Within-catchment variability in landscape connectivity measures in the Garang catchment, upper Yellow River

Within-catchment variability in landscape connectivity measures in the Garang catchment, upper Yellow River

The degree of landscape connection has wide-ranging implications for sediment availability, frequency of transport, and the nature of sediment storage within a basin. Two methodological approaches for assessing landscape connectivity are applied within the Garang subcatchment of the upper Yellow Riv...

Full description

Saved in:
Bibliographic Details
Published in:Geomorphology (Amsterdam, Netherlands) Netherlands), 2017-01, Vol.277, p.197-209
Main Authors: Nicoll, Tami, Brierley, Gary
Format: Article
Language:eng
Subjects:
Appraisals
Catchments
Dynamics
Freshwater
Geomorphology
Geomorphometry
Landscapes
Mathematical analysis
River incision
Rivers
Sediment connectivity
Sediment storage
Sediments
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:The degree of landscape connection has wide-ranging implications for sediment availability, frequency of transport, and the nature of sediment storage within a basin. Two methodological approaches for assessing landscape connectivity are applied within the Garang subcatchment of the upper Yellow River. A GIS-based geomorphometric index was calculated for the catchment and compared to a methodology linking interpretation of satellite imagery and field mapping of sediment storage to slope threshold analysis. Landscapes of the Garang catchment are highly contrasting and can be separated into three zones: i) a highly disconnected upper catchment of low-relief with large inactive sediment stores; ii) a transitional zone where present landscape dynamics are controlled in large part by past incisional processes in the form of large alluvial fan/terrace deposits; and iii) a highly connected and highly dissected landscape within the lower catchment that has little accommodation space for sediment storage. The geomorphometric index shows general agreement with the patterns in landscape connectivity observed through imagery and field investigations. However, it estimates similar levels of connectivity in landscapes with observed (dis)connectivity, reflecting limitations of the calculation. While rapidly calculated geomorphometric indices of landscape connectivity provide useful appraisals of relative within-catchment variability in systems such as the Garang catchment, caution is urged in conducting broader-scale analyses using the same tools. Findings from this study highlight the importance of field-informed appraisals of landscape dynamics, site-specific characteristics and the imprint of historical (evolutionary) context in making such comparative assessments. •Landscape connectivity is assessed for a small catchment in western China.•Results from using two methods to assess sediment connectivity are broadly comparable.•Landscape connectivity and sediment dynamics vary markedly within the catchment.•Site-specific characteristics and long term basin history are important controls.•Field knowledge is required to support geomorphometric indices of landscape connectivity.
ISSN:0169-555X
1872-695X