Modelling of Soil Erosion by Non Conventional Methods
Soil erosion is the most serious problem faced at
global and local level. So planning of soil conservation measures has
become prominent agenda in the view of water basin managers. To
plan for the soil conservation measures, the information on soil
erosion is essential. Universal Soil Loss Equation (USLE), Revised
Universal Soil Loss Equation 1 (RUSLE1or RUSLE) and Modified
Universal Soil Loss Equation (MUSLE), RUSLE 1.06, RUSLE1.06c,
RUSLE2 are most widely used conventional erosion estimation
methods. The essential drawbacks of USLE, RUSLE1 equations are
that they are based on average annual values of its parameters and so
their applicability to small temporal scale is questionable. Also these
equations do not estimate runoff generated soil erosion. So
applicability of these equations to estimate runoff generated soil
erosion is questionable. Data used in formation of USLE, RUSLE1
equations was plot data so its applicability at greater spatial scale
needs some scale correction factors to be induced. On the other hand
MUSLE is unsuitable for predicting sediment yield of small and large
events. Although the new revised forms of USLE like RUSLE 1.06,
RUSLE1.06c and RUSLE2 were land use independent and they have
almost cleared all the drawbacks in earlier versions like USLE and
RUSLE1, they are based on the regional data of specific area and
their applicability to other areas having different climate, soil, land
use is questionable. These conventional equations are applicable for
sheet and rill erosion and unable to predict gully erosion and spatial
pattern of rills. So the research was focused on development of nonconventional
(other than conventional) methods of soil erosion
estimation. When these non-conventional methods are combined with
GIS and RS, gives spatial distribution of soil erosion. In the present
paper the review of literature on non- conventional methods of soil
erosion estimation supported by GIS and RS is presented.
[1] O. F. Amiri, and T. Tabatabaie, "EPM approach for erosion modeling
by using RS and GIS," in 2009 Proc. 7th FIG Regional Conference
Spatial Data Serving People, Land Governance and The Environment-
Building the Capacity, Hanoi, Vietnam, pp. 1-10.
[2] L. T. ANH, "Regional scale soil erosion modeling for observation
planning using RS & GIS techniques-a case study in the centre of
Himalayan region," in 2009 Proc. 7th FIG Regional Conference,Hanoi,
Vietnam, pp. 1-15.
[3] D. Anrong, Z. Sicong, H. Xindong, T. Lihua, and X. Haibo, "Case study
of soil erosion supported by GIS & RS," in 2003 Proceedings of
Geoscience and Remote Sensing Symposium,IGARSS-03, France, pp.
2857-2859.
[4] P. Behera, K. H. V. Durga Rao, and K. K. Das, "Soil erosion modeling
using MMF model-a remote sensing and GIS perspective," J. Indian
Society of Remote Sensing, vol. 33, no. 1, pp. 165-176, 2005.
[5] H. Belaid, and M. A. Karteris, "Use of GIS to predict potential erosion
areas in a typical mediterranean watershed," in Proc. CIHEAM -
Options Mediterraneennes Conference, pp.109-115.
http://ressources.ciheam.org/om/pdf/c09/96605584.pdf
[6] C. Evangelou, "Using geographic information system (GIS) technology
to assess soil erosion risks in Europe," Environmental Connection, vol.
2, no. 2, pp. 24-26.
[7] S. L. Curzio, and P. Magliulo, "Soil erosion assessment using
geomorphological remote sensing techniques: an example from
Southern Italy," Earth Surface Processes and Landforms, vol. 35, no.
3, pp. 262-271, December 2009.
[8] O. Degniz, P. Yukupoglu, and O. Baskan, "Soil erosion assessment
using geographical information system (GIS) and remote sensing (RS)
study from Ankara-Guvenc basin, Turkey," J. Environmental Biology,
Vol. 30, No. 3, May, pp. 339-44.
