Your search keyword '"PTEROIS miles"' showing total 356 results

1. Where are they now? Tracking the Mediterranean lionfish invasion via local dive centers

Author

Phillips, Elizabeth W. and Kotrschal, Alexander

Published

2021

2. The lionfish expansion in the Aegean Sea in Turkey: A looming potential ecological disaster

Author

Ulman, Aylin, Tunçer, Sezginer, Kizilkaya, Inci Tuney, Zilifli, Aytuğ, Alford, Polly, and Giovos, Ioannis

Published

2020

3. Adjuvant Potential of Lionfish Venom on LPS Activated Mammalian Macrophages.

Author

Aydemir, Esra, Canatar, Ceren, Türkben, Havva, Yetkin, Derya, Ayas, Deniz, and Ayaz, Furkan

Abstract

Purpose of the study: The lionfish, originally from the Indo-Pacific, has become established in the western Atlantic Ocean and the Caribbean Sea as an exotic invasive species. Its presence can impact native fish and invertebrates by directly preying on them or competing for food resources. Recent findings: The venom of the Pterois miles species of lionfish, one of the venomous invasive species in the marine ecosystem, was examined in our study for its effects on the immune system based on the variations in cytokine production levels. We evaluated the adjuvant capability of the venom of the Pterois miles species as well as its immunostimulatory effects by detecting the levels of cytokines associated with the inflammation. Additionally, the amount of p38 mapk, which is involved in inflammation, was analyzed by flow cytometry. Cytokine production was measured from the macrophages in the presence of the venom. Cell viability and intracellular p38 levels were also analyzed. Summary: Our results suggest that the venom had immunostimulatory activity on the mammalian macrophages.This study demonstrates that finding new characteristics and concentrating more on the venom of the species may aid future research into employing P. miles venom (PMV) as a biomaterial in medical biotechnology, in addition to the recognized qualities of the substance. [ABSTRACT FROM AUTHOR]

Published

2024

4. Feeding Strategies and Biological Traits of the Lessepsian Migrant Pterois miles (Bennett, 1828) in the Messenian Gulf, SW Greece.

Author

Koilakos, Stefanos Michael, Georgatis, Ioannis, and Leonardos, Ioannis

Subjects

*PTEROIS miles, *LIFE history theory, *DIETARY patterns, *PTEROIS, *INTRODUCED species

Abstract

The common lionfish, Pterois miles (Bennett, 1828), is one of the most recent Lessepsian migrants into Mediterranean Sea. In this study, a first attempt is made to explore some life history parameters of the species in the Messenian Gulf (SW Greece). Its growth, morphometry, and feeding behavior were studied in samples collected with a speargun during the summer and autumn of 2021 at depths from 0 m to 20 m. Lionfish were found to have established a thriving population, growing faster and reaching larger sizes than in their native range. Analysis of their diet showed that this species is a generalized feeder with a preference towards piscivory, targeting key species for local food webs, such as the damselfish (C. chromis), possibly provoking competition with other native predators. Overall, the dietary habits of the species, rapid growth rate, and lack of predation pressure make the lionfish an additional risk for the integrity of the Messenian marine ecosystem, an ecosystem which is already disturbed by intense human intervention. [ABSTRACT FROM AUTHOR]

Published

2024

5. Prevalence and typology of skeletal abnormalities in fishes of the Eastern Mediterranean.

Author

Chatzakis, Dimitrios, Belbeisi, Roula Al, Karagianni, Soultana, Karagiannakidis, Eustratios, and Koumoundouros, George

Subjects

*SPINE, *MARINE biology, *SKELETAL abnormalities, *MANDIBLE, *PTEROIS miles, *LAGOONS

Abstract

The article in the Journal of Fish Diseases discusses the prevalence and typology of skeletal abnormalities in fish from the Eastern Mediterranean. The study reports on various types of skeletal abnormalities found in specimens of 10 fish species from the Aegean Sea, with rates ranging from 3.3% to 28.6%. The research highlights the impact of anthropogenic pressures, pollution, and other factors on the occurrence of skeletal abnormalities in wild fish populations. The study emphasizes the need for further monitoring programs to understand the effects of fish abnormalities on natural stocks and mortality rates. [Extracted from the article]

Published

2024

6. Marine protected areas can increase the abundance of invasive lionfish (Pterois miles).

Author

Kleitou, Periklis, Rees, Sian E., Kletou, Demetris, Harris, Holden E., Cai, Leda L., Green, Stephanie, Hadjioannou, Louis, Savva, Ioannis, Giovos, Ioannis, Jimenez, Carlos, and Hall‐Spencer, Jason M.

Subjects

*PTEROIS miles, *MARINE parks & reserves, *PTEROIS, *FISHERIES, *FISH mortality, *FISHING

Abstract

Marine protected areas (MPAs) can protect and restore marine biodiversity and fisheries, but there are concerns that they may also benefit invasive species. The spatial and temporal colonization of invasive lionfish (Pterois miles) in the eastern Mediterranean was compared across zones with varying fishing restrictions (no fishing, recreational and commercial fishing, and commercial fishing only), and stations where targeted removal events were conducted by volunteer SCUBA divers. Lionfish density in no fishing areas was nearly double that of areas with commercial fishing only, and over four times greater than in areas where both commercial and recreational fishing were allowed. Lionfish density increased with depth, possibly due to easier human exploitation in shallow waters (0–10 m) that are accessible to recreational spearfishers. Targeted removals by volunteer divers decreased lionfish densities by over 60%, while areas without removals had a 200%–400% increase. Along with management actions, natural and ecological processes might drive lionfish densities within MPAs, and the speed with which lionfish colonized fishery‐restricted zones, emphasized the need for a more sophisticated MPA management strategy that considers invasive species impacts and dynamics in an ecosystem‐based approach. [ABSTRACT FROM AUTHOR]

Published

2024

7. Community Structure of the Family (Scorpaenidae: Scorpionfishes) in Relation to Habitat and Depth Along the Jordanian Coast of the Gulf of Aqaba, Red Sea.

Author

Khalaf, Maroof, Al-Khasawneh, Thaqef, Wahsha, Mohammad, Hayek, Wissam, Al-Zibdah, Mohammad, and Al-Najjar, Tariq

Subjects

*PTEROIS miles, *CORAL reefs & islands, *HABITATS, *BEACHES, *FISH communities, *CORALS

Abstract

The community structure of the fish family Scorpaenidae was investigated at nine sites along the Jordanian coast, examining various sites, depths, and habitats. The study employed a visual census technique with SCUBA diving for data collection. To present the findings, GIS maps were generated using ArcMap 10.8.1, showcasing the projected benthic cover, frequency of appearance, and relative abundance of the species. The community indices were computed using PRIMER-5 software (Primer-E 2000). The survey recorded a total of 417 scorpionfish individuals, representing seven different species, across 87 belt transects located at nine coastal sites. The average number of scorpionfish individuals per transect was approximately 4.8. Notably, three out of the seven species accounted for a significant 79.8% of all observed individuals. These dominant species were Pterois miles, which exhibited the highest relative abundance at 37.9%, followed by Synanceia verrucosa at 21.3%, and Pterois radiata at 5.4%. Further analysis of the data revealed that P. miles was most prevalent in both coral reef habitats (RA=55.6%) and sandy habitats (RA=47.0%). On the other hand, S. verrucosa showed the highest abundance in the seagrass habitat with a relative abundance of 53.4%. Additionally, P. miles was the most abundant fish species at a depth of 9 m, accounting for 46.9% of the population, while both S. verrucosa and Scorpaenopsis diabolus shared the highest relative abundance at reef flats with 44.4% each. Moreover, P. miles was the most commonly observed species across all sites, with a frequency of appearance (FA) of 70.1%. In the seagrass habitat, S. verrucosa dominated, with an FA of 88.9%. Furthermore, P. miles was frequently encountered at the sandy bottom and coral reef habitats, with FAs of 82.5% and 58.3% respectively. Reef flats showed an equal prevalence of both S. verrucosa and P. miles, each accounting for 50.0% of the observed scorpionfish. Cluster analysis revealed the presence of two main groups: the northern natural sites GH, HA, and PLB formed the first group, while the remaining sites constituted the second group. The species richness was found to be highest at a depth of 6 m, whereas the lowest richness was observed at reef flats. The sandy habitat exhibited the highest diversity index, while the coral reef habitats displayed the lowest diversity. This comprehensive survey provides valuable insights for decision-makers and managers, aiding them in making informed decisions to ensure the safety of beach users and visitors to Aqaba. Additionally, it contributes to public awareness regarding the potential risks posed by these fishes, thereby reducing the likelihood of injuries caused by encounters with them. [ABSTRACT FROM AUTHOR]

Published

2024

8. The length-weight relationship of indigenous and nonindigenous fish species from the small-scale fisheries of Rhodes, Greece.

