Abstract
This study aimed to investigate the presence of Sarcotaces sp. in Epinephelus epilistictus (the dotted grouper) in Saudi Arabia. So, during our routine clinical examination of fish health conditions at Jubail province in the eastern region of Saudi Arabia (Arabian Gulf), nine grouper fish species were examined for Sarcotaces sp. (Copepoda: Phylichthyidae). Only the dotted grouper (Epinephelus epilistictus) harbored parasitic Sarcotaces spp. with an incidence of 9.06% of 1600 clinically examined fish samples. The collected Sarcotaces sp. was Sarcotaces arcticus (S. arcticus). The copepods were completely encapsulated cysts with a pyriform or pear-like shape, small to large, white-grayish, fluid-filled with thick black ink beneath the skin, or fully embedded in the muscular layer. The cysts present in the lateral aspect of trunk muscles, flank, caudal peduncle, near the anal opening, or pelvic and pectoral fin with an infestation rate (1–6 cysts) per fish. The cyst histopathology reveals the capsular layer of the cyst consisting of fibrous connective with pressure atrophy of the adjacent muscles associated with dilated blood vessels. The absence of infestation in other kinds of grouper fish species from the water of the Arabian Gulf in Jubail province may indicate parasitic host specificity and geographic locality distribution.
Similar content being viewed by others
Avoid common mistakes on your manuscript.
Introduction
The grouper fish species belonging to the family Serranidae are the most commonly caught fisheries from the Jubail area on the Arabian Gulf. Grouper fish from the water of the Arabian Gulf have nine species, all of which are pricey and of high marketability. Crustacean parasites affecting fishes are mainly divided into three major groups: Branchiura, Isopoda, and Copepoda, considered parasitic on both marine and freshwater and tend to cause high mortality (Heckmann 2003; Johnson et al. 2004). Species of the Branchiura and Isopoda are large in both males and females; however, the copepod species are microscopic with a two-stage life cycle (free-living and parasitic stages) (Johnson et al. 2004). Parasitic copepods, of marine fishes, representing the family Philichthyidae, are diverse in their morphology, physiology, and life strategies (Yamaguti 1963; Reimer 1991; Walter 2015).
Piasecki et al. (2020) reported that Sarcotaces sp. infested the Mora with more fish by filling the large galls with black fluid, which also stained the nearest muscles. Inside each gall, a single female of Sarcotaces sp., several “small” males, eggs, and the hatched nauplius stages were present. Nagasawa et al. (2015) found that specimens from Sarcotaces spp. were collected from black cysts formed in the posterior muscles under the skin of a black tip grouper (Epinephelus fasciatus). Sarcotaces sp. belongs to the family Philichthyidae: Copepoda and consists of seven species. The cyst filled with fluid had different life stages of Sarcotaces spp. as eggs, larvae, and small males (Nagasawa et al. 2015). Additionally, the Sarcotaces sp. are encysted inside the abdominal cavity and muscles of different fish species (Nagasawa et al. 2015). According to the available literature regarding the infection of Sarcotaces spp. among fish from the water of the Arabian Gulf, Ibrahim (2001) reported the first evidence of the impact of parasitic Copepoda (family: Philichthyidae; genus: Sarcotaces) on brown spotted grouper (Epinephelus chlorostigma) that induced black bag disease collected from El-Qatef province at the eastern region of Saudi Arabia. Later on, Osman et al. (2014) reported Sarcotaces spp. from the grouper (E. chlorostigma), with a prevalence of 6.74% from the same previously mentioned area in Saudi Arabia. Furthermore, Essa (2017) presented a case report on the clinical signs of the black cyst disease of Sarcotaces spp. infestation in E. tauvina (Family: Serranidae) fish in the northwest of the Arabian Gulf of Iraq.
Sarcotaces spp. parasites have no zoonotic impact on mammalian fish consumers; however, the infested muscles had bad quality due to the staining ink produced digestion of the blood by the parasite, causing rejection by human consumers (Izawa; 1974).
