Establishing Priorities For The Management And Restoration Of River Basins With Opencast Coal Mines

River basins with surface coal mines require restoration but priorities must be established hierarchically to achieve efficient river basin management. The watershed of River Martin (1993 km2 in NE Spain, Mediterranean continental climate) is characterized by a mountainous upper half part with low w...

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Bibliographic Details
Published in:WIT Transactions on Ecology and the Environment 2009-01, Vol.124, p.315
Main Authors: Comín, F A, Nicolau, J M, Trabucchi, M, Miguel, L, Nyssen, S, Pérez, S
Format: Article
Language:English
Subjects:
Agricultural land
Agricultural management
Agriculture
Coal
Coal mines
Coal mining
Dryland farming
Environmental regulations
Fluvial sediments
Land cover
Land use
Mine reclamation
Mines
Open pit mining
Pollutants
Priorities
Reservoirs
Restoration
River basin management
River basins
Rivers
Runoff
Sediment pollution
Soil conservation
Soil erosion
Soil management
Soil pollution
Soil water
Water flow
Water management
Water pollution
Water quality
Watershed management
Watersheds
Wood
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Summary:River basins with surface coal mines require restoration but priorities must be established hierarchically to achieve efficient river basin management. The watershed of River Martin (1993 km2 in NE Spain, Mediterranean continental climate) is characterized by a mountainous upper half part with low water flow regulation and a flat lower half with high water flow regulation (three reservoirs). Land cover of the upper part is scrub and wood (37%) and dry agriculture (32%), with some large natural areas (8.5%) and open coal mine zones (1%). Extensive dry agriculture dominates the lower part of the basin. Soil loss by erosion takes places at higher rates (average 125 Mg ha-1 yr-1) in most of the upper part of the basin and at lower rates (average 27.5 Mg ha-1 yr-1) in most of the lower part of the basin. Based on a combination of water runoff and soil loss, priorities for management actions of River Martin watershed should be given to areas covered by abandoned agriculture fields which did not develop a dense plant cover and extensive agriculture land use which may contribute high amounts of soil loss and pollutants to the river. A combination of the amount of soil loss estimated using RUSLE 1.06, a Revised version of the USLE, and the degree of soil conservation, let identify three mine zones in the upper part of the watershed as the major sources of sediment impacting the river waters. These are old reclaimed coal mines which require further restoration to decrease their high rates of soil loss. Water flow regulation and decreased water quality below the reservoirs, indicated by a biotic community dominated by hydrobids oligochaetes and gammarids, show that re-establishment of a dynamic water
ISSN:1746-448X
1743-3541
DOI:10.2495/RM090291