Volume 10, Issue 19 (5-2019)
jwmr 2019, 10(19): 222-232 |
Back to browse issues page
Download citation:
BibTeX | RIS | EndNote | Medlars | ProCite | Reference Manager | RefWorks
Send citation to:
BibTeX | RIS | EndNote | Medlars | ProCite | Reference Manager | RefWorks
Send citation to:
Taleshian Jeloudar F, Ghajar Sepanlou M, Emadi S M. (2019). "Technical Report"
The Effects of Land use Change on Some Physical and Chemical Properties of Soil (Case Study: Babolrood watershed). jwmr. 10(19), 222-232. doi:10.29252/jwmr.10.19.222
URL: http://jwmr.sanru.ac.ir/article-1-786-en.html
URL: http://jwmr.sanru.ac.ir/article-1-786-en.html
Sari Agricultural Sciences and Natural Resources University, Sari, Iran
Abstract: (2944 Views)
Land use change is an important issue in Iran, especially in the north of the country. In the present research, effect of changing land use from rangeland to cropland and garden on some physical and chemical characteristics of soil, was studied in Babolrood Watershed in southern part of Babol, Eastern Bandpey in Mazandaran province. For each land use, soil samples were collected from 2 depths at 4 replicates and the data were statistically analyzed by factorial test using a randomized complete block design. Results indicated that the highest percentage of sand, silt and clay in garden, Rangeland and Cropland, respectively. Change from rangeland to cropland, significantly increased bulk density and the bulk density in the lower layer was higher than that in the surface layer. The most amount of porositywas observed in the garden lands at a rate of 54.87 percent.The highest Aggregate stability was obtained for rangeland, garden and highest water holding capacity was observed at the depth of 20-40 cm, (64.62 percent). The highest saturated hydraulic conductivity (Ks) of the soil was in garden. Furthermore land use change resulted in change in soil reaction content, so that the highest amount of it was 7.54 in cropland. The highest soil electrical conductivity (EC) was in garden. The highest percentage of organic carbon (OC) was in the surface layer, at a rate of 2.47 percent in garden and the lowest percentage of it was in the subsurface layer at a rate of 0.26 percent in cropland. The result of this study regarding the above comparing some soil quality properties showed that the change of land use to cropland usage and as result of severity of agriculture operation, have an negative impact on soil properties.
Type of Study: Research |
Subject:
تغيير کاربری اراضی
Received: 2017/02/20 | Revised: 2019/12/29 | Accepted: 2017/06/6 | Published: 2019/08/3
Received: 2017/02/20 | Revised: 2019/12/29 | Accepted: 2017/06/6 | Published: 2019/08/3
References
1. Ahmadi, R. 1995. The role of land use and intensifying the mass movement's forest. M.Sc. Thesis, Faculty of Humanities, Tarbiat Modarres University, Tehran, Iran (In Persian).
2. Akbari, N.A., A. Jalalian and A. Rezaei-Nejad. 2011. Long-term effects of rice cultivation, orchard, crop rotation and fallow rice on soil quality in series golden river of Isfahan. Congress of Soil Science, Tabriz, Iran on September, 14-12 (In Persian).
3. Al Amin, M., B.S. Rashford, C.T. Bastin and D.M. Aadland. 2013. Agricultural land use in a Changing Climate: Impications for Waterfowl Habitat in Prairie Canada, 59(2): 185-205.
4. Blake, G.R. and K.H. Hartage. 1986. Bulk density, In: Klute, A., (Ed.), Methods of Soil Analysis, Part 1, 2nd Edition. Agronomy Monograph.American Society of Agronomy, Madison, WI, 9: 363-375.
5. Blake, G.R. and K.H. Hartage. 1986. Particle density, In: Klute, A., (Ed.), Methods of Soil Analysis, Part 1, 2nd Edition. Agronomy Monograph.American Society of Agronomy, Madison, WI, 9: 377-381.
