IR – PERPUSTAKAAN UNIVERSITAS AIRLANGGA 42 SKRIPSI IDENTIFIKASI DAN PREVALENSI REZKYTA DINDA B.P DAFTAR PUSTAKA Al-Arif

Total Page:16

File Type:pdf, Size:1020Kb

IR – PERPUSTAKAAN UNIVERSITAS AIRLANGGA 42 SKRIPSI IDENTIFIKASI DAN PREVALENSI REZKYTA DINDA B.P DAFTAR PUSTAKA Al-Arif IR – PERPUSTAKAAN UNIVERSITAS AIRLANGGA 42 DAFTAR PUSTAKA Al-Arif, M.A. 2016. Rancangan Percobaan. Fakultas Kedokteran Hewan Universitas Airlangga. Surabaya. Hal 8-14. Anessh, P. T., k. Sudha, A. K. Helna, G, Anilkumar and J. P. Trilles. 2014. Multiple Parasitic Crustacean Infestation On Belonid Fish Strongylura strongylura. Zookeys, 457 : 339-353. Asmanik., Akhmad .M., dan Budi .P. 2015. Laporan Tahunan Balai Besar Perikanan Budidaya Laut Lampung. Balai Besar Perikanan Budidaya Laut Lampung. Hal-67. Azwar, S. 1998. Metode Penelitian. Pustaka Belajar. Yogyakarta.40-45. Benson, N.G. (editor). 1982 Life history requirements of selected finfish and shellfish in Mississippi Sound and adjacent areas. U.S. Fish Wildl. Servo FWS/OBS-81!51, p. 49-50. Bondad-Reantaso, M. G., K. Ogawa, M. Fukudame and H. Wakabayashi. 1995. Reproduction and Growth of Neobenedenia girellae (Monogenea : Capsalidae), a Skin Parasite of Cultured Marine Fishes of Japan. Fish Pathology 30(3):227-230. Brazenor, A.K. and K.S. Hutson. 2017. Effects of Temperatur and Salinity on the Life Cycle of Neobenedenia girellae (Monogenea: Capsalidae) Infecting Farmed Barramundi ( Lates Calcarifer). Parasitology Research, 114(5):65-92. Buchmann, K. and J. Bresciani. 2006. Fish Disease and Disorders: Monogenea (Phylum Platyhelminthes). Departement of Veterinary Microbiology. Royal Veterinary and Agricultural university. Denmark. 297-344. Bush, A.O., K.D. Lafferty, J.M. Lotz, and A.W. Shostak. 1997. Parasitology Meets Ecology On Its Own Terms: Margolis Et Al. Revisited. J. Parasitol, 83(4) : 575-583. Chou, R.L., Her, B.Y., Su, M.S., Hwang, G., Wu, Y.H., & Chen, H.Y. 2004. Substituting fish meal with soybean meal in diets of juvenile cobia Rachycentron canadum. Aquaculture, 229: 325–333. Chuda, H., K. Ieda., S. Shirakashi. and S. Masuma. 2018. Differences in Susceptibility to the Skin Fluke Benedenia epinepheli between Epinephelus bruneus, E. septemfasciatus, and a New Hybrid Grouper Kue- Tama, E. bruneus x E. lanceolatus. Aquaculture Research Institute : 1-2. SKRIPSI IDENTIFIKASI DAN PREVALENSI REZKYTA DINDA B.P IR – PERPUSTAKAAN UNIVERSITAS AIRLANGGA 43 Collette, B.B. 1978. Rachycentridae. In Fischer, W. (ed.), FAO species identification sheets for fishery purposes, western central Atlantic (Fishing area 31), vol. 4. FAO, Rome, unpaginated. Erazo-Pagador, G. and E. R. Cruz-Lacierda. 2010. The Morphology and Life Cycle of the Gill Monogenean (Pseudorhabdosynochus lantauensis) on Orange-Spotted Grouper (Epinephelus coioides) Cultured in the Philippines. Bulletin of the European Association of Fish Pathologists, 30(2) : 55-64. FAO (2009) FishStat plus: Universal software for fishery statistical time series. Food and agriculture organization of the united nations. Rome, Italy. http://www.fao.org/fishery/statistics/software/fishstat/en. Cited 28 August 2018. Faulk, C.K., Kaiser, J.B., & Holt, G.J. 2007. Growth and survival of larval and juvenile cobia Rachycentron canadum in a recirculating raceway system. Aquaculture, 270: 149–157. Fahmawati, Y. 2014. 