evaluation of the PESERA soil erosion model and its application to a case study in Zakynthos, Greece

The Pan-European Soil Erosion Risk Assessment (pesera) model was evaluated using existing soil erosion data collected under various types of climate, vegetation, landscape and soil conditions. The data used represent a variety of typical Mediterranean land uses such as winter wheat, vines, olives an...

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Bibliographic Details
Published in:Soil use and management 2005-12, Vol.21 (4), p.377-385
Main Authors: Tsara, M, Kosmas, C, Kirkby, M.J, Kosma, D, Yassoglou, N
Format: Article
Language:English
Subjects:
Agronomy. Soil science and plant productions
Animal, plant and microbial ecology
Applied ecology
Biological and medical sciences
calibration
Caretta caretta
case studies
Conservation, protection and management of environment and wildlife
Earth sciences
Earth, ocean, space
ecology
Engineering and environment geology. Geothermics
equations
Exact sciences and technology
Fundamental and applied biological sciences. Psychology
General aspects
habitat destruction
hills
hydrology
land use
Mediterranean climate
model validation
Natural hazards: prediction, damages, etc
Pan-European Soil Erosion Risk Assessment model (PESERA)
pesera model
prediction
runoff
sediment
sediment transport
soil erosion
soil erosion models
Soil erosion, conservation, land management and development
soil properties
Soil science
statistical analysis
topography
vegetation cover
watershed hydrology
watersheds
wildlife habitats
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Summary:The Pan-European Soil Erosion Risk Assessment (pesera) model was evaluated using existing soil erosion data collected under various types of climate, vegetation, landscape and soil conditions. The data used represent a variety of typical Mediterranean land uses such as winter wheat, vines, olives and bare, stony land prevailing in hilly areas. Using this data, the model was calibrated for sediment transport by overland flow and results compared to measured soil erosion values from runoff plots and a watershed on a monthly basis. The performance of the model was assessed statistically, showing that it can be satisfactorily used for predicting soil erosion rates under the conditions included in the study. The overall model estimate including all the available experimental data was 0.69 t ha-1 yr-1 with a maximum error of 1.49 t ha-1 yr-1. After validation, the model was applied to a small watershed (60 ha) of great ecological importance for the sea turtle Caretta caretta. For this purpose, soil and vegetation maps were compiled from all the necessary data for applying the model. The model was run for three years using daily data from an existing nearby meteorological station. The predicted and measured soil erosion rates for a 7-month period were 0.31 t and 0.18 t, respectively. Application of the model to each mapping unit showed the over-riding importance of land use for sediment generation under the given climatic conditions. Bare land, occupying 5.5% of the watershed area, generated up to 69% of the total sediments estimated for the watershed. It is concluded that the pesera model can be used as a regional diagnostic tool under a range of soil, topographic and climatic conditions for identifying the best land use type and vegetation cover to protect hilly areas from soil erosion. The calculated overall root mean square error for the model is 0.06 t ha-1 yr-1, compared to a soil erosion rate of 0.04 t ha-1 yr-1, which can be tolerated for protecting the area for the sea turtle.
ISSN:0266-0032
1475-2743
DOI:10.1079/SUM2005322