[9] F. Dondofema, A. Murwira, and A. Mhizha, "Identifying gullies and
determining their relationships with environmental factors using GIS in
the Zhulubemeso-catchment," in 2008 9th WaterNet/WARFSA/GWP
SA Programme, Water and Sustainable Development for Improved
Livelihoods, Johannesburg, South Africa, pp. 1-
8.http://www.waternetonline.ihe.nl/challengeprogram/P48%20Dondof
ma%20Gullies.pdf
[10] G. R. Foster, T. E. Toy, and K. G. Renard, "Comparison of the USLE,
RUSLE1.06c and RUSLE2 for application to highly disturbed lands,"
in 2003 Proceedings of First Interagency Conference on Research in
The Watersheds, Benson, Arizona, pp. 154
160.http://www.tucson.ars.ag.gov/icrw/proceedings/foster.pdf
[11] N. Hassen, "The assessment of erosion vulnerability using GIS and
remote sensing application," Master of Science Thesis Submitted in the
Addis Ababa University, June 2009.
[12] J. Huang, and W. Xu, "Quantitative assessment of regional soil erosion
in Chengdu plain of Sichuan province, R.S & GIS," in 2007 Geoscience
and Remote Sensing Symposium, IGARSS 2007, IEEE International,
pp. 3131-3134.
[13] A. S. Jasrotia, S. D. Dhiman, and S. P. Aggarwal, "Rainfall runoff and
soil erosion modeling using RS & GIS technique-a case study of Tons
watershed," J. Indian Society of Remote Sensing, vol. 30, no. 3, pp. 1-
14, August 2002.
[14] S. K. Jain, and M. K. Goel, "Assessing the vulnerability to soil erosion
of the Ukai dam catchments using remote sensing and
GIS,"Hydrological Sciences J., vol. 47, no. 1, pp. 31-40, December
2009.
[15] A. NG. S. Kim, "Application of geographic information system (GIS) in
soil erosion prediction: a case study of the SG. Hijau watershed,
Fraser's hill, Pahang," Doctoral Thesis Submitted in the Faculty of
Forestry, University Putra Malaysia, Selangor, Malaysia, May 2003.
[16] U. C. Kothyari, and S. K. Jain, "Sediment yield estimation using GIS,"
Hydrological Sciences J., vol. 42, no. 6, pp. 833-843, December 1997.
[17] M. Kokh-Shrestha, "Soil erosion modeling using remote sensing and
GIS: a case study of Jhikhu Khola watershed, Nepal," in 2002 Proc.
ACRS2002, Kathmandu, Nepal. http://www.a-a-rs.
org/acrs/proceeding/ACRS2002/Papers/SAG02-7.pdf
[18] R. L. Lanuzaa, E. P. Paningbatan Jr., "Validation and sensitivity
analysis of catchment runoff and erosion simulation technology
(CREST): a GIS-assisted soil erosion model at watershed level," in 2010
Proc. International Congress on Environmental Modeling and Software
Modeling for Environment-s Sake, Ottawa, Canada.
http://www.iemss.org/iemss2010/index.php?n=Main.Proceedings.
[19] C. Lloyd, and D. Favis-Mortlock, "Modeling erosion on conditionallysimulated
DEMs of bare soil surfaces," in 2003 Proc. 7th International
Conference on GeoComputation, University of Southampton, United
Kingdom.http://www.geocomputation.org/2003/Abstracts/Lloyd_Abs.p
df
[20] T. A. Mahammadi, and V. Shadparvar, "Investigation of the possibility
to prepare supervised classification map of gully erosion," Life Science
J., vol. 8, no. 1, pp. 383-386, 2011.
[21] I. Milevski,"Estimation of soil erosion risk in the upper part of
Bregalnica watershed-republic of Macedonia based on digital elevation
model and satellite imagery," in 2008 5th International Conference on
Geographic Information Systems, Fatih University, Istanbul, Turkey,
pp. 351-358.
[22] T. A. Mohammadi, and D. Nikkami, "Methodologies of preparing
erosion features map by using RS and GIS," International J. Sediment
Research, vol. 23, no. 2, pp. 130-137, June 2008.
[23] T. A. Mohammadi, and N. Haghighat, "Investigation of some
methodologies in providing erosion maps of surface, rill and gully and
erosion features," J. World Academy of Science, Engineering and
Technology, vol. 68, pp. 1206-1209, 2011.