20 Jenis Budidaya Perikanan Laut. Mitra Edukasi Indonesia. Bandung. Hal 37-38. Goode, G.B. 1884. The fisheries and fishery industries of the United States. Section I: Natural history of useful aquatic animals. Text. U.S. Comm. Fish Fish., Wash., D.C., 895.pp. Hardy, J.D., Jr. 1978. Development of fishes of the Mid-Atlantic Bight: An atlas of egg, larval and juvenile stages. Vol. III. Aphredoderidae through Rachycentridae. U.S. Fish Wildl. Serv., BioI. Serv. Prog., FWS/OBS- 78/l2, 394 pp. Hariyadi, A.R. 2006. Pemetaan Infestasi Cacing Parasitik dan Resiko Zoonosis pada Ikan Laut Indonesia Bagian Selatan. Tesis. Bogor: Fakultas Kedokteran Hewan. Institut Pertanian Bogor. Hal 42. Jithendrand. K. P, K. K. Vijayan, S. V. Alavandi and M. Kailasam. 2005. Benedenia epinepheli (Yamaguti 1937), A MonogeneanParasite in Captive Broodstock of Grouper, Epinephelustauvina(Forskal). Asian Fisheries Science. Central Institute of Brackish water Aquaculture India, 18 : 121-126. Justine, J. 2008. Two New Species of Pseudorhabdosynochus Yamaguti, 1958 (Monogenea: Diplectanidae) from The Deep-sea Grouper Epinephelus morrhua (Val.) (Perciformes: Serranidae) off New Caledonia. Systematic Parasitology, 71:145–158. Kabata, Z. 1985. Parasites and Disease of Fish Cultured in the Tropics. Taylor and Francis, London and Philadelphia.115-318. SKRIPSI IDENTIFIKASI DAN PREVALENSI REZKYTA DINDA B.P IR – PERPUSTAKAAN UNIVERSITAS AIRLANGGA 44 Kenneth, A.W., Glenn M.H., Cynthia K. Faulk., G. Joan Holt. 2007. Growth of Juvenile Cobia, Rachycentron canadum, at Three Different Densities in a Recirculating Aquaculture System. Aquaculture, 264: 223-227. KKP. 2012. Statistik Ekspor Hasil Perikanan Menurut Komoditi, Provinsi dan Pelabuhan Asal Ekspor. Kementrian Kelautan dan Perikanan. Jakarta. Keputusan Menteri Negara Lingkungan Hidup. 2004. Keputusan Menteri Negara Lingkungan Hidup Nomor 51 Tahun 2004 Tentang Baku Mutu Air Laut dan Biota Laut. Hal 1489-1498. Koesharyani, I., Zafran, K. Yuasa and K. Hatai. 1999. Two Species of Capsalid Monogeneans Infecting Cultured Humpback Grouper (Cromileptes altivelis) in Indonesia. Fish Pathology 34(3):165-166. Kuhlmann, W.F. 2006. Preservation, Staining, and Mounting Parasite Speciment. http://www.facstaff.unca.com. Diakses pada tanggal 20 Januari 2018. Liao, I.C., Huang T.S., Tsai W.S., Hsueh C.M., Chang S.L., and Leoans EM. 2004. Cobia Culture in Taiwan, Current Status and Problems. Aquaculture. 237: 155-156. Morsy, K., S. Abdel-Monem, F. Abdel-Ghaffar., A. R. Bashtar., A. A. Ghamdi and R. Abdel-Gaber. 2011. First record of Benedenia sciaenae (Monogenea: Capsalidae) infecting the brown-spotted grouper fish Epinephelus chlorostigma (Family: Serranidae) from the Red Sea in Egypt. Life Sci J, 8(4):245-252. Noble, G.A and Noble E. R. 1982.Parastology : The Biology of Animal Parasites Fith Edition. Parasitology.552-584. Noga, E. J. 2010. Fish Disease Diagnosis and Treatment. 2nd Edition.Wiley- Balckwell. USA. 528-538. Ogawa, K., M. G. Bondad-Reantaso, M. Fukudome, and H. Wakabayashi. 1995. Neobenedeniagirellae (Hargis, 1995) Yamaguti, 1963 (Monogenea: Capsalidae) From Cultured Marine Fish Of Japan. Tokyo, Japan. pp 223-227. Novriadi, R., S. Agustatik, S. Bahri, D. Sunantara dan E. Wijayanti. 