Evaluate the effect of drought stress on the quantity and quality of medicinal plant populations Balangu (Lallemantia royleana Benth.)

Ahmadi, Khadijeh; Omidi, Heshmat

doi:10.22077/escs.2017.586

Document Type : Original Article

Authors

khadijeh Ahmadi ¹
Heshmat Omidi ²

¹ MSc. Student agriculture, Faculty of Agriculture, Shahed University, Tehran. Iran.

² Associate Professor of Agronomy and Plant Breeding, Faculty of Agriculture, Shahed University. Tehran. Iran

https://doi.org/10.22077/escs.2017.586

Abstract

Introduction:
With the advancement of science and the world's attention to the harmful effects of chemicals and synthetic materials, world again turned to the use of herbal products, so it is said twenty-first century, a century medicinal plants (Amanzadeh et al., 2011).Lallemantia royleana is a member of Lamiaceae family. This family is one of the largest and most distinctive flowering plants (Zargari, 1980).Balangu seed is a good source of polysaccharides, fibre, oil and protein and has some medicinal, nutritional and human health properties (Naghibi et al. 2005; Razavi and Karazhiyan 2009). Drought is one of the major abiotic stresses that severely affect and reduce the yield and productivity of food crops worldwide up to 70% (Akram et al., 2013). The response of plants to drought stress is complex and involves changes in their morphology, physiology and metabolism (Sairam and Srivastava, 2001). Therefore, the objective of this research was to study evaluate the effect of drought stressthe quantity and quality of medicinalplant Bulangu population.
Materials and methods:
In the research experimental field of medicinal plants the Shahed University, during the 2014-2015 cropping season. This experiment was a split plot arrangement based on randomized complete block design (RCBD) with three replications. Three drought stress levels which include -3.5, -6.5, and -9.5 atm of soil water potential as the main factor levels, while five Bulangu population which include Esfahann3, Esfahann5, Esfahann6, Esfahann7 and Kordestan were arranged to sub plots. The site is located at latitude of 35°34´E, longitude 51°8´N, with an altitude of 1190 m above the sea level and its precipitation rate was 216 mm throughout the experimental period.‎Studied traits were determined according to the following protocols: Soluble sugars (Paquin and lechasseur, 1979), Mucilage percentage (Ghasemi Dehkordi, 2002), Inflation factor (Asgharpour and Rezvani Moghaddam, 2002), and Oil yield (Rasti et al., 2012). The RWC (relative water content) was determined according to Levitt 1990. All calculations were performed using the SAS software, version 9.1 and means were compared using Duncan’s range test at P=0.05.
Results and discussion:
Climate change is causing more frequent and intense periods of drought as overall rainfall levels decline. Dry areas cover more than 40% of the world’s land surface and are home to 2.5 billion people; one-third of the global population. Drought is currently one of the main constraints that prevent crop plants from expressing their full genetic potential. Drought had a significant effect on grain yield, biological yield, harvest index, soluble sugars, mucilage percentage, Inflation factor, RWC (relative water content) and oil yield. Drought was no significant effect on oil percentage.The results of this study demonstrate that increased drought reduced grain yield. Crop yield response to water efficiency in different stages of plant growth and water use throughout the growing season (Igbadun et al., 2006). The E3 population with the highest grain yield of (312.77 kg/ha) and oil yield of (86.7 kg/ha) in moisture potential -9.5 atm.Drought reduces the amount of soluble sugars. This results compatiblity with the results Abbaszadeh et al. (2007) in (Melissa officinalis).The effects of the interaction of E5 and E3 populations in the highest and lowest mucilage percentage mild stress into account. According to the study looks population Esfahan3, is to drought stress resistant population.
Conclusions:
It can be generally concluded that, drought stress atmosphere -9.5 atm decreases the quantitative and qualitative characteristics of medicinalplant Bulangu population. The Esfahan3 population has the highest grain yield and oil yield. According to the study looks population Esfahan3, is to drought stress resistant population. Results comparisons of traits in populations Balangu average suggests that most of these changes may be due to their genotype.