Author

Kondylatos, Gerasimos, Kallias, Ilias, Vafidis, Dimitris, Exadactylos, Athanasios, Theocharis, Alexandros, Mavrouleas, Dimitris, Kalaentzis, Konstantinos, Avgoustinaki, Maria, Conides, Alexios, and Klaoudatos, Dimitris

Subjects

*FISHERIES, *PTEROIS miles, *TERRITORIAL waters, *BIOLOGICAL invasions, *SEAWATER

Abstract

Allometric data of marine fish species from Rhodes, southeastern Aegean Sea are scarce. Their collection is crucial as they provide important information on the ongoing changes of small-scale fisheries in Rhodian coastal marine waters, a highly affected region of the Eastern Mediterranean by biological invasions. Monthly experimental trials and random samplings with static nets were conducted from April 2021 to March 2022 in the coastal marine waters of eastern Rhodes, Levantine Sea. Experimental boat seining was deployed in November 2022 in the coastal waters of northwest Rhodes, Aegean Sea. Total length and total weight of several individuals of 21 fish species were measured and the length-weight relationships of 12 indigenous and nine nonindigenous fish species were examined. The allometric coefficient (b) did not differ significantly from 3.00 for most of the species (70%), demonstrating isometric growth. Positive and negative allometry were found for three indigenous and three non-indigenous species. The largest and heaviest species were the bluespotted cornetfish (Fistularia commersonii), with a maximum TL of 117.60 cm and the silver-cheeked toadfish (Lagocephlaus sceleratus), with a maximum weight of 4640.90 g. Statistically significant positive allometric relationships were found for three non-indigenous fish, namely the bluespotted cornetfish, the devil firefish (Pterois miles) and the dusky spinefoot (Siganus luridus), suggesting that these species are thriving in the under-study area. [ABSTRACT FROM AUTHOR]

Published

2024

9. Limited effects of culling on the behavior of invasive lionfish (Pterois miles) in the Mediterranean.

Author

Phillips, Elizabeth W., Bottacini, Davide, Schoonhoven, Anna N. M., Kamstra, Ynze J. J., De Waele, Hannah, Jimenez, Carlos, Hadjioannou, Louis, and Kotrschal, Alexander

Subjects

*PTEROIS miles, *PTEROIS, *PTEROIS volitans, *INTRODUCED species, *PROTECTED areas, *BIOLOGICAL invasions, *ECOSYSTEMS

Abstract

Invasive species pose serious threats to ecosystems. To reduce ecological and economic consequences of invasions, efforts are made to control invaders and evaluating the effects of such efforts is paramount. Lionfishes (Pterois volitans and Pterois miles) are native to the Indo‐Pacific Ocean and pose a major threat to local ecosystems in the invaded Atlantic and Mediterranean. Culling via spearfishing is a widespread measure to limit lionfish population size in invaded ranges. However, like most hunted fishes, lionfish alter their behavior after repeated culling, potentially decreasing the effectiveness of future culls. Previous studies on lionfish in the Caribbean have shown that lionfish are less bold after repeated culling. However, the impact of culling on lionfish in their newest invasive range, the Mediterranean, remains enigmatic. To determine the behavioral changes in response to culling in this second area of invasion, we tested for effects of culling on the behavior of lionfish in Cyprus, a region heavily impacted by the lionfish invasion in the Mediterranean. We compared the response of lionfish to an approaching free diver holding a metal pole (imitating a spear fisher) between protected areas where spearfishing is restricted and areas where culls are frequently conducted. We also assessed whether activity, hiding pattern, and site fidelity differed between these culled and unculled sites. Overall, we found limited effects of culling on the traits measured, indicating surprising resistance to culling‐induced behavioral changes in Mediterranean lionfish. Future studies should monitor invasive lionfish population densities and the effects of culling in more detail to tailor management plans and reduce the negative effects of these fish in specific invaded ranges. [ABSTRACT FROM AUTHOR]

Published

2024

10. Modelling the rise of invasive lionfish in the Mediterranean

Author

Mitchell, Emma and Dominguez Almela, Victoria

Published

2025

11. Development of a quantitative colorimetric LAMP assay for fast and targeted molecular detection of the invasive lionfish Pterois miles from environmental DNA.

Author

Hartle-Mougiou, Katherine, Gubili, Chrysoula, Xanthopoulou, Panagiota, Kasapidis, Panagiotis, Valiadi, Martha, and Gizeli, Electra

Subjects

PTEROIS miles, PTEROIS, DNA, CYTOCHROME oxidase, NATURE reserves

Abstract

The Mediterranean basin has faced an increased influx of invasive species since the Suez Canal expansion in 2015. The invasive lionfish species, Pteroismiles, has rapidly established new populations in the Eastern Mediterranean Sea, impacting local fish biodiversity. Here, we have developed a new, fast (< 35 min) molecular approach to detect and quantify P. miles environmental DNA (eDNA) in combination with a portable device for field-based analysis. Using a species-specific real-time colorimetric loop-mediated isothermal amplification (qcLAMP) for the cytochrome oxidase subunit 1 (COI) gene, we demonstrate a high sensitivity with a limit of detection of 0.002 ng DNA per reaction, equivalent to only 50 copies of the COI gene. The assay is specific to the target in the presence of closely related and cooccurring species, and it is quantitative over five orders of magnitude. We validated the assay using aquarium water samples and further demonstrated its utility on natural eDNA samples collected from locations around the island of Crete where P. miles had been sighted. P. miles was indeed detected in three out of nine locations, two nature reserves and a closed bay. Lack of detection in the remaining locations suggests that populations are still at a low density. We also demonstrate the feasibility of P. miles eDNA qualitative detection directly from the filter used to collect eDNAcontaining particles, completely omitting DNA extraction. Overall, we present a new approach for fast and targeted eDNA quantification. The developed LAMP assay together, with the quantitative real-time colorimetric detection approach, open new possibilities for monitoring invasive P. miles in the field. [ABSTRACT FROM AUTHOR]

Published

2024

12. Invasion genomics of lionfish in the Mediterranean Sea.

Author

Bernardi, Giacomo, Azzurro, Ernesto, Bariche, Michel, Jimenez, Carlos, Kalogirou, Stefanos, and Kleitou, Periklis

Subjects

*PTEROIS, *GENOMICS, *PTEROIS miles, *BIOLOGICAL invasions, *GENETIC variation

Abstract

The rate of biological invasions is steadily increasing, with major ecological and economic impacts accounting for billions of dollars in damage as a result. One spectacular example is the western Atlantic invasion by lionfishes. In the Mediterranean Sea, invasions from the Red Sea via the Suez Canal (termed Lessepsian invasions) comprise more than 100 fish species, including a recent invasion by lionfish. In light of the devastating effects of lionfish in the Caribbean Sea, understanding the dynamics of Mediterranean lionfish invasion is crucial. The Lessepsian lionfish invasion started in 2012, and rapidly spread to the central Mediterranean. Here, we used thousands of RAD seq genomic markers to study the population dynamics of this invasion. While we did not find a reduction in genetic diversity between source (Red Sea) and invasive (Mediterranean) populations (i.e., bottleneck effects), we found evidence of population structure within the invasive range in the Mediterranean Sea. We found that loci that are potentially under selection may play an important role in invasion success (in particular, genes involved in osmoregulation and fin spine sizes). Genomic approaches proved powerful in examining the ecological and evolutionary patterns of successful invaders and may be used as tools to understand and potentially mitigate future invasions. [ABSTRACT FROM AUTHOR]

Published

2024

13. Potential Invasiveness of Devil Firefish Pterois miles (Bennett 1828) in the Eastern Adriatic Sea.

Author

Bakiu, Rigers, Soldo, Alen, and Ćetković, Ilija

Subjects

*PTEROIS miles, *INTRODUCED species, *ECOLOGICAL impact

Abstract

Devil firefish Pterois miles is an invasive alien species which has severely impacted biodiversity and ecological processes in invaded areas of the Mediterranean. In recent years, its presence has been documented in several countries of the Adriatic Sea. Based on the negative ecological and socio-economic impacts in other areas of the Mediterranean Sea, the potential invasiveness of devil firefish was analyzed for the coastal areas of the three eastern Adriatic countries (Albania, Croatia and Montenegro) using the Aquatic Species Invasiveness Screening Kit. Generally, based on the average value of the Basic Risk Assessment and the threshold used, the outcomes suggest that this species will be highly invasive in the eastern Adriatic countries. In addition, the results have shown that the most affected sector is represented by the local species populations and relative characteristics, while commercial sectors represent the least affected sector. However, considering that the negative impact of non-native species is not seen directly, the governments of these countries should address this issue as soon as possible. [ABSTRACT FROM AUTHOR]

Published

2024

14. Lionfish (Pterois miles) in the Mediterranean Sea: a review of the available knowledge with an update on the invasion front.

Author

Bottacini, Davide, Pollux, Bart J. A., Nijland, Reindert, Jansen, Patrick A., Naguib, Marc, and Kotrschal, Alexander

Subjects

*PTEROIS miles, *SCIENTIFIC knowledge, *PTEROIS, *FISH communities, *MARINE ecology, *ECOSYSTEMS, *BIOLOGICAL invasions

Abstract

Invasive species often severely impact ecosystems and human activities in the areas that they invade. The lionfishes Pterois miles and P. volitans are regarded as the most successful invasive fishes in marine ecosystems. In the last 40 years, these Indo-Pacific predators have established in the tropical western Atlantic Ocean, with well-documented detrimental effects on the local fish communities. Around 10 years ago, a second invasion began in the Mediterranean Sea, which is being colonised by P. miles. Given the invasive potential of P. miles and the fact that the ecology and biodiversity of the temperate/sub-tropical Mediterranean Sea offer a different setting from the tropical western Atlantic, specific knowledge on this second invasion is needed. Here, we: (i) review the scientific knowledge available on the ecology of invasive lionfishes, (ii) discuss such knowledge in the context of invasion ecology and (iii) suggest future research avenues on the P. miles invasion in the Mediterranean Sea. In addition, we offer an update on the spread of P. miles in the Mediterranean Sea. While the history and development of the Mediterranean invasion are resolved and some mitigation plans have been implemented locally, the study of the interactions of P. miles with Mediterranean species and their impact on the local biodiversity is in its infancy. Closing this gap will lead to important fundamental insights in invasion ecology and will result in predictions on the impact of P. miles on the ecology and ecosystem services of the Mediterranean Sea. Such information will have practical implications for policy-makers aiming to devise sound and efficient mitigation plans. [ABSTRACT FROM AUTHOR]

Published

2024

15. The Devil Firefish Pterois miles (Bennett, 1828): Life History Traits of a Potential Fishing Resource in Rhodes (Eastern Mediterranean).