The Philichthyidae family of parasitic marine fishes is remarkable in appearance, physiology, and life choices. The reciprocal relationship between the fish and the parasite and the inflicted host pathology has been a fascinating topic (Kabata 1979, 1988). Also, the order of Poecilostmatoida includes the Philichthyids. In terms of the evolutionary development of parasitic adaptations, the latter is thought to be inferior to Siphonostomatoida. Interestingly, because they are extensively altered and semi-ectoparasites, the Philichthyids are a remarkable exception. The lateral line canals are a habitat for smaller species. Also, the genus Sarcotaces spp. contains the family’s most significant species. They live in galls inside the fish muscles or a bodily cavity (Moser et al. 1985) and cause refusal of parasitic fish in a fish shop or even death in the latter cases (Lafferty and Kuris 2009).
Sarcotaces (Copepoda: Philichthyidae) infection causes black bag illness, which may be found anywhere from abyssal depths to tropical reefs. Sarcotaces sp. is a strange copepod that causes cysts in the muscle beneath the skin, several centimeters long. Also, when fish are filleted, the cysts are revealed, and the sliced cysts leak a large amount of black fluid over the fillets. This inky black liquid has earned the nickname “Black bag disease” (Piasecki et al. 2020).
So, this study aimed to investigate the cause of the refusable black cysts formed in the muscles under the skin of the dotted grouper (Epinephelus epilistictus), as well as, study the prevalence rate of this parasite; the identity of this crustacean with histopathological alteration associated with the infestation in muscle.
Materials and methods
Fish collection
The fishing port at Jubail province on the Arabian Gulf of Saudi Arabia is considered one of the most famous and largest fish landing stations (27° 02′ 20.5′′ N 49° 38′ 18.9′′ E) in the eastern region. It is considered the leading fisheries trading center where a large commercial quantity of fresh marine fish of different kinds are caught using various methods and directly distributed fresh to fish auctions and fish markets in Jubail. Also, it is the major supplier of fish to other national province localities in the kingdom besides exporting some quantities to the nearby Arabia Gulf countries. Fish inspection is usually performed on fish caught onboard at the landing station, on the vessel boats, during handling and transport to fish auctions, and finally to fish markets and shops in Jubail. All systematic documentary checks, identity checks, and physical and clinical checks are performed by an official from the Veterinarian Office in the Welfare of Fisheries branch at Jubail province, Ministry of Agriculture.
Gross examination of fish
The clinical examination of fish depends mainly on quality control for fish freshness and observations, to any risk in shape, discoloration, ulceration, tumors, swelling, or other infectious fish diseases. Additionally, considerable attention is paid to parasitic infestation either externally or internally, especially the fleshy edible part of the fish, to ensure marine seafood safety to the consumers. Our routine clinical observation checks in the fish landing station, at the fish board, fish auction, and fish market occurred from January 2016 to December 2019. A total of 6500 fresh fish samples of grouper species were grossly examined, and 1600 were dotted grouper fish (Epinephelus epilistictus) as previously identified by Carpenter et al. (1997).
Collection of the encysted black bag cysts
In the fish port and auction, only clinically infested dotted grouper fish were packed in separate plastic bags, transferred into an ice pot, and delivered to the laboratory at the Jubail welfare fish branch. They were then subjected to complete necropsy, where careful removal of cysts from the surrounding muscles of the collected infested fish was performed. Since the E. epilistictus is a pricey fish, the infested fish were collected and carefully removed parasitic cysts from the adjacent areas of the infested host muscles. Finally, they were collected in plastic bags, put in an icebox, and sent to the laboratory for parasitological identification (Nagasawa et al. 2015).
