Diversity and community structure of rapids-dwelling fishes of the Xingu River: Implications for conservation amid large-scale hydroelectric development

A recent boom in hydroelectric development in the world's most diverse tropical river basins is currently threatening aquatic biodiversity on an unprecedented scale. Among the most controversial of these projects is the Belo Monte Hydroelectric Complex (BMHC) on the Xingu River, the Amazon'...

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Published inBiological conservation Vol. 222; pp. 104 - 112
Main Authors Fitzgerald, Daniel B., Sabaj Perez, Mark H., Sousa, Leandro M., Gonçalves, Alany P., Rapp Py-Daniel, Lucia, Lujan, Nathan K., Zuanon, Jansen, Winemiller, Kirk O., Lundberg, John G.
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.06.2018
Subjects
Anostomidae
Assemblage structure
Belo Monte
Brazil
Cichlidae
community structure
dams (hydrology)
energy
fauna
fish
habitats
hosts
Hydrologic connectivity
hydrology
indigenous species
Loricariidae
Rheophilic
rivers
species richness
watersheds
Brazil
Loricariidae
Anostomidae
Assemblage structure
Rheophilic
Brazil
Cichlidae
Hydrologic connectivity
Belo Monte
Online AccessGet full text
ISSN0006-3207
1873-2917
DOI10.1016/j.biocon.2018.04.002

