فتوسنتزی ( a، b و کل)، کارتنوئید، آنتوسیانین، و درصد اسانس به‌صورت معنی‌دار؛ تحت تأثیر اکوتیپ و تراکم کاشت قرار گرفتند. به‌طوری‌که بیشترین میزان فنل و فلاونوئید کل به‌ترتیب (64/91 میلی‌گرم اسید گالیک در گرم وزن خشک) و (20/5 میلی‌گرم کوئرستین در گرم وزن خشک برگ) در فاصله روی ردیف 20 و 30 سانتی‌متر مشاهده شد و با کاهش تراکم بوته میزان فنل و فلاونوئید کل به‌ترتیب 2/7 و 12 درصد کاهش یافتند. فاصله روی ردیف 30 سانتی‌متر، موجب افزایش میزان کلروفیل a وb به میزان 14 تا 16 درصد و کارتنوئید به میزان 10 درصد گردید. بیشترین میزان آنتوسیانین (5/2 میکروگرم بر گرم وزن تر) در فاصله روی ردیف 20 سانتی‌متر مشاهده شد که با کاهش تراکم 10 درصد کاهش نشان داد. بیشترین درصد و عملکرد اسانس در فاصله روی ردیف 20 سانتی‌متر (38/91 کیلوگرم در هکتار) و اکوتیپ ملکشاهی (5/87 کیلوگرم در هکتار) مشاهده شد که با افزایش فاصله روی ردیف، درصد و عملکرد اسانس به‌ترتیب 6 و 13 درصد کاهش یافت. اکوتیپ ملکشاهی در مقایسه با اکوتیپ سومار از محتوای بیشتری از رنگیزه‌های فتوسنتزی، فنل و فلاونوئید کل، کارتنوئید، آنتوسیانین و درصد و عملکرد اسانس برخوردار بود.

کلیدواژه‌ها

موضوعات

H: گیاهان دارویی

عنوان مقاله [English]

Investigating the Effect of Plant Density on Biochemical Characteristics and Essential Oil in Wild Thyme (Thymbra spicata L.)

نویسندگان [English]

Fatemeh MalekMaleki ¹
Nosrat Abbasi ²
Ebrahim Sharifi Ashourabadi ³
Mohammad Javad Zare ⁴
Mehrshad Barary ⁵

¹ Ph.D. Graduate of Crop Ecology, Department of Agronomy and Plant Breeding, Faculty of Agriculture, Ilam University, Ilam, Iran

² Assistant Professor, Department of Agronomy and Plant Breeding, Faculty of Agriculture, Ilam University, Ilam, Iran

³ Associate Prof., Medicinal Plants Research Division, Research Institute of Forests and Rangelands/ Agricultural Research, Education and Extension Organization (AREEO), Tehran, Iran

⁴ Associate Professor, Department of Agronomy and Plant Breeding, Faculty of Agriculture, Ilam University, Iran

⁵ Assistant Professor, Department of Agronomy and Plant Breeding, Faculty of Agriculture, Ilam University, Iran

چکیده [English]

Abstract
Introduction
Among all major genera and species in the mint family, different types of organic compounds or metabolites such as phenolic compounds, flavonoids, anthocyanins, ascorbates, and carotenoids with antioxidant, antimicrobial, and anti-inflammatory effects are produced by means of metabolic processes. Research studies in this field have established that planting distance can have a significant effect on essential oil yield as well as the quantity and quality of secondary metabolites in medicinal plants. The main purpose of spacing between plants is also to provide a suitable mix of environmental factors (i.e. water, climate, light, and soil) to achieve optimum quality performance.

Materials and Methods
The present study was conducted using a factorial experiment based on randomized complete block design (RCBD) with three replications at Ilam University Research Farm, Iran, during 2016-2017. Planting density treatments at three levels (i.e., 20, 14, and 10 plants per m²) were determined based on changes in plant spacing on rows (i.e., three distances of 20, 30, and 45 cm). Two ecotypes were accordingly included: Malekshahi and Sumar. The characteristics measured were photosynthetic pigments (chlorophyll a/b, total chlorophyll, and carotenoid), total phenol and flavonoid content, anthocyanin, as well as essential oil content and yield.