[24] G. Nabi, "Regional scale sediment yield modeling using GIS and remote
sensing," Doctoral Thesis submitted in Centre of Excellence in Water
Resources Engineering, University of Engineering and Technology,
Lahore, Pakistan, 2004.
[25] A. Pandey, V. M. Chowdary, and B. C. Mal, "Sediment yield modeling
of an agricultural watershed using MUSLE, remote sensing and
GIS,"Paddy and Water Environment, Elsevier, vol. 7, no. 2, pp. 105-
113,February 2009.
[26] R. Paul, H. Eswaran, and F. Beinroth, "Global dimensions of
vulnerability to wind and water erosion," in 1999 Proc. Sustaining
Global Farm, 10th International Soil Conservation Organization
Meeting, Purdue University, USA, pp. 838-846.
[27] D. D. Phai, D. Orange, J. B. Migraine, D. T. Tran, and C. V. Nguyen,
"Applying GIS-assisted modeling to predict soil erosion for a Small
agricultural watershed within sloping lands in Northern Vietnam," in
1999Proc. Sustainable Sloping Lands and Watershed Management
Conference, Northern Vietnam, pp. 212-228.
http://www.nafri.org.la/document/SSLWM/ch2_09_phai.pdf
[28] K. G. Renard, G. R. Foster, G. A. Weesies, D. K. McCool, D. C.
Yoder, and Co-ordinators, "Predicting soil erosion by water: a guide to
conservation planning with the revised universal soil loss equation
(RUSLE)," U. S. Department of Agriculture, Agriculture Handbook No.
703, 1997.
[29] K. D. Sharma, "A distributed spatial sediment delivery model for the
arid regions," Hydrology J., vol. 29, no.1 & 2, pp. 1-17, March - June
2006.
[30] B. Tabassum, "Role of RS and GIS in agriculture: a case study of
Dikrong river basin," J. Geo-Informatics, Institute of Earth Sciences,
CCS University, Meerut, India, pp. 1-13, 1999.
[31] T. J. Toy, and G. R. Foster, "Use of the revised universal soil loss
equation (RUSLE) version 1.06 on mined lands, construction sites, and
reclaimed lands," U. S. Department of Interior, Office of Surface
Mining, Reclamation, and Regulation, U. S. A., 1998
[32] U.S. Department of Agriculture, Agricultural Research Service,National
Sediment Laboratory (USDA-ARS-NSL), "RUSLE1.06c and RUSLE2,"
U.S.A., 2003. http://www.sedlab.olemiss.edu/rusle.
[33] S. Y. Wang, Z. X. Zhang, and X. Zhao, "Remote sensing study on soil
erosion backed by GIS-take the soil erosion in Hubei province for
example," in 2001 Proc. Info-tech and Info-net Conference, Beijing,
China, pp. 159-164.
http://ieeexplore.ieee.org/stamp/stamp.jsp?arnumber=00982738
[34] Z. Wan, and C. Sangchyoswat, "Soil erosion risk assessment using GIS
and farmer-s perception: a case study in dry zone area of central region
of Myanmar," pp. 395-405, 2001.
http://www.mcc.cmu.ac.th/Seminar/pdf/1534.pdf
[35] L. Weihua, W. Yonggang, M. Dianhui, and Y. Yan, "Regional
assessment of soil erosion based on Naive Bayes," in 2007 Proc. Of
International Conference on Computational Intelligence and Security,
Harbin, China, pp. 6-9.
[36] W. H. Wischmeir, and D. Smith, "Predicting rainfall erosion losses- a
guide to conservation planning," U. S. Department of Agriculture,
Agriculture Handbook No. 537, 1978.
[37] S. T. Yang, and Q. Zhu, "Intelligent interpreting soil erosion based on
geographic knowledge," in 2003 Proc. Geoscience and Remote Sensing
Symposium, France, pp. 2468-2470.
[38] http://en.wikipedia.org/wiki/Erosion
[1] O. F. Amiri, and T. Tabatabaie, "EPM approach for erosion modeling
by using RS and GIS," in 2009 Proc. 7th FIG Regional Conference
Spatial Data Serving People, Land Governance and The Environment-
Building the Capacity, Hanoi, Vietnam, pp. 1-10.