2014. Distribusi Patogen dan Kualitas Lingkungan pada Budidaya Perikanan Laut di Provinsi Kepulauan Riau. DEPIK, 3(1) : 83-90. Ogawa, K.M., M.G. Bondad-Reantaso, M. Fukudome and H. Wakabayashi. 1995b. Neobenedenia girellae (Hargis, 1955) Yamaguti, 1963 (Monogenea; Capsalidae) From Cultured Marine Fishes of Japan. J. Parasitology. 81(2):223-227. SKRIPSI IDENTIFIKASI DAN PREVALENSI REZKYTA DINDA B.P IR – PERPUSTAKAAN UNIVERSITAS AIRLANGGA 45 Ogawa, Kazua, J.Miyamoto., H.C.Wang, C.F.Lo and G.H.Kou. 2006. Neobenedenia girillae (Monogeenea) Infection of Cultured Cobia Rachycentron canadum in Taiwan. The Japanese Society of Fish Pathology, 41(2):51-56. Palm, H.W., I.M. Damriyasa, Linda, and I.B.M. Oka. 2008. Molecular genotyping of Anisakis Dujardin, 1985 (Nematoda: Ascaridoidea:Anisakidae) larvae from marine fish of Balinese and Javanese waters, Indonesia. J. Helminthol. 45(1):3-12. Pradipta, R.E, S. Subekti dan Kismiyati. 2015. Identifikasi dan Prevalensi Cacing Pada Saluran Pencernaan Ikan Salem (Scomber Japonicus) di Pangkalan Pendaratan Ikan Muara Angke, Jakarta Utara. Jurnal Ilmiah Perikanan dan Kelautan, 7(1) : 109-114. Priyono A., Slamet B. 2005. Management Induk Kerapu Lumpur (Epinephelus coioides) Untuk Produksi Telur Yang Berkelanjutan Dan Pematangan Gonad Ikan Cobia (Rachycentron canadum) Melalui Manajemen Pakan Yang Baik. Laporan Hasil Riset BBRPBL Gondol. Bali Puja .Y., Karsimin., dan Kuswadi. 2015. Laporan Tahunan Balai Besar Perikanan Budidaya Laut Lampung. Balai Besar Perikanan Budidaya Laut Lampung. Hal-79. Roza, D. Dan F. Johnny. 2006. Infeksi parasit hirudenia ada induk ikan kerapu lumpur, Epinephelus bleckeri dan kerapu batik, Epinephelus polyphekadion serta upaya penanggulangannya. Prosiding seminar Nasional tahunan III Hasil Penelitian Perikanan dan Kelautan, Jogyakarta, 27 Juli 2006. Hal. 201-206. Ruckert S., H. W. Palm and S. Klimpel. 2008. Parasite fauna of seabass (Lates calcarifer) under mariculture conditions in Lampung Bay, Indonesia. J. Appl. Ichthyol, 24 : 321–327. Santoso, L. 2008. Identifikasi Parasit Pada Ikan Kerapu Macan (Epinephelus fuscoguttatus) dalam Karamba Jaring Apung (KJA) di Teluk Lampung. J Penel Perik. 11 (2) : 7. Sarjito, S.B. Prayitno dan A.H.C. Haditomo. 2013. Buku Pengantar Parasit dan Penyakit Ikan. Fakultas Perikanan dan Ilmu Kelautan. Universitas Diponegoro. Semarang. 36-95. Shaffer RV, Nakamura EL. 1989. Synopsis of biological data on the cobia Rachycentron canadum (Pisces: Rachycentridae). NOAA Tech. Rep. NMFS 82, FAO Fisheries Synopsis 153. SKRIPSI IDENTIFIKASI DAN PREVALENSI REZKYTA DINDA B.P IR – PERPUSTAKAAN UNIVERSITAS AIRLANGGA 46 Stasiun Karantina Ikan kelas I Hang Nadim.2010. Laporan Pemantauan Hama dan Penyakit Ikan. Batam.40-57. Subekti, S dan G. Mahasri. 2014. Buku Ajar Parasit dan Penyakit Ikan (Trematodiasis dan Cestodiasis). Fakultas Perikanan dan Kelautan. Universitas Airlangga. Surabaya. Subekti, S dan G. Mahasri. 2016. Buku Ajar Parasit dan Penyakit Ikan (Trematodiasis dan Cestodiasis). Global Persada Press. Surabaya. Hal 2. Suhardi, Raharjo, E.I, dan Sunarto. 2014. Tingkat Serangat Ektoparasit Pada Ikan Patin Siam (Pangasius hypopthalmus) yang di Budidayakan Dalam Keramba Di Sungai Kapuas Kota Pontianak. Jurnal Ruaya. 1(1) : 42-52. Sun, L.H., Chen, H.R., & Huang, L.M. et al.,
Recommended publications
  • Pdf 475.12 K
