Efectos sobre el suelo y la vegetación de la restauración de las cárcavas de tórtoles (ávila) después de 50 añosefectos sobre el suelo y la vegetación de la restauración de las cárcavas de tórtoles (ávila) después de 50 años
- JORGE MONGIL MANSO
- JOAQUÍN NAVARRO HEVIA
- VIRGINIA DÍAZ GUTIÉRREZ
- VERÓNICA CRUZ ALONSO
- IVÁN RAMOS DÍEZ
ISSN: 2173-8947
Argitalpen urtea: 2017
Zenbakien izenburua: II Jornadas sobre Restauración Hidrológico-Forestal
Zenbakia: 12
Orrialdeak: 59-69
Mota: Artikulua
Beste argitalpen batzuk: TRIM: Tordesillas, revista de investigación multidisciplinar
Laburpena
Although gully restoration is frequently employed to recover degraded soils and reduce sediment yield to rivers and reservoirs, analysis of the evolution of this type of action after a long period of time is not so commonplace. This study shows the results of a badlands restoration carried out 50 years ago in Central Spain in terms of soil evolution, vegetation and hydrological characteristics. Moreover, this study focuses on a unique area under a Mediterranean-continental climate, with granite and sandy soils. Restoration works consisted in the construction of at least 123 check dams and the reforestation of more than 730 ha, with 2,700 trees·ha-1. Nowadays, the soils have begun to regenerate. Litter thickness and soil humus is 3.7 cm under the pine-forest, while it is null in the degraded soil. Forest soil has a higher resistance to penetration and higher K and P content. However, there are no significant differences in the % OM, in the content of Ca, Mg, Na and N, or in the steady-state infiltration rate, possibly because of the influence of soil texture. These results show that much more time is needed for soil evolution. As a conclusion, however, restoration works did to improve forest cover and some physical and chemical soil properties. Suitable silviculture and land management of the current pine forest will improve soil conditions and will serve to recover the ancient native oak forest that grew before the intense historic degradation