Results and Discussion
The results of this experiment revealed that the amount of antioxidant compound, photosynthetic pigments (i.e., chlorophyll a/b, total chlorophyll, and carotenoid), anthocyanin, and essential oil yield had been significantly affected by ecotype and plant density. Therefore, the highest amounts of total phenol (91.64 mg GAE/g DW) and flavonoid (5.20 mg QUE/ g DW) were observed at 20 and 30 cm row spacing. Total phenol and flavonoid also decreased by 7.2% and 12% as plant density was reduced. Moreover, row spacing of 30 cm increased the amount of chlorophyll a/b by 14 to 16% and carotenoid by 10%. The highest amount of anthocyanin (2.5 μg/g FW) was noticed at 20 cm row spacing. In the same vein, the highest yield of the essential oil was spotted at 20 cm row spacing (91.38 kg/ha) and for Malekshahi ecotype (87.5 kg/ha). Compared with the Sumar ecotype, the Malikshahi had higher content of photosynthetic pigments, total phenol and flavonoid, carotenoid, anthocyanin, as well as essential oil yield content and yield. Growth, quantity, and quality of medicinal plants are controlled by genetic processes as well as environmental and agronomic factors such as plant density. As plant density is enhanced to an optimum level, competition increases for absorption of water, nutrients, and quantity and quality of light received by leaves due to branching density and moderated penetration into canopy. As a result, the rate of cell division and leaf area development reduces and the content of photosynthetic pigments is diminished following the destruction of chloroplast structure and inhibition of biosynthesis of new chlorophylls. On the other hand, secondary metabolites such as phenolic compounds, flavonoids, and anthocyanin develope in the plant in response to environmental conditions in order to protect it against environmental stresses through suppressing oxygen free radicals. In line with the results of the related literature, it was observed that the content of photosynthetic pigments had diminished after increasing the density to 20 plants per m², but the content of carotenoid, anthocyanin, total phenol and flavonoid, as well as the essential oil yield had improved in the wild thyme (Thymbra spicata L.).

Conclusion
The results revealed that the leaves of the plant have good amounts of essential oils, phenolic compounds, and flavonoids. Since the highest percentage and yield of essential oil, phenol, flavonoids, and anthocyanins were observed in the treatment of density of 20 plants per square meter and Malikshahi ecotype, this level of density and Malikshahi ecotype is introduced for production and review in breeding programs.

کلیدواژه‌ها [English]

Anthocyanin
Carotenoids
Chlorophyll
Flavonoids
Total phenol

مراجع

References

Abbaszadeh, B., Rezaei, M. B., Ardakani, M. R., & Baseri. R. (2009). Investigation of morphological traits and performance of flower heads of different species of mint collected from different regions. Research in Agriculture, 1(1), 40-49. [In Farsi]

Abu-Darwish, M., Al-Ramamneh, E. A. D., Salamon, I., Abu-Dieyeh, Z., Al-Nawaiseh, M., & Albdour, T. (2013). Determination of essential oil bioactive components and rosmarinic acid of Salvia officinalis cultivated under different intra-row spacing. Notulae Scientia Biologicae, 5(2), 198-203.

Aflakian, S., Zeinali, H., Maddah Arefy, H., Enteshary, Sh., & Kaveh, SH. (2012). Study of yield and yield components in 11 ecotype of Thymus daenensis Celak. Iranian Journal of Medicinal and Aromatic Plants, 28(2), 187-197. [In Farsi]

Akbarinia, A. (2013). Response of Satureja sahendica Bormn. To nitrogen and plant density. Iranian Journal of Medicinal and Aromatic Plants, 29(2), 260-268. [In Farsi]

Al-Ramamneh, E. D. (2009). Plant Growth Strategies of Thymus vulgaris L. in Response to population density. Industrial Crop and Products, 30(3), 389-394.