Author

Kondylatos, Gerasimos, Theocharis, Alexandros, Mandalakis, Manolis, Avgoustinaki, Maria, Karagyaurova, Teodora, Koulocheri, Zoi, Vardali, Sofia, and Klaoudatos, Dimitris

Subjects

*PTEROIS miles, *INTRODUCED species, *SOCIOECONOMIC factors, *FISH growth

Abstract

The devil firefish Pterois miles (Bennett 1828) is recognized as one of the 100 worst invasive alien species (IAS) in the Mediterranean Sea with significant socioeconomic and ecological implications. A total of 363 individuals were collected between April 2021 and March 2022 from the Levantine Sea (the Eastern Mediterranean), aiming to assess the current progression of the population. The male to female ratio (1:1.03) did not significantly depart from 1:1, with length–weight relationships exhibiting positive allometric growth. Five age groups were identified, with the third and fourth age groups being the predominant (74% of the population). The highest reproductive intensity was observed during summer followed by autumn. The onset of sexual maturity (L50) for the total population was estimated at 22.44 cm in total length (2.1 years). The asymptotic length was estimated at 45.35 cm for the total population, with males growing larger than females. Longevity was estimated at 14.4 years for the total population. The inflection point was estimated at 4.31 years for the total population. Length with a 50% probability of capture (LC50) was estimated at 23.03 cm, with the respective age (t50) of 2.2 years. The exploitation rate (E = 0.48) indicated that the population is underexploited. The optimum (Fopt) and target (Flim) fishing mortality were higher in comparison with the present fishing mortality (F = 0.41), indicating a potential for commercial exploitation of the species. [ABSTRACT FROM AUTHOR]

Published

2024

16. An underwater clash of spears: Public engagement in Mediterranean lionfish control efforts.

Author

Savva, Ioannis, Cai, Leda L., Kleitou, Periklis, Hadjioannou, Louis, Jimenez, Carlos, Karonias, Anastasis, Nicolaou, Erato, Chartosia, Niki, Hall‐Spencer, Jason M., and Kletou, Demetris

Subjects

PTEROIS, PTEROIS miles, INTRODUCED species, COMPETENT authority

Abstract

Invasive alien species pose a great challenge in conservation ecology. Rapid establishment of common lionfish (Pterois miles) in the eastern Mediterranean Sea and its ongoing westward expansion raises many questions about how to sustainably combat this invasion in the long term.Drawing on experiences from the western Atlantic invasion, citizen scientists were engaged and demonstrated the efficiency of long‐term coordinated removals for the first time in the Mediterranean Sea.Findings reveal a sustained participation and interest throughout the coordinated removal events that encourage the organization of future events. Removal Action Teams were found effective at reducing lionfish numbers in small (less than half a hectare) areas of high conservation value, when removals were repeated systematically.Single‐day lionfish derbies, operated at greater spatial scales, succeeded in a 50% reduction in lionfish abundance while removing most large (>30 cm) individuals from an area after three consecutive events.Given the recreational character of such activities, coordinated removals are useful options for management and conservation when guided by competent authorities and supported by citizens, as they promote marine environmental awareness and help develop a sense of stewardship among members of the public. [ABSTRACT FROM AUTHOR]

Published

2024

17. Feeding Strategies and Biological Traits of the Lessepsian Migrant Pterois miles (Bennett, 1828) in the Messenian Gulf, SW Greece

Author

Stefanos Michael Koilakos, Ioannis Georgatis, and Ioannis Leonardos

Subjects

Pterois miles, growth, marine invasive species, morphometry, feeding behavior, lionfish, Biology (General), QH301-705.5, Genetics, QH426-470

Abstract

The common lionfish, Pterois miles (Bennett, 1828), is one of the most recent Lessepsian migrants into Mediterranean Sea. In this study, a first attempt is made to explore some life history parameters of the species in the Messenian Gulf (SW Greece). Its growth, morphometry, and feeding behavior were studied in samples collected with a speargun during the summer and autumn of 2021 at depths from 0 m to 20 m. Lionfish were found to have established a thriving population, growing faster and reaching larger sizes than in their native range. Analysis of their diet showed that this species is a generalized feeder with a preference towards piscivory, targeting key species for local food webs, such as the damselfish (C. chromis), possibly provoking competition with other native predators. Overall, the dietary habits of the species, rapid growth rate, and lack of predation pressure make the lionfish an additional risk for the integrity of the Messenian marine ecosystem, an ecosystem which is already disturbed by intense human intervention.

Published

2024

18. Invasion genomics of lionfish in the Mediterranean Sea

Author

Giacomo Bernardi, Ernesto Azzurro, Michel Bariche, Carlos Jimenez, Stefanos Kalogirou, and Periklis Kleitou

Subjects

bioinvasion, lessepsian migrants, mediterranean, Pterois miles, Ecology, QH540-549.5

Abstract

Abstract The rate of biological invasions is steadily increasing, with major ecological and economic impacts accounting for billions of dollars in damage as a result. One spectacular example is the western Atlantic invasion by lionfishes. In the Mediterranean Sea, invasions from the Red Sea via the Suez Canal (termed Lessepsian invasions) comprise more than 100 fish species, including a recent invasion by lionfish. In light of the devastating effects of lionfish in the Caribbean Sea, understanding the dynamics of Mediterranean lionfish invasion is crucial. The Lessepsian lionfish invasion started in 2012, and rapidly spread to the central Mediterranean. Here, we used thousands of RAD seq genomic markers to study the population dynamics of this invasion. While we did not find a reduction in genetic diversity between source (Red Sea) and invasive (Mediterranean) populations (i.e., bottleneck effects), we found evidence of population structure within the invasive range in the Mediterranean Sea. We found that loci that are potentially under selection may play an important role in invasion success (in particular, genes involved in osmoregulation and fin spine sizes). Genomic approaches proved powerful in examining the ecological and evolutionary patterns of successful invaders and may be used as tools to understand and potentially mitigate future invasions.

Published

2024

19. Development of a quantitative colorimetric LAMP assay for fast and targeted molecular detection of the invasive lionfish Pterois miles from environmental DNA

Author

Katherine Hartle-Mougiou, Chrysoula Gubili, Panagiota Xanthopoulou, Panagiotis Kasapidis, Martha Valiadi, and Electra Gizeli

Subjects

lionfish, Pterois miles, invasive species, environmental DNA, loop mediated isothermal amplification, Eastern Mediterranean, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

The Mediterranean basin has faced an increased influx of invasive species since the Suez Canal expansion in 2015. The invasive lionfish species, Pterois miles, has rapidly established new populations in the Eastern Mediterranean Sea, impacting local fish biodiversity. Here, we have developed a new, fast (< 35 min) molecular approach to detect and quantify P. miles environmental DNA (eDNA) in combination with a portable device for field-based analysis. Using a species-specific real-time colorimetric loop-mediated isothermal amplification (qcLAMP) for the cytochrome oxidase subunit 1 (COI) gene, we demonstrate a high sensitivity with a limit of detection of 0.002 ng DNA per reaction, equivalent to only 50 copies of the COI gene. The assay is specific to the target in the presence of closely related and co-occurring species, and it is quantitative over five orders of magnitude. We validated the assay using aquarium water samples and further demonstrated its utility on natural eDNA samples collected from locations around the island of Crete where P. miles had been sighted. P. miles was indeed detected in three out of nine locations, two nature reserves and a closed bay. Lack of detection in the remaining locations suggests that populations are still at a low density. We also demonstrate the feasibility of P. miles eDNA qualitative detection directly from the filter used to collect eDNA-containing particles, completely omitting DNA extraction. Overall, we present a new approach for fast and targeted eDNA quantification. The developed LAMP assay together, with the quantitative real-time colorimetric detection approach, open new possibilities for monitoring invasive P. miles in the field.

Published

2024

20. Assessing the fish fauna diversity and abundance at Aegean and Ionian seas, with emphasis on certain NIS fish species via Scientific diving and Visual Census.

Author

Kampouris, Thodoros E., Pappou, Sofia, Erga, Zinovia, Kouloumperis, Vasilis, and Batjakas, Ioannis E.