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Abstract A recent boom in hydroelectric development in the world's most diverse tropical river basins is currently threatening aquatic biodiversity on an unprecedented scale. Among the most controversial of these projects is the Belo Monte Hydroelectric Complex (BMHC) on the Xingu River, the Amazon's largest clear-water tributary. The design of the BMHC creates three distinctly altered segments: a flooded section upstream of the main dam, a middle section between the dam and the main powerhouse that will be dewatered, and a downstream section subject to flow alteration from powerhouse discharge. This region of the Xingu is notable for an extensive series of rapids known as the Volta Grande that hosts exceptional levels of endemic aquatic biodiversity; yet, patterns of temporal and spatial variation in community composition within this highly threatened habitat are not well documented. We surveyed fish assemblages within rapids in the three segments impacted by the BMHC prior to hydrologic alteration, and tested for differences in assemblage structure between segments and seasons. Fish species richness varied only slightly between segments, but there were significant differences in assemblage structure between segments and seasons. Most of the species thought to be highly dependent on rapids habitat, including several species listed as threatened in Brazil, were either restricted to or much more abundant within the upstream and middle segments. Our analysis identified the middle section of the Volta Grande as critically important for the conservation of this diverse, endemic fish fauna. Additional research is urgently needed to determine dam operations that may optimize energy production with an environmental flow regime that conserves the river's unique habitat and biodiversity. •193 rapids-dwelling fish species were sampled prior to flow alteration.•Fish community structure differed significantly between river segments.•Rapids specialists and threatened species were concentrated in the Volta Grande.•The Volta Grande rapids are now flooded and dewatered due to a hydropower facility.•Maintaining rapids in the dewatered section will be critical for aquatic diversity.
AbstractList A recent boom in hydroelectric development in the world's most diverse tropical river basins is currently threatening aquatic biodiversity on an unprecedented scale. Among the most controversial of these projects is the Belo Monte Hydroelectric Complex (BMHC) on the Xingu River, the Amazon's largest clear-water tributary. The design of the BMHC creates three distinctly altered segments: a flooded section upstream of the main dam, a middle section between the dam and the main powerhouse that will be dewatered, and a downstream section subject to flow alteration from powerhouse discharge. This region of the Xingu is notable for an extensive series of rapids known as the Volta Grande that hosts exceptional levels of endemic aquatic biodiversity; yet, patterns of temporal and spatial variation in community composition within this highly threatened habitat are not well documented. We surveyed fish assemblages within rapids in the three segments impacted by the BMHC prior to hydrologic alteration, and tested for differences in assemblage structure between segments and seasons. Fish species richness varied only slightly between segments, but there were significant differences in assemblage structure between segments and seasons. Most of the species thought to be highly dependent on rapids habitat, including several species listed as threatened in Brazil, were either restricted to or much more abundant within the upstream and middle segments. Our analysis identified the middle section of the Volta Grande as critically important for the conservation of this diverse, endemic fish fauna. Additional research is urgently needed to determine dam operations that may optimize energy production with an environmental flow regime that conserves the river's unique habitat and biodiversity.
A recent boom in hydroelectric development in the world's most diverse tropical river basins is currently threatening aquatic biodiversity on an unprecedented scale. Among the most controversial of these projects is the Belo Monte Hydroelectric Complex (BMHC) on the Xingu River, the Amazon's largest clear-water tributary. The design of the BMHC creates three distinctly altered segments: a flooded section upstream of the main dam, a middle section between the dam and the main powerhouse that will be dewatered, and a downstream section subject to flow alteration from powerhouse discharge. This region of the Xingu is notable for an extensive series of rapids known as the Volta Grande that hosts exceptional levels of endemic aquatic biodiversity; yet, patterns of temporal and spatial variation in community composition within this highly threatened habitat are not well documented. We surveyed fish assemblages within rapids in the three segments impacted by the BMHC prior to hydrologic alteration, and tested for differences in assemblage structure between segments and seasons. Fish species richness varied only slightly between segments, but there were significant differences in assemblage structure between segments and seasons. Most of the species thought to be highly dependent on rapids habitat, including several species listed as threatened in Brazil, were either restricted to or much more abundant within the upstream and middle segments. Our analysis identified the middle section of the Volta Grande as critically important for the conservation of this diverse, endemic fish fauna. Additional research is urgently needed to determine dam operations that may optimize energy production with an environmental flow regime that conserves the river's unique habitat and biodiversity. •193 rapids-dwelling fish species were sampled prior to flow alteration.•Fish community structure differed significantly between river segments.•Rapids specialists and threatened species were concentrated in the Volta Grande.•The Volta Grande rapids are now flooded and dewatered due to a hydropower facility.•Maintaining rapids in the dewatered section will be critical for aquatic diversity.
Author Winemiller, Kirk O.
Lundberg, John G.
Gonçalves, Alany P.
Rapp Py-Daniel, Lucia
Sabaj Perez, Mark H.
Sousa, Leandro M.
Zuanon, Jansen
Fitzgerald, Daniel B.
Lujan, Nathan K.
Author_xml – sequence: 1
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  orcidid: 0000-0002-3254-7428
  surname: Fitzgerald
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  email: danfitzgerald@harpethriver.org
  organization: Department of Wildlife and Fisheries Sciences, Applied Biodiversity Science Program, Texas A&M University, College Station, TX 77845, USA
– sequence: 2
  givenname: Mark H.
  surname: Sabaj Perez
  fullname: Sabaj Perez, Mark H.
  organization: Ichthyology Department, Academy of Natural Sciences of Philadelphia and Drexel University, Philadelphia, PA 19103, USA
– sequence: 3
  givenname: Leandro M.
  surname: Sousa
  fullname: Sousa, Leandro M.
  organization: Faculdade de Ciências Biológicas, Laboratório de Ictiologia, Universidade Federal do Pará, Altamira, PA, Brazil
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  givenname: Alany P.
  surname: Gonçalves
  fullname: Gonçalves, Alany P.
  organization: Faculdade de Ciências Biológicas, Laboratório de Ictiologia, Universidade Federal do Pará, Altamira, PA, Brazil
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  givenname: Lucia
  surname: Rapp Py-Daniel
  fullname: Rapp Py-Daniel, Lucia
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  givenname: Nathan K.
  surname: Lujan
  fullname: Lujan, Nathan K.
  organization: Department of Biological Science, University of Toronto Scarborough, Toronto, ON M1C 1A4, Canada
– sequence: 7
  givenname: Jansen
  surname: Zuanon
  fullname: Zuanon, Jansen
  organization: Coordenação de Biodiversidade, Instituto Nacional de Pesquisas da Amazônia, Manaus, AM, Brazil
– sequence: 8
  givenname: Kirk O.
  surname: Winemiller
  fullname: Winemiller, Kirk O.
  organization: Department of Wildlife and Fisheries Sciences, Applied Biodiversity Science Program, Texas A&M University, College Station, TX 77845, USA
– sequence: 9
  givenname: John G.
  surname: Lundberg
  fullname: Lundberg, John G.
  organization: Ichthyology Department, Academy of Natural Sciences of Philadelphia and Drexel University, Philadelphia, PA 19103, USA
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Keywords Loricariidae
Anostomidae
Assemblage structure
Rheophilic
Brazil
Cichlidae
Hydrologic connectivity
Belo Monte
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Snippet A recent boom in hydroelectric development in the world's most diverse tropical river basins is currently threatening aquatic biodiversity on an unprecedented...
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SubjectTerms Anostomidae
Assemblage structure
Belo Monte
Brazil
Cichlidae
community structure
dams (hydrology)
energy
fauna
fish
habitats
hosts
Hydrologic connectivity
hydrology
indigenous species
Loricariidae
Rheophilic
rivers
species richness
watersheds
Title Diversity and community structure of rapids-dwelling fishes of the Xingu River: Implications for conservation amid large-scale hydroelectric development
URI https://dx.doi.org/10.1016/j.biocon.2018.04.002
https://www.proquest.com/docview/2220892077
Volume 222
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