El Niño drives a widespread ulcerative skin disease outbreak in Galapagos marine fishes

Lamb, Robert W.; Smith, Franz; Aued, Anaide W.; Salinas‐de‐León, Pelayo; Suarez, Jenifer; Gomez‐Chiarri, Marta; Smolowitz, Roxanna; Giray, Cem; Witman, Jon D.

doi:10.1038/s41598-018-34929-z

Cited by 29 publications

(18 citation statements)

References 44 publications

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“…The present PCA results (Figure ) strongly suggest that interannual variations in local environmental factors (i.e., temperature, salinity, climate season, and ENSO index) had a substantial effect on parasite infracommunity structure. For example, infracommunity parameter values were significantly lower in the 2015 sampling (Table ), during one of the strongest recent ENSO events in the Pacific region, which generated an abnormally high temperature increase of up to +2.5°C in some regions of the tropical Pacific (Lamb et al, ). During this climate event, surface temperature (30.2°C) and salinity (35.5 ppt) in Acapulco Bay were significantly higher than in other sampling years (Table ).…”

Section: Discussionmentioning

confidence: 99%

“…During this climate event, surface temperature (30.2°C) and salinity (35.5 ppt) in Acapulco Bay were significantly higher than in other sampling years (Table ). Abnormal increases in sea surface temperature can decrease the productivity of food webs, affecting the parasite transmission processes of many trophically transmitted parasites due to population decreases in potential intermediate or final hosts (Lamb et al, ; Jacobson et al, ; Oliva et al, ). In Acapulco Bay slight changes in the temperature and salinity parameters can be enough to generate notable changes in copepod community species composition throughout the year (Rojas‐Herrera, Violante‐Gonzalez, Garcia‐Ibañez, Villerias‐Salinas, & Moreno‐Diaz, ).…”

Section: Discussionmentioning

confidence: 99%

“…One of the most ubiquitous patterns in parasite ecology is high variability in parasite infection levels between populations of the same host species (Bagee, Poulin, & Valtonen, ; Marcogliese, ). Changes in local environmental factors, whether physical, oceanographic, or chemical, can facilitate the establishment and proliferation of certain parasites over time (Bagee et al, ; Jacobson et al, ; Lamb et al, ; Oliva et al, ). Therefore, local fluctuations in surface temperature and salinity, as well as changes in the diet of fish over time, may explain interannual variations in the infection levels of N. euthynni , C. caballeroi , H. ventricosa , Sicuotrema sp., Rhadinorhynchus sp., Anisakis sp., and Spinitectus sp.…”

Section: Discussionmentioning

confidence: 99%

“…During the most recent El Niño event (2015–2016), sea surface temperature rose by +2.5°C for 6 months in tropical regions such as the Galapagos Islands in the South Pacific. This abnormally high surface temperature was associated with the appearance of an ulcerative skin disease affecting several fish species in this region (Lamb et al, ).…”

Section: Introductionmentioning

confidence: 99%

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Factors linked to interannual variation in the metazoan parasite communities of black skipjack, Euthynnus lineatus (Pisces: Scombridae)

Miranda-Delgado

Violante‐González

Monks

et al. 2019

Invertebrate Biology

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Marine parasite communities can exhibit temporal and spatial changes in response to seasonal and local variations in several biotic and abiotic environmental factors. Limited attention has been given to the influence of abiotic factors, so their effects on parasite community structure remain unclear. A total of 496 specimens of Euthynnus lineatus were collected over a 7-year period (2012-2018) from Acapulco Bay, Mexico. Their parasite communities were analyzed to determine if they experience interannual variations due to local biotic and abiotic factors. Thirty-three metazoan parasite species were recovered and identified: four species of Monogenea (adults); 16 of Digenea (one larvae and 15 adults); two of Acanthocephala (adults); two of Cestoda (larvae); three of Nematoda (two larvae and one adult); and six of Crustacea (three Copepoda, and three Isopoda). Species richness was greatest among the digeneans, which represented 48% of the total species recovered, followed by the crustaceans (19% of total species). Species richness at the component community level (14-24 species) was similar to reported richness in other small tuna species. The component communities and infracommunities of E. lineatus exhibited a similar pattern: high species richness and diversity, and numerical dominance by a single species, mainly by one of the didymozoids Allopseudocolocyntotrema claviforme or Pseudocolocyntotrema yaito. Parasite community structure and species composition varied among sampling years. Variations were possibly caused by a combination of abiotic and biotic factors which generated notable changes in the infection levels of several component species during the study period. These communities may therefore be unpredictable in terms of structure and species composition, as has been suggested for other communities of marine parasites.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Factors linked to interannual variation in the metazoan parasite communities of black skipjack, Euthynnus lineatus (Pisces: Scombridae)