Examination of the content of the encysted black bag cysts
The freshly collected encysted black bag cysts were transferred into a Petri dish, dissected with sterile scapulae to remove black fluid content, and carefully examined under a stereoscopic microscope. Also, the cyst wall was slightly scarped and kept directly on a glass slide covered with a cover slide and then directly examined under a light microscope to separate the microscopic-size parasite stages (eggs and nauplius at different stages of development). Finally, all the parasitic stages were collected and preserved in 70% ethanol and then examined under a stereoscopic microscope (Reimer 1991; Osman et al. 2014).
Male collection
The freshly collected closed cysts were gently squashed or pressed from the wide anterior end of the cyst toward the narrow posterior end. A thin light serous fluid came out of the cyst with very minute small dots (males of 5–10) in number that was used to fertilize the huge numbers of eggs of the unstructured female (males of about 1 ml in length) and then collected in a glass slide for microscopical examination (Osman et al. 2014).
Female collection
Additionally, on the freshly collected closed cysts, a small incision on the wall of the cysts was gently made using forceps to take off the parasitic female directly under the cystic wall and then put in a glass jar filled with fresh water to examine the female structures (Piasecki et al. 2020).
Identification of the collected Copepoda
The collected parasites were fixed in 70% ethanol and then examined under a stereoscopic microscope in the Parasitology Laboratory, Faculty of Veterinary Medicine, Cairo University. The collected Copepoda was identified according to Yamaguti (1963). The identification was based on male and female length and width, the length of the caudal furca with male body length (Reimer 1991).
Histopathological examination
A small section of 1 × 1 cm of infested muscles with cysts was fixed in 10% neutrally buffered formalin. The fixed samples were embedded in paraffin (Bancroft and Layton 2012). The paraffin blocks were sectioned in 5 μm thickness, stained with hematoxylin and eosin (H & E), and finally, examined under a light microscope (Olympus BX50, Japan).
Results
Prevalence study of the collected Sarcotaces sp.
A gross examination of 6500 fresh fish samples from the different grouper spp. was performed. One hundred and 45 among 1600 samples of the dotted grouper fish (E. epilistictus) were infested with the cysts of Sarcotaces sp with an incidence of 11.3%, as indicated in Table 1. The total collected cysts were 435 cysts of Sarcotaces sp. with different intensities of varying sizes on the dotted grouper (E. epilistictus), ranging from 35 in the pectoral fin to 95 cysts in the caudal fin. In contrast, relative to the examined fish’s length, it ranged from 20 to 50 cm, grouped into four with the cyst intensity ranging from 1–6. Dealing with the seasonal dynamics of Sarcotaces sp., it reveals that the Copepoda was high in spring with a 65 (10%) prevalence rate and low in winter with a 20 (9.5%) prevalence rate as indicated in Tables 2 and 3. The infested dotted grouper fish (E. epilistictus) ranged from 15 to 45 cm with an average weight ranging from (350 to 3.5 kg ± 150 g.). It also showed complete encapsulated pyriform cysts or pear-shaped filled with black inky fluid with a highly vascular capsular gray white thick wall of (2–3 mm). The cysts found in different sites of the infested fish (near the pectoral and pelvic fin, lateral trunk muscle, at the right and left area of the caudal peduncle, and near the anal opening) with infestation rate (1–6 cysts in number) per fish (Table 3).
Gross and histopathological examination of the infested fish
Each cyst often contains one female of Sarcotaces sp and a few males engorging themselves near the fish blood vessels. The female Sarcotaces sp. feeds on the blood, leaving a thick, inky fluid by-product (digested oxidizing blood). The narrow pointed end of the cysts, usually toward the skin surface (Fig. 1) were small to large (3–6 cm in length and 1–3 cm in diameter) and located beneath the skin or completely unrecognizable through gross appearance. The unrecognizable cysts appeared as a buffy swelling on the skin surface of the infested host (Fig. 1), where the cysts completely penetrated deeply into the muscular tissues. This cystic gall may explode or accidentally rupture during the filleting process and taint the muscular layer with a thick black inky fluid stain (Fig. 1), reducing the fish marketability value. In some cases, cystic gall causes vertebral deformity if embedded deeply in muscular tissues near the vertebral column. After completely evacuating the content of the endoparasitic cyst of Sarcotaces sp. actions in the surrounding water, the cyst wall bulged outside on the skin of the infested fish. Additionally, there was no indication of parasitic host-induced mortality, except that the fish marketability value was affected by the S. arctitus. Furthermore, the histopathological finding revealed the cyst wall consists of fibrous connective tissues with pressure atrophy of the adjacent muscles with dilated blood vessels (Fig. 1).