Subjects

*FISH diversity, *PTEROIS miles, *CENSUS, *DIVING, *SPECIES, *FISHES

Abstract

The Mediterranean Sea and its exceptional biodiversity suffer from non-indigenous (NIS) and invasive species. These result from Lessepsian migration and human activities. Species with the highest negative impact include Pterois miles, Lagocephalus sceleratus and Fistularia commersonii. The current study assessed the distribution and abundance of these three species in the Aegean and Ionian Seas in the context of the regional diversity of ichthyofauna. Using Scientific Diving and Visual Census, we focused on NIS fish fauna, and surveyed most of the areas where the occurrence or establishment of NIS had been documented. Emphasis was given to regions with limited available data. This study assessed the homogeneity of diversity and abundance of the fish species at the diving sites; assessed the most dominant species per region; and calculated relevant biodiversity indexes. Our results suggest that the south and east parts of the Aegean Sea are the most affected by the establishment of NIS. Samos Island is concluded to be an important region for the expansion of NIS to the northern parts of the Aegean Sea. Also, both the Saronikos Gulf and the whole area of the Peloponnese seem to have a pivotal role in the expansion of distribution of NIS from the east Mediterranean sub-basin to the west sub-basin. The genus Siganus seems to have very high abundances and population densities in certain areas, and therefore its establishment could have negative impacts in these regions. We conclude that scientific diving is not appropriate for monitoring the population status of L. sceleratus and we propose more appropriate methodologies such as the use of baited cameras and ROV's to be used in the future. [ABSTRACT FROM AUTHOR]

Published

2023

21. Dietary habits change of Lessepsian migrants' fish from the Red Sea to the Eastern Mediterranean Sea.

Author

Tsadok, Rami, Zemah-Shamir, Ziv, Shemesh, Eli, Martinez, Stephane, Ramon, Debra, Kolski, Itai, Tsemel, Anat, and Tchernov, Dan

Subjects

FOOD habits, STABLE isotope analysis, RED drum (Fish), ESSENTIAL amino acids, FISH populations, MARINE biodiversity

Abstract

As impacts on the Mediterranean Sea are expected to grow in the future, especially with climate change, habitat degradation, and displacement of native species by non-indigenous species (NIS), the investigation of significant alterations to trophic levels in this diverse marine habitat is important. Analysis of stable isotopes from targeted consumers has previously been shown to reliably reflect that of primary producers, thus enabling us to describe and highlight potential shifts in the food web of a particular ecosystem. In this study, we used δ13C values of essential amino acids (AA) in order to examine the dietary composition of established non-native, Lessepsian fish migrants in the Eastern Mediterranean Sea compared to that of the same fish species from their original population in the Gulf of Aqaba, Red Sea. Our data show that a clear variance in carbon isotopic signatures exists in food sources consumed by the same species between the different environments, with the exception of the classic herbivore, Siganus rivulatus (Forsskål & Niebuhr, 1775), whose very similar isotopic patterns reflect the algal source they predominantly consume in both locations. With the results of this research, we propose that Lessepsian fishes with the ability to maintain their nutritional patterns, though not necessarily that of their original food source, will acclimatize better in their new habitat. Consequences of flourishing Lessepsian fish populations include a further tropicalization of the Eastern Mediterranean Sea and the likely restructuring of local food webs. [ABSTRACT FROM AUTHOR]

Published

2023

22. Biology and ecology of the lionfish Pterois volitans/Pterois miles as invasive alien species: a review.

Author

del Río, Laura, Navarro-Martínez, Zenaida María, Cobián-Rojas, Dorka, Pablo Chevalier-Monteagudo, Pedro, Angulo-Valdes, Jorge A., and Rodriguez-Viera, Leandro

Subjects

PTEROIS volitans, PTEROIS miles, INTRODUCED species, PTEROIS, MANGROVE ecology, PREDATION, NATIVE fishes

Abstract

The lionfish is an exotic invasive fish native to the Indo-Pacific, which is established in the western Atlantic Ocean and the Caribbean Sea. Lionfish can affect native fishes and invertebrates through direct predation or competition for food. The present review aims to analyze the most relevant characteristics of the biology and ecology of lionfish as an invasive alien species, with an emphasis on Cuba. We provide a current view of the well-known lionfish as a successful invasive fish, and we put in this context the information regarding lionfish in Cuban waters, enriching the background knowledge, and giving novel and relevant information. The compilation of numerous publications on the subject has allowed for a more complete analysis of essential aspects of this invader in the Cuban archipelago. The consulted literature records that the first report of lionfish in Cuba occurred in 2007; subsequently, sightings of lionfish were reported in numerous localities. In 2010, the lionfish was considered an invasive alien species, which currently is established in various habitats, at depths up to 188 m, throughout the Cuban archipelago (e.g., coral reefs, mangroves, seagrass beds, submerged artificial structures). In addition, it has reached very high densities (12.42 ind./100 m2), which exceed those reported in the Indo-Pacific as well as in many locations in the Western Atlantic. It has been confirmed that the lionfish in Cuba also presents numerous characteristics that guarantee its success as an invader, among them: less quantity and diversity of parasites than other Atlantic fishes found in similar environments, a high number of gametes in the gonads, reproductive activity during all year and wide diet. The most important fish families for the lionfish diet in Cuba have been Pomacentridae, Gobiidae, Scaridae, Holocentridae, Mullidae, Labridae and Acanthuridae; and the most important crustacean orders are Decapoda, Mysida, Stomatopoda and Isopoda. In Cuba, as in the entire invaded region, numerous investigations have been directed to evaluate the impact of this invader on ecosystems, and although there is enough information, their results differ. Additional studies are required to assess the impact of lionfish as a predator after several years of invasion on a larger geographic scale in Cuba and other areas of the region. This knowledge will allow the development of more effective control strategies. Periodic lionfish culling have been carried out in Cuban MPAs as a control strategy, and some positive results have been observed, such as the average size reduction; however, further efforts are still required. Due to the importance of the study of lionfish as an invader, this review is a necessity as it provides, for the first time, a comprehensive analysis of lionfish information and results from Cuba, which is adequately contrasted with previous studies of other areas, particularly, from the Greater Caribbean. [ABSTRACT FROM AUTHOR]

Published

2023

23. Lionfish Diet Composition at Three Study Sites in the Aegean Sea: An Invasive Generalist?

Author

Batjakas, Ioannis E., Evangelopoulos, Athanasios, Giannou, Maria, Pappou, Sofia, Papanikola, Eleftheria, Atsikvasi, Maria, Poursanidis, Dimitris, and Gubili, Chrysoula

Subjects

*PTEROIS, *PTEROIS miles, *DIET, *GASTROINTESTINAL contents, *GOBIIDAE

Abstract

The diet of the lionfish (Pterois miles), an invasive species in the Aegean Sea, was examined by collecting stomach content data from fish collected in three study sites in the Aegean Sea (southern Crete, Kastellorizo, and Nysiros islands). Prey composition in terms of numerical abundance and frequency of occurrence was used to compare lionfish's diet between these sites. Lionfish largely preyed upon teleosts (4% to 83% numerical abundance and 16% to 58% frequency of occurrence, depending on the site) and decapods (12% to 95% numerical abundance and 11% to 81% frequency of occurrence). The most important teleost families in lionfish's diet were Gobiidae, Labridae, and Scorpaenidae, while decapods and especially the family Scyllaridae and the genus Plesionika were the dominant decapod prey items. The lionfish was found to be an especially successful generalist across the study sites, an opportunistic, predatory species overall, and at the same time, at a local level, it seems to be an equally successful specialist that could increase the predation mortality of already stressed prey populations and can be a serious threat to endemic, critically endangered, and/or commercially important species. [ABSTRACT FROM AUTHOR]

Published

2023

24. Looking at the Expansion of Three Demersal Lessepsian Fish Immigrants in the Greek Seas: What Can We Get from Spatial Distribution Modeling?

Author

Solanou, Maria, Valavanis, Vasilis D., Karachle, Paraskevi K., and Giannoulaki, Marianna

Subjects

*PTEROIS miles, *SCIENCE publishing, *POSIDONIA oceanica

Abstract

A big number of Red Sea species have entered the Mediterranean Sea since the opening of the Suez Canal. Some of them quickly establish local populations and increase their abundance, forming a potential threat for local biodiversity and fisheries. Here, we use habitat modeling tools to study the expansion of three alien, demersal fish species that entered the Mediterranean basin at different times: Pterois miles, Siganus luridus and Siganus rivulatus. Georeferenced occurrence data from the eastern Mediterranean over the past ten years were compiled using online sources, published scientific literature and questionnaires and were correlated with environmental and topographic variables. The maximum entropy modeling approach was applied to construct habitat suitability maps for the target species over all of the Greek Seas. Results emphasized the three species' strong coastal nature and their association with the presence of Posidonia oceanica meadows. Probability maps evidenced that for all species there is a higher likelihood of presence along the southeast and central Aegean and Ionian Sea coasts and a lower likelihood throughout the North Aegean Sea. For Siganus spp., predictions in the Thracian Sea were highlighted as highly uncertain, as the environmental conditions in this area partly fall outside the range of values occurring in locations of their current presence. [ABSTRACT FROM AUTHOR]

Published

2023

25. Unpublished Mediterranean and Black Sea records of marine alien, cryptogenic, and neonative species.

Author

Ragkousis, Michail, Zenetos, Argyro, Ben Souissi, Jamila, Hoffman, Razy, Ghanem, Raouia, Taşkın, Ergün, Muresan, Mihaela, Karpova, Evgeniia, Slynko, Elena, Dağlı, Ertan, Fortič, Ana, Surugiu, Victor, Mačić, Vesna, Trkov, Domen, Bahri, Wafa Rjiba, Tsiamis, Konstantinos, Ramos-Espla, Alfonso A., Petović, Slavica, Ferrario, Jasmine, and Marchini, Agnese