    International Journal of Aquatic Science ISSN: 2008-8019 Vol. 4, No. 2, 44-58, 2013 Three new species of Pseudorhabdosynochus (Monogenea: Diplectanidae) from Vietnamese grouper (Epinephelus spp.) (Perciformes: Serranidae) Binh T. Dang1*, Glenn A. Bristow2, Christoffer Schander2 and Bjørn Berland2 1) Institute for Biotechnology and Environment, University of Nha Trang, Nha Trang, Vietnam 2) Department of Biology, University of Bergen, P.O. Box 7800, N-5020 Bergen, Norway Received: 15 December 2012 Accepted: 5 February 2013 Published: 27 June 2013 Abstract: Three new species of monogenea are described from cultured and wild grouper from Nha Trang and Cam Ranh Bays, Vietnam. Pseudorhabdosynochus nhatrangensis n. sp and P. vietnamensis n. sp. were found on wild and cultured Epinephelus coioides and E. bleekeri, while Pseudorhabdosynochus brunei n. sp. parasitizes wild E. bruneus. P. nhatrangensis n. sp. is characterized by a sclerotized vagina with cup-shaped trumpet, open at the distal part, followed by a proximal tubular region, twisted to a circle at the posterior end and extending into thin branches; squamodiscs with 10 rows of rodlets with the central row being a closed circle. The tegument is scaly. P. vietnamensis n. sp. has a very large male copulatory organ with the tube being widened and slightly curved posteriorly. A sclerotized vagina comprised of an anterior trumpet, followed by convoluted structure which twists and divides into two distinct chambers. The central row of the squamodiscs forms a closed circle with a central core present. A heavily scaled tegument with scales on ventral and dorsal surfaces extends from the squamodiscs to the level of the ovary.
    [Show full text]
  • Sex Reversal and Masculinization According to Growth in Longtooth Grouper Epinephelus Bruneus
    Dev. Reprod. Vol. 17, No. 2, 79~85, June, 2013 http://dx.doi.org/10.12717/DR.2013.17.2.079 ISSN 1226-6752 (Print)․ISSN 2287-7967 (Online) Sex Reversal and Masculinization according to Growth in Longtooth Grouper Epinephelus bruneus Seong-Rip Oh, Hyeong-Cheol Kang, Chi-Hoon Lee, Sang-Woo Hur and †Young-Don Lee Marine and Environmental Research Institute, Jeju National University, Jeju 695-965, Republic of Korea ABSTRACT : To understand the sex reversal characteristics in the longtooth grouper (Epinephelus bruneus), this study examined the sex reversal and artificial masculinization of wild caught E. bruneus reared in indoor rearing tank after a 17α-methyltestosterone injection. To domesticate a broodstock, 64 wild caught E. bruneus, between 47.0 to 110.0 cm in total length and from 1.5 to 21.4 kg in body weight, were reared in indoor rearing tank (4.0 to 5.0 m wide, and 2.5 to 3.0 m depth) for four years. Seven specimens showed sex reversal from female to male during indoor rearing condition, whose total length and body weights were from 63.0 to 99.0 cm and from 4.4 to 13.2 kg, respectively. After inducing artificial masculinization in 14 female E. bruneus with a 17α-methyltestosterone (2.0 mg/kg BW) implants for 3 years, spermiation occurred in 9 specimens (total length: 54.0 to 68.0 cm, body weight: 2.3 to 4.3 kg). Among the female to male sex reversals, two specimens returned back to being female, whose body weights were 2.8 kg (initially 2.6 kg) and 2.7 kg (initially 2.3 kg).