Amiri, M. B., Rezvani Moghadam, P., Jahan, M., Salehabadi, M., & Nasri, N. (2017). Effects of plant density and different organic and chemical fertilizers on some phytochemical characteristics of Iranian ox-tongue (Echium amoenum Fisch. & Mey). Iranian Journal of Medicinal and Aromatic Plants, 33(4), 649-662. [In Farsi]

Antonietta, M., Fanello, D. D., Acciaresi, H. A., & Guiamet, J. J. (2014). Senescence and yield responses to plant density in stay green and earlier-senescing maize hybrids from Argentina. Field Crop Research, 155, 111-119.

Asadi Sanam, S., Zavareh, M., Pirdashti, H., Sefidkon, F., & Nemat Zadeh, G. (2018). Effect of transplanting date and plant density on dry matter and total phenol in shoot of purple coneflower (Echinaceae purpurea (L.) Moench) in Sari. Journal of Crops Improvement, 19(4), 1095-1111. [In Farsi]

Badakhshan, F., Sedighi Dehkordi, F., & Mortazavi, M. H. (2018). The effect of plant density and cultivar on morphological characteristics, yield and quality traits of basil (Ocimum basilicum L.) in hydroponic system. Journal of Horticulture Science, 32(2), 263-272. [In Farsi]

Bajji, M., Lutts, S., & Kient, J. M. (2001). Water deficit effects on solute contribution to osmotic adjustment as a function of leaf ageing in three durum wheat (Triticum durum Defs.) cultivars performing differently in arid condition. Plant Science, 160(4), 669-681.

Borjiabad, A. (2014). The effects of plant density and application of iron and zink on quantitative and qualitative yield of Roselle (Hibiscus sabdariffa L.). M.Sc Thesis, University of Zabol, Zabol, Iran. [In Farsi]

Bridgers, E. N., Chinn, M. S., & Truong, V. D. (2010). Extraction of anthocyanins from industrial purple-fleshed sweet potatoes and enzymatic hydrolysis of residues for fermentable sugars. Industrial Crops Production, 32(3), 613-620.

Candan, N., & Tarhan, L. (2003). Change in chlorophyll-carotenoid contents, antioxidant enzyme activities and lipid peroxidation levels in Zn–stressed Mentha pulegium. Turkish Journal of Chemistry, 27(1), 21-30.

Chang, Y. L., Kim, D. O., Lee, K. W., Lee, H. J., & Lee, C. Y. (2002). Vitamin C equivalent antioxidant capacity (VCEAC) of phenolic phytochemicals. Journal of Agriculture and Food Chemistry, 50(13), 3713-3717.

Dastmalchi, K., Damien, D., Oinonen, H. J., Darwis, P. P., Laakso, I., & Hiltunen, R. (2008). Chemical composition and in vitro antioxidative activity of a lemon balm (Melissa officinalis L.) extract. LWT Food Science and Technology, 41(3), 391 - 400.

Delfieh, M. R., Modares sanavy, S. A., & Farhodi, R. (2017). Investigating the effects of plant density, seed inoculation with bacteria and different nitrogen fertilizing methods on yield, yield components and essential oil of fennel (Foeniculum vulgare Mill.). Plant Productions, 40(1), 111-121. [In Farsi]

Delju, A., Mantashlo, J., & Piri, K. (2017). The study of flavonoids and antioxidant power of etanolic, metanolic, hydroalcholic and etylacetatic extracts of branch and stem bark of Salix Alba. Journal of Celluar and Molecular Researches, 30(3), 381-391. [In Farsi]

Douglas, J. A., Follet, J. M., & Heaney, A. J. (2002). The effect of plant density on production of valerian root. Acta Horticulturae, 426(42), 264-272.

Dudai, N. (2008). Optimization and improvement of phenolic mono terpenes production in Oregano (Origanum spp). Acta Horticulture, 778(1), 15-28.

