Effect of Fire Intensity on Infiltration Components of Soil In Different Seasons (Case Study: Rangeland Charat sub Watershed in Mazandaran Province)

Jafarian, Zeinab; Sepehri, Zohreh

doi:10.29252/jwmr.9.17.206

Volume 9, Issue 17 (9-2018) jwmr 2018, 9(17): 206-215 | Back to browse issues page

‎ 10.29252/jwmr.9.17.206

‎ 20.1001.1.22516174.1397.9.17.19.1

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Jafarian Z, Sepehri Z. (2018). Effect of Fire Intensity on Infiltration Components of Soil In Different Seasons (Case Study: Rangeland Charat sub Watershed in Mazandaran Province). jwmr. 9(17), 206-215. doi:10.29252/jwmr.9.17.206
URL: http://jwmr.sanru.ac.ir/article-1-734-en.html

Effect of Fire Intensity on Infiltration Components of Soil In Different Seasons (Case Study: Rangeland Charat sub Watershed in Mazandaran Province)

Zeinab Jafarian

, Zohreh Sepehri

Abstract: (2913 Views)

DDesigned and undersigned fires in rangelands affect vegetation and soil, and then are necessary to give enough knowledge about them. Infiltration is one characteristic that have predict had affected by fire but had not studied enough yet. So spot fire have been seen in Artemisia aucheri type in Charat sub watershed at Mazandaran province, in this research were investigated primary, final infiltration and infiltration rate in different intensities and seasons. For this prepuces first were established tree 100m transects randomly and then tree 2m² plots on each transect. Fire treatments in plots following without fire, light surface fire as much as direct burning and without flammable material of plants and surface litter (without ash product) and intense surface fire as much as direct burning of flammable material of plants and surface litter (with ash product). In the next stage was measured infiltration in different seasons using double rings. Data analysis of primary, final infiltration and infiltration rate in different intensities and seasons was carried out using two ways ANOVA and compare means test in SPSS software ver.20. Results were shown that primary, final infiltration and infiltration rate are more in summer than the other seasons and are 5.224, 15.534 and 7.756 cm/hr respectively. Infiltration in area without fire had no significant different by area with light fire but amount of final infiltration in area with intense fire was fewer than other seasons as was reduced from 3.946 to 2.447 cm/hr.

Keywords: Designed fire, Soil characteristics, Shrub cover, Charat watershed in Mazandaran

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Type of Study: Research | Subject: ساير موضوعات وابسته به مديريت حوزه آبخيز
Received: 2016/12/20 | Revised: 2018/10/1 | Accepted: 2017/06/7 | Published: 2018/09/26

References

1. Abdel-Majid, A.H., M.J. Trilica and R.H. Hart. 1987. Soil and vegetation responses simulated trampling. Journal of Range management (USA), 40: 303-306. [DOI:10.2307/3898724]

2. Banej Shafiei, A., M. Akbarinia, P. Azizi and J. Eshaghi Rad. 2010. Impacts of fire on some chemical properties of forest soil in north of Iran (Case study: Kheyroudkenar forest). Iranian Journal of Forest and Poplar Research, 18(3): 364-379 (In Persian).

3. Bland, J.M. and D.G. Altman. 1997. Statistics notes. Cronbach's alpha. 2 pp.

4. Davoudi, M., A. Hajabbasi, M.R. Mosaddeghi and V. Iravani. 2016. Residual Effects of Burnings on Some Soil Chemical Properties in a Pasture in the Central Zagros. Iranian journal of soil research, 30 (2): 227-236 (In Persian).

5. Dlapa P., I. Simkovic, S.H. Doerr, R. Kanka and J. Mataix- Solera. 2008. Application of Thermal Analysis to Elucidate Water-Repellency Changes in Heated Soils, Soil Science Society of America Journal, 72:1-10. [DOI:10.2136/sssaj2006.0280]

6. Fattahi, B. and A. Tahmasebi. 2010. Fire influence on vegetation changes of Zagros mountainous rangelands (Case study: Hamadan province). Rangeland, 4(2): 228-239 (In Persian).

7. Ferreira, A.J.D., C.O.A. Coelho, C.J. Ritsema, A.K. Boulet and J.J. Keizer. 2008. Soil and water degradation processes in burned areas: Lessons learned from a nested approach. Catena 74: 273-285. [DOI:10.1016/j.catena.2008.05.007]

8. Garca-Ruiz, J.M. 2010. The effects of land uses on soil erosion in Spain: A review, Catena, (81): 1-11. [DOI:10.1016/j.catena.2010.01.001]

9. Gholami gohareh, R., H.R. Sadeghei and S.Kh. Mirnia. 2011. Effect of light fire on infiltration, runoff and sediment in Kodir rangeland. Iran-Watershed Management Science & Engineering Journal, 17: 23-32. (In Persian)

10. González-Pelayo, O., V. Andreu, E. Gimeno-García, J. Campo and J.L. Rubio. 2010. Effects of fire and vegetation cover on hydrological characteristics of a Mediterranean shrub land soil. Hydrological Processes, 24: 1504-1513. [DOI:10.1002/hyp.7612]

11. González-Pelayo, O., V. Andreu, J. Campo, E. Gimeno-García and J.L. Rubio. 2006. Hydrological properties of Mediterranean soils burned with different fire intensities. Catena, 68(2-3): 186-193. [DOI:10.1016/j.catena.2006.04.006]

12. Henderson, G.S. and D.L. Golding. 1983. The Effect of Slash Burning on the Water Repellence of Forest Soils at Vancouver, British Columbia, Journal Forest Research, (13): 353- 355. [DOI:10.1139/x83-052]

13. Heidary, J., Sh. Ghorbani Dashtaki, F. Raiesi and P. Tahmasebi. 2014. Effect of Rangeland Fire on Soil Physical Properties and Water Infiltration Parameters using Principle Component Analysis. Journal of Water and Soil, 28(5): 964-975 (In Persian).

