Impact of dams on flood occurrence of selected rivers in the United States

Xuefei Mei, P. H.A.J.M. Van Gelder, Zhijun Dai, Zhenghong Tang

Research output: Contribution to journalArticle

5 Citations (Scopus)

Abstract

A significant large number of dams have been constructed in the past two centuries in the United States. These dams’ ability to regulate downstream flooding has received world-wide attention. In this study, data from 38 rivers distributed over the entire conterminous Untied States with extensive pre- and post-dam annual peak discharge records, were collected to research the impacts of various dams on the flood behaviors at a national scale. The results indicate that dams have led to significant reductions in flood magnitude for nearly all of the sites; the decrease rate in the mean of annual peak discharge varies between 7.4% and 95.14%, except for the Dead River, which increased by 1.46%. Because of dams’ effectiveness, the probability density curve of annual peak flow changes from a flat to peaked shape because both the range and magnitude of high discharges are decreased. Moreover, the potential impact of dams on flood characteristics were closely related to the dam’s geographic location and function, the ratio of the storage capacity of the dam to the mean annual runoff of the river (C/R), and the ratio of reservoir storage capacity to the area of its drainage (C/D). Specifically, the effects of dams on annual peak flows were more related to latitude than longitude. Compared with dams built for other purposes, the dam exclusively used for flood management cut off more flood peaks. Increases in the ratios of C/R and C/D increased the degree of modification of annual maximum discharge.

Original languageEnglish (US)
Pages (from-to)268-282
Number of pages15
JournalFrontiers of Earth Science
Volume11
Issue number2
DOIs
StatePublished - Jun 1 2017

Fingerprint

dam
river
peak discharge
peak flow
flooding
drainage
runoff

Keywords

  • dam
  • flood characteristics
  • flood modification
  • river discharge

ASJC Scopus subject areas

  • Earth and Planetary Sciences(all)

Cite this

Impact of dams on flood occurrence of selected rivers in the United States. / Mei, Xuefei; Van Gelder, P. H.A.J.M.; Dai, Zhijun; Tang, Zhenghong.

In: Frontiers of Earth Science, Vol. 11, No. 2, 01.06.2017, p. 268-282.

Research output: Contribution to journalArticle

Mei, Xuefei ; Van Gelder, P. H.A.J.M. ; Dai, Zhijun ; Tang, Zhenghong. / Impact of dams on flood occurrence of selected rivers in the United States. In: Frontiers of Earth Science. 2017 ; Vol. 11, No. 2. pp. 268-282.
@article{81b03e1a682f4687acea2d49ee8833d9,
title = "Impact of dams on flood occurrence of selected rivers in the United States",
abstract = "A significant large number of dams have been constructed in the past two centuries in the United States. These dams’ ability to regulate downstream flooding has received world-wide attention. In this study, data from 38 rivers distributed over the entire conterminous Untied States with extensive pre- and post-dam annual peak discharge records, were collected to research the impacts of various dams on the flood behaviors at a national scale. The results indicate that dams have led to significant reductions in flood magnitude for nearly all of the sites; the decrease rate in the mean of annual peak discharge varies between 7.4{\%} and 95.14{\%}, except for the Dead River, which increased by 1.46{\%}. Because of dams’ effectiveness, the probability density curve of annual peak flow changes from a flat to peaked shape because both the range and magnitude of high discharges are decreased. Moreover, the potential impact of dams on flood characteristics were closely related to the dam’s geographic location and function, the ratio of the storage capacity of the dam to the mean annual runoff of the river (C/R), and the ratio of reservoir storage capacity to the area of its drainage (C/D). Specifically, the effects of dams on annual peak flows were more related to latitude than longitude. Compared with dams built for other purposes, the dam exclusively used for flood management cut off more flood peaks. Increases in the ratios of C/R and C/D increased the degree of modification of annual maximum discharge.",
keywords = "dam, flood characteristics, flood modification, river discharge",
author = "Xuefei Mei and {Van Gelder}, {P. H.A.J.M.} and Zhijun Dai and Zhenghong Tang",
year = "2017",
month = "6",
day = "1",
doi = "10.1007/s11707-016-0592-1",
language = "English (US)",
volume = "11",
pages = "268--282",
journal = "Frontiers of Earth Science",
issn = "1673-7385",
publisher = "Higher Education Press",
number = "2",

}

TY - JOUR

T1 - Impact of dams on flood occurrence of selected rivers in the United States

AU - Mei, Xuefei

AU - Van Gelder, P. H.A.J.M.

AU - Dai, Zhijun

AU - Tang, Zhenghong

PY - 2017/6/1

Y1 - 2017/6/1

N2 - A significant large number of dams have been constructed in the past two centuries in the United States. These dams’ ability to regulate downstream flooding has received world-wide attention. In this study, data from 38 rivers distributed over the entire conterminous Untied States with extensive pre- and post-dam annual peak discharge records, were collected to research the impacts of various dams on the flood behaviors at a national scale. The results indicate that dams have led to significant reductions in flood magnitude for nearly all of the sites; the decrease rate in the mean of annual peak discharge varies between 7.4% and 95.14%, except for the Dead River, which increased by 1.46%. Because of dams’ effectiveness, the probability density curve of annual peak flow changes from a flat to peaked shape because both the range and magnitude of high discharges are decreased. Moreover, the potential impact of dams on flood characteristics were closely related to the dam’s geographic location and function, the ratio of the storage capacity of the dam to the mean annual runoff of the river (C/R), and the ratio of reservoir storage capacity to the area of its drainage (C/D). Specifically, the effects of dams on annual peak flows were more related to latitude than longitude. Compared with dams built for other purposes, the dam exclusively used for flood management cut off more flood peaks. Increases in the ratios of C/R and C/D increased the degree of modification of annual maximum discharge.

AB - A significant large number of dams have been constructed in the past two centuries in the United States. These dams’ ability to regulate downstream flooding has received world-wide attention. In this study, data from 38 rivers distributed over the entire conterminous Untied States with extensive pre- and post-dam annual peak discharge records, were collected to research the impacts of various dams on the flood behaviors at a national scale. The results indicate that dams have led to significant reductions in flood magnitude for nearly all of the sites; the decrease rate in the mean of annual peak discharge varies between 7.4% and 95.14%, except for the Dead River, which increased by 1.46%. Because of dams’ effectiveness, the probability density curve of annual peak flow changes from a flat to peaked shape because both the range and magnitude of high discharges are decreased. Moreover, the potential impact of dams on flood characteristics were closely related to the dam’s geographic location and function, the ratio of the storage capacity of the dam to the mean annual runoff of the river (C/R), and the ratio of reservoir storage capacity to the area of its drainage (C/D). Specifically, the effects of dams on annual peak flows were more related to latitude than longitude. Compared with dams built for other purposes, the dam exclusively used for flood management cut off more flood peaks. Increases in the ratios of C/R and C/D increased the degree of modification of annual maximum discharge.

KW - dam

KW - flood characteristics

KW - flood modification

KW - river discharge

UR - http://www.scopus.com/inward/record.url?scp=84990987644&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=84990987644&partnerID=8YFLogxK

U2 - 10.1007/s11707-016-0592-1

DO - 10.1007/s11707-016-0592-1

M3 - Article

AN - SCOPUS:84990987644

VL - 11

SP - 268

EP - 282

JO - Frontiers of Earth Science

JF - Frontiers of Earth Science

SN - 1673-7385

IS - 2

ER -