Keywords

References

Abbaszadeh, B., Sharifi Ashourabadi, A., Ardakani, M.R., Aliabadi Farahani, H., Alizadeh Sohrabi, A., 2007. The effect of nitrogen fertilizer on the yield and quality of lemon balm. Proceedings of the Second National Conference on Ecological Agriculture of Iran, Gorgan University of Agricultural Sciences and Natural Resources, October 26-25, 61. [In Persian with English Summary]

Abdolahi, M., Maleki Farahani, S., Fotokian, M.H., Hasan Zade Ghorttapeh, A., 2013. Ecophysiological characteristics of balangu (Lallemantia sp) ecotypes under drought stress. Master Thesis of Agriculture, Faculty of Agriculture, Shahed University, [In Persian with English Summary]

Ahmad, Z., Arshad, M., Ghafoor, A., 2007. Plantago ovata-a crop of arid and dry climates with immense herbal and pharmaceutical importance: 231-249. In: Ochatt, S., Jain, S.M., (Eds.). Breeding of Neglected and Under-Utilized Crops, Spices and Herbs, CRC Press, 468p.

Aleel, C.A., Manivannan, P., Wahid, A., Faroog, M.,Al-Juburi, H.J, Somasundaram, R., Panneerselvam,R., 2009. Drought stress inplants: A review on morphological characteristics and pigmentscomposition. International Journal of Agriculture and Biology, 11(1), 100-105.

Amanzadeh, Y., Khosravi dehaghi, N., Ghorbani,A.R., Monsef-Esfahani, H.R., Sadat-Ebrahimi, S.E., 2011. Antioxidant activity of Essential oil ofLallemantia iberica in Flowering stage andPost-Flowering stage. Biological Sciences, 6(3),114-117. [In Persian with English Summary]

Asgharipour, M., Rezvani Moghaddam, P., 2002. The effects of planting date and seeding rates on the quantity of herb ovata. Master thesis of Agriculture Faculty of Agriculture, University of Mashhad. [In Persian with English Summary].

Bannayan, M., Nadjafi, F., Azizi, M., Tabrizi, L., Rastgoo, M., 2008. Yield and seed quality of Plantago ovata and Nigella sativa under different irrigation treatments, Industrial Crops and Products, 27(1), 11-16.

Bhagat, N.R., 1980. Studies on Variation and association among seed yield and some component traits in Plantago ovata Forsk. Crop Improvement, 7, 60-63.

Ebrahimzadeh, H., Mir Masomi, M., Fakhreh Tabatabai, S.M., 1994. Mucilage production aspects of the culture in some areas ovata, plantain and psyllium. Research and Development. 6(22):125-141. [In Persian]

Egli, D.B. 1998. Seed Biology and the Yield of GrainCrops. CAB International, 184p.

Emam, Y., Niknejhad, M. 2011. An Introduction to the Physiology of Crop Yield. Shiraz University Press, Pp. 571. [In Persian]

Emami, Sh., Ardekani, M.R., invertebrates, A., 2004. Illustrated Dictionary, herbs, Research Center for Traditional Medicine and Materia Medica, Martyr Beheshti University of Medical Sciences, [In Persian with English Summary]

Eskandari, H., ZehtabSalmasi, S., GhassemiGolezani, K., Gharineh, M.H., 2009. Effects of water limitation on grain and oil yields of sesame cultivars. Journal of Food, Agriculture and Environment, 7(2), 339-342. [In Persian with English Summary].

Ghasemi Dehkordi, N., 2002. Iranian Herbal Pharmacopoeia Standards Committee, Herbal Pharmacopoeia Volume 2, Tehran: Ministry of Health and Medical Education, Department of Food and Drugs, 262-261, [In Persian]

Hoekstra, F.A., Buitink, J., 2001. Mechanisms of plant desiccation tolerance. Trends in Plant Science, 8, 431-438.

Igbadun, H.E., Mahoo, H.F., Tarimo, A.K.P.R., Salim, B.A., 2006. Cropwater productivity of an irrigated maize crop in Mkoji sub-catchment of the Great Ruaha River Basin. Tanzania, Agricultural Water Management, 85, 141-150.

Irigoyen, J.J., Emerich, D.W., Sanches-Disz, M., 1992. Alfalfa leaf sencscence induced by drought stress, photosynthesis, hydrogen peroxide metabolism, lipid peroxidation and ethylene evolution, Physiologia Plantarum, 84, 67-72.

Koocheki, A., Tabrizi, L., Nassiri Mahallati, M., 2007. The effects of irrigation intervals and manure on quantitative and qualitative characteristics of Plantago ovata and Plantago psyllium. Asian Journal of Plant Sciences, 6(8), 1229-1234.

Kusaka, M., Lalusin, A.G., Fujimura, T., 2005. The maintenance of growth and turgor in pearl millet (Pennisetum glaucum [L.] Leeke) cultivars with different root structures and osmo-regulation under drought stress. Plant Science, 168, 1-14.

Levitt, J., 1980. Response of plants to environmental stresses: water, radiation, salt and other stresses. Collegiate Press, New Yourk, pp: 187-211.