Taxonomy of the collected Sarcotaces sp.
The collected Copepoda belongs to the order: Poecilostomatoida; family philichthidae; Genus: Sarcotaces (Olsson; 1872). Species: S. arcticus.
Description of male S. arcticus
Males were smaller than females, owing to structural differences. The body was elongated, cylindrical, with a segmented body. Thoracic appendages were decreased in form and quantity, whereas the cephalothoracic appendages were highly developed (two thoracopods). Males (n = 10) had lengths of 1.00–1.50 mm (1.35 mm ± 0.3 mm) and total width of 0.25–0.55 mm (0.45 ± 0.15 mm), excluding the caudal rami. The cephalothorax, the first two (pedigerous) somites of the thorax (Fig. 2), and the legless trunk formed a semi-triangular anterior section of the body in the dorsal view. Also, the caudal rami were reduced to a single short seta and the first and second male antennae consisted of four segments.
Female S. arcticus
After carefully removing the adult female from the encapsulated cyst, it appeared as a soft white, shapeless mass of thin wall (Fig. 3). It also bulged after being immersed in a glass jar with water, appearing as a ball or bag with tubercles on the body surface of the female body elongated and drop-form. The anterior end is rounded while the posterior part is narrowed (Fig. 3). The female’s body was elongated oval-shaped, rounded at the anterior end, and pointed to narrow in the posterior part (Fig. 3). It ranged from 25–45 mm (35.8 ± 8.1 mm) with its width from 12–20 mm (16.9 ± 4.0 mm).
Additionally, the female body was covered with lobated mamillation or small papillae (Fig. 3), somatically segmentation with protrusions in the anterior and posterior parts strongly developed. The cephalon was linked to the opening of the mouth, and a very long first abdominal segment, with a diameter comparable to its height. The appendages were also either decreased or absent Fig. 3.
Eggs
The eggs present between the female and the membrane were minute and spherical-shaped. It measured 0.15–0.35 (0.15 ± 0.5) mm in diameter, yellow-colored, and contained well-developed embryos (nauplii) (Fig. 4).
Larval stages of S. arcticus
The larval stage, known as the nauplius, was oval with the rounded anterior and posterior end having two caudal setae carrying three pairs of appendages (first, a second antenna, and mandible) and an antenna with three segments (Fig. 4).
Discussion
The females are huge, soft, and delicate, and they float inside their chamber, separated from the host by a connective tissue membrane that lines the vacuum in the fish muscles. Females grow to be about 2–5 cm long. Their gall (also known as a cyst) is filled with black digested blood and includes parasite eggs, larvae, and “dwarf” males. Sarcotaces females are filled with a black fluid that resembles ink. In most cases, mechanical processing (filleting process) of infested fish causes damage to the female and spills the ink. The ink stains the fillet, rendering it unsellable. Tintenbeutel [ink bag] was given to German fishermen due to this occurrence (Gonzales and Tanzola 2000; Piasecki et al. 2020). The point of a female projecting through such a skin breach was shown by Amlacher (1958).
