Using critical source areas for targeting cost-effective best management practices to mitigate phosphorus and sediment transfer at the watershed scale
Utilisation de zones critiques pour améliorer le ratio coût/efficacité de modifications de pratiques visant à limiter les transferts de phosphore et de sédiments à l'échelle de bassins versants
Résumé
The impact of implementing different best management practices (BMPs) at the small watershed scale were examined for the Petzenkirchen catchment in Austria and Lake Vico in Italy, in terms of data needs, hydrological processes, tools and models involved. Identification of critical source areas for targeting soil and phosphorus losses turned out to be crucial for correct allocation of BMPs. Comparison of environmental effectiveness and costs, both calculated using various modelling approaches, enabled us to compare different levels of introducing BMPs ecologically and economically. Within each catchment, small areas of land tended to be the source of disproportionately large amounts of pollution . Therefore, confining mitigation to these areas costs less than targeting wider areas. This suggests that a policy for environmental programmes should be focussed on hydrological units and critical source areas within these units instead of introducing universal controls - the watering can' principle - as practised today.