Subjects

PTEROIS miles, SPECIES, INTRODUCED species, SOUND recordings, CAULERPA

Abstract

To enrich spatio-temporal information on the distribution of alien, cryptogenic, and neonative species in the Mediterranean and the Black Sea, a collective effort by 173 marine scientists was made to provide unpublished records and make them open access to the scientific community. Through this effort, we collected and harmonized a dataset of 12,649 records. It includes 247 taxa, of which 217 are Animalia, 25 Plantae and 5 Chromista, from 23 countries surrounding the Mediterranean and the Black Sea. Chordata was the most abundant taxonomic group, followed by Arthropoda, Mollusca, and Annelida. In terms of species records, Siganus luridus, Siganus rivulatus, Saurida lessepsianus, Pterois miles, Upeneus moluccensis, Charybdis (Archias) longicollis, and Caulerpa cylindracea were the most numerous. The temporal distribution of the records ranges from 1973 to 2022, with 44% of the records in 2020-2021. Lethrinus borbonicus is reported for the first time in the Mediterranean Sea, while Pomatoschistus quagga, Caulerpa cylindracea, Grateloupia turuturu, and Misophria pallida are first records for the Black Sea; Kapraunia schneideri is recorded for the second time in the Mediterranean and for the first time in Israel; Prionospio depauperata and Pseudonereis anomala are reported for the first time from the Sea of Marmara. Many first country records are also included, namely: Amathia verticillata (Montenegro), Ampithoe valida (Italy), Antithamnion amphigeneum (Greece), Clavelina oblonga (Tunisia and Slovenia), Dendostrea cf. folium (Syria), Epinephelus fasciatus (Tunisia), Ganonema farinosum (Montenegro), Macrorhynchia philippina (Tunisia), Marenzelleria neglecta (Romania), Paratapes textilis (Tunisia), and Botrylloides diegensis (Tunisia). [ABSTRACT FROM AUTHOR]

Published

2023

26. Serving conservation from reef to plate: Barriers and opportunities for invasive lionfish consumption in restaurants.

Author

Smith, Nathan, Burgess, Kate, Clements, Kaylin R., Burgess, Joanne C., Lavoie, Anna, and Solomon, Jennifer N.

Subjects

PTEROIS, PTEROIS miles, PTEROIS volitans, CORAL reefs & islands, NATIVE fishes, REEFS, FOOD chains

Abstract

Invasive lionfish (Pterois volitans, Pterois miles), introduced to Florida in the 1980s, colonized coral reef ecosystems in the western Atlantic and have been documented beyond recreational diving depths. In addition to threatening coral reef ecosystems, invasive lionfish have been linked to economic damage in the form of reduced native fish yields for local fishers and high management costs incurred in the physical removal of lionfish.While few examples exist of successful management of marine invasive species, studies show that lionfish removal can mitigate their harmful impacts. One promising market‐based approach that offers benefits to both human livelihoods and marine ecosystems is increasing the demand for the consumption of lionfish. This study focuses on Florida's consumptive lionfish market and fills a gap in understanding of the lionfish supply chain for Florida's restaurant industry.Twenty culinary professionals in Florida were interviewed to determine their perceptions of barriers and opportunities for increasing their use of lionfish. The most commonly identified barriers were price and consistency of supply, while the most prominent opportunities were improved awareness and culinary potential. Conservation managers, culinary professionals and policymakers should leverage these findings to facilitate opportunities, address barriers and promote public education about invasive lionfish and their impacts. [ABSTRACT FROM AUTHOR]

Published

2023

27. Genetic population structure of the lionfish Pterois miles (Scorpaenidae, Pteroinae) in the Gulf of Aqaba and northern Red Sea

Author

Kochzius, Marc and Blohm, Dietmar

Published

2005

28. Impacts of recurrent culling of invasive lionfish on mesophotic reefs in Bermuda.

Author

Goodbody-Gringley, Gretchen, Chequer, Alex, Grincavitch, Cali, Noyes, Timothy, Dowell, Rosalie, Lundberg, Alex, Corbett, Ellie, and Smith, Ashley

Subjects

PTEROIS, PTEROIS miles, REEF fishes, FISH diversity, FISH populations, REEFS, FISH communities

Abstract

Invasive lionfish (Pterois miles and P. volitans) populations are now pervasive across the Caribbean and Western Atlantic. These generalist mesopredators have the potential to negatively impact reef fish populations throughout their invaded range. Targeted removal by culling has been shown as an effective way to manage shallow-water lionfish densities, however, lionfish are found across a broad depth range, with reproductive populations found at mesophotic depth. This study aimed to determine the efficacy of short-term culling of mesophotic lionfish populations and its impact on resident reef fish populations. Surveys of lionfish and reef fish populations were conducted monthly at three mesophotic reef sites in Bermuda from July to December 2017, with subsequent surveys six and 12 months later. During each survey, all lionfish were removed, measured, and sexed. Lionfish density was found to decrease significantly over the recurrent culling period, with the rate of recolonization declining as density declined, resulting in continued reductions with each subsequent culling. The percent of females also declined during recurrent culling, suggesting that culling may further reduce population stability through impacts to reproductive potential. Reef fish community composition changed throughout the study, with shifts in dominant species and trophic groups despite stable species richness and diversity. However, fluctuations in lionfish density as well as reef fish density and biomass reflected patterns of seasonality indicating that impacts of the physical environment may mask the influence of lionfish culling. Overall, these data suggest that culling of invasive lionfish on mesophotic reefs should target high density sites and seasonal aggregations in order to effectively contribute to management strategies. [ABSTRACT FROM AUTHOR]

Published

2023

29. Predictions of current and potential global invasion risk in populations of lionfish (Pterois volitans and Pterois miles) under climate change scenarios.

Author

Loya-Cancino, Karla Fernanda, Ángeles-González, Luis Enrique, Yañez-Arenas, Carlos, Ibarra-Cerdeña, Carlos Napoleón, Velázquez-Abunader, Iván, Aguilar-Perera, Alfonso, and Vidal-Martínez, Víctor Manuel

Subjects

*PTEROIS volitans, *PTEROIS miles, *PTEROIS, *CLIMATE change, *MARINE biodiversity

Abstract

Populations of lionfish (Pterois volitans Linnaeus, 1758; Pterois miles Bennett, 1828) have expanded in the western Atlantic Ocean and the Mediterranean Sea since their introduction and have become a biological invasive species. This invasion has impacted these regions' marine biodiversity, and their impact is expected to increase due to climate change. Our work evaluated the current and future potential risk of lionfish populations during climate change scenarios based on the Maximum Entropy (MaxEnt) model. MaxEnt was used to predict lionfish populations' suitability for current conditions and under two Representative Concentration Pathway scenarios (RCP 4.5 and 8.5) for 2040–2050 and 2090–2100. Lionfish had an estimated range of physiological tolerances from 10–15 °C to 30 °C. According to our analyses, lionfish can live off the coasts of western Africa, the Americas, and the Mediterranean Sea. Under mild warming scenarios, suitable conditions for lionfish could expand to higher latitudes due to their high thermal range and salinity tolerance. Our models predicted that lionfish could reach the coasts of France, the United Kingdom, Uruguay, South Africa, and New Zealand, among other regions, under warming scenarios. However, under the warmest scenario (RCP 8.5), tropical latitudes may become less suitable for lionfish, particularly in the Indo-Pacific region. Our results may be useful for resource managers to foresee where to increase efforts in lionfish fisheries and consumption. [ABSTRACT FROM AUTHOR]

Published

2023

30. Cutaneous ulcerative lesions of unknown etiology affecting lionfish Pterois spp. in the Gulf of Mexico.

Author

Cody, Theresa T., Kiryu, Yasunari, Bakenhaster, Micah D., Subramaniam, Kuttichantran, Tabuchi, Maki, Ahasan, Mohammad Shamim, Harris, Holden E., Landsberg, Jan H., Waltzek, Thomas B., Fogg, Alexander Q., Shea, Colin, Pouder, Deborah B., Patterson, William F., Emory, Meaghan E., and Yanong, Roy P.

Subjects

PTEROIS, PTEROIS miles, PTEROIS volitans, NATIVE fishes, GRANULATION tissue, NUCLEOTIDE sequencing

Abstract

Objective: Cutaneous ulcerative skin lesions in a complex of invasive Gulf of Mexico lionfish (Red Lionfish Pterois volitans, Devil Firefish P. miles, and the hybrid Red Lionfish × Devil Firefish) became epizootic beginning in mid‐August 2017. Herein, we provide the first pathological descriptions of these lesions and summarize our analyses to elucidate the etiology of the disease. Methods: We examined ulcerated and normal fish through gross pathology and histopathology, bacterial sampling, and unbiased metagenomic next‐generation sequencing. We tracked prevalence of the disease, and we used biological health indicators (condition factor, splenosomatic and hepatosomatic index) to evaluate impacts to health, while considering sex and age as potential risk factors. Result: Typical ulcerative lesions were deep, exposing skeletal muscle, and were bordered by pale or reddened areas often with some degree of scale loss. Only incidental parasites were found in our examinations. Most fish (86%; n = 50) exhibited wound healing grossly and histologically, confirmed by the presence of granulation tissues. A primary bacterial pathogen was not evident through bacterial culture or histopathology. Metagenomic next‐generation sequencing did not reveal a viral pathogen (DNA or RNA) but did provide information about the microbiome of some ulcerated specimens. Compared with clinically healthy fish, ulcerated fish had a significantly lower condition factor and a higher splenosomatic index. Disease prevalence at monitored sites through July 2021 indicated that ulcerated fish were still present but at substantially lower prevalence than observed in 2017. Conclusion: Although some common findings in a number of specimens suggest a potential role for opportunistic bacteria, collectively our suite of diagnostics and analyses did not reveal an intralesional infectious agent, and we must consider the possibility that there was no communicable pathogen. Impact StatementAn outbreak of ulcers affected lionfish in the Gulf of Mexico. The disease occurred coincident to declines in invasive lionfish populations but could be contagious to native fish. Sick fish were examined to determine the cause. Findings were inconclusive but bacteria and environmental factors should be further investigated. [ABSTRACT FROM AUTHOR]