Although Sarcotaces spp. is not hazardous to humans, the staining effect of the ink diminishes the value of fish landings. Therefore, regardless of infection standards, their existence disqualifies all consignments under EU regulations. Izawa (1974) produced a diagrammatic drawing, illustrating the comparative morphology of males of six Philichthyiidtaxa. Delamare Deboutteville (1962) published a diagrammatic illustration showing the comparative morphology of the males of six Philichthyiid genera, including Sarcotaces spp. Species of the genus Sarcotaces are poorly known, with a few publications related to individual species, especially from the water of the Arabian Gulf (Ibrahim 2001; Osman et al. 2014; Essa 2017). Different species of Sarcotaces had been studied before by Olsson (1872), S. verucosus and Gonzales and Tanzola (2000); S. arcticus by Priebe (1963) and S. pacificus by Komai (1924), Ezpeleta Herce (1974), and Izawa (1974); S. komaii by Shiino (1953).
This study identified Sarcotaces sp. males which were found in all cysts of infested E. epilistictus; however, the female was not found in any cyst tested in their study, while the male in their study was elongated, slender, and flattened dorsoventrally, with no discernible segmentation. Additionally, only lateral notches distinguish body segments. The head was tiny, rounded, and broader than long, distinguishable from the thorax by a distinct constriction. Laterally, the third segment develops into two wings, and finally, but not least, the abdomen is represented by the last section; Osman et al. (2014) reported that the contents of the cysts were tested for adults and larval stages of copepods; therefore; numerous copepod nauplii were found in the smear preparations of the gall inky fluid in our study. The nauplius has three pairs of appendages and is oval-shaped, with the body’s caudal end rounded and possessing two setae. Additionally, groups of eggs were found and organized on the inner wall of the cyst in histological sections of the infested fish's cyst. Therefore, these results from our study are similar to the research approach according to Izawa (1973) and Moser et al. (1985).
Our histopathological finding revealed the cyst wall of fibrous connective tissues with pressure atrophy of the adjacent muscles with dilated blood vessels. In contrast, other research recorded no sign of bleeding in the sac wall or inflammation associated with Sarcotaces sp infestation. Furthermore, histological sections of the infested fish’s cyst revealed masses of eggs placed on the inner wall of the cyst, similar to the findings of Bullock et al. (1986), who concluded that all Sarcotaces sp. swellings were elevated, soft, and up to 2 cm in diameter with fibrous wall contain masses of eggs.
Sarcotaces spp. findings are rare, indicating the species’ restricted specialization. Since the females within the species are generally similar, despite their variety in size and other traits, certain reports based only on female morphology are less credible. As a result, S. arcticus identified in Scorpaeniformes fishes in the Pacific might be distinct from the Atlantic S. arcticus that infects gadiform fishes. S. verucosus, which is similar to S. arcticus, is also identical to our results. The bulk of the records from the Atlantic belong to the Lophiiformes and Perciformes families, with both male re-descriptions representing two distinct species (Gonzales and Tanzola 2000).
However, the argument of Moser et al. (1985) on host specificity is dissimilar to the conclusion that S. komaii and S. arcticus are junior synonyms of S. verucossus after performing considerable morphological research. Heegaard (1947) also proposed that S. verucosus, S. arcticus, and S. pacificus are the same species.
Osman et al. (2014) recorded that Sarcotaces spp. in Arabian Gulf; Qatef, Eastern Province of Saudi Arabia, infested the E. chlorostigma, with a low prevalence rate of 6.74%, almost similar to our study, although the research did not identify the species recorded in Saudi Arabia in grouper. Therefore, our study focused on (E. epilistictus) in Jubail province.
Conclusion
Our study revealed that of 1600 samples of the dotted grouper (E. epilistictus), 145 were infested with Sarcotaces sp. cysts with an incidence level of 11.3%. The collected cysts were 435 cysts of Sarcotaces sp., with intensity ranging from 35 to 95. In conclusion, after carefully inspecting any gross lesion or cyst to the parasitic cyst, the grouper is still usable by the consumer.
Data availability
All data from our work and available in this manuscript.
