2008
DOI: 10.1002/esp.1684
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Spatial analysis of stream power using GIS: SLk anomaly maps

Abstract: The stream length-gradient index (SL) shows the variation in stream power along river reaches. This index is very sensitive to changes in channel slope, thus allowing the evaluation of recent tectonic activity and/or rock resistance. Nevertheless, the comparison of SL values from rivers of different length is biased due to the manner in which the index is formulated, thus making correlations of SL anomalies along different rivers difficult. Therefore, when undertaking a comparison of SL values of rivers of dif… Show more

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Cited by 142 publications
(100 citation statements)
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“…ler and Pinter, 2002;Pérez-Peña et al, 2009a).The SL index is very sensitive to changes in channel slope. These changes are mainly due to lithologic, tectonic, or climatic factors.…”
Section: Slk Index and Slk Anomaly Mapsmentioning
confidence: 99%
See 2 more Smart Citations
“…ler and Pinter, 2002;Pérez-Peña et al, 2009a).The SL index is very sensitive to changes in channel slope. These changes are mainly due to lithologic, tectonic, or climatic factors.…”
Section: Slk Index and Slk Anomaly Mapsmentioning
confidence: 99%
“…These authors also proposed a new GIS-based methodology to create SLk anomaly maps by using geostatistical kriging. This methodology has been used to evaluate the activity of tectonic structures (faults and folds) in some recent studies in the Betic Cordillera with good results (Pérez-Peña et al, 2009a;Pedrera et al, 2009;Giaconia et al, 2012).…”
Section: Slk Index and Slk Anomaly Mapsmentioning
confidence: 99%
See 1 more Smart Citation
“…The topography of a region affected by recent and/or active tectonic process, such as faulting, can be an important factor in controlling geomorphic processes during landscape evolution (Bishop, 2007;Cox, 1994;Peréz-Peña, Azor, Azañon, & Keller, 2010). In this sense, the present day tectonic activity can be evaluated using geomorphic parameters which have been widely used to recognise the indicators of landforms deformed or modified by active faults (Brookfield, 1998;Chen, Sung, & Cheng, 2003;Keller, 1986;Keller & Pinter, 2002;Keller, Seaver, Laduzinsky, Johnson, & Ku, 2000;Molin, Pazzaglia, & Dramis, 2004;Pedrera, Peréz-Peña, Galindo-Zaldivar, Azañon, & Azor, 2009;Peréz-Peña, Azañon, Azor, Delgado, & Gonzàlez-Lodeiro, 2009). Mountain fronts generated by normal faulting are characterised by many morphologic structures.…”
Section: Introductionmentioning
confidence: 99%
“…Although numerous authors developed software to facilitate fluvial extraction and indices calculation (Schwanghart and Kuhn 2010;Pérez-Peña et al 2009) attaining a suitable channel network to tackle the automatic calculation of indices is still a quite time consuming process as most software extracts independent channel stretches instead of a continuous channel from headwater to mouth. While an entire channel is required to tackle stream long profile analysis (Jiménez-Cantizano et al 2017) and most of geomorphic indices.…”
Section: Introductionmentioning
confidence: 99%