Drought stress on Elaeagnus rhamnoides (L.) A. Nelson seedlings morphology

ahani, hamid; jalilvand, hamid; vaezi, jamil; sadati, seyed ehsan

[Home ] [Archive]

[ فارسی ]

Main Menu

Home

Journal Information

Articles archive

For Authors

For Reviewers

Registration

Contact us

Site Facilities

Search in website

Receive site information

Volume 5, Issue 11 (3-2018)

PEC 2018, 5(11): 191-204

Back to browse issues page

Drought stress on Elaeagnus rhamnoides (L.) A. Nelson seedlings morphology

Hamid Ahani ^*

, Hamid Jalilvand²

, Jamil Vaezi³

, Seyed ehsan Sadati⁴

forests, Rangelands and Watershed organization, natural resources and watershed administration of Khorasan Razavie , ahani1977@gmail.com
2- sari university of agricultural sciences and natural resources
3- ferdowsi university of Mashhad
4- Agricultural and Natural Resources Research and Education of Mazandaran

Abstract: (4157 Views)

It is predicted that the warming effect of climate change will cause to significant changes in the frequency and nature of precipitation and drought stress derived from it reduced growth in all species. There is considerable resistance appraisal in the response of plants to environmental stresses. To assess the impact of drought stress on morphology Sea-buckthorn medicinal plant (Elaeagnus rhamnoides), a pilot for the first time in the nursery Torough of Mashhad in 2013 in a randomized complete block design with three replications and four treatments irrigation was performed. Stressed the control level (every two days), a four-day, eight and twelve days based on soil matric potential of the seedlings a year were applied. Measurement was performed every month during the four months. The results showed that the correlation coefficient diameter trait with other traits except root dry weight had a significant relation. Height, leaf creation, node number, leaf area, specific leaf area and leaf dry weight, with root length and root dry weight not significantly correlated but with other traits were significant. The results showed that the treatments can’t just root dry weight as suitable index for this plant, means only leaf number trait is significant at 5% significant level and remaining traits is seen in 1% of treated. Tukey mean comparisons only character traits stem length were divided into four groups at the one percent level. Survival in treatments two days, four days, eight and twelve days of irrigation, respectively, 95, 95, 66 and 61%, respectively. Resistance of this species is measured according to morphological characters show that Sea-buckthorn it can be cultivated in semi-arid areas in the pilot phase.

Keywords: Hippophae, Torogh nursery, morphology, medicine, climate change

Full-Text [PDF 745 kb] (3496 Downloads)

Type of Study: Applicable | Subject: Special
Received: 2016/12/10 | Accepted: 2017/03/13 | Published: 2018/05/25

References

1. Abdalla, M.M., El-Khoshiban, N.H., 2007. The influence of water stress on growth, relative water content, photosynthetic pigments, some metabolic and hormonal contents of two Triticium aestivum cultivars. Journal of Applied Sciences Research, 3, 2062-2074.

2. Achten, W.M.J., Maes W.H., Reubens B., Mathijs E., Singh V.P., Verchot L., Muys, B., 2012. Biomass production and allocation in Jatropha curcas L. seedlings under different levels of drought stress. Biomass and Bioenergy, 34(5), 667–676.

3. Ahani, H., Jalilvand H., Vaezi J., Sadati, S.E., 2014. Investigation of nursery treatments on sea buckthorn (Elaeagnus rhamnoides (L.) A. Nelson) seed germination in the field. Journal of Biodiversity and Environmental Sciences, 4(6), 8-18.

4. Ahani, H., Jalilvand H., Vaezi J., Sadati S.E., 2014. Physiological Response of Sea Buckthorn (Elaeagnus rhamnoides (L.) A. Nelson) to Water-Use Strategie. ECOPERSIA 2(3). 681-695.

5. Ahani, H., Jalilvand H., Vaezi J., Sadati S.E., 2015. Effects of different water stress on photosynthesis and chlorophyll content of Elaeagnus rhamnoides, Iranian Journal of Plant Physiology,5(3): 1403-1409.

6. Ahani H, Jalilvand H, Vaezi J, Sadati SE, Jia D, Bai X.T, Bagheri H., 2015. DNA quality and quantity of Sea Buckthorn (Hippophae rhamnoides) subspecies in Iran and China, 7th conference of International Seabuckthorn Association, India

7. Chiatante, D., Di-Iorio, A., Sciandra, S., Stefania, G., Mazzoleni, S., 2006. Effect of drought and fire on root development in Quercus pubescens wild and Fraxinus ornal seedlings. Environmental and Experimental Botany, 56, 190-197.

8. Elfeel, A.A., Al-Namo, M.L., 2011. Effect of imposed drought on seedlings growth, water use efficiency and survival of three arid zone species (Acacia tortilis subsp raddiana, Salvadora persica and Leptadenia pyrotechnica). Agriculture and Biology Journal of North America, 2(3), 493-498.

