International Journal of Environmental Science and Research

International Journal of Environmental Science and Research

Analysis of the form and pattern of Beshar River basin drainage network using the Order Matrix model

Document Type : Original Article

Authors
Zahra Parvaneh 1
Heeva Elmizadeh 2
1 Faculty of Marine Natural Resources, Khorramshahr University of Marine Science and Technology, Khorramshahr, Iran.
2 Associated Professor, Department of Marine Geology, Khorramshahr University of Marine Science and Technology, Khorramshahr, Iran
10.22113/ijesr.2023.426923.1011
Abstract
Rivers are dynamic geomorphological systems that shape the physical environment by adjusting their bed morphology in response to disequilibrium induced by physical and human factors, striving to achieve equilibrium conditions. The Order Matrix Model serves as a valuable tool for quantitatively analyzing, comparing, and assessing the degree of disorder in river networks, irrespective of their size. This study employs the Order Matrix Model to examine the relationship between the form and pattern of the drainage network in the Beshar River basin, a significant tributary of the Karoon River in Kohgiluyeh and Boyer-Ahmad Province, southwest Iran, located in the Zagros Mountains foothills. Vector data of streams were derived from 1:50,000-scale topographic maps and processed using ArcGIS software. The basin was divided into right and left halves, and a drainage network map was generated. Results from the Order Matrix Model revealed distinct drainage patterns: the left side exhibits an undeveloped, near-parallel pattern, while the right side approaches a dendritic pattern, indicating low hierarchical order. Tectonic activity and unequal rock strength in the basin are the primary causes of this disequilibrium, with greater disorder observed on the left side. The Order Matrix Model effectively quantifies the complexity and disequilibrium of river networks, providing insights into their geomorphological evolution.

Keywords
Beshar River
Matrix
Order Matrix Model
Equilibrium
Tectonic
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International Journal of Environmental Science and Research
Volume 1, Issue 1
Autumn 2022