Published

2023

31. Comparison of Whole Blood Fatty Acid Profiles between Lionfish (Pterois spp.) in Wild and Managed Care Environments

Author

Nicholas G. Dannemiller, Emily F. Christiansen, Craig A. Harms, Larry J. Minter, and Kimberly D. Ange-van Heugten

Subjects

fatty acids, lionfish, nutrition, Pterois volitans, Pterois miles, Biology (General), QH301-705.5, Zoology, QL1-991

Abstract

Suboptimal nutrition may contribute to lionfish (Pterois volitans and Pterois miles) health issues in managed care environments. This study’s objective was to establish and compare whole blood fatty acid profiles in wild and aquarium lionfish. Whole blood samples were dried onto specialized high-quality paper cards from wild, invasive lionfish harvested off the North Carolina coast (n = 16) and lionfish managed by the North Carolina Aquariums (n = 12). Blood fatty acid profiles were analyzed from dried blood spots. Aquarium lionfish had significantly (p < 0.05) higher linoleic (18:2ω6) and eicosapentaenoic (20:5ω3) acid levels than wild lionfish. Similarly, aquarium lionfish had significantly (p < 0.05) lower saturated fatty acids and arachidonic (20:4ω6) to eicosapentaenoic acid (20:5ω3) ratios than wild lionfish. Total omega-3 and omega-6 fatty acids, as well as the ratio of these two fatty acid groups, were similar between wild and aquarium lionfish. Gut content analysis of wild lionfish diets included reef-dependent and schooling fish while aquarium lionfish diets were pelagic fish, crustaceans, mollusks, and commercial gel diets with nutrient supplements. This study reports whole blood fatty acid profiles in lionfish, providing comparative macronutrient data that may be useful for improving their nutrition and welfare in aquariums.

Published

2022

32. BEWARE OF THIS FISH!

Author

Rainsford, Blair

Subjects

PTEROIS miles, VENOM, MARINE animals

Abstract

The article discusses why invasive species like lionfish are a problem as they cause a lot of harm to the different kinds of ocean animals, and when an animal touches their sharp spikes, the spikes let out venom, which can hurt or even kill the animal.

Published

2023

33. A COMPUTATIONAL PROFILE OF INVASIVE LIONFISH IN BELIZE.

Author

Balan, Joshua E. and Michalski, Greg

Subjects

*INTRODUCED species, *PTEROIS miles, *POPULATION statistics, *SEX ratio, *COMMUNITY organization, *ECOTOURISM

Abstract

Since their discovery in the region in 2009, invasive Indonesian- native lionfish have been taking over the Belize Barrier Reef. As a result, populations of local species have dwindled as they are either eaten or outcompeted by the invaders. This has led to devastating losses ecologically and economically; massive industries in the local nations, such as fisheries and tourism, have suffered greatly. Attempting to combat this, local organizations, from nonprofits to ecotourism companies, have been manually spear- hunting them on scuba dives to cull the population. One such company, Reef Conservation Institute (ReefCI), operating out of Tom Owens Caye outside of Placencia, Belize, has dissected their caught lionfish for the past three years and kept logs of results. With little to no studies reliably indexing the Belizean lionfish population, this data set provides a priceless opportunity to take a first look and probe further questions about this relatively unstudied population. This project accomplished this by computing various population statistics using these records, including the differences in sex ratio, presence of supraorbital tentacles, length, age, and more. The results and combinations of these factors provide new insight on current theories surrounding lionfish and their anatomy, but more importantly it opens new questions, the answers to which can shed light on new techniques to more efficiently cull the population for the future. [ABSTRACT FROM AUTHOR]

Published

2023

34. The dominance of non-indigenous species in the catch composition of small-scale fisheries: A case study from the Kaş-Kekova Special Environmental Protection Area, Türkiye, Eastern Mediterranean.

Author

Öndes, Fikret and Ünal, Vahdet

Abstract

This study aimed to determine the catch composition and compare the catch per unit effort (CPUE) of indigenous and non-indigenous species in longline and trammel net fisheries in the Mediterranean coasts of Türkiye. The data were collected weekly from May 2020 to September 2021 by commercial fishing vessels (n = 62 days for trammel nets, n = 75 days for longlines). The results of the study indicated that more than 90% of the catch composition consisted of non-indigenous species in trammel net fishery and Pterois miles (Bennett, 1828), Siganus rivulatus Forsskål et Niebuhr, 1775, Siganus luridus (Rüppell, 1829), and Scarus ghobban Forsskål, 1775 were the most commonly caught species. Although indigenous species were more common in longlines compared with trammel nets, non-indigenous species Lagocephalus sceleratus (Gmelin, 1789) and Lagocephalus suezensis Clark et Gohar, 1953 were represented by relatively high catch ratios. The results also revealed that the CPUE of non-indigenous species exhibited seasonal differences. Although some non-indigenous species caught within this study have a market value, some other highly invasive species do not. Therefore, it is critically important to develop effective management tools to control bio-invasion. This study provides the first comprehensive research by utilizing basic data with relatively long-term surveys in the small-scale fishery on the Mediterranean coasts of Türkiye. The outcomes of this study can provide guidance to decision-makers. [ABSTRACT FROM AUTHOR]

Published

2023

35. Food Composition and Dietary Overlap of the Lionfish Species in Iskenderun Bay.

Author

Demirci, Burçin and Demirhan, Sefa Ayhan

Subjects

*FOOD composition, *PTEROIS miles, *MOLLUSKS, *REEFS

Abstract

The food composition and dietary overlap of the Pterois volitans and P. miles were studied in the İskenderun Bay. The main prey groups found in the stomachs of the P. volitans and P. miles were fishes and crustaceans. The study has shown that the Niche overlap-Pianka's index of these species was 83,2%. Most of the stomach contents for both species were not identified. Fish and shirimps were found in the stomachs contents of both species freqently. However reef parts, moss residuals, molluscs shell parts and crab parts were found in the stomachs content for both species rarely. Chlorophthalmus agassizi, Uranoscopus scaber, Helicolenus dactylopterus, Serranidae, Sparidae and Scorpaenidae members have been identified as stomach contents of P. volitans. Similarly C. agassizi was identified in the stomach contents of P. miles. Conspicuously, juvenile lionfish and body parts of juvenile lionfishes (dorsal fin and spines) were found in 4 specimens stomachs of P. miles. [ABSTRACT FROM AUTHOR]

Published

2022

36. Variation in Body Length, Length-Weight Relationship, and Condition Factor of Lionfish (Pterois volitans) Between Years in a Mesophotic Coral Ecosystem in Alacranes Reef, Southern Gulf of Mexico.

Author

AGUILAR-PERERA, ALFONSO and HERNÁNDEZ-LANDA, ROBERTO C.

Subjects

PTEROIS miles, CORAL reefs & islands, MARINE ecology

Abstract

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Published

2022

37. Feeding ecology of invasive lionfish in the Punta Frances MPA, Cuba: insight into morphological features, diet and management.

Author

del Río, Laura, Navarro-Martínez, Zenaida María, Ruiz-Abierno, Alexei, Pablo Chevalier-Monteagudo, Pedro, Angulo-Valdes, Jorge A., and Rodriguez-Viera, Leandro

Subjects

PTEROIS, PTEROIS miles, PTEROIS volitans, DIET therapy, FISH feeds, CORAL reef conservation

Abstract

Cuba's shelf has been invaded by lionfish (Pterois volitans/Pterois miles), which have become established over the archipelago, including areas of natural importance. The present study aims to evaluate morphometric features of lionfish and to explore the relationship between lionfish size and diet composition in different habitats in the Punta Frances National Park, Cuba. In total 620 lionfish were captured at 29 sites between 2013 and 2016. Lionfish stomachs were removed and their contents were analyzed using frequency and numerical methods. The length-weight allomentric relationship was obtained, and a decrease in lionfish sizes was shown over time, likely due to the extractions carried out. The diet was composed by fishes, crustaceans, mollusks and phytobenthos, with a predominance of fishes. Lionfish caught in seagrass beds tended to be smaller in size and consumed fewer fishes and more crustaceans than those captured in coral reefs. A positive correlation was observed between lionfish body size and gape size; however, no significant correlation was detected between lionfish body size and prey size. Larger lionfish tended to consume more fishes, while crustaceans were more significant in the diet of juvenile lionfish. This is the first study that examines the feeding habits of lionfish in the Punta Frances MPA, and provides valuable information on lionfish inhabiting this MPA across four years of sampling. Furthermore, this research may serve as a baseline for subsequent evaluations of lionfish impact and management actions in the area. [ABSTRACT FROM AUTHOR]

Published

2022

38. Comparison of Whole Blood Fatty Acid Profiles between Lionfish (Pterois spp.) in Wild and Managed Care Environments.

Author

Dannemiller, Nicholas G., Christiansen, Emily F., Harms, Craig A., Minter, Larry J., and Ange-van Heugten, Kimberly D.