Code availability
This manuscript is presenting a rare disease present in grouper not use special software.
References
Bullock AM, Phillips SE, Gordon JDM (1986) Sarcotaces sp., a parasitic copepod infection in two deep-sea fishes, Lepidion Eques and Coelorhynchus Occa. J Mar Biol Ass UK 66:835–843
Carpenter, K.E., F. Krupp, D.A. Jones and U. Zajonz, 1997. FAO species identification field guide for fishery purposes. Living marine resources of Kuwait, eastern Saudi Arabia, Bahrain, Qatar, and the United Arab Emirates. FAO, Rome. 293 p.
Gonzalez RA, Tanzola RD (2000) On the presence of Sarcotaces verrucosus (Copepoda) in the Southwest Atlantic. Acta Parasitol 45(4):345–349
Heckmann R (2003). Other ectoparasites infesting fish; copepods, branchiurans, isopods, mites and bivalves. Aquaculture Magazine, Nov/Dec pp: 1- 6.
Heegaard PE (1947) Discussion of the genus Sarcotaces (Copepoda) with a description of the first known male of the genus. Kunglige Fysiografiska Sällskapets i Lund Förhandlingar 17(12):122–129
Izawa K (1973) On the development of parasitic Copepoda I. Sarcotaces pacificus Komai (Cyclopoida: Phylichthyidae). Publ Seto Mar Biol Lab 21(2):77–86. https://doi.org/10.5134/175809
Izawa K (1974) Sarcotaces, a genus of parasitic copepods (Cyclopoidea: Philichthyidae), found in Japanese fishes. Publ Seto Mar Biol Lab 21:179–191
Ibrahim MM (2001) First evidence on the impact of parasitic copepoda (Family Philichthyidae genus Sarcotaces on brown spotted grouper (Epinephelus chlorostigma) fish in Arabian Gulf Egypt. J Comp Path Clin Path 14(1):171–178
Johnson SC, Treasurer JW, Bravo S, Nagasawa K, Kabata Z (2004) A review of the impact of parasitic copepods on marine aquaculture. Zool Stud 45:229–243
Kabata Z (1979) Parasitic Copepoda of British fishes. Ray Society, London
Kabata Z (1988) Copepoda and Branchiura. Canadian Special Publication of Fisheries and Aquatic Sciences 101:3–127
Komai T (1924) Notes on Sarcotaces pacificus n. sp., with remarks on its systematic position. Memoirs Coll Sci Kyoto Imp Univ Series B 1:265–271
Moser M, Haldorson L, Field LJ (1985) The taxonomic status of Sarcotaces komaii and Sarcotaces verrucosus (Copepoda: Phylichthyiidae) and host-parasite relationships between Sarcotaces arcticus and Sebastes spp. (Pisces). J Parasit 71(4):472–480
Essa TM (2017) Case report: clinical sings lesions of black bag disease of sarcotaces spр. (Copepoda, Philichthyidae) infestation cropper fish epinephelus tauvina in northwest arabian gulf. Russian Journal of Parasitology 40(2):159–161 (In Russ)
Nagasawa K, Uyeno D, Toda M (2015) Sarcotaces sp. (Copepoda: Philichthyidae), a parasite of a black tip grouper, Epinephelus fasciatus, from off the Ryukyu Islands, southern Japan. Biogeography 17:103–106. https://doi.org/10.11358/biogeo.17.103
Osman HAM, Hassan MA, El-Refaey AME (2014) Studies on Sarcotaces sp. (Copepoda, Philichthyidae) infestation (black bag disease) among some marine fish species of Arabian Gulf Saudi Arabia. World Appl Sci J 32(9):1780–1788
Piasecki W, Barcikowska D, Keszka S, Panicz R (2020) Parasitic copepods (Crustacea: copepoda) infecting muscles of a marine fish (Actinopterygii: Moridae)-a spectacular effect on a host fish and a case of seafood identity fraud. Acta Ichthyol Piscat 50(4):453–464
Reimer LW (1991) Sarcotaces namibiensis sp nov., the first evidence of the genus Sarcotaces Olsson, 1872, in the South Atlantic (Copepoda). Crustaceana 60(2):139–144
