Estimation of Hydrologic Alteration in Kaligandaki River Using Representative Hydrologic Indices

Estimation of Hydrologic Alteration in Kaligandaki River Using Representative Hydrologic Indices

Anthropogenic activities have led to the transformation of river basins and natural flow alteration around the world. Alteration in flow regimes have adverse effects on river ecosystems. Flow value changes signify the alteration extent and a number of flow related indices can be used to assess the e...

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Veröffentlicht in:Water (Basel) 2019-04, Vol.11 (4), p.688
Hauptverfasser: Yuqin, Gao, Pandey, Kamal Prasad, Huang, Xianfeng, Suwal, Naresh, Bhattarai, Khem Prasad
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Schlagworte:
Anthropogenic factors
Aquatic ecosystems
Flow alteration
Histograms
Hydroelectric power
Hydrologic data
Hydrology
Management decisions
Methods
Natural flow
Normal distribution
Principal components analysis
River basins
River ecology
Rivers
Software
Statistical analysis
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container_issue 4
container_start_page 688
container_title Water (Basel)
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creator Yuqin, Gao
Pandey, Kamal Prasad
Huang, Xianfeng
Suwal, Naresh
Bhattarai, Khem Prasad
description Anthropogenic activities have led to the transformation of river basins and natural flow alteration around the world. Alteration in flow regimes have adverse effects on river ecosystems. Flow value changes signify the alteration extent and a number of flow related indices can be used to assess the extent of alteration in a river ecosystem. Selection of a few and ecologically relevant indices from a large set of available indices is a daunting task. Principal Component Analysis helps to reduce these large indices to a few ecologically significant indices and removes statistical redundancy of data to give uncorrelated data sets. These representative indices are useful in the primary investigation of a less studied area like the Kaligandaki River basin, Nepal. This paper uses reduced indices from the Kaligandaki River to calculate the alteration on the river section downstream of a hydropower facility using the Histogram Comparison Approach (HCA) combined with Hydrologic Year Types (HYT). The combined approach eliminates the potential underestimation of alteration values which may occur due to the exemption of hydrologic year types from the analysis, a feature equally relevant in river ecology. A new metric is used for the calculation of combined alteration using HCA-HYT in this paper. The analysis showed 60.71 percent alteration in the natural flow regime in the area past a hydropower construction, which is classified in the high alteration category. The study can be a guide for further analysis of the ecological flow management of a river section and a parsimonious approach to other areas where hydrological data is limited to historical flow records only.
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Alteration in flow regimes have adverse effects on river ecosystems. Flow value changes signify the alteration extent and a number of flow related indices can be used to assess the extent of alteration in a river ecosystem. Selection of a few and ecologically relevant indices from a large set of available indices is a daunting task. Principal Component Analysis helps to reduce these large indices to a few ecologically significant indices and removes statistical redundancy of data to give uncorrelated data sets. These representative indices are useful in the primary investigation of a less studied area like the Kaligandaki River basin, Nepal. This paper uses reduced indices from the Kaligandaki River to calculate the alteration on the river section downstream of a hydropower facility using the Histogram Comparison Approach (HCA) combined with Hydrologic Year Types (HYT). 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subjects Anthropogenic factors
Aquatic ecosystems
Flow alteration
Histograms
Hydroelectric power
Hydrologic data
Hydrology
Management decisions
Methods
Natural flow
Normal distribution
Principal components analysis
River basins
River ecology
Rivers
Software
Statistical analysis
title Estimation of Hydrologic Alteration in Kaligandaki River Using Representative Hydrologic Indices
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