El-Leithy, A. S., El-Hanafy, S. H., Khattab, M. E., Ahmed, S. S., & El-Sayed, A. (2017). Effect of nitrogen fertilization rates, plant spacing and their interaction on essential oil percentage and total flavonoid content of summer savory (Satureja hortensis L.) plant. Egyptian Journal of Chemistry, 60(5), 805-816.

Emadi, N., Jahanbin, H., & Balouchi, R. (2013). Effect of drought dtress and dlant density on yield and some physiological characteristics of pinto bean (Phaseolus vulgaris L.) in yasouj region. Journal of Crop Production and Processing, 3(8), 25-36. [In Farsi]

Fahlen, A., Welander M., & Wennersten R. (1999). Effects of light-temperature regimes on plant growth and essential oil yield of selected aromatic plants. Journal Science Food Agriculture, 73(1), 111-119.

Farooq, M., Wahid. A., Kobayashi, N., Fujita, D., & Basra, S. M. A. (2009). Plant drought stress effects Mechanisms and management. Agronomy for Sustainable Development, 29, 185-212.

Ghanati, F., Bakhtiyarian, S., & Abdolmaleki, P. (2010). Effects of methyl jasmonate on the secondary metabolites of Calendula officinalis L. Modares Journal of Biotechnology, 1(1), 20-30. [In Farsi]

Ghasemi Pirbalouti, A., Bahmani, M., & Avijgan, M. (2009). Anti-candida activity of some of the Iranian medicinal plants. Electronic Journal of Biology, 5(4), 85-88.

Habibzadeh, F., & Asghari, B. (2018). Study the effect of intercropping and chemical fertilizers on essential oil, phenolic and flavonoid contents and some biological properties of (Hyssopus officinalis L.). Eco-phytochemical Journal of Medicinal Plants, 6(3), 96-110. [In Farsi]

Heidari, F., Zehtab-Salmasi, S., Javanshir, A., Aliari, H., & Dadpour, M.R. (2008). The effect of plant density on yield and production of essential oil of peppermint (Mentha piperita L.). Journal of water and Soil Science, 12(45), 501-510. [In Farsi]

Hekmati, M., Hadian, J., & Tabaei Aghdaei, S. R. (2012). Evaluating the effect of planting density on yield and morphology of savory (Satureja khuzistanica Jamzad). Annals of Biological Research, 3(8), 4017-4022.

Hossain, M. A., AL-Raqmi, K. H. S., AL-Mijizy, Z. H., Weli, A. M., & Al-Riyami, Q. (2013). Study of total phenol, flavonoids contents and phytochemical screening of various leaves crude extracts of locally grown Thymus vulgaris. Asian Pacific Journal of Tropical Biomedicine, 3(9), 705-710.

Hussein, M. S., El-Sherbeny, S. E., Khalil, M. Y., Naguib, N. Y., & Aly, S. M. (2006). Growth characters and chemical constituents of Dracocephalum moldavica L. plants in relation to compost fertilizer and planting distance. Scientia Horticulturae, 108(3), 322-331.

Kennedy, D. O., Little, V., & Scholey, A. B. (2004). Attenuation of laboratory-induced stress in humans after acute administration of Melissa officinalis (Lemon Balm). Psychosomatic Medicine, 66(4), 607- 13.

Khanpour-Ardestani, N., Sharifi, M., & Behmanesh, M. (2014). Effect of methyl jasmonate on antioxidant enzyme activities, phenolic and flavonoid compounds in Scrophularia striata cell culture. Journal of Plant Researches, 27(5), 840-853. [In Farsi]

Khazaie, H. R., Najafi, F., & Banayan, M. (2008). Effect of irrigation frequency and planting density on herbage, biomass and oil production of theme (Thymus vulgaris) and hyssop (Hyssopus officinalis). Industrial Crop Production, 27(3), 315-321.