    [Show full text]
  • Testicular Inducing Steroidogenic Cells Trigger Sex Change in Groupers
    www.nature.com/scientificreports OPEN Testicular inducing steroidogenic cells trigger sex change in groupers Ryosuke Murata1,2*, Ryo Nozu2,3,4, Yuji Mushirobira1, Takafumi Amagai1, Jun Fushimi5, Yasuhisa Kobayashi2,6, Kiyoshi Soyano1, Yoshitaka Nagahama7,8 & Masaru Nakamura2,3 Vertebrates usually exhibit gonochorism, whereby their sex is fxed throughout their lifetime. However, approximately 500 species (~ 2%) of extant teleost fshes change sex during their lifetime. Although phylogenetic and evolutionary ecological studies have recently revealed that the extant sequential hermaphroditism in teleost fsh is derived from gonochorism, the evolution of this transsexual ability remains unclear. We revealed in a previous study that the tunica of the ovaries of several protogynous hermaphrodite groupers contain functional androgen-producing cells, which were previously unknown structures in the ovaries of gonochoristic fshes. Additionally, we demonstrated that these androgen-producing cells play critical roles in initiating female-to-male sex change in several grouper species. In the present study, we widened the investigation to include 7 genera and 18 species of groupers and revealed that representatives from most major clades of extant groupers commonly contain these androgen-producing cells, termed testicular-inducing steroidogenic (TIS) cells. Our fndings suggest that groupers acquired TIS cells in the tunica of the gonads for successful sex change during their evolution. Thus, TIS cells trigger the evolution of sex change in groupers. Apart from fshes, vertebrates do not have a transsexual ability; however, approximately 2% of extant teleost fshes can change sex, an ability called sequential hermaphroditism 1–4. Sex change in fshes is widely divided into three types: female-to-male (protogyny), male-to-female (protandry), and change in both directions3–5.
    [Show full text]
  • Workshop for Red List Assessments of Groupers
    Workshop for Global Red List Assessments of Groupers Family Serranidae; subfamily Epinephelinae FINAL REPORT April 30th, 2007 Prepared by Yvonne Sadovy Chair, Groupers & Wrasses Specialist Group The University of Hong Kong (24 pages) Introduction The groupers (Family Serranidae; Subfamily Epinephelinae) comprise about 160 species globally in the tropics and sub-tropics. Many groupers are commercially important and assessments to date on a subset of species suggest that the group might be particularly vulnerable to fishing. An assessment of all grouper species is needed to examine the sub- family as a whole and set conservation and management priorities as indicated. The Serranidae is also a priority family for the Global Marine Species Assessment. This report summarizes the outcomes of the first complete red listing assessment for groupers conducted by the Groupers and Wrasses IUCN Specialist Group (GWSG) at a workshop in Hong Kong. The Workshop for Global Red List Assessments of Groupers took place 7-11 February, 2007, at the Robert Black College of the University of Hong Kong (HKU). The 5-day workshop was designed to complete red list assessments for all grouper species. Of a total of 161 grouper species globally, only 22 are included on the IUCN Red List with a currently valid assessment; several need to be reassessed and the remaining 100+ have never been assessed. The aim of the workshop, therefore, was to assess 139 groupers to complete all 161 species. The workshop had 23 participants, including many highly respected grouper experts, coming from eleven countries (see cover photo of participants). All members of the GWSG were invited in circulation.
    [Show full text]
  • Research Advances on Molecular Breeding of Groupers in China
    Open Access Austin Journal of Molecular and Cellular Biology Special Article - Molecular Breeding Research Advances on Molecular Breeding of Groupers in China Yu H1†, You XX2† and Shi Q1,2,3* 1BGI Education Center, University of Chinese Academy of Abstract Sciences, Shenzhen 518083, China As a group of economically important fish in China, groupers (Epinephelus 2Shenzhen Key Lab of Marine Genomics, Guangdong spp.) are facing with insufficiency of high-quality gametes and germ plasm re- Provincial Key Lab of Molecular Breeding in Marine source degradation. This situation has severely restricted the healthy develop- Economic Animals, BGI, China ment of grouper aquaculture. It is an inevitable choice to breed new varieties 3Laboratory of Aquatic Genomics, College of Life Sciences or species of groupers to solve these problems. Traditional hybridization and and Oceanography, Shenzhen University, China recently developed molecular breeding are effective ways to generate novel †Equal contributors high-quality species of groupers. So far, several hybrid groupers have been *Corresponding author: Qiong Shi, Bldg 11 Room 618, cultivated in China with significant economic values. The important areas of Beishan Industrial Zone, BGI, Shenzhen 518083, China molecular breeding include Marker-Assisted Selection (MAS) and transgenic breeding. At present, the molecular breeding of groupers in China is focusing Received: July 26, 2016; Accepted: August 23, 2016; on MAS breeding. We have constructed genetic linkage maps and carried out Published: August 24, 2016 Quantitative Trait Loci (QTL) analysis for a couple of groupers. Furthermore, we have cooperated with scientists at Sun Yat-Sen University to sequence the whole genome of orange-spotted grouper (E.
