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Journal articles on the topic 'Serraninae'

Author: Grafiati
Published: 4 June 2021
Last updated: 1 February 2022

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1

Sadovy, Yvonne, and Michael L. Domeier. "Perplexing problems of sexual patterns in the fish genus Paralabrax (Serranidae, Serraninae)." Journal of Zoology 267, no. 02 (October 13, 2005): 121. http://dx.doi.org/10.1017/s0952836905007466.

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2

WILLIAMS, JEFFREY T., and KENT E. CARPENTER. "A new fish species of the subfamily Serraninae (Perciformes, Serranidae) from the Philippines." Zootaxa 3911, no. 2 (January 19, 2015): 287. http://dx.doi.org/10.11646/zootaxa.3911.2.10.

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3

Donaldson, Terry J. "Pair spawning ofCephalopholis boenack (Serranidae)." Japanese Journal of Ichthyology 35, no. 4 (December 1989): 497–500. http://dx.doi.org/10.1007/bf02905511.

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4

Wagiyo, Karsono, Asep Priatna, and Herlisman Herlisman. "KELIMPAHAN, KOMPOSISI DAN SEBARAN LARVA IKAN DI LAUT SERAM, LAUT MALUKU DAN TELUK TOMINI (WPP 715)." BAWAL Widya Riset Perikanan Tangkap 11, no. 1 (April 13, 2019): 1. http://dx.doi.org/10.15578/bawal.11.1.2019.1-17.

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Laut Seram, Laut Maluku dan Teluk Tomini secara ekologis berfungsi sebagai daerah pemijahan, asuhan dan tangkapan berbagai jenis sumberdaya perikanan. Mempelajari larva di wilayah ini sangat berguna untuk penerapan pengelolaan dan pemanfaatan sumber daya ikan yang lestari. Tujuan dalam studi larva ini adalah menganalisis kelimpahan, komposisi dan sebaran larva ikan ekonomis penting. Perolehan data dilakukan secara survai eksplorasi dengan sampling menggunakan bongo net dan wahana KR Baruna Jaya VII pada stasiun-stasiun, yang ditentukan secara “Systematic Cluster random sampling”. Hasil penelitian menunjukkan kelimpahan telur dan larva rata-rata di Laut Seram 4.041 ind/103 m3, di Teluk Tomini 1.978 ind/103 m3 dan di Laut Maluku 861 ind./103 m3. Pada Wilayah Pengelolaan Perikanan (WPP) 715 didapatkan 119 familia ikan. Komposisi larvae ikan ekonomis di Laut Seram adalah Carangidae 19 %, Scombridae 8 %, Labridae 8 %, Serranidae dan Lutjanidae 4 %, di Laut Maluku Carangidae 17 %, Labridae12 % , Mullidae7 %, Clupeidae 6 %, Scombridae dan Lutjanidae 4 %, di Teluk Tomini Labridae 16 %, Carangidae 12 %, Scombridae 5 %, Serranidae dan Clupeidae 4 % dan kontributor lainnya larva ikan kurang ekonomis. Larva ikan ekonomis di WPP 715 yang mempunyai sebaran habitat luas adalah Carangidae, Labridae, Scombridae, Clupeidae, Lutjanidae dan Serranidae, secara berurutan masing-masing dengan nilai konsistensi habitat 91,89 %, 89,19 %, 78,33 %, 70,27 %, 62,16 % dan 54,05 %. Larva ikan kurang ekonomis dengan penyebaran luas adalah Platycephalidae dan Creedidae dengan nilai konsistensi habitat 62,16 % dan 59,46 %. Di WPP 715 Carangidae merupakan larva ikan yang dominan dan mempunyai sebaran terluas/konsisten). Perairan WPP 715 merupakan daerah pemijahan berbagai jenis ikan. Seram sea, Mollucas sea and Tomini bay have fisiohidrographic function as spawning area, nursery area and fishing ground of various fish. Studying the larvae in this region is very useful for the implementation of the management and sustainable use. Interest in the study are the larvae; abundance, composition and distribution of economically important fish larvae. Acquisition of data exploration survey conducted by sampling using Bongo net and KR Baruna Jaya VII rides on the stations, which determined by “Cluster stratified random sampling”. The result showed the average abundance of eggs and larvae are 4.041 ind/103 m3 in Seram Sea, 1.978 ind/103m3 in the Tomini Bay and 861 ind./103 m3 in Mollucas Sea. In the Fishery Management Area (FMA) 715 have 119 familia of fish larvae. The Composition of economically fish larvae, in the Seram Sea include 19 % Carangidae, 8 % Scombridae, 8 % Labridae, 4 % Serranidae and 4 % Lutjanidae. Mollucas sea covers 17 % Carangidae, 12 % Labridae, 7 % Mullidae, 6 % Clupeidae, 4 % Scombridae and 4 % Lutjanidae. Tomini bay include 16 % Labridae, 12 % Carangidae, 5 % Scombridae, 4 % Serranidae and 4 % Clupeidae and others less economically fish larva. Economical fish larvae in FMA 715 which have broad habitat distribution are Carangidae, Labridae, Scombridae, Clupeidae, Lutjanidae and Serranidae, respectively with values of habitat consistency of 91.89%, 89.19%, 78.33%, 70, 27%, 62.16% and 54.05%. Fish larvae are less economical with wide spread are Platycephalidae and Creedidae with habitat consistency values of 62.16% and 59.46%.. In FMA 715 Carangidae is the dominant fish larva and has the widest / most consistent distribution. The waters of FMA 715 are spawning areas of various types of fish.
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5