Kizil, S. (2010). Determination of essential oil variations of Thymbra spicata var. spicata L. naturally growing in the wild flora of east mediterranean and southeastern anatolia regions of Turkey. Industrial Crops and Products, 32(3), 593-600.

Kizil, S., Toncer, O., Diraz, E., & Karaman, S. (2015). Variation of agronomical characteristics and essential oil components of zahter (Thymbra spicata L. var spicata) population in semi-arid climatic conditions. Field Crops, 20(2), 242-251.

Koocheki, A., & Sarmadnia, G. H. (2012). Physiology of crop plants. Mashhad: Jahad-e-Daneshgahi of Mashhad. [In Farsi]

Kumar, R., Shurabh, S., & Pathania, V. (2013). Effect of shading and plant density on growth, yield and oil composition of clary sage (Salvia sclarea L.) in north western Himalaya. Journal of Essential oil Research, 25(1), 23-32.

Lichtenthaler, H. K. (1987). Chlorophylls and carotenoids: Pigments of photosynthetic bio membranes. Methods in Enzymology, 148, 350-382.

Mafakheri, A., Ciosemardeh, A., & Jaleel. P. (2010). Effect of drought stress on yield, proline and chlorophyll contents in three chickpea cultivars. Australian Journal of Crop Science, 4(8), 580-585.

Mozafarian, V. (1996). Flora of Ilam (Introducing medicinal plants of Ilam). Tehran: Farhang moaser publication. [In Farsi]

Naghdi Badi, H., Yazdani, D., & Nazari, F. (2002). Seasonal variation in oil yield and composition from Thymus vulgaris L. under different dense cultivation. Journal of Medicinal Plants, 1(5), 51-56. [In Farsi]

Nasiri, A., Sam daliri, M., Shirani Rad, A., Shahsavari, N., Mosavi Mirkale, A., & Jabbari, H. (2017). Effect of plant density on yield and physiological characteristics of six canola cultivars. Journal of Scientific Agriculture, 1, 249-253.

Nikneghad, V., & Emam, Y. (2011). An Introduction to the physiology of crop yield. Shiraz: Shiraz university press. [In Farsi]

Nonami, H., Wu, Y., & Boyer, J. S. (1997). Decreased growth-induced water potential a primary cause of growth inhabitation at low water potentials. Plant Physiology, 114(2), 501-509.

Nooshkam, A., Majnoun Hoseini, N., Hadian, J., Jahanpoor, M. R., Khazaei, K., Salehnia, A., & Hedayatpour, S. (2016a). The effect of irrigation intervals on quantitative and qualitative yields of two savory species (Satureja khuzestanica and Satureja rechingeri). Journal of Plant Production, 39(1), 11-20. [In Farsi]

Nooshkam, A., Mumivand, H., Hadian, J., Alemardand, A., & Morshedloo, M. R. (2016b). Drug yield and essential oil and carvacrol contents of two species of Satureja (S. khuzistanica). Journal of Applied Research on Medicinal and Aromatic Plants, 6, 126-130. [In Farsi]

Ordone, A. L. (2006). Antioxidant activities of Sechium edule (Jacq.) swartz extracts. Journal Agricultural Food Chemistry, 97(3), 452-458.

Rahmati, M., Azizi, M., Hasanzadeh khayat, M., & Nemati, H. (2009). The effects of different level of nitrogen and plant density on the agro morphological characters, yield and essential oils content of improved chamomile (Matricaria chamomilla) cultivar "Bodegold". Journal of Horticultural Sciences, 23(1), 27-35. [In Farsi]

Raie Dehghan, H., Razmjo, J., Sabzalian, M. R., & Arzani, A. (2015). The effect of shad on physiol-morphological characteristics and essential oil of mint. Plant Process and Function, 4(13), 57-69. [In Farsi]

Ren, B., Liu, W., Zhang, J., Dong, S., Liu, P., & Zhao, B. (2017). Effects of plant density on the photosynthetic and chloroplast characteristics of maize under high-yielding conditions. The Science of Nature, 104(3-4), 1-12.

