Variation in Diet Patterns of the Invasive Top Predator Sander lucioperca (Linnaeus, 1758) across Portuguese Basins

Ribeiro, Diogo; Gkenas, Christos; Gago, João; Ribeiro, F. Ramôa

doi:10.3390/w13152053

Cited by 11 publications

(7 citation statements)

References 49 publications

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“…In the case of peacock bass, this effect seems to manifest particularly through the conversion of lentic and lotic areas caused by the construction of dams (the main impact mapped in our database), which supports greater abundances of this invader when compared to natural systems (Espínola et al, 2010;Franco et al, 2018), and by the disruption of trophic webs and depletion of resources during the establishment process discussed previously. Greater prevalence of cannibalism in artificial reservoirs versus rivers was also observed for the invasion of the top predator Sander lucioperca in Portugal (Ribeiro et al, 2021). Therefore, the greater frequency of cannibalism in human-modified ecosystems and in non-native populations may be associated with intensified intraspecific competition in invasive populations where predator densities are high and resources are limited, favouring the development of plasticity invasiveness strategies to reduce competition, such as cannibalism.…”

Section: Cannibalism In Native Versus Non-native Populationsmentioning

confidence: 84%

Cannibalism facilitates and sustains the invasion of top‐predator fish (Cichlidae: Cichla) in human‐modified ecosystems

Guedes,

Franco,

dos Santos

et al. 2024

Freshwater Biology

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The strategies that allow invasive alien species to perpetuate themselves in the long term are still poorly understood in invasion science. Considering top predators, a key issue is how they overcome the prey decline which they have caused during the invasion process. We investigate factors related to the persistence, impacts and long‐term success of the emerging peacock bass (Cichlidae: Cichla) invasion, a fish native to the Amazon biome that has been introduced globally. We analysed a robust temporal database that includes comparisons (1994–2002 vs. 2015–2017) on the diet of Cichla ocellaris, the abundance of this invader, its prey and competitors in a human‐modified ecosystem. In addition, we compare the frequency of cannibalism (presence or absence) between native versus non‐native populations, and between natural versus human‐modified ecosystems in the American continent. Four hypotheses were tested: (i) prey and competitor populations decrease through time as a result of predation impacts; (ii) cannibalism is size‐ and density‐dependent, and increases after native prey decline; (iii) cannibalism is more frequent in non‐native populations; and (iv) the abundance of invader decreases over time because of reduced resources and increased cannibalism. Our results revealed that the impacts of introducing this predator into communities are temporally cumulative and continue to evolve even after 70 years since its introduction. These impacts have led to dramatic reductions in prey availability, resulting in widespread cannibalism. Adult individuals preying on juveniles in areas with higher abundances of peacock bass indicated that cannibalism is size‐ and density‐dependent. Cannibalism was more frequent in non‐native populations and in human‐modified ecosystems. A complex feedback process (reproduce and cannibalise frequently) may be responsible for overcoming long‐term resource scarcity, and the cannibalism may not be a regulatory force strong enough to surpass the reproductive success of the population. Our findings at the local and continental scale converge to confirm the cannibalism as an adaptive invasiveness strategy that facilitates the invasion process and makes populations self‐sustainable in the long term, which may jeopardise the efficacy of management actions for these top predators introduced globally.

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Section: Cannibalism In Native Versus Non-native Populationsmentioning

confidence: 84%

Cannibalism facilitates and sustains the invasion of top‐predator fish (Cichlidae: Cichla) in human‐modified ecosystems

Guedes,

Franco,

dos Santos

et al. 2024

Freshwater Biology

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“…With specific reference to A. alburnus in Iberia, no evidence was found of otter predation on A. alburnus at a large reservoir in the River Guadiana from spraint samples collected before 2001 and in 2003 as well as in 2018, despite the high A. alburnus abundance in this last period (Bedmar et al 2022). Similarly, the efficient nonnative piscivorous Sander lucioperca was not found to reduce high abundance of A. alburnus in a study of 14 different populations across Portuguese drainage basins (Ribeiro et al 2021).…”

Section: Pathogens and Parasitesmentioning

confidence: 89%

“…Gagliardi et al 2007;Čech et al 2008;Čech and Vejřík 2011;Russell et al 2022). Use of A. alburnus as a prey (forage) species for piscivorous fishes has been the vector for introductions in the Mediterranean region (Vinyoles et al 2007), such as Spain (Ruiz-Olmo and Jiménez 2009;Vilches et al 2012;Ribeiro et al 2021) and Italy (Prigioni et al 2006;Gagliardi et al 2007), where A. alburnus has been used by recreational anglers as bait.…”