Shiino SM (1953) On Sarcotaces Olsson, the genus of parasitic copepod, found in Japan. Ann. Rep. Pref. Univ. Mie, Sect. 2. Nat Sci 1:171–183
Yamaguti S (1963) Parasitic Copepoda and Branchiura of fishes: 1 1104. Interscience Publishers, New York
Bancroft JD, Layton C (2012) The hematoxylins and eosin. In: Bancroft’s theory and practice of histological techniques. Elsevier, pp 173–186
Delamare Deboutteville C (1962) Prodrome d’une faune d’Europe des Copépodes parasites de poissons. Les Copépodes Philichthyidae (confrontation des données actuelles). Bulletin de l’Institut Océanographique, Monaco No. 1249: 1–44
Olsson P (1872) Om Sarcotaces och Acrobothrium, tva nya parasitslägten fran fiskar. [About Sarcotaces and Acrobothrium, two new parasite genus from fish.] Öfversigt af Kongliga Vetenskaps-akademiens forhandlingar 1872(9):39–44 [In Swedish and Latin]
Lafferty KD, Kuris AM (2009) Parasitic castration: The evolution and ecology of body snatchers. Trends Parasitol 25(12):564–572. https://doi.org/10.1016/j.pt.2009.09.003
Ezpeleta Herce CR (1974) Nueva localidad y nuevo hospedero para Sarcotaces komaii Shiino, 1953 (Copepoda: Sarcotacidae). Poeyana 133:1–5
Walter TC (2015) Sarcotaces Olsson, 1872. In: Walter TC, Boxshall G (eds) World of Copepods database. World Register of Marine Species at http://www.marinespecies.org/aphia.php?p=taxdetails&id=347968. Accessed 20 June 2015
Amlacher E (1958) Ein seltener und ein häufigerer parasitischer Krebs an Meeresfischen. Deutsche Fischerei-Zeitung 3:75–77
Priebe K (1963) Beitrag zur Auftreten und zur Morphologie des als “Tintenbeutel” bezeichneten Parasiten Sarcotaces arcticus in der Muskulatur des Blauen Lengfisches (Mova byrkelange Walb). Berliner und Münchener tierärztliche Wochenschrift 76(17):356–360.
Funding
Open access funding provided by The Science, Technology & Innovation Funding Authority (STDF) in cooperation with The Egyptian Knowledge Bank (EKB).
Author information
Authors and Affiliations
Contributions
Mustafa M. Ibrahim: design of the study and collection of the samples apply the pathological reports of the fish. Marwa M. Attia: identify the parasites; photographed the samples. Mustafa M. Ibrahim and Marwa M. Attia: analysis and interpretation of the data. The two authors drafting, revising the manuscript, and approved the final manuscript.
Corresponding author
Ethics declarations
Ethics approval
All studies were applied on fish markets.
Conflict of interest
The authors declare no competing interests.
Additional information
Handling Editor: Amany Abbass
Publisher's note
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Rights and permissions
Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons licence, and indicate if changes were made. The images or other third party material in this article are included in the article's Creative Commons licence, unless indicated otherwise in a credit line to the material. If material is not included in the article's Creative Commons licence and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this licence, visit http://creativecommons.org/licenses/by/4.0/.
About this article
Cite this article
Ibrahim, M.M., Attia, M.M. Studies on endoparasitic copepods: Sarcotaces arcticus (Copepoda: Phylichthyid) infested dotted grouper (Epinephelus epilistictus) from the Arabian Gulf water, Saudi Arabia. Aquacult Int 31, 249–260 (2023). https://doi.org/10.1007/s10499-022-00978-5
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10499-022-00978-5