Rostaei, M., & Fallah, S. (2016). Assessment of canopy characteristics and essential oil yield of fenugreek and black cumin in intercropping under application of organic and chemical fertilizer. Journal of Sustainable Agriculture and Production Science, 25(4), 1-23. [In Farsi]

Saifuddin, M., Hossain, A. M. B., & Normaniza, S. (2010). Impact of shading on flower formation and longevity, leaf chlorophyll and growth of Bougainville glabra. Asian Journal of Plant Science, 9(1), 20-27.

Salarpour Ghoraba, F., & Farahbakhsh, H. (2015). Effects of water deficit and salicylic acid on essential oil and antioxidant enzymes of fennel (Foeniculum vulgare Mill.). Journal of Crop Improvement, 17(3), 713-727. [In Farsi]

Seyedalipour, B., Rahimi-Feyli, P., Nikousefat, Z., & Zarghami, S. (2016). Study on Antioxidant activity, total flavonoid and total phenolic contents of extracts taken from aerial parts of Ballota platyloma using three different methods: percolation, ultrasonic and polyphenolic fraction. Journal of Kashan University pf Medical Science, 20(2), 147-156. [In Farsi]

Taheri, R., Lebaschy, M. H., Zakerin, A., Bakhtiari, M., Borjian, A., & Makkizadeh Tafti, M. (2013). Effect of plant densities on qualitative characteristics of four Thymus spices under dry farming condition of Damavand. Iranian Journal of Medicinal and Aromatic Plants, 29(3), 709-719. [In Farsi]

Toncer, O., & Kizil, S. (2005). Determination of yield and yield components in wild thyme (Thymbra spicata L. var. spicata) as influenced by development stages. Journal of Horticulture Science, 3(3), 100-103.

Toncer, O., Karaman, S., Diraz, E., Sogut, T., & Kizil, S. (2016). Diurnal variation effects in essential oils of wild thyme (Thymbra spicata var.spicata L.) under cultivation condition. Essential oil Bearing Plants, 19(8), 2037-2048.

Ulewicz-Magulska, B., & Wesolowski, M. (2019). Total phenolic contents and antioxidant potential of herbs used for medical and culinary purposes. Plant Foods for Human Nutrition, 74(1), 61-67.

Wanger, G. J. (1979). Content and vacuole/ extra vacuole distribution of neutral sugars, free amino acids, and anthocyanin in protoplast. Plant Physiology, 64(1), 88-93.

Watkinson, J. I., Hendricks, L., Sioson, A. A., Vasquez- Robinet, C., Verlyn, S., Heath, L. S., … & Grene, R. (2006). Accessions of Solanum toberosum spp. Andigena show differences in photosynthetic recovery after drought stress as reflected in gene expression profiles. Plant Science, 171(6), 745-758.

Wolf, F. T. (1963). Effects of light and darkness on biosynthesis of carotenoid pigments in wheat seedlings. Plant Physiology, 38(6), 649-652.

Zhang, F., & Li, L. (2003). Using competitive and facilitative interaction in intercropping systems enhances crops productivity and nutrient-use efficiency. Plant and Soil Research, 248(1), 305-312.

Zokaee, A., Seifzadeh, S., & Taheri, M. (2014). Effect of planting densities and pattern on physiological and agronomical traits in basil (Ocimum basilicum L.). Crop Production Research, 6(2), 143-157. [In Farsi]

تولیدات گیاهی

بررسی تأثیر تراکم بوته بر برخی خصوصیات بیوشیمیایی و اسانس گیاه دارویی زوفایی ((Thymbra Spicata

مراجع

مراجع

دوره 44، شماره 4
دی 1400
صفحه 573-586

بررسی تأثیر تراکم بوته بر برخی خصوصیات بیوشیمیایی و اسانس گیاه دارویی زوفایی ((Thymbra Spicata

مراجع

مراجع

دوره 44، شماره 4دی 1400صفحه 573-586

دوره 44، شماره 4
دی 1400
صفحه 573-586