Section: Predatorsmentioning

confidence: 99%

A review and meta-analysis of the environmental biology of bleak Alburnus alburnus in its native and introduced ranges, with reflections on its invasiveness

Latorre

Masó

Cano-Barbacil

et al. 2023

Rev Fish Biol Fisheries

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The bleak Alburnus alburnus is a medium body-size leuciscid fish that is naturally distributed across central European and western Asian fresh waters. However, during the last two decades A. alburnus has been widely introduced elsewhere in Europe and in northern Africa, mostly as a forage species for game fishes. Given its relatively recent history of invasion in non-native Eurasian waters, where it can become highly abundant, A. alburnus poses a serious risk to native communities where introduced. This study provides a review and meta-analysis of the biological traits of A. alburnus coupled with insights into its invasiveness. In its native range, A. alburnus has a moderate lifespan, inhabiting lakes or still waters in medium-to-large rivers, where it feeds mainly on zooplankton. However, non-native A. alburnus populations display high phenotypic plasticity in their biological attributes. Thus, growth, reproductive and/or dietary traits have adapted to local environmental conditions, with the species also invading lotic (stream) ecosystems. Feeding changes to benthic invertebrates, plant material and detritus when zooplankton is scarce. Such plasticity, including broad physiological tolerance, is likely to facilitate the species' adaptation and invasion of new habitats in the near future.

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“…This is particularly important, as observed in the lower Po River (Castaldelli et al, 2013) where a long term monitoring program described the extirpation of two native fishes several decades after catfish invasion. Furthermore, considering Tagus endemisms like the Iberochondrostoma olisiponense (Veríssimo et al, 2018), these extinctions could have global implications, especially in endemic-rich drainages that are highly invaded by predatory fishes, such as the Lower Tagus River (Ribeiro et al, 2021; Magalhães et al, 2023).…”

Section: Discussionmentioning

confidence: 99%

Reproductive traits of the European catfish (Silurus glanis) during the early stages of invasion in the Lower Tagus River

Gkenas,

Ribeiro,

Gago

et al. 2023

Preprint

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Freshwater ecosystems face severe challenges from biological invasions, leading to biodiversity loss, disruption of ecosystem services, and economic impacts. Human-mediated activities, such as aquarium trade and sport angling, contribute to species introductions, with potential negative consequences for native ecosystems. The European catfish (Silurus glanis) is one of the world’s largest freshwater fish and has been intentionally introduced into diverse regions, impacting native ecosystems. However, limited research exists on its reproductive traits outside its native range. This study addresses this gap by examining the reproductive characteristics of non-native European catfish populations in the Lower Tagus River in Portugal, focusing on size at maturity, spawning period, and fecundity. The observed balanced sex ratio aligns with studies of native populations. Variations in size at first maturity (TL50) among populations highlight the influence of habitat conditions, temperature, food availability, growth rate, and geographical location on this trait. The extended spawning season (March to June) in the Tagus River is consistent with native populations, but variations may occur based on environmental conditions and water temperature. Absolute fecundity ranged from 8,961 to 335,500 oocytes, showing positive relationships with body size and emphasizing the reproductive potential of European catfish in Portugal. Egg size variations, along with asynchronous egg development, contribute to the species’ reproductive strategy, favoring its invasive success. Management efforts should include monitoring, regulations on introductions, removal programs, and public awareness to mitigate their impact. Future research should focus on understanding how non-native European catfish populations adapt in various regions and continue to impact ecosystems.

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Variation in Diet Patterns of the Invasive Top Predator Sander lucioperca (Linnaeus, 1758) across Portuguese Basins

Cited by 11 publications

References 49 publications

Cannibalism facilitates and sustains the invasion of top‐predator fish (Cichlidae: Cichla) in human‐modified ecosystems

Cannibalism facilitates and sustains the invasion of top‐predator fish (Cichlidae: Cichla) in human‐modified ecosystems

A review and meta-analysis of the environmental biology of bleak Alburnus alburnus in its native and introduced ranges, with reflections on its invasiveness

Reproductive traits of the European catfish (Silurus glanis) during the early stages of invasion in the Lower Tagus River

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