14. Ho, R. 2006. Handbook of univariate and multivariate data analysis and interpretation with SPSS. Chapman & Hall/CRC. 403 pp. [DOI:10.1201/9781420011111]

15. Hoseini, S.A., M. Tavan and H. Eisaei. 2011. Investigation on water infiltration of different vegetation types in saline and alkali rangelands of Inchehbroon, Golestan province. Iranian journal of Range and Desert Reseach, 18 (2):280-291. (In Persian)

16. Hubbert, K.R., M. Busse, S. Overby, C. Shestak and R. Gerrard. 2015. Pile burning effects on soil water repellency, infiltration, and down slope water chemistry in the Lake Tahoe basin, USA. Fire Ecology, 11(2): 100-119. [DOI:10.4996/fireecology.1102100]

17. Imani, A.A. and J. Sharifi. 2006. Study on Effects of Fire on Changing Vegetation Cover and Composition in Steppe Rangelands of Ardabil Province, Iranian Journal of Natural Resources, 59(2): 517-526.

18. Kavianpoor, H., Z. Jafarian Jeloudar, A. Esmali Ouri and A. Kavian. 2011. The effects of burning on soil nutrients. International first conference on fire in natural resources fields, 25-27 October, Gorgan. (In Persian)

19. Kramer, P.J. and J.S. Boyer. 1995. Water Relations of Plants and Soil. Academic Press, SanDiego. ISBN 0-12-425060-2.

20. Letey, J. 2001. Causes and consequences of fire-induced soil water repellency. Hydrological Processes, 15: 2867-2875. [DOI:10.1002/hyp.378]

21. Martin, D.A. and J.A. Moody. 2001. Comparison of soil infiltration rates in burned and unburned mountainous watersheds. Hydrological Processes, 15: 2893-2903. [DOI:10.1002/hyp.380]

22. Mellander P.E., K. Bishop and T. Lundmark. 2004. The Influence of Soil Temperature on Transpiration: a Plot Scale Manipulation in a Young Scots Pine Stand, Forest Ecology and Management, 195: 15-28. [DOI:10.1016/j.foreco.2004.02.051]

23. 23- Mesdaghi, M. 2007. Rangeland Management in Iran, Astane Ghods Publication, Emam RezaUniversity, 5th Edition, 333 pp (In Persian).

24. Nearing M.A., V. Jetten, C. Baffaut, O. Cerdan, A. Couturier, M. Hernandez, Y. LeBissonnais, M.H. Nicols, J.P. Nunes, C.S. Renschler, V. Souche're, K. VanOost. 2005. Modeling Response of Soil Erosion and Runoff to Changes in Precipitation and Cover. Catena, 61: 131-154. [DOI:10.1016/j.catena.2005.03.007]

25. Rafiee, F., H. Ejtahadi and R. Jangju. 2013. Study of Plant diversity at different time intervals after burning in a semiarid rangeland. Plant Researches Journal, 27(5): 854-864 (In Persian).

26. Robichaud, P.R. and T.A. Waldrop. 1994. A comparison of surface runoff and sediment yields from low- and high severity site preparation burns. Water Resources Bulletin, 30(1): 27-34. [DOI:10.1111/j.1752-1688.1994.tb03270.x]

27. Robichaud P.R. 2000. Fire effects on infiltration rates after prescribed fire in Northern Rocky Mountain forests, USA. Journal of Hydrology, 220-229. [DOI:10.1016/S0022-1694(00)00196-7]

28. Robichaud, P.R., J.W. Wagenbrenner, F.B. Pierson, K.E. Spaeth, L.E. Ashmun and C.A. Moffet. 2016. Infiltration and interrill erosion rates after a wildfire in western Montana, USA. Catena, 142: 77-88 [DOI:10.1016/j.catena.2016.01.027]

29. Shakesby, R.A. and S.H. Doerr. 2006. Wildfire as a hydrological and geomorphologic agent. Earth-Science Reviews, 74: 269-307. [DOI:10.1016/j.earscirev.2005.10.006]

30. Sharifi, Z., Ch. Nazari, K. Mohammadi Samani and N. Shabanian. 2015. Effect of Three Successive Years of Fire on Some Physicochemical Properties of a Forest Soil around Zarivar Lake in Marivan. Iranian JKournal of Soil and Water Research, 46(3): 555-565 (In Persian).

31. Tessler, N., L. Wittenberg and D. Malkinson. 2007. The Development and the Break Down of Hydrophobic Layer After Forest Fires in Mt. Carmel, Israel, Abstracts of the International Meeting of Fire Effects on Soil Properties, 31January-3 February,15 pp.