Comparison of Surface Runoff Generation, and Soil and Nutrient Loss in Kakhk Treated and Representative Watersheds, Khorasan Razavi Province

Davoodi Moghadam, Davood; Sadeghi, Seyed Hamidreza; Azami Rad, Mahmood

doi:10.22067/jsw.v30i3.41653

Document Type : Research Article

Authors

¹ Tarbiat Modares University

² Natural Resources General Office of Razavi Khorasan Province

https://doi.org/10.22067/jsw.v30i3.41653

Abstract

Introduction: It is vital to control land degradation, for conserving precious natural treasures. Quantification of runoff production and soil and nutrient loss from wild lands under different managerial systems is one of the scientific and optimal management in agriculture and natural resources, as a major component of sustainable development. Many researches have been conducted to assess the effects of different land uses on soil erosion and runoff generation throughout the globe. Most of which, mainly verified the detrimental effects of human intervention on land degradation. However, limited comprehensive and comparative studies have been conducted to consider the amount of surface runoff generation, and soil and nutrient loss from watersheds with different management patterns viz. untreated and treated small watersheds.
Materials and Methods: The present study aimed to compare surface runoff generation,soil and nutrient loss in Kakhk treated and untreated watersheds with an area ca. 222 ha and precipitation of some 243 mm per annum. Other physical and geological characteristics of the paired watersheds were also similar to allow assessing the effects of study measures on soil, water and nutrient losses. The area under consideration has been located in Khorasan Razavi Province in northeastern Iran. The present study was performed in plots with standard size of 22.1 × 1.8 m in treating and representative areas, with three replicates and on the storm basis occurred during early 2011 and mid-2014. The treated plots were covered by biological measures viz. seeding, bunching and exclusre. The study plots have been situated on eastern,western and northern aspects with respective slope of 55, 40 and 40 %. The entire runoff from study plots were collected in a container in 0.5×1×1 m. The sediment concentration was also measured in 2-liter samples taken from the container after a complete mixing of the entire collected runoff. The sample was treated by decantation technique, oven dried and weighted by high precision scale. The transported elements, i.e. potassium, phosphorous and nitrogen were also measured in solute and particulate forms. Ultimately, the data bank was developed in Excel 2010 and got ready to be processed in SPSS 19.0 software package and statistically compared with the help of analysis of variance (ANOVA) test.
Results and Discussion: The results showed that the soil loss, nitrogen concentration, potassium concentration and sediment concentration had significant difference (p

Keywords

20.1001.1.20084757.1395.30.3.21.5

References

1- Arabkhedri M. 2005. Assessment of suspended sedimentation in watersheds of Iran. Journal of Iran water resources research, 1(2): 51-60. (in Persian)

2- Chartier M.P., Rostagno C.M. and Videla L.S. 2013. Selective erosion of clay, organic carbon and total nitrogen in grazed semiarid rangelands of northeastern Patagonia, Argentina. Journal of Arid Environments, 88: 43-49.

3- Girmay G., Singh B.R., Nyssen J. and Borrosen T. 2009. Runoff and sediment associated nutrient losses under different land uses in Tigray, Norther Ethiopia. Journal of Hydrology, 376 (2): 70-80.

4- Golkarian A., Davoudi Moghaddam D., Naghibi S.A. and Eshghi Zadeh M. 2013. Assessment of rangeland hydrology and erosion model for estimating sediment yield on rangeland’s slopes in dry regions (A Case study: Shahid Noori watershed- khorasan Razavi). Journal of Rangeland and Watershed, 66(3): 457-467. (in Persian with English abstract)

5- Hajabbasi M., Jalalian A., Khajedin J. and Karimzadeh H. 2002. Depasturation effects on physical characteristics, fertility, and tilth Index of soil: A Case Study of Boroojen. Journal of Science and Technology of Agriculture and Natural Resources, Journal of Water and Soil Science, 6 (1):149-161. (in Persian with English abstract)

6- Heydarian Aghakhani M., Naghipour Borj A.A. and Nasri M. 2011. The effects of exclosure on vegetation and soil chemical properties in Sisab rangelands, Bojnord, Iran. Journal of Renewable Natural Resources Research, 1 (2):14-27. (in Persian with English abstract)

7- Izquierdo A.E., and Grau H.R. 2009. Agriculture adjustment, land-use transition and protected areas in northwestern Argentina. Journal of Environmental Management, 90(2): 858-865.

8- Kassas M. 1983. The global biosphere: Conservation for survival. Journal of Mazingira, 7(2): 2-13.

9- Kauffman J.B., Sanford R.L., Cummings D.L., Salcedo I.H., and Sampaio E.V., 1993. Biomass and nutrient dynamics associated with slash fires in neotropical dry forests. Journal of Ecology, 74 (1): 140-151.

