Reconstructing pre-erosion topography using spatial interpolation techniques:A validation-based approach期刊界 All Journals 搜尽天下杂志传播学术成果专业期刊搜索期刊信息化学术搜索

按检索

Reconstructing pre-erosion topography using spatial interpolation techniques:A validation-based approach

Authors:	BERGONSE Rafaello REIS Eus bio

Institution:	Center for Geographical Studies, University of Lisbon, Portugal

Abstract:	Understanding the topographic context preceding the development of erosive landforms is of major relevance in geomorphic research, as topography is an important factor on both water and mass movement-related erosion, and knowledge of the original surface is a condition for quantifying the volume of eroded material. Although any reconstruction implies assuming that the resulting surface reflects the original topography, past works have been dominated by linear interpolation methods, incapable of generating curved surfaces in areas with no data or values outside the range of variation of inputs. In spite of these limitations, impossibility of validation has led to the assumption of surface representativity never being challenged. In this paper, a validation-based method is applied in order to define the optimal interpolation technique for reconstructing pre-erosion topography in a given study area. In spite of the absence of the original surface, different techniques can be nonetheless evaluated by quantifying their capacity to reproduce known topography in unincised locations within the same geomorphic contexts of existing erosive landforms. A linear method (Triangulated Irregular Network, TIN) and 23 parameterizations of three distinct Spline interpolation techniques were compared using 50 test areas in a context of research on large gully dynamics in the South of Portugal. Results show that almost all Spline methods produced smaller errors than the TIN, and that the latter produced a mean absolute error 61.4% higher than the best Spline method, clearly establishing both the better adjustment of Splines to the geomorphic context considered and the limitations of linear approaches. The proposed method can easily be applied to different interpolation techniques and topographic contexts, enabling better calculations of eroded volumes and denudation rates as well as the investigation of controls by antecedent topographic form over erosive processes.

Keywords:	pre-erosion topography surface reconstruction spatial interpolation spline interpolation triangulated irregular networks erosive landforms gully erosion
本文献已被万方数据等数据库收录！
	点击此处可从《地理学报(英文版)》浏览原始摘要信息
	点击此处可从《地理学报(英文版)》下载免费的PDF全文

设为首页 | 免责声明 | 关于勤云 | 加入收藏