Molnár, I. S. Dulai, Á. Csernák, J. Prónay and M.M. Láng. 2005. Photosynthetic responses to drought stress indifferent Aegilops species. Acta Biology, 49, 141-142.

Moradi, A., Ahmadi, A., Hossein Zadeh, A., 2008. Agro-Physiological responses of Mung Bean (cv. Partov) to severe and moderate drought stress applied at vegetative and reproductive growth stages. Journal of Science and Technology of Agriculture and Natural Resources, 45, 671-659. [In Persian]

Munns, R., 2002. Comparative physiology of salt and water stress. Plant Cell Environment, 25, 239-250.

Paquin, R., Lechasseur, P., 1979. Observations sur une method dosage de la proline libre dans les extraits de plantes. Canadian Journal of Botany, 57, 1851-1854.

Pireivatlou, A.S., Dehdar Masjedlou, B., Ramiz,. T.A., 2010. Evaluation of yield potential and stress adaptivetrait in wheat genotypes under post anthesis drought stress conditions. African Journal of AgriculturalResearch,5, 2829-2836.

Prado, F.E., Boero, C., Gallarodo, M., Gonzalez, J.A., 2000. Effect of NaCl on germination, growth and soluble sugar content in Chenopodium quinoa willd seeds. Botanical Bulletin of Academia Sinica. 41, 27-34.

Rasti, S., Omidi, H., Fotokian, M.H., 2012. The effect of planting date and drought on quality and quantity characteristics Balangu Shirazi(Lallemantia royleana (wall) Benth.). Master Thesis of Agriculture, Faculty of Agriculture, Shahed University, [In Persian with English Summary].

Rechinqer, K.H., 1982. Lallemantia (Labiatae) in Rechinger Flora Iranica No. 150,: Akademische Druck-und Verlagsanstalt, Graz–Austria.

Roohi Noogh, A., Koocheki, A., Ghorbani, R., Rezvani Moghaddam, P., 2011. Effect of Organic Fertilizers and Plant Density on Quantitative and Qualitative Characteristics of Balangu (Lallenamntia royleana B.). Master Thesis of Agriculture, Faculty of Agroecology,Ferdowsi University of Mashhad. [In Persian with English Summary]

Safikhani, F., Heidari Sharif Abad, H., Siiadat, A., Ashvrabady Sharifi, A., Sydnegad, M., Abbaszadeh, B., 2006. Effects of water stress on yield and morphological characteristics of medicinal plants moldavian (Dracocephalum moldavica). Journal of Medicinal and Aromatic Plants Research, 23(2), 183-194. [In Persian]

Sarkar, S., Sanyal, S.R., 2000. Production potential and economic feasibility of sesame(Sesamumindicum) based on intercropping system with pulse and oil seed crops on rice fallow land. Indian Journal of Agronomy, 45, 545-555.

Seghatoleslami, M.J., Mousavi, G.R., Mahdavi, R. andH.R, Zabihi, 2013, Response of yield and yield components of Fenugreek to irrigation intervals, potassium and zinc. Annual Review and Research in Biology, 3(4), 466-474.

Shubhra, K., Dayal, J., Goswami, C.L., Munjal, R., 2004. Effects of water-deficit on oil of Calendula aerial parts. Biologia Plantarum. 48(3), 445-448.

Singh, D., Chand, S., Anvar, M., Patra, D.D., 2003. Effect of organic and inorganic amendment on growth and nutrient accumulation by isabgol in sodic soil under greenhouse conditions. Journal of Medicinal and Aromatic Plant Sciences, 25(2), 414-419.

Sloane, R. J., Patterson, R.P., Carter, T.G., 1990. Field drought tolerance of soybean plant introduction. CropScience. 30, 118 -123.

Zarei, G., Shamsi, H., Dehghani, S.M., 2010. The effect of drought stress on yield, yield components and seed oil content of three autumnal rapeseed cultivars (Brassica napus L.). Journal of Research in Agricultural Science, 6, 29-37. [In Persian].

Environmental Stresses in Crop Sciences

Evaluate the effect of drought stress on the quantity and quality of medicinal plant populations Balangu (Lallemantia royleana Benth.)

References

References

Volume 10, Issue 2
Open Access Policy
July 2017
Pages 307-318

Evaluate the effect of drought stress on the quantity and quality of medicinal plant populations Balangu (Lallemantia royleana Benth.)

References

References

Volume 10, Issue 2 Open Access PolicyJuly 2017Pages 307-318

Volume 10, Issue 2
Open Access Policy
July 2017
Pages 307-318