6. Bodhinayake, W. and Si.B. Cheng. 2004. Near-saturated surface soil hydraulic properties under different land uses in the St Denis National Wildlife Area, Saskatchewan, Canada. Hydrological Processes, 18: 2835-2850. [DOI:10.1002/hyp.1497]
7. Bolan, N.S., M.J. Hedley and R.E. White. 1991. Process of soil acidification during nitrogen cycling with emphasis on legume based pastures. Plant and Soil Journal, 134: 53-63. [DOI:10.1007/BF00010717]
8. Bormann, H. and K. Klaassen. 2008. Seasonal and land use dependent variability of soil hydraulic and soil hydrological properties of two Northern German soils. Geoderma, 145: 295-302. [DOI:10.1016/j.geoderma.2008.03.017]
9. Boroumand, M., M. Ghajar Sepanlou and M.A. Bahmanyar. 2014. The effect of land use changes on soil physical and chemical characteristics (Case Study: Semeskandeh Sari). Journal of Watershed Management Research, 5(9): 78-93 (In Persian).
10. Bouyoucos, G.J. 1962. Hydrometer method improved for making particle size analysis of soils. Agronomy Journal, 54: 464-465. [DOI:10.2134/agronj1962.00021962005400050028x]
11. Canadell, J. and I. Noble. 2001. Challenges of a changing Earth. Trends in Ecology and Evolution, 16: 664-666. [DOI:10.1016/S0169-5347(01)02337-0]
12. Cant.n, Y., A. Solé-Benet, C. Asensio, S. Chamizo and J. Puigdef bregas. 2009. Aggregate stability in range sandy loam soils Relationships with runoff and erosion. Catena, 77: 192-199. [DOI:10.1016/j.catena.2008.12.011]
13. Celik, I. 2005. Land use effects on organic matter and physical properties of soilin a southernMediterranean highland of Turkey. Soil and Tillage Research, 83: 270-277. [DOI:10.1016/j.still.2004.08.001]
14. Chen, D.D., S.H. Zhang, S.K. Dong, X.T. Wang and G.Z. Du. 2010. Effect of land use on soil nutrients and microbial biomass of an alpine region on the northeastern Tibetan plateau, China. Land Degrade Development, 21: 446-452. [DOI:10.1002/ldr.990]
15. Chibsa, T. and A. Ta'a. 2009. Assessment of soil organic matter under four land use systems, in Bale Highlands, Southeast Ethiopia,soil organic matter contents in four land use systems: Forestland, Grassland, Fallow Land and Cultivated Land, World Applied Sciences Journal, 6(9): 1231-1246.
16. Danleson, R.E. and P.L. Sutherland. 1986. Porosity, In: Klute, A, (Ed.), Methods of soil analysis, Part 1, 2nd Edition. Agronomy Monograph. Vol. 9. American Society of Agronomy. Madison, 443-460.
17. De Noni, G., B. Didier, L. Jean-Yves, Le.B. Yves and A. Jean. 2002 .Proposal of soil indicators for spatial analysis of carbon stocks evolution. 17th. WCSS. 14-21 August. Thailand, 1-13.
18. Evrendilek, F., I. Celik and S. Kilic. 2004. Changes in soil organic carbon and other physicalsoil properties along adjacent Mediterranean forest,grassland, and cropland ecosystems in Turkey. Journal of Arid Environments, 59: 743-752. [DOI:10.1016/j.jaridenv.2004.03.002]
19. Famiglietti, J.S., J.W. Rudnicki and M. Rodell. 1998. Variability in surface moisture content along a hillslope transect: Rattlesnake Hill, Texas. Journal of Hydrology, 210: 259-281. [DOI:10.1016/S0022-1694(98)00187-5]
20. FAO, UNDP and UNEP.1994. Land degradation in South Asia: its severity causes and effects upon the people. World Soil Resources Reports, 78 pp.