Subjects

*PTEROIS, *PTEROIS volitans, *PTEROIS miles, *OMEGA-6 fatty acids, *FATTY acids, *SATURATED fatty acids

Abstract

Suboptimal nutrition may contribute to lionfish (Pterois volitans and Pterois miles) health issues in managed care environments. This study's objective was to establish and compare whole blood fatty acid profiles in wild and aquarium lionfish. Whole blood samples were dried onto specialized high-quality paper cards from wild, invasive lionfish harvested off the North Carolina coast (n = 16) and lionfish managed by the North Carolina Aquariums (n = 12). Blood fatty acid profiles were analyzed from dried blood spots. Aquarium lionfish had significantly (p < 0.05) higher linoleic (18:2ω6) and eicosapentaenoic (20:5ω3) acid levels than wild lionfish. Similarly, aquarium lionfish had significantly (p < 0.05) lower saturated fatty acids and arachidonic (20:4ω6) to eicosapentaenoic acid (20:5ω3) ratios than wild lionfish. Total omega-3 and omega-6 fatty acids, as well as the ratio of these two fatty acid groups, were similar between wild and aquarium lionfish. Gut content analysis of wild lionfish diets included reef-dependent and schooling fish while aquarium lionfish diets were pelagic fish, crustaceans, mollusks, and commercial gel diets with nutrient supplements. This study reports whole blood fatty acid profiles in lionfish, providing comparative macronutrient data that may be useful for improving their nutrition and welfare in aquariums. [ABSTRACT FROM AUTHOR]

Published

2022

39. Unwanted Guest Continues its Northern Journey in the Aegean Sea: Pterois miles (Bennett, 1828).

Author

Aydin, İlker, Ağdamar, Sevan, and Yapici, Sercan

Subjects

*PTEROIS miles, *BAR codes, *DREDGING (Fisheries), *GENETIC barcoding, *CYTOCHROME oxidase

Abstract

Pterois miles (Bennett, 1828), one of the most destructive marine invaders, was reported from the Mediterranean in 1991. It has invaded most parts of the Mediterranean from 2013, when it was reported for the second time, until today. On 7th October 2020, a single specimen of P. miles was collected by the bottom trawl from the Edremit Bay (Northern Aegean Sea). COI barcode region was used for the molecular identification of the specimen. DNA barcode data suggest that the specimen used in the present study is P. miles with a 99.69% probability. The current study is presented by providing the northernmost occurrence of the P. miles from the Aegean Sea with molecular confirmation. [ABSTRACT FROM AUTHOR]

Published

2022

40. Microplastic Occurrence in the Gastrointestinal Tracts of Pterois miles (Bennett, 1828) from northeastern Mediterranean Sea.

Author

Kılıç, Ece, Yücel, Nebil, and Turan, Cemal

Subjects

*MARINE debris, *GASTROINTESTINAL diseases, *MICROPLASTICS, *PTEROIS miles

Abstract

Nowadays, the majority of marine debris consists of microplastic particles. For that reason, microplastic pollution in marine environments and its potential impacts on marine animals has been extensively studied. This study was developed to investigate the bioindicator potential of Pterois miles (Bennett, 1828) for the monitoring of microplastic pollution. A totally, 21 individuals were sampled from Iskenderun Bay, northeastern Mediterranean Sea on April 2022, and their gastrointestinal tracts were examined for microplastic occurrence. Mean microplastic abundance was found as 2.06±1.88 particles/individual in positive samples and 1.47±1.83 particles/individual in total samples. The microplastic detection rate was estimated as 71%. In terms of color, black (55%), blue (32%), red (10%) and brown (3%) microplastic particles were detected. Among all, the majority of the extracted particles were fiber in shape (93%) and followed by fragments (7%). The high frequency of detection and microplastic abundance estimated in this study showed that this specie could be used to monitor microplastic pollution in marine environments. [ABSTRACT FROM AUTHOR]

Published

2022

41. Report of Nerocila bivittata (Risso, 1816) (Isopoda: Cymothoidae) Parasitic on Alien Fish, Pterois miles (Bennett, 1828) from the Aegean and Mediterranean Sea.

Author

Yanar, Alper, Turan, Cemal, and Doğdu, Servet Ahmet

Subjects

*ISOPODA, *CYMOTHOIDAE, *PTEROIS miles

Abstract

Since 2014, an invasive alien fish species, lionfish, Pterois miles (Bennett, 1828) has been started to distribute in the Turkish Mediterranean Sea coasts and spread out to the Aegean Sea. In the present study, a Cymothoid fish parasite, Nerocila bivittata (Risso, 1816) is reported from the pectoral fin of P. miles caught from the Gulf of Iskenderun (Northeastern Mediterranean) and Bodrum, Turkey (Aegean Sea Coast). This study is the first record of N. bivittata on lionfish P. miles caught from Gulf of Iskenderun. Key diagnostic characters of N. bivittata, some morphological differences observed between the newly collected material of N. bivittata and its previous descriptions, in addition to newly observed additional characters were presented. [ABSTRACT FROM AUTHOR]

Published

2022

42. A Review on the Potential Usage of Lionfishes (Pterois spp.) in Biomedical and Bioinspired Applications.

Author

Uyan, Ali

Subjects

*PTEROIS miles, *BIOMEDICAL engineering, *SPINE, *FINS (Anatomy), *ANTINEOPLASTIC agents

Abstract

Lionfishes are recognized as invasive and predatory species in the world. The genus Pterois belongs to the Scorpaenidae family has 10 confirmed species. Among them, two species Pterois miles and P. volitans were reported as non-indigenous species in Turkish marine waters. Although dorsal, pelvic, and anal fins of lionfish have venom-releasing spines which can have systemic effects such as severe pain, fever, vomiting, and dizziness, there are no reports of death by lionfish in the literature anyway. After careful removal of the venomous spines, lionfish meat is suitable for human consumption. The bioactivity of homogenates obtained from the venomous spines of lionfish has been the subject of various research since the 1950s. Until now, it has been proven that the venomous spines of the lionfish contain anticancer, antiviral, anti-inflammatory, anticoagulant, antioxidant, and antibacterial compounds and can be used in biomedical applications as a natural resource of marine origin. Moreover, the spine shape of lionfish has provided inspiration that can be useful in designing reusable syringe needles and sterilizable plungers, thereby reducing biomedical waste and sharps disposal costs. Additionally, the fins and spines of lionfish, which are typically removed and discarded, are used to make jewellery. This review, therefore, focused on evaluating alternative management actions to bring these invasive fish into the economy and control their populations, owing to both their use in biomedical fields and their suitability for bioinspiration. [ABSTRACT FROM AUTHOR]

Published

2022

43. Patterns of predation of native reef fish by invasive Indo-Pacific lionfish in the western Atlantic: Evidence of selectivity by a generalist predator

Author

Chappell, Ben F. and Smith, Kevin G.

Published

2016

44. Lionfish Diet Composition at Three Study Sites in the Aegean Sea: An Invasive Generalist?

Author

Ioannis E. Batjakas, Athanasios Evangelopoulos, Maria Giannou, Sofia Pappou, Eleftheria Papanikola, Maria Atsikvasi, Dimitris Poursanidis, and Chrysoula Gubili

Subjects

Pterois miles, lionfish, diet, Gobiidae, Scorpaenidae, Scyllaridae, Biology (General), QH301-705.5, Genetics, QH426-470

Abstract

The diet of the lionfish (Pterois miles), an invasive species in the Aegean Sea, was examined by collecting stomach content data from fish collected in three study sites in the Aegean Sea (southern Crete, Kastellorizo, and Nysiros islands). Prey composition in terms of numerical abundance and frequency of occurrence was used to compare lionfish’s diet between these sites. Lionfish largely preyed upon teleosts (4% to 83% numerical abundance and 16% to 58% frequency of occurrence, depending on the site) and decapods (12% to 95% numerical abundance and 11% to 81% frequency of occurrence). The most important teleost families in lionfish’s diet were Gobiidae, Labridae, and Scorpaenidae, while decapods and especially the family Scyllaridae and the genus Plesionika were the dominant decapod prey items. The lionfish was found to be an especially successful generalist across the study sites, an opportunistic, predatory species overall, and at the same time, at a local level, it seems to be an equally successful specialist that could increase the predation mortality of already stressed prey populations and can be a serious threat to endemic, critically endangered, and/or commercially important species.

Published

2023

45. Depletion fishing of the alien fish species Siganus luridus, S. rivulatus, Pterois miles, and Etrumeus golanii in the Mediterranean Sea-gear, ecosystem impacts, and resolution.