    [Show full text]
  • Download Full Papers
    Chiang Mai University Journal of Natural Sciences: https://cmuj.cmu.ac.th 1 Research article The First Karyological Analysis of the Sixbar Grouper Epinephelus sexfasciatus (Valenciennes, 1828) (Perciformes, Epinephelinae) Puan Pengseng School of Agricultural Technology, Walailak University, Nakhon Si Thammarat 80160, Thailand Editor: Abstract This study examines for the first time of karyotypic analysis and Wasu Pathom-aree, Chiang Mai University, Thailand chromosomal characteristic of nucleolar organizer regions/NORs of Epinephelus Article history: sexfasciatus. The fish samples were collected from Andaman Sea, Phuket Received: February 11, 2020; Revised: May 25, 2020; province, southern Thailand. The chromosomes were investigated using Accepted: June 9, 2020; https://doi.org/10.12982/CMUJNS.2021.005 conventional Giemsa’s staining and Ag-NORs banding techniques. Fish Corresponding author: chromosome preparations were conducted by squash technique from kidney. The Puan Pengseng, E-mail: [email protected] results showed that the diploid chromosome number of E. sexfasciatus was 2n=48 and the fundamental number (NF, number of chromosome arms) was 48. The type of chromosomes included 24 large telocentric and 24 medium telocentric chromosomes. After Ag-NOR banding technique, single pair of NORs was observed on the short arm of medium telocentric chromosome pair 23. The idiogram shows gradually decreasing length of the chromosomes. A size difference of the largest and the smallest chromosomes is approximately two folds. The karyotype formula could be infered as: 2n(48) = 2n(48)= Lt24+Mt24. Keywords: Chromosome, Epinephelus sexfasciatus, Karyotype, Sixbar grouper, Funding: This research was supported by grants funded by Walailak University. The authors thank to the Toxic Substances in Livestock and Aquatic Animals Research Group, Khon Kaen University for providing instruments.
    [Show full text]
  • Iucn Specialist Group of Groupers and Wrasses
    IUCN SPECIALIST GROUP OF GROUPERS AND WRASSES NEWSHEET No. 6 (July 2003) Contents Introduction Message from the Chair News from Japan News from Brazil News from Mexico News from SCRFA Miscellaneous Publications/websites of interest Introduction Welcome to newsletter number 6 of the IUCN Specialist Group on Groupers and Wrasses. There is quite a diverse mix of items, from regions that are situated on opposite ends of the earth! Far apart they may be, but whether the issues are re-stocking or conservation, there is much to be learned from the approaches others take to solving problems. Let me know about any initiatives you are involved in, field trips you have undertaken, interesting websites you have encountered, any images you may want to share – I will make a call for items around November again. Many thanks to those of you who sent items for this edition Editor: Sean Fennessy [email protected] Message from the Chair We have been busy since the last newsletter, the most important news being that we are finally moving on our species assessments. Concerned by our slow progress Andy Cornish and I recruited 4 students at the University of Hong Kong to work with Andy through more than 40 species assessments this summer, and they are doing a marvellous job. There is also a biologist in Australia, David Fairclough, working with several labrids and who is completing 4 assessments with us. With all the information being collected, we will also be able to get back to our Specialist Group website to beef up the species descriptions and give it the overhaul it badly needs.
    [Show full text]
  • C:\Typeset\BJB\Copy of 73-4\2012-165\2012-165.Vp
    Parasite fauna of wild and cultured dusky-grouper Epinephelus marginatus (Lowe, 1834) from Ubatuba, Southeastern Brazil Roumbedakis, K.a, Marchiori, NC.a, Paseto, Á.a, Gonçalves, ELT.a, Luque, JL.b, Cepeda, PB.b, Sanches, EG.c and Martins, ML.a,* aAQUOS - Laboratory of Aquatic Organisms Health, Aquaculture Department, Federal University of Santa Catarina, Rod. Admar Gonzaga 1346, Florianópolis, SC, Brazil bDepartamento de Parasitologia Animal, Curso de Pós-Graduação em Ciências Veterinárias, Universidade Federal Rural do Rio de Janeiro, Instituto de Veterinária, Departamento de Parasitologia Animal, BR 465, km 7 - CEP 23851-970 Seropédica, RJ, Brazil cNúcleo de Pesquisa e Desenvolvimento do Litoral Norte, Instituto de Pesca/APTA/SAA, Rua Joaquim Lauro Monte Claro Neto 2275, Ubatuba, SP, Brazil *e-mail: [email protected] Received August 9, 2012 - Accepted October 3, 2012 - Distributed November 29, 2013 Abstract This study aimed at identifying and quantifying the parasites of wild and cultured dusky grouper Epinephelus marginatus. During a year and thereby all four seasons, 20 wild and 20 cultured groupers were examined for the pres- ence of parasites, except in the last season, in which 19 wild and 20 cultured fish were examined, totalling 159 groupers analysed from Ubatuba, southeastern Brazil. Prevalence, mean intensity of infection, mean abundance and mean rela- tive dominance were calculated. Five species of parasites were identified in fish from both origins: Pseudorhabdosynochus beverleyburtonae (Monogenea), Neobenedenia melleni (Monogenea), Pseudempleurosoma sp. (Monogenea), Helicometrina nimia (Digenea) and larvae of Contracaecum sp. (Nematoda). The prevalence of ectoparasites, in most cases, was higher than endoparasites. The most abundant parasite was the monogenea Pseudorhabdosynochus beverleyburtonae in both wild and cultured fish, along all seasons.