21. Gajic, B., G. Dugalic and N. Djurovic. 2006. Comparison of soil organic matter content aggregate composition and water stability of gleyic fluvisol from adjacent forest and cultivated area. Agronomy Research, 4(2): 499-508.
22. Getahun, H., L. Mulugeta, I. Fisseha and S. Feyera. 2014. Impacts of land uses changes on soil fertility, carbon and nitrogen stock under smallholder farmers in central highlands of Ethiopia: implication for sustainable agricultural landscape management around Butajira area. New York Science Journal, 7(2): 27-44.
23. Hajabasi, M., A. Besalatpour and A. Melali. 2008. Impacts of converting rangelands to cultivated land on physical and chemical properties of soils in west and southwest of Isfahan, Journal of Science and Technology of Agriculture and Natural Resources. Water and Soil Science- Isfahan University of Technology, 11(42): 525-534 (In Persian).
24. Hairiah, K., H. Sulistyani, D. Suprayogo, P. Widianto, R.H. Pumomosidhi and M. Van Noordwijk. 2006. Litter layer residence time in forest and coffee agroforestry systems in Sumberjaya. West Lampung, Forest Ecology and Management, 224: 45-57. [DOI:10.1016/j.foreco.2005.12.007]
25. Islam, K.R. and R.R. Weil. 2000. Land use effects on soil quality in a tropical forest ecosystem of Bangladesh. Agriculture, Ecosystems and Environment Journal, 79: 9-16. [DOI:10.1016/S0167-8809(99)00145-0]
26. Kamper, W.D. and R.C. Rosenau. 1986. Aggregate stabilitiy and size distribution.In: Klute, A. (Ed.), Methods of soil Analysis. Part 1. Physical and Mineralogival Methods, second ed. Agronomy Monographs. ASA-SSA, Madison, WI, 9: 455-442.
27. Keck, H., V.J.M.N.L. Felde, S.L. Drahorad and P. Felix-Henningsen. 2016. Biological soil crusts cause subcritical water repellency in a sand dune ecosystem located along a rainfall gradient in the NW Negev desert, Israel. Journal of Hydrology and Hydromechanics, 64(2): 133-140. [DOI:10.1515/johh-2016-0001]
28. Ketema, Hand F. Yimer. 2014. Soil property variation under agroforestry based conservationtillage and maize based conventional tillage in Southern Ethiopia. Soil Tillage Research, 141: 25-31. [DOI:10.1016/j.still.2014.03.011]
29. Kiani, F., A. Jalalian, A. Pashaee and H. Khademi. 2007. Effect of deforestation, grazing exclusion and rangeland degradation on soil quality indices in loess-derived landforms of Golestan Province. Journal of Science and Technology of Agriculture and Natural Resources, Water and Soil Science, Isfahan University of Technology, 11(41): 453-464 (In Persian).
30. Klut, A and C. Dirksen. 1986. Methods of Soil Analysis. Part 1, Physical and 6-5 Mineralogical Methods. Madison Wisconsin, 1188 pp.
31. Kotingo, K.E. 2015. Toposequence analysis of soil properties of an agricultural field in the Obudumountain slopes, Cross River State-Nigeria. European Journal Physics and Agricultural Science, 3(1): 1-11.
32. Longley, P.A. and V. Mesev. 2000. On the measurement and generalization of urban form Environment and Planning. Tourism Management, 32:473-488. [DOI:10.1068/a3224]
33. Martinez-Mena, M., J. Lopez, M. Almagro, C. Boix-Fayos and J. Albaladejo. 2008. Effect ofwater erosion and cultivation on the soil carbonstock in a semiarid area of South-East Spain.Soil and Tillage Research, 99: 119-129. [DOI:10.1016/j.still.2008.01.009]
34. McDonald, M.A., J.R. Healey and P.A. Stevens. 2002. The effects of secondary forest clearance and subsequent land use on erosion losses and soil properties in the Blue Mountains of Jamaica. Journal of Agriculture Ecosystems and Environment, 92: 1-19. [DOI:10.1016/S0167-8809(01)00286-9]
35. Michel, Y. and A. pascal. 2010. Effects of land use types on soilorganic carbon andnitrogendynamics in Mid-West Côte d'Ivoire.European Journal of ScientificResearch, 40(2): 211-222.
