Authors :
Harshad M. Rajgor; Ashutosh D. Patel; Vikrant A. Patel; Ajay R. Patel; Jash N. Kansara
Volume/Issue :
Volume 8 - 2023, Issue 4 - April
Google Scholar :
https://bit.ly/3TmGbDi
Scribd :
https://bit.ly/3IedhRx
DOI :
https://doi.org/10.5281/zenodo.8281048
Abstract :
Other morphometric parameters
of river basin were also determined, along with its linear
and aerial dimensions. It is basin of fifth order with a
drainage pattern that ranges from subdendritic to
dendritic. The basin in question has a significant
vegetative cover and a very permeable subsurface, as
indicated by low drainage density number that was
measured. The strong elongation, high permeability, and
homogeneity of geological materials in basin are all
suggested by high circularity ratio value. The study's
conclusions will enable locals to make better use of basin's
resources going forward.
Keywords :
Morphometry; Tapi River Basin; Spatial Information Technology.
Other morphometric parameters
of river basin were also determined, along with its linear
and aerial dimensions. It is basin of fifth order with a
drainage pattern that ranges from subdendritic to
dendritic. The basin in question has a significant
vegetative cover and a very permeable subsurface, as
indicated by low drainage density number that was
measured. The strong elongation, high permeability, and
homogeneity of geological materials in basin are all
suggested by high circularity ratio value. The study's
conclusions will enable locals to make better use of basin's
resources going forward.
Keywords :
Morphometry; Tapi River Basin; Spatial Information Technology.