    [Show full text]
  • Hermaphroditism in Fish
    Tesis doctoral Evolutionary transitions, environmental correlates and life-history traits associated with the distribution of the different forms of hermaphroditism in fish Susanna Pla Quirante Tesi presentada per a optar al títol de Doctor per la Universitat Autònoma de Barcelona, programa de doctorat en Aqüicultura, del Departament de Biologia Animal, de Biologia Vegetal i Ecologia. Director: Tutor: Dr. Francesc Piferrer Circuns Dr. Lluís Tort Bardolet Departament de Recursos Marins Renovables Departament de Biologia Cel·lular, Institut de Ciències del Mar Fisiologia i Immunologia Consell Superior d’Investigacions Científiques Universitat Autònoma de Barcelona La doctoranda: Susanna Pla Quirante Barcelona, Setembre de 2019 To my mother Agraïments / Acknowledgements / Agradecimientos Vull agrair a totes aquelles persones que han aportat els seus coneixements i dedicació a fer possible aquesta tesi, tant a nivell professional com personal. Per començar, vull agrair al meu director de tesi, el Dr. Francesc Piferrer, per haver-me donat aquesta oportunitat i per haver confiat en mi des del principi. Sempre admiraré i recordaré el teu entusiasme en la ciència i de la contínua formació rebuda, tant a nivell científic com personal. Des del primer dia, a través dels teus consells i coneixements, he experimentat un continu aprenentatge que sens dubte ha derivat a una gran evolució personal. Principalment he après a identificar les meves capacitats i les meves limitacions, i a ser resolutiva davant de qualsevol adversitat. Per tant, el meu més sincer agraïment, que mai oblidaré. During the thesis, I was able to meet incredible people from the scientific world. During my stay at the University of Manchester, where I learned the techniques of phylogenetic analysis, I had one of the best professional experiences with Dr.
    [Show full text]
  • A Genetic Linkage Map of Kelp Grouper (Epinephelus Bruneus) Based On
    Aquaculture 414–415 (2013) 63–81 Contents lists available at ScienceDirect Aquaculture journal homepage: www.elsevier.com/locate/aqua-online A genetic linkage map of kelp grouper (Epinephelus bruneus)basedon microsatellite markers☆ Qi Liu a, Takashi Sakamoto a,1, Satoshi Kubota a, Nobuaki Okamoto a, Hirofumi Yamashita b,MotohiroTakagic, Yuya Shigenobu d, Takuma Sugaya d,YojiNakamurad, Motohiko Sano a,d, Suwit Wuthisuthimethavee e, Akiyuki Ozaki f,⁎,1 a Faculty of Marine Science, Tokyo University of Marine Science and Technology, 4-5-7 Konan, Minato-ku, Tokyo 108-8477, Japan b Ehime Research Institute of Agriculture, Forestry and Fisheries, Fisheries Research Center, 5516 Shimononami, Uwajima-shi, Ehime 798-0104, Japan c South Ehime Fisheries Research Center Tarumi Branch, Ehime University, 3-5-7 Tarumi, Matsuyama, Ehime 790-8566, Japan d National Research Institute of Fisheries Science, Fisheries Research Agency, 2-12-4 Fukuura, Kanazawa-ku, Yokohama, Kanagawa 236-8648, Japan e School of Agricultural Technology, Walailak University, 222 Thaiburi Tasala, Nakhonsithammarat 80160, Thailand f National Research Institute of Aquaculture, Fisheries Research Agency, 422-1 Nakatsuhamaura, Minamiise-cho, Watarai-gun, Mie 516-0193, Japan article info abstract Article history: Kelp grouper (Epinephelus bruneus) is an important aquaculture species in Japan, Korea and China. Mariculture Received 8 March 2013 production of the species has increased due to its high demand and market price. However, some problems affect Received in revised form 21 July 2013 kelp grouper aquaculture such as the low growth rate, high mortality due to diseases and low ability to survive Accepted 22 July 2013 the larval stage. To analyze economically important traits, genetic linkage maps are an effective tool.