[2] L. T. ANH, "Regional scale soil erosion modeling for observation
planning using RS & GIS techniques-a case study in the centre of
Himalayan region," in 2009 Proc. 7th FIG Regional Conference,Hanoi,
Vietnam, pp. 1-15.
[3] D. Anrong, Z. Sicong, H. Xindong, T. Lihua, and X. Haibo, "Case study
of soil erosion supported by GIS & RS," in 2003 Proceedings of
Geoscience and Remote Sensing Symposium,IGARSS-03, France, pp.
2857-2859.
[4] P. Behera, K. H. V. Durga Rao, and K. K. Das, "Soil erosion modeling
using MMF model-a remote sensing and GIS perspective," J. Indian
Society of Remote Sensing, vol. 33, no. 1, pp. 165-176, 2005.
[5] H. Belaid, and M. A. Karteris, "Use of GIS to predict potential erosion
areas in a typical mediterranean watershed," in Proc. CIHEAM -
Options Mediterraneennes Conference, pp.109-115.
http://ressources.ciheam.org/om/pdf/c09/96605584.pdf
[6] C. Evangelou, "Using geographic information system (GIS) technology
to assess soil erosion risks in Europe," Environmental Connection, vol.
2, no. 2, pp. 24-26.
[7] S. L. Curzio, and P. Magliulo, "Soil erosion assessment using
geomorphological remote sensing techniques: an example from
Southern Italy," Earth Surface Processes and Landforms, vol. 35, no.
3, pp. 262-271, December 2009.
[8] O. Degniz, P. Yukupoglu, and O. Baskan, "Soil erosion assessment
using geographical information system (GIS) and remote sensing (RS)
study from Ankara-Guvenc basin, Turkey," J. Environmental Biology,
Vol. 30, No. 3, May, pp. 339-44.
[9] F. Dondofema, A. Murwira, and A. Mhizha, "Identifying gullies and
determining their relationships with environmental factors using GIS in
the Zhulubemeso-catchment," in 2008 9th WaterNet/WARFSA/GWP
SA Programme, Water and Sustainable Development for Improved
Livelihoods, Johannesburg, South Africa, pp. 1-
8.http://www.waternetonline.ihe.nl/challengeprogram/P48%20Dondof
ma%20Gullies.pdf
[10] G. R. Foster, T. E. Toy, and K. G. Renard, "Comparison of the USLE,
RUSLE1.06c and RUSLE2 for application to highly disturbed lands,"
in 2003 Proceedings of First Interagency Conference on Research in
The Watersheds, Benson, Arizona, pp. 154
160.http://www.tucson.ars.ag.gov/icrw/proceedings/foster.pdf
[11] N. Hassen, "The assessment of erosion vulnerability using GIS and
remote sensing application," Master of Science Thesis Submitted in the
Addis Ababa University, June 2009.
[12] J. Huang, and W. Xu, "Quantitative assessment of regional soil erosion
in Chengdu plain of Sichuan province, R.S & GIS," in 2007 Geoscience
and Remote Sensing Symposium, IGARSS 2007, IEEE International,
pp. 3131-3134.
[13] A. S. Jasrotia, S. D. Dhiman, and S. P. Aggarwal, "Rainfall runoff and
soil erosion modeling using RS & GIS technique-a case study of Tons
watershed," J. Indian Society of Remote Sensing, vol. 30, no. 3, pp. 1-
14, August 2002.
[14] S. K. Jain, and M. K. Goel, "Assessing the vulnerability to soil erosion
of the Ukai dam catchments using remote sensing and
GIS,"Hydrological Sciences J., vol. 47, no. 1, pp. 31-40, December
2009.
[15] A. NG. S. Kim, "Application of geographic information system (GIS) in
soil erosion prediction: a case study of the SG. Hijau watershed,
Fraser's hill, Pahang," Doctoral Thesis Submitted in the Faculty of
Forestry, University Putra Malaysia, Selangor, Malaysia, May 2003.
