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GIS APPLIED IN ASSESSING WATER EROSION

BIALI, essor Gabriela, COJOCARU, Paula

First published: 2015https://doi.org/10.5593/sgem2015/b22/s11.110View metrics

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Title
GIS APPLIED IN ASSESSING WATER EROSION
Authors
BIALI, essor Gabriela, COJOCARU, Paula
Proceedings
SGEM International Multidisciplinary Scientific GeoConference EXPO Proceedings; 15th International Multidisciplinary Scientific GeoConference SGEM2015, INFORMATICS, GEOINFORMATICS AND REMOTE SENSING
Publisher
Stef92 Technology
Year
2015
Pages
871-882
ISSN
1314-2704
ISBN
978-619-7105-35-3
Language
en
Publication type
Conference Paper
References22
  1. Berghoff A., Berning A., Wortmann C., Möller A., Mahro B., (2014), Comparative assessment of laboratory and field-based methods to monitor natural attenuation processes in the contaminated groundwater of a former coking plant site, Environmental Engineering and Management Journal, 13, 583- 596.

  2. Biali Gabriela, Patriche C.V., Pavel V.L. (2014) – Application of GIS techniques for the quantification of land degradation caused by water erosion. Environmental Engineering and Management Journal. October 2014, Vol.13, No. 10, 2665-2673.

  3. Burrough P.A., (1988), Fuzzy mathematical methods for soil survey and land evaluation, Journal of Soil Science, 40, 477-482.

  4. Cochrane T.A., Flanagan D.C., (1999), Assessing water erosion in small watersheds using WEPP with GIS and digital elevation models, Journal of Soil and Water Conservation, 54, 678-685.

  5. Dumitrescu L., Maxineasa S.G., Simion I.M., Taranu N., Andrei R., Gavrilescu M., (2014), Evaluation of the environmental impact of road pavements from a life cycle perspective, Environmental Engineering and Management Journal, 13, -455.

  6. Moore I.D., Wilson J.P., (1992), Length-slope factors for the Revised Universal Soil Loss Equation-simplified method of estimation, Journal of Soil and Water Conservation, 47, 423-428.

  7. Moţoc M., (1983), Average erosion rate on the territory of Romania, ASAS Newsletter, 12, 11-17.

  8. Niacsu L., (2012), Geomorphologic and pedologic restrictive parameters for agricultural land in the Pereschiv catchment of Eastern Romania, Carpathian Journal of Earth and Environmental Sciences, 7, 25 – 37.

  9. Renard K.G., Foster G.R., Weesies D.K., Yader D.C., (1996), Predict soil erosion by water: a guide to conservation planning with the Revised Universal Soil Loss Equation (RUSLE), USDA – ARS, Agricultural Handbook, 703.

  10. Stătescu F., Zaucă D.C., Pavel V.L., (2013), Soil structure and water -stable aggregates, Environmental Engineering and Management Journal, 12, 741-746.

  11. Wischmeier W.H., Smith D.D., (1978), A universal soil loss equation to guide conservation from planning, Transactions of the 7th International Congress of Soil Science, Wisconsin, USA 7, 418-425. International Multidisciplinary Scientific GeoConfenferences SGEM 2015 www.sgem.org

  12. Berghoff A., Berning A., Wortmann C., Möller A., Mahro B., (2014), Comparative assessment of laboratory and field-based methods to monitor natural attenuation processes in the contaminated groundwater of a former coking plant site, Environmental Engineering and Management Journal, 13, 583- 596.

  13. Biali Gabriela, Patriche C.V., Pavel V.L. (2014) – Application of GIS techniques for the quantification of land degradation caused by water erosion. Environmental Engineering and Management Journal. October 2014, Vol.13, No. 10, 2665-2673.

  14. Burrough P.A., (1988), Fuzzy mathematical methods for soil survey and land evaluation, Journal of Soil Science, 40, 477-482.

  15. Cochrane T.A., Flanagan D.C., (1999), Assessing water erosion in small watersheds using WEPP with GIS and digital elevation models, Journal of Soil and Water Conservation, 54, 678-685.

  16. Dumitrescu L., Maxineasa S.G., Simion I.M., Taranu N., Andrei R., Gavrilescu M., (2014), Evaluation of the environmental impact of road pavements from a life cycle perspective, Environmental Engineering and Management Journal, 13, -455.

  17. Moore I.D., Wilson J.P., (1992), Length-slope factors for the Revised Universal Soil Loss Equation-simplified method of estimation, Journal of Soil and Water Conservation, 47, 423-428.

  18. Moţoc M., (1983), Average erosion rate on the territory of Romania, ASAS Newsletter, 12, 11-17.

  19. Niacsu L., (2012), Geomorphologic and pedologic restrictive parameters for agricultural land in the Pereschiv catchment of Eastern Romania, Carpathian Journal of Earth and Environmental Sciences, 7, 25 – 37.

  20. Renard K.G., Foster G.R., Weesies D.K., Yader D.C., (1996), Predict soil erosion by water: a guide to conservation planning with the Revised Universal Soil Loss Equation (RUSLE), USDA – ARS, Agricultural Handbook, 703.

  21. Stătescu F., Zaucă D.C., Pavel V.L., (2013), Soil structure and water -stable aggregates, Environmental Engineering and Management Journal, 12, 741-746.

  22. Wischmeier W.H., Smith D.D., (1978), A universal soil loss equation to guide conservation from planning, Transactions of the 7th International Congress of Soil Science, Wisconsin, USA 7, 418-425. International Multidisciplinary Scientific GeoConfenferences SGEM 2015 www.sgem.org

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