Author

Dikou, Angela

Subjects

*GILLNETTING, *PTEROIS miles, *FISH populations, *BIOGEOCHEMICAL cycles, *SMALL-scale fisheries, *MARINE parks & reserves

Abstract

S. luridus, S. rivulatus , P. miles, and E. golanii are four Lessepsians among the approximately 90 alien fish and have already demonstrated detectable negative impacts on local fish stocks and ecosystems in the Mediterranean Sea. The purpose of this review is to evaluate the feasibility and sustainability of their eradication through depletion fishing based on available knowledge and practices because there is positive mutual reinforcement between the altered state of a marine ecosystem due to changes in biogeochemical cycling and fishing and aliens' establishment. Mediterranean artisanal and recreational fisheries already use efficient fishing gear, namely gill and trammel nets for S. luridus and S. rivulatus , spearguns for P. miles, and pelagic trawls for E. golanii. Removal of the aliens of concern restores local fish populations in field and modeling studies but the effects appear not to be long-lasting due to hydrodynamic connectivity with source populations and insufficient local natural mortality and predation either at the early (egg, larva) or later (juvenile, adult) stages of the aliens' growth. Τo transcend the goal of management from local control toward resolution for these four Lessepsians' entry and establishment in the Mediterranean Sea, the re-active intervention of their depletion fishing needs to be aligned with pro-active interventions at their sources of entry and means of transport upstream and with inter-active interventions of their monitoring by the multiple active users of marine resources. Sustainability of the resolution goal will be ensured provided it is designed in the large Mediterranean marine ecosystem jurisdiction, which includes both sources and sinks of aliens; planned locally, which caters for differential effects of aliens on local ecologies, societies, and economies; and considers mediators and moderators of the whole context of multiple-source, multiple-sector, nascent alien trophic web, and altered state of local ecosystems. • most efficient gear is gill and trammel nets (S. luridus and S. rivulatus), speargun (P. miles) , pelagic trawl (E. golanii). • restoration of local fish stocks depends on fishing effort, population densities of aliens, and ecosystem state. • depletion of aliens requires system-level design and regional implementation jurisdiction. [ABSTRACT FROM AUTHOR]

Published

2024

46. Assisted recovery of mediterranean native fish species by removal of two established invasive alien species, Pterois miles and Diadema setosum.

Author

Huseyinoglu, M.F., Jimenez, C., Resaikos, V., Arda, Y., Beton, D., Snape, R.T.E., Tari, G., and Günay, Mehmet Erdem

Subjects

*PTEROIS miles, *NATIVE species, *NATIVE fishes, *INTRODUCED species, *INVASIVE plants, *FISH communities, *FISHING villages, *SEA urchins

Abstract

The introduction of alien species is probably one of the most important factors affecting native biodiversity in various regions of the world. The Mediterranean is considered the most affected sea in the world. Although many efforts to control several invasive alien species (IAS) have been carried out in the Mediterranean, complete success has not been obtained so far. In the eastern Mediterranean (Levantine Sea), the island of Cyprus is among the first places where marine species migrating across the Suez Canal are reported and known to have been established. To test whether native species are able to recover in the absence of IAS, removal experiments of two established IAS, the common lionfish Pterois miles and the long-spined sea urchin Diadema setosum , were carried out at two submerged rocky reefs in Cyprus where human activities are limited. A baseline period of three months was dedicated to characterizing the fish communities by visual censuses, followed by a middle period of four months of monthly removals which ended with the second and final characterization period of three months of the fish communities. The removals of D. setosum were very effective suggesting that the recolonization rate of the species is considerably low. The removals of lionfish seem to help the populations remain small, although recolonization rates are higher than D. setosum. Moreover, our results suggest that the removal of these two species helps native fish recover while conversely affecting other alien fish in a negative manner. Despite the amount of enough data, it is possible to preliminarily estimate the rate of removals. Monitoring of the two IAS along with the native flora and fauna is suggested in these two sites to identify seasonality and trends. • The ichthyofauna of two rocky reefs was sampled by underwater visual census in three stages along one year. • Two established invasive alien species were removed on the second stage. • The abundance of native fauna increased while invasive alien species decreased in the third stage. • Preliminary models suggest that frequent removals will help control the populations of the targeted species. [ABSTRACT FROM AUTHOR]

Published

2024

47. Ecology and behaviour of the invasive lionfish Pterois miles colonizing coastal areas of the central Mediterranean.

Author

Samourdani, Antigoni, Ketsilis-Rinis, Vlasios, Koutsidi, Martha, Lazaris, Alexis, Peristeraki, Panagiota, and Tzanatos, Evangelos

Subjects

*PTEROIS miles, *PTEROIS, *FISH farming, *COASTS, *COASTAL ecology, *FISH communities

Abstract

Biodiversity redistribution is occurring at an unprecedented pace, with one prominent example being the invasion of the lionfish (Pterois miles) in the Mediterranean Sea, altering the fish community composition by creating novel interspecific interactions and potentially threatening local biodiversity. Our study attempts to identify patterns in the lionfish distribution and behaviour in the coastal zone of the eastern Ionian Sea (central Mediterranean). Over a 14-month period, visual censuses were conducted along coastal strip transects at six stations, situated in three areas (Mani, Katakolo, Astakos) across a latitudinal gradient. Lionfish density was highest in Mani, the southernmost area. Higher densities were found at two stations experiencing direct anthropogenic pressures: one with structural modifications by port infrastructure, and the other in the vicinity of a fish farm, indicating a potential role of human interventions in facilitating the establishment of invasive populations. Lionfish group size was influenced by overall density, exhibiting variation between the two natural stations. Lionfish activity levels by microhabitat were site-specific, with more inactive individuals in crevices. Temporal activity patterns were similar in the natural stations, with increased activity during spring and summer months; however, temporal activity patterns were not identical in the two anthropogenic sites, suggesting that the specific nature of anthropogenic intervention might possibly influence lionfish activity. Finally, lionfish densities were not significantly different between early morning and late afternoon times of day, in agreement with the crepuscular behaviour already documented for this species. • We carried out visual census in strip transects for lionfish (Pterois miles). • Density was the highest in the southernmost/the lowest in the northernmost area. • Higher densities at stations under anthropogenic pressures (port, fish farm). • Activity by microhabitat was site-specific. • Densities were not significantly different between sunrise and sunset. [ABSTRACT FROM AUTHOR]

Published

2024

48. Impacts, awareness and management of lionfish envenomation in coasts of Turkey.

Author

Tanrıverdi, Raziye and Gökoğlu, Mehmet

Subjects

PTEROIS miles, INTRODUCED species, AWARENESS, PTEROIS

Abstract

The study was carried out in the Mediterranean region of Turkey between 2018 and 2021. It was aimed to reveal lionfish awareness studies and lionfish venoming cases in Turkey in this study. The awareness studies were determined by institutional studies. Personal interviews, first aid agency notifications and literature were investigated to find lionfish venoming cases. Four awareness studies and seven lionfish venoming cases were detected. Pain, swelling, and redness were often the first symptoms in the venoming cases. The first application was immersion in hot water in three of the seven cases. No deaths were recorded in the cases. In Turkey, the awareness studies should continue with the derbies or tournaments and government-supported removal efforts must be made to reduce the population and stocks of invasive lionfish. [ABSTRACT FROM AUTHOR]

Published

2022

49. First Observations on the Stomach Contents of Devil Firefish, Pterois miles (Bennett, 1828) in the Gulf of Antalya, Turkey.

Author

Tanrıverdi, Raziye, Gökoğlu, Mehmet, and Korun, Jale

Subjects

PTEROIS miles, GASTROINTESTINAL contents, FORAGE fishes, SCUBA apparatus, SCUBA diving

Abstract

The present study examined stomach contents of 35 individuals of Pterois miles (Bennett, 1828) captured using scuba diving gears in Antalya Gulf. Total length and total weight in the specimens of P. miles collected from the Gulf of Antalya were 13.1-35.2 cm (mean±SD; 19.98±4.40) and 36.88-456.6 g (mean±SD; 103.82±91.29), respectively. The dominant prey were fish (IFO=106.67%, IP=59.38%) and the rest were crustaceans (IFO=53.33%, IP=40.63%). It was determined that P. miles was carnivorous and predominantly piscivorous. This study is the first to show how kind of consumption preys P. miles obtained from the Gulf of Antalya. The result of this study strengthens the existing knowledge on the consumption preys of devil firefish in the eastern Mediterranean. The distribution of this species continues in the Turkish Seas. The fishery and consumption of lionfish should be improved. The development of a lionfish fishery could provide a management tool to ameliorate impacts to coastal ecosystems of the Mediterranean Sea. [ABSTRACT FROM AUTHOR]

Published

2022

50. Uncertainty in Marine Species Distribution Modelling: Trying to Locate Invasion Hotspots for Pterois miles in the Eastern Mediterranean Sea.

Author

Poursanidis, Dimitris, Kougioumoutzis, Kostas, Minasidis, Vasileios, Chartosia, Niki, Kletou, Demetris, and Kalogirou, Stefanos

Subjects

PTEROIS miles, SPECIES distribution, REGRESSION trees, BIOLOGICAL invasions, INTRODUCED species

Abstract

Biological invasions are considered among the largest threats to native biodiversity. The Mediterranean Sea, connecting the Indo-Pacific and Atlantic oceans, is characterized as a global marine invasion hotspot, due to a multitude of human pathways and vectors such as shipping, aquaculture, tourism, and the opening of the Suez Canal, which have led to the introduction of nearly 700 alien species into the Mediterranean Sea. Among the species introduced, the lionfish Pterois miles could be considered the fastest spreading invasive fish species of the last decade (2012–2022) and has been recorded in all countries of the eastern Mediterranean Sea, reaching as far north as Croatia. Here, we present a Bayesian additive regression tree modelling framework for an updated species distribution modelling invasion map under current and future climate conditions. All climate uncertainty sources have been used, as these are available from the Bio-Oracle, the unique marine predictors database. Important outputs of the current approach are the model's inadequacy to accurately predict the most recent expansion of species in the Adriatic Sea, and the uncertainty estimation, that are high in areas with confirmed occurrence of individuals, in simulations that can help the decision makers and policy officers understand model limitations and take more informed actions. [ABSTRACT FROM AUTHOR]

Published

2022