9. Gang X., 2007. Different Responses of Hippophae Rhamnoides Subsp. Sinensis Populations to Drought Stress and the Analysis of Drought-Responsive Proteins. PhD Thesis, Chengdu Institute of Biology. CLC: S793.6.

10. Guo, W., Li, B., Zhang, X., Wang, R., 2007. Architectural plasticity and growth responses of Hippophae rhamnoides and Caragana intermedia seedlings to simulated water stress. Journal of Arid Environments, 69, 385–399.

11. Levitt, J., 1980. Stress terminology. In: N. C. Turner, P. J. Kramer. (eds.). Adaptation of plants to water and high temperature stress. Willey, New York. 437-439p.

12. Li C., Wang K., 2003. Differences in drought responses of three contrasting Eucalyptus microtheca F. Muell. Populations. Forest Ecology and Management, 179, 377–385.

13. Liu R.X., 2005. Analysis on the Ecological Adaptability to Drought Stress of Hippophae Native Species and External Species. PhD Thesis, Inner Mongolia University. CLC: S793.6.

14. Liu R.X., 2006. Effects of Photosynthetic and Transpiration Rate on Hippophae Rhamnoides Sinensis and Hippophae Rhamnoides in Different Soil Water Condition. Bulletin of Soil and Water Conservation, 26 (2):88-90

15. Liu R.X., 2006. Effects of Photosynthetic and Transpiration Rate on Hippophae Rhamnoides Sinensis and Hippophae Rhamnoides in Different Soil Water Condition. Bulletin of Soil and Water Conservation, 26 (2):88-90

16. Palled, Y.B., Chandara Shekharaiah, A.M., Radder, G.D., 1985. Response of Bengal gram to moisture stress. India Journal Agronomy, 30, 104-106.

17. Pandey, H.C., Baig, M.J., Bhatt, R.K., 2012. Effect of moisture stress on chlorophyll accumulation and nitrate reductase activity at vegetative and flowering stage in Avena species. Agricultural Science Research Journal, 2(3), 111-118.

18. Singh V., 2014. Seabuckthorn (Hippophae L.) : A Multipurpose Wonder Plant : Vol. IV: Emerging Trends in Research and Technologies, ASTRAL Press, 617 p.

19. Tabatabaei, S.A.H, Jalilvand, H., & Ahani, H., 2014. Drought stress response in caucasian hackberry: growth and morphology, Journal of Biodiversity and Environmental Sciences, 5(3) 158-169.

20. Nelson, A. 1935. 'Elaeagnus rhamnoides L. (A.Nelson)'. American Journal of Botany, 22(7): 682.

21. Turtola, S., 2005. The effects of drought stress and enhanced UV-B radiation on the growth and secondary chemistry of boreal conifer and willow seedlings University of Joensuu, PhD Dissertations, No:39. Finland.

22. Wagner, R.G., 2005. Top 10 Principles for Managing Competing Vegetation to Maximize Regeneration Success and Long-Term Yields, FOREST RESEARCH INFORMATION PAPER, Proceedings The Thin Green Line: A Symposium on the State-of-the-Art in Reforestation.

23. Yin, C., Wang, X., Duan, B., Luo, J., li, C., 2005. Early growth, dry matter allocation and water use efficiency of two sympatric Populus species as affected by water stress. Environmental and Experimental Botany, 53, 315-322.

24. Zhang, H.Q., Tang, M., Chen, H., Tian, Z.Q., Xue, Y.Q., Feng, Y., 2010. communities of arbuscular mycorrhizal fungi and bacteria in the rhizosphere of Caragana korshinkii and Hippophae rhamnoides in Zhifanggou watershed. Plant and Soil, 326, 415–424.

25. Fang J., Wu F., Yang W., Zhang J., Cai H., 2012. Effects of drought on the growth and resource use efficiency of two endemic species in an arid ecotone, Acta Ecologica Sinica, 32: 195–201.

26. 34. Lu, R., Ahani, H., 2013. The Genetic Resources of Hippophae genus and its utilization. Advance in Agriculture and Biology, 1(2), 27-31.

Send email to the article author

Add your comments about this article

Mendeley

Zotero

RefWorks

ahani H, jalilvand H, vaezi J, sadati S E. Drought stress on Elaeagnus rhamnoides (L.) A. Nelson seedlings morphology. PEC 2018; 5 (11) :191-204
URL: http://pec.gonbad.ac.ir/article-1-253-en.html

Rights and permissions
	This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

Volume 5, Issue 11 (3-2018)

Back to browse issues page

Persian site map - English site map - Created in 0.05 seconds with 37 queries by YEKTAWEB 4645