10- Khazaee M., Sadghi S.H.R., Mirnia S.Kh. and Yazdanimoghaddam Y. 2012. The effect of deforestation on soil nutrient loss and sedimentation in the Kojour forest watershed (Case study: Educational and Research Forest Watershed of Tarbiat Modares University). Iranian Journal of Natural Ecosystems, 3 (2): 1-12. (in Persian)

11- Khorasan Razavi Administration for Natural Resources and Watershed Management., 2007. Evaluation studies of Kakhk watershed in Gonabad. (in Persian)

12- Kohandel A., Arzani H. and Hosseini T. 2009. Grazing intensity effects on organic matter, nitrogen, phosphorus and potassium soil. Iranian Journal of Watershed Management Science and Engineering, 3(6): 59-65. (in Persian with English abstract)

13- Marques M.J., Jimenez L., Perez-Rodriguez R., Garcia-Ormaechea S., and Bienes R.. 2005. Reducing water erosion in a gypsic Soil by combined use of organic amendment and shrub revegetation. Journal of Land Degradation and Development, 16 (4): 339-350.

14- Martinez-Mena M., Castillo V and Albadalejo J. 2001. Hydrological and erosional response to natural rainfall in semi-arid area of south-east Spain. Hydrological Processes, 15 (4): 557-571.

15- Menezes R.S.C., Elliott E.T., Valentine D.W., Williams S.A. 2001. Carbon and nitrogen dynamics in elk winter ranges. Journal of Range Management, 54(1):400-408.

16- Morgan R.P.C., 2005. Soil Erosion and Conservation. 3rd edition, Oxford.

17- Pansak W., Hilger T.H., Dercon G., Kongkaew T. and Cadisch G. 2008. Changes in the relationship between soil erosion and N loss pathways after establishing soil conservation systems in uplands of northeast Thailand. Journal of Agriculture, Ecosystems and Environment, 128 (3): 167–176.

18- Sadeghi S.H.R., Bashari Seghale M. and Rangavar A. 2008. Comparison of changes in sediment with slope aspect and plot length in estimation of soil erosion caused by storms. Journal of Water and Soil, 22(2): 230-239. (in Persian with English abstract)

19- Sadeghi S.H.R., Safaeiyan N.A. and Ghanbari S.A. 2005. Assessment the role of land use on the type and severity of soil erosion (Case Study: Kasilian watershed). Journal of Agricultural Engineering Research, 26(1): 85-98. (in Persian with English abstract)

20- Sadeghi S.H.R. and Singh J.K. 2005. Development of a synthetic sediment graph using hydrological data. Journal of Agricultural Science and Technology, 7 (1-2): 69-77.

21- Sadeghi S.H.R., BashariSeghaleh M. and Rangavar A.S. 2013. Plot sizes dependency of runoff and sediment yield estimates from a small watershed. Catena, 102:55-61.

22- Sarkar D., Datta R. and Hannigan R. 2007. Concepts and applications in environmental geochemistry, developments in environmental Science. Elsevier Ltd, Amsterdam.

23- Shabani M. 2010. Effects of land use optimization on the rate of soil erosion and watershed profitability (Case Study: Zakherd Fars watershed). Journal of Natural Geography, 3(8): 83-98. (in Persian with English abstract)

24- Sheklabadi M., Khademi H. and Charkhabi A. 2003. Runoff generation in soils with different parent materials in Golabad watershed, Ardestan. Journal of Science and Technology of Agriculture and Natural Resources, 7(2): 85-101. (in Persian with English abstract)

25- Walling D.E., Collins A.L., Sichingabula H.A. and Leek G.J.L. 2001. Integrated assessment of catchment suspended sediment budgets: A Zambian example. Journal of Land Degradation and Development, 12 (5): 387–415.

26- Yaghmaee H., Sadeghi S.H.R. and Ghasempouri S.M. 2012. Controlling effects of discharge on water quality variables. Iranian Journal of Water Resources Research, 8(2): 87-92. (in Persian with English abstract)

27- Yousefi Fard M., Jalaliyan A. and Khademi H. 2007. Estimates of soil and nutrient loss due to range land use changes using rainfall simulator. Journal of Science and Technology of Agriculture and Natural Resources, 11(40): 93-106. (in Persian with English abstract)

28- Zar J.H. 1996. Bio statistical Analysis. 3rd Ed, Upper Saddle River, NJ: Prentice Hall.

29- Zarinkafsh M. 1993. Applied Soil, evaluation, morphology and quantitative analysis of soil, water and plant. Tehran University Press.

30- Zhang G.H., Liu G.B., and Wang G.L. 2010. Effects of Caragana Korshinskiikom, cover on runoff, sediment yield and nitrogen loss. International Journal of Sediment Research, 25: 245-257.

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Water and Soil

Comparison of Surface Runoff Generation, and Soil and Nutrient Loss in Kakhk Treated and Representative Watersheds, Khorasan Razavi Province

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Volume 30, Issue 3 - Serial Number 47
July and August 2016
Pages 920-929

Comparison of Surface Runoff Generation, and Soil and Nutrient Loss in Kakhk Treated and Representative Watersheds, Khorasan Razavi Province

References

References

Send comment about this article

Volume 30, Issue 3 - Serial Number 47July and August 2016Pages 920-929

Volume 30, Issue 3 - Serial Number 47
July and August 2016
Pages 920-929