[16] U. C. Kothyari, and S. K. Jain, "Sediment yield estimation using GIS,"
Hydrological Sciences J., vol. 42, no. 6, pp. 833-843, December 1997.
[17] M. Kokh-Shrestha, "Soil erosion modeling using remote sensing and
GIS: a case study of Jhikhu Khola watershed, Nepal," in 2002 Proc.
ACRS2002, Kathmandu, Nepal. http://www.a-a-rs.
org/acrs/proceeding/ACRS2002/Papers/SAG02-7.pdf
[18] R. L. Lanuzaa, E. P. Paningbatan Jr., "Validation and sensitivity
analysis of catchment runoff and erosion simulation technology
(CREST): a GIS-assisted soil erosion model at watershed level," in 2010
Proc. International Congress on Environmental Modeling and Software
Modeling for Environment-s Sake, Ottawa, Canada.
http://www.iemss.org/iemss2010/index.php?n=Main.Proceedings.
[19] C. Lloyd, and D. Favis-Mortlock, "Modeling erosion on conditionallysimulated
DEMs of bare soil surfaces," in 2003 Proc. 7th International
Conference on GeoComputation, University of Southampton, United
Kingdom.http://www.geocomputation.org/2003/Abstracts/Lloyd_Abs.p
df
[20] T. A. Mahammadi, and V. Shadparvar, "Investigation of the possibility
to prepare supervised classification map of gully erosion," Life Science
J., vol. 8, no. 1, pp. 383-386, 2011.
[21] I. Milevski,"Estimation of soil erosion risk in the upper part of
Bregalnica watershed-republic of Macedonia based on digital elevation
model and satellite imagery," in 2008 5th International Conference on
Geographic Information Systems, Fatih University, Istanbul, Turkey,
pp. 351-358.
[22] T. A. Mohammadi, and D. Nikkami, "Methodologies of preparing
erosion features map by using RS and GIS," International J. Sediment
Research, vol. 23, no. 2, pp. 130-137, June 2008.
[23] T. A. Mohammadi, and N. Haghighat, "Investigation of some
methodologies in providing erosion maps of surface, rill and gully and
erosion features," J. World Academy of Science, Engineering and
Technology, vol. 68, pp. 1206-1209, 2011.
[24] G. Nabi, "Regional scale sediment yield modeling using GIS and remote
sensing," Doctoral Thesis submitted in Centre of Excellence in Water
Resources Engineering, University of Engineering and Technology,
Lahore, Pakistan, 2004.
[25] A. Pandey, V. M. Chowdary, and B. C. Mal, "Sediment yield modeling
of an agricultural watershed using MUSLE, remote sensing and
GIS,"Paddy and Water Environment, Elsevier, vol. 7, no. 2, pp. 105-
113,February 2009.
[26] R. Paul, H. Eswaran, and F. Beinroth, "Global dimensions of
vulnerability to wind and water erosion," in 1999 Proc. Sustaining
Global Farm, 10th International Soil Conservation Organization
Meeting, Purdue University, USA, pp. 838-846.
[27] D. D. Phai, D. Orange, J. B. Migraine, D. T. Tran, and C. V. Nguyen,
"Applying GIS-assisted modeling to predict soil erosion for a Small
agricultural watershed within sloping lands in Northern Vietnam," in
1999Proc. Sustainable Sloping Lands and Watershed Management
Conference, Northern Vietnam, pp. 212-228.
http://www.nafri.org.la/document/SSLWM/ch2_09_phai.pdf
[28] K. G. Renard, G. R. Foster, G. A. Weesies, D. K. McCool, D. C.
Yoder, and Co-ordinators, "Predicting soil erosion by water: a guide to
conservation planning with the revised universal soil loss equation
(RUSLE)," U. S. Department of Agriculture, Agriculture Handbook No.
703, 1997.
[29] K. D. Sharma, "A distributed spatial sediment delivery model for the
arid regions," Hydrology J., vol. 29, no.1 & 2, pp. 1-17, March - June
2006.
[30] B. Tabassum, "Role of RS and GIS in agriculture: a case study of
Dikrong river basin," J. Geo-Informatics, Institute of Earth Sciences,
CCS University, Meerut, India, pp. 1-13, 1999.