36. Negasa, T., H. Ketema, A. Legesse, M. Sisay and H. Temesgen. 2017. Variation in soil properties under different land use types managed by smallholder farmers along the toposequence in southern Ethiopia. Geoderma, 290: 40-50. [DOI:10.1016/j.geoderma.2016.11.021]
37. Nicknahad Qrmakhr, H. and M. Maramaei. 2011. The effects of land use changes on soil properties (Case study: Watershed Ketchikan). Journal of Soil Management and Sustainable Production, 1(2): 96-81 (In Persian).
38. Olorunfemi, I.E. and J.T. Fasinmirin. 2017. Land use management effects on soil hydrophobicity and hydraulic properties in Ekiti State, forest vegetative zone of Nigeria. Catena, 155: 170-182. [DOI:10.1016/j.catena.2017.03.012]
39. Puget, P., C. Chenu and J. Balesdent. 2000. Dynamics of soil organic matter associated with particle-size fractions of water-stable aggregates. European Journal of Soil Science, 51: 595-605. [DOI:10.1046/j.1365-2389.2000.00353.x]
40. Refahi, H.G.H. 2006. Water erosion and control, University of Tehran Press, 671 pp.
41. Soleimani, K. and A. Azmodeh. 2010. The Role of land use change on some physical, chemical and soil erodibility. (Case Study: Watershed Berenjestanak Mazandaran province). Research-natural geography, 74: 124-11 (In Persian).
42. Six, J., R.T. Conant, E.A. Paul and K. Paustian. 2002. Stabilization mechanisms of soil organic matter: implications for C-saturation of soils. Plant and Soil Science, 24: 155-176. [DOI:10.1023/A:1016125726789]
43. Tajik, F. 2004. Evaluation of the aggregate stability in parts of Iran, magazines Science and Technology of Agriculture and Natural Resources. Soil and Water Sciences, 8(1): 107-122.
44. Tajkhalili, N., S. Saeedi and A. Bybordi. 2011. Evaluation of some soil physical characteristics turns on from forest to pasture land and agricultural land in Arasbaran protected area. 12th congress of soil science, 12-14 September, Tabriz, Iran, (In Persian).
45. Tejada, M. and J.L. Gonzalez. 2008. Influence of two organic amendments on the soil physical properties, soil losses, sediments and runoff water quality. Geoderma, 145: 325-334. [DOI:10.1016/j.geoderma.2008.03.020]
46. Turudu, O.A.1981. Investigation of some physical and chemical properties of spruce forest, beech forest and meadow and maize farmland soils located same aspects in Trabzon-Hamsikoy province. Kardeniz Technical University Forestry Faculty Kardeniz Technical University Press, Trabzon, 13.
47. Wallkley, A. and I.A. Black. 1934. An Examination of degtjareffmethod for determining soil organic metter and proposed modification of the chromic acid Titration Method. Soil Science, 37: 29-37. [DOI:10.1097/00010694-193401000-00003]
48. Wang, H., D. Guan, R. Zhang, Y. Chen, Y. Hu and L. Xiao. 2014. Soil aggregates and organic carbon affected by the land use change from rice paddy to vegetable field. Ecological Engineering, 70: 206-211. [DOI:10.1016/j.ecoleng.2014.05.027]
49. Yousefifard, M., A. Jalalian and H. Khademi. 2007. Estimate soil loss and nutrient pasture land use changes using a rainfall simulator. Science and Technology of Agriculture and Natural Resources, Soil and Water Sciences, 11(40a): 106-93.
Send email to the article author
| Rights and permissions | |
 |
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License. |