    [Show full text]
  • Platyhelminthes: Monogenea) from Catfishes (Siluriformes) Carlos a Mendoza-Palmero1*, Isabel Blasco-Costa2,3 and Tomáš Scholz1
    Mendoza-Palmero et al. Parasites & Vectors (2015) 8:164 DOI 10.1186/s13071-015-0767-8 RESEARCH Open Access Molecular phylogeny of Neotropical monogeneans (Platyhelminthes: Monogenea) from catfishes (Siluriformes) Carlos A Mendoza-Palmero1*, Isabel Blasco-Costa2,3 and Tomáš Scholz1 Abstract Background: The phylogenetic relationships of dactylogyrids (Monogenea: Dactylogyridae) parasitising catfishes (Siluriformes) from the Neotropical region were investigated for the first time. Methods: Partial sequences of the 28S rRNA gene of 40 specimens representing 25 dactylogyrid species were analysed together with sequences from GenBank using Bayesian inference, Maximum likelihood and Parsimony methods. Monophyly of dactylogyrids infecting catfishes and the Ancyrocephalinae was evaluated using the Approximately Unbiased test. Results: The Ancyrocephalinae is a paraphyletic group of species clustering in three main clades as follows: (i) clade A comprising freshwater dactylogyrids from the Holarctic parasitising perciforms clustering together with species (Ameloblastella, Unibarra and Vancleaveus) parasitising Neotropical catfishes; (ii) clade B including species of Dactylogyrus (Dactylogyrinae) and Pseudodactylogyrus (Pseudodactylogyrinae) along with Ancyrocephalus mogurndae, and marine dactylogyrids with cosmopolitan distribution, parasites of scorpaeniforms and perciforms, along with the freshwater Cichlidogyrus and Scutogyrus (infecting African cichlids [Cichlidae]) and (iii) clade C containing exclusively dactylogyrids of siluriforms, freshwater
    [Show full text]
  • Comparison of Genetic Diversity Between Wild-Caught
    Comparison of genetic diversity between wild-caught broodstock and hatchery-produced offspring populations of the vulnerable Korean kelp grouper (Epinephelus bruneus) by microsatellites H.S. An1, S.G. Yang2, T.S. Moon2, J.Y. Park3, C.G. Hong3, H.K. Hwang4, J.I. Myeong4 and C.M. An1 1Biotechnology Research Division, National Fisheries Research and Development Institute, Busan, Korea 2Future Aquaculture Research Center, Jeju-do, Korea 3Aquaculture Industry Division, National Fisheries Research and Development Institute, Yeosu, Korea 4Aquaculture Management Division, National Fisheries Research and Development Institute, Busan, Korea Corresponding author: H.S. An E-mail: [email protected] Genet. Mol. Res. 13 (4): 9675-9686 (2014) Received June 13, 2014 Accepted October 31, 2014 Published November 14, 2014 DOI http://dx.doi.org/10.4238/2014.November.14.13 ABSTRACT. The kelp grouper Epinephelus bruneus (Perciformes: Haemulidae), is one of the most economically important fishery resources in Korea. This fish is regarded as a target for prospective aquaculture diversification; therefore, maintenance of stock quality is important. To investigate the effects of current artificial reproduction in a hatchery facility, genetic variation in wild-caught broodstock and hatchery-produced offspring of kelp grouper was analyzed using eight polymorphic nuclear microsatellite DNA loci; 77 alleles were Genetics and Molecular Research 13 (4): 9675-9686 (2014) ©FUNPEC-RP www.funpecrp.com.br H.S. An et al. 9676 identified. Allelic variability ranged from 2 to 22 in the broodstock and from 1 to 10 in the offspring. The average observed and expected heterozygosities were 0.620 and 0.623 in the broodstock and 0.600 and 0.513 in the offspring, respectively.
    [Show full text]