[31] T. J. Toy, and G. R. Foster, "Use of the revised universal soil loss
equation (RUSLE) version 1.06 on mined lands, construction sites, and
reclaimed lands," U. S. Department of Interior, Office of Surface
Mining, Reclamation, and Regulation, U. S. A., 1998
[32] U.S. Department of Agriculture, Agricultural Research Service,National
Sediment Laboratory (USDA-ARS-NSL), "RUSLE1.06c and RUSLE2,"
U.S.A., 2003. http://www.sedlab.olemiss.edu/rusle.
[33] S. Y. Wang, Z. X. Zhang, and X. Zhao, "Remote sensing study on soil
erosion backed by GIS-take the soil erosion in Hubei province for
example," in 2001 Proc. Info-tech and Info-net Conference, Beijing,
China, pp. 159-164.
http://ieeexplore.ieee.org/stamp/stamp.jsp?arnumber=00982738
[34] Z. Wan, and C. Sangchyoswat, "Soil erosion risk assessment using GIS
and farmer-s perception: a case study in dry zone area of central region
of Myanmar," pp. 395-405, 2001.
http://www.mcc.cmu.ac.th/Seminar/pdf/1534.pdf
[35] L. Weihua, W. Yonggang, M. Dianhui, and Y. Yan, "Regional
assessment of soil erosion based on Naive Bayes," in 2007 Proc. Of
International Conference on Computational Intelligence and Security,
Harbin, China, pp. 6-9.
[36] W. H. Wischmeir, and D. Smith, "Predicting rainfall erosion losses- a
guide to conservation planning," U. S. Department of Agriculture,
Agriculture Handbook No. 537, 1978.
[37] S. T. Yang, and Q. Zhu, "Intelligent interpreting soil erosion based on
geographic knowledge," in 2003 Proc. Geoscience and Remote Sensing
Symposium, France, pp. 2468-2470.
[38] http://en.wikipedia.org/wiki/Erosion
@article{"International Journal of Earth, Energy and Environmental Sciences:52348", author = "Ganesh D. Kale and Sheela N. Vadsola", title = "Modelling of Soil Erosion by Non Conventional Methods", abstract = "Soil erosion is the most serious problem faced at
global and local level. So planning of soil conservation measures has
become prominent agenda in the view of water basin managers. To
plan for the soil conservation measures, the information on soil
erosion is essential. Universal Soil Loss Equation (USLE), Revised
Universal Soil Loss Equation 1 (RUSLE1or RUSLE) and Modified
Universal Soil Loss Equation (MUSLE), RUSLE 1.06, RUSLE1.06c,
RUSLE2 are most widely used conventional erosion estimation
methods. The essential drawbacks of USLE, RUSLE1 equations are
that they are based on average annual values of its parameters and so
their applicability to small temporal scale is questionable. Also these
equations do not estimate runoff generated soil erosion. So
applicability of these equations to estimate runoff generated soil
erosion is questionable. Data used in formation of USLE, RUSLE1
equations was plot data so its applicability at greater spatial scale
needs some scale correction factors to be induced. On the other hand
MUSLE is unsuitable for predicting sediment yield of small and large
events. Although the new revised forms of USLE like RUSLE 1.06,
RUSLE1.06c and RUSLE2 were land use independent and they have
almost cleared all the drawbacks in earlier versions like USLE and
RUSLE1, they are based on the regional data of specific area and
their applicability to other areas having different climate, soil, land
use is questionable. These conventional equations are applicable for
sheet and rill erosion and unable to predict gully erosion and spatial
pattern of rills. So the research was focused on development of nonconventional
(other than conventional) methods of soil erosion
estimation. When these non-conventional methods are combined with
GIS and RS, gives spatial distribution of soil erosion. In the present
paper the review of literature on non- conventional methods of soil
erosion estimation supported by GIS and RS is presented.", keywords = "Conventional methods, GIS, non-conventionalmethods, remote sensing, soil erosion modeling", volume = "6", number = "3", pages = "119-7", }
