Susceptibility to gravitational processes due to land cover change in the Río Chiquito-Barranca del Muerto subbasin (Pico De Orizaba Volcano, México)
Por:
Marisol Alanis-Anaya, Rocio, Legorreta-Paulin, Gabriel, Francois Mas, Jean, Rebeca Granados-Ramirez, Guadalupe
Publicada:
1 dic 2017
Resumen:
Land cover change can lead to slope instability by accelerating erosive processes associated with agriculture, forestry, and infrastructure. The Rio Chiquito-Barranca del Muerto subbasin has experienced an increase in land cover change due to government programs and the establishment of agricultural and urban areas. The aim of this study was to provide a model to map the susceptibility to gravitational processes along sites where anthropogenic land cover change has occurred. The method was based on the stratification of the subbasin according to landforms and cartographic variables. These variables were used in a multi-criteria assessment to assign weights according to their contribution to the onset of new gravitational processes. Those weights were used to create a susceptibility map based on a weighted linear sum. The accuracy of the resulting map was validated in an error matrix with a random stratified design based on susceptibility classes per landform. The results produced a map of areas with susceptibility to gravitational processes due to land cover change; this susceptibility is very high in the undifferentiated pyroclastic slope and limestone mountain, where it derives not only from anthropogenic effects on natural vegetation cover, but also from steep slopes, weathered materials, low apparent density, high erosivity, and previous gravitational processes. The results support other studies that concluded that loss of vegetation is a triggering factor in the formation of gravitational processes, but also show that excessive reforestation can increase gravitational processes. © 2017, Science Press, Institute of Mountain Hazards and Environment, CAS and Springer-Verlag GmbH Germany, part of Springer Nature.
Filiaciones:
Marisol Alanis-Anaya, Rocio:
Natl Autonomus Univ Mexico UNAM, Fac Philosophy & Letters, Coll Geog, Mexico City 04510, DF, Mexico
Legorreta-Paulin, Gabriel:
Natl Autonomus Univ Mexico UNAM, Inst Geog, Dept Phys Geog, Mexico City 04510, DF, Mexico
Francois Mas, Jean:
Natl Autonomus Univ Mexico UNAM, Ctr Res Environm Geog, Morelia 58190, Michoacan, Mexico
Rebeca Granados-Ramirez, Guadalupe:
Natl Autonomus Univ Mexico UNAM, Inst Geog, Dept Phys Geog, Mexico City 04510, DF, Mexico
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