Benthification, biotic homogenization behind the trophic downgrading in altered ecosystems

Benthification, biotic homogenization behind the trophic downgrading in altered ecosystems

Abstract Several dozen fish species have been introduced into Neotropical waters, causing significant biotic changes that include deterministic predation interactions with ecosystem effects. In general, reservoirs are preferred over lakes as places for stocking policies, due to their artificial aspe...

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Main Authors: Luis Artur Valões Bezerra, Vanessa Maria Ribeiro, Matheus Oliveira Freitas, Les Kaufman, Andre Andrian Padial, Jean Ricardo Simões Vitule
Format: Article
Language:English
Published: Wiley 2019-06-01
Series:Ecosphere
Subjects:
downgrading food webs
Ecopath with Ecosim
energy flow
food web modeling
invasional meltdown
predation interactions
Online Access:https://doi.org/10.1002/ecs2.2757
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spelling doaj-75e56f9e8fb545f5b0d9652088c6d4d72020-11-25T01:01:28ZengWileyEcosphere2150-89252019-06-01106n/an/a10.1002/ecs2.2757Benthification, biotic homogenization behind the trophic downgrading in altered ecosystemsLuis Artur Valões Bezerra0Vanessa Maria Ribeiro1Matheus Oliveira Freitas2Les Kaufman3Andre Andrian Padial4Jean Ricardo Simões Vitule5Laboratório de Análise e Síntese em Biodiversidade (LASB) Programa de Pós‐Graduação em Ecologia e Conservação Universidade Federal do Paraná Curitiba BrazilLaboratório de Ecologia e Conservação (LEC) Universidade Federal do Paraná Curitiba BrazilLaboratório de Ecologia e Conservação (LEC) Universidade Federal do Paraná Curitiba BrazilBoston University Marine Program 5 Cummington Mall Boston Massachusetts 02215 USALaboratório de Análise e Síntese em Biodiversidade (LASB) Programa de Pós‐Graduação em Ecologia e Conservação Universidade Federal do Paraná Curitiba BrazilLaboratório de Ecologia e Conservação (LEC) Universidade Federal do Paraná Curitiba BrazilAbstract Several dozen fish species have been introduced into Neotropical waters, causing significant biotic changes that include deterministic predation interactions with ecosystem effects. In general, reservoirs are preferred over lakes as places for stocking policies, due to their artificial aspect, consequently promoting fish introductions. In a meta‐analytic approach, we compared the biomass of plankton‐feeding (and top predators) with bottom‐feeding fish species between reservoirs and lakes, considering the influence of invaders and trophic levels. Among the 26 ecosystems (12 reservoirs and 14 lakes), there is a dominance of non‐native bottom‐feeding species in artificial environments. We revealed a mechanism behind this dominance in a study case, a tendency for trophic downgrading and biotic homogenization based on interactions between an expatriate invasive centrarchid (sunfish family) predator from North America (the largemouth bass Micropterus salmoides) and two omnivorous cichlids from Africa in novel environmental contexts in Brazil (the benthification process). Both juvenile and adult largemouth bass are keystone predators in aquatic food webs in both their native and introduced ranges. The omnivore–detritivore tilapiines Oreochromis spp. and the phytophagous–omnivorous Coptodon spp. are species that exhibits strong generalist tendencies. Such species feed on the omnivore and detritivore compartments, enhancing detritus cycling among a large variety of δ13C sources. Since their consumption is disproportionate, facilitation of other species occurs with multiplicative effects in the environment. Interactions between invasive species, that is, when an invasive predator (bird, fish, or invertebrate) eats an invasive prey (mainly fish and invertebrates), can serve to highlight biotic homogenization on fresh waters.https://doi.org/10.1002/ecs2.2757downgrading food websEcopath with Ecosimenergy flowfood web modelinginvasional meltdownpredation interactions
collection DOAJ
language English
format Article
sources DOAJ
author Luis Artur Valões Bezerra
Vanessa Maria Ribeiro
Matheus Oliveira Freitas
Les Kaufman
Andre Andrian Padial
Jean Ricardo Simões Vitule
spellingShingle Luis Artur Valões Bezerra
Vanessa Maria Ribeiro
Matheus Oliveira Freitas
Les Kaufman
Andre Andrian Padial
Jean Ricardo Simões Vitule
Benthification, biotic homogenization behind the trophic downgrading in altered ecosystems
Ecosphere
downgrading food webs
Ecopath with Ecosim
energy flow
food web modeling
invasional meltdown
predation interactions
author_facet Luis Artur Valões Bezerra
Vanessa Maria Ribeiro
Matheus Oliveira Freitas
Les Kaufman
Andre Andrian Padial
Jean Ricardo Simões Vitule
author_sort Luis Artur Valões Bezerra
title Benthification, biotic homogenization behind the trophic downgrading in altered ecosystems
title_short Benthification, biotic homogenization behind the trophic downgrading in altered ecosystems
title_full Benthification, biotic homogenization behind the trophic downgrading in altered ecosystems
title_fullStr Benthification, biotic homogenization behind the trophic downgrading in altered ecosystems
title_full_unstemmed Benthification, biotic homogenization behind the trophic downgrading in altered ecosystems
title_sort benthification, biotic homogenization behind the trophic downgrading in altered ecosystems
publisher Wiley
series Ecosphere
issn 2150-8925
publishDate 2019-06-01
description Abstract Several dozen fish species have been introduced into Neotropical waters, causing significant biotic changes that include deterministic predation interactions with ecosystem effects. In general, reservoirs are preferred over lakes as places for stocking policies, due to their artificial aspect, consequently promoting fish introductions. In a meta‐analytic approach, we compared the biomass of plankton‐feeding (and top predators) with bottom‐feeding fish species between reservoirs and lakes, considering the influence of invaders and trophic levels. Among the 26 ecosystems (12 reservoirs and 14 lakes), there is a dominance of non‐native bottom‐feeding species in artificial environments. We revealed a mechanism behind this dominance in a study case, a tendency for trophic downgrading and biotic homogenization based on interactions between an expatriate invasive centrarchid (sunfish family) predator from North America (the largemouth bass Micropterus salmoides) and two omnivorous cichlids from Africa in novel environmental contexts in Brazil (the benthification process). Both juvenile and adult largemouth bass are keystone predators in aquatic food webs in both their native and introduced ranges. The omnivore–detritivore tilapiines Oreochromis spp. and the phytophagous–omnivorous Coptodon spp. are species that exhibits strong generalist tendencies. Such species feed on the omnivore and detritivore compartments, enhancing detritus cycling among a large variety of δ13C sources. Since their consumption is disproportionate, facilitation of other species occurs with multiplicative effects in the environment. Interactions between invasive species, that is, when an invasive predator (bird, fish, or invertebrate) eats an invasive prey (mainly fish and invertebrates), can serve to highlight biotic homogenization on fresh waters.
topic downgrading food webs
Ecopath with Ecosim
energy flow
food web modeling
invasional meltdown
predation interactions
url https://doi.org/10.1002/ecs2.2757
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