Miranda-Delgado

Violante‐González

Monks

et al. 2019

Invertebrate Biology

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“…Several studies have shown that climate change strongly affects performance, population dynamics and distribution of marine organisms [6,17,18,19]. In particular, ENSO affects host-pathogen relationships of some marine organisms by reducing host immunity and increasing pathogen virulence [8,16,19,20,21,22]. However, most of these studies have been carried out on fungal, viral, protozoan [8,22,23,24,25] or internal metazoan parasites [9,26,27], while ectoparasites, which are more exposed and influenced by environmental variables, remain poorly studied.…”

Section: Introductionmentioning

confidence: 99%

The 2015-2016 El Niño increased infection parameters of copepods on Eastern Tropical Pacific dolphinfish populations

et al. 2020

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The oceanographic conditions of the Pacific Ocean are largely modified by El Niño (EN), affecting several ecological processes. Parasites and other marine organisms respond to environmental variation, but the influence of the EN cycle on the seasonal variation of parasitic copepods has not been yet evaluated. We analysed the relation between infection parameters (prevalence and mean intensity) of the widespread parasitic copepods Caligus bonito and Charopinopsis quaternia in the dolphinfish Coryphaena hippurus and oceanography during the strong 2015-16 EN. Fish were collected from capture fisheries on the Ecuadorian coast (Tropical Eastern Pacific) over a 2-year period. Variations of sea surface temperature (SST), salinity, chlorophyll a (Chl-a), Oceanic Niño Index (ONI), total host length (TL) and monthly infection parameters of both copepod species were analysed using time series and cross-correlations. We used the generalised additive models for determine the relationship between environmental variables and infection parameters. The total body length of the ovigerous females and the length of the eggs of C. bonito were measured in both periods. Infection parameters of both C. bonito and Ch. quaternia showed seasonal and annual patterns associated with the variation of environmental variables examined (SST, salinity, Chl-a and ONI 1+2). Infection parameters of both copepod species were significantly correlated with ONI 1+2, SST, TL and Chl-a throughout the GAMLSS model, and the explained deviance contribution ranged from 16%-36%. Our results suggest than an anomaly higher than +0.5˚C triggers a risen in infection parameters of both parasitic copepods. This risen could be related to increases in egg length, female numbers and the total length of the ovigerous females in EN period. This study provides the first evidence showing that tropical parasitic copepods are sensitive to the influence of EN event, especially from SST variations. The observed behaviour of parasitic copepods likely affects the host populations and structure of the marine ecosystem at different scales.

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Strategies for managing marine disease

Glidden

Field

Bachhuber

et al. 2022

Ecological Applications

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The incidence of emerging infectious diseases (EIDs) has increased in wildlife populations in recent years and is expected to continue to increase with global environmental change. Marine diseases are relatively understudied compared to terrestrial diseases but warrant parallel attention as they can disrupt ecosystems, cause economic loss, and threaten human livelihoods. While there are many existing tools to combat the direct and indirect consequences of EIDs, these management strategies are often insufficient or ineffective in marine habitats compared to their terrestrial counterparts, often due to fundamental differences between marine and terrestrial systems. Here, we first illustrate how the marine environment and marine organism life histories present challenges and opportunities for wildlife disease management. We then assess the application of common disease management strategies to marine versus terrestrial systems to identify those that may be most effective for marine disease outbreak prevention, response, and recovery. Finally, we recommend multiple actions that will enable more successful management of marine wildlife disease emergencies in the future. These include prioritizing marine disease research and understanding its links to climate change, improving marine ecosystem health, forming better monitoring and response networks, developing marine veterinary medicine programs, and enacting policy that addresses marine and other wildlife diseases. Overall, we encourage a more proactive rather than reactive approach to marine wildlife disease management and emphasize that multi-disciplinary collaborations are crucial to managing marine wildlife health.

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El Niño drives a widespread ulcerative skin disease outbreak in Galapagos marine fishes

Cited by 29 publications

References 44 publications

Factors linked to interannual variation in the metazoan parasite communities of black skipjack, Euthynnus lineatus (Pisces: Scombridae)

Factors linked to interannual variation in the metazoan parasite communities of black skipjack, Euthynnus lineatus (Pisces: Scombridae)

The 2015-2016 El Niño increased infection parameters of copepods on Eastern Tropical Pacific dolphinfish populations

Strategies for managing marine disease

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