Sulistyowati, Beta Indi, M. Mukhlis Kamal, Yonvitner, and Irfan Yulianto. "ASSESSMENT ON GROUPER FISHERIES WITH ECOSYSTEM APPROACH TO FISHERIES MANAGEMENT IN KARIMUNJAWA NATIONAL PARK." Coastal and Ocean Journal (COJ) 2, no. 1 (May 30, 2018): 41–56. http://dx.doi.org/10.29244/coj.2.1.41-56.

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Groupers are member of family Serranidae that plays important role in ecology of coral reefs ecosystem as top level predators.Economically, groupers are targets species for their high economic values.Based on statistics data for Karimunjawa fisheries during 2010 to 2014 it is shown a decline in capture of groupers. This implies to the demand of better management. This study dealt with the appraisal of the groupers fisheries in Karimunjawa based on indicators assessment of the Ecosystem Approach Fisheries Management (EAFM). EAFM approach uses comprehensively both ecological, socio-economics as well as institutional and governance capacity in managing fisheries. The results showed that the groupers fisheries has been managed moderately (n=70.59), of which priority management plan started from social development strategy to maintain existing strategy. Keywords: Serranidae; Grouper Fisheries; EAFM; Management Plan
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6

RAMIREZ, MANUEL ALEJANDRO, JENNY PATRICIA-ACEVEDO, SILVIA PLANAS, JOEL L. CARLIN, STEPHAN M. FUNK, and W. OWEN MCMILLAN. "New microsatellite resources for groupers (Serranidae)." Molecular Ecology Notes 6, no. 3 (September 2006): 813–17. http://dx.doi.org/10.1111/j.1471-8286.2006.01354.x.

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7

Liu, Jiang, Weihong Jin, and Changwen Wu. "The first complete mitochondrial genome of Serranidae sp. (Percoidea, Serranidae) and phylogenetic analysis based on Bayesian." Mitochondrial DNA Part A 27, no. 6 (October 21, 2015): 4436–38. http://dx.doi.org/10.3109/19401736.2015.1089560.

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8

Newman, Stephen J., David McB Williams, and Garry R. Russ. "Patterns of zonation of assemblages of the Lutjanidae, Lethrinidae and Serranidae (Epinephelinae) within and among mid-shelf and outer-shelf reefs in the central Great Barrier Reef." Marine and Freshwater Research 48, no. 2 (1997): 119. http://dx.doi.org/10.1071/mf96047.

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Visual censuses were used to quantify the distribution and abundance of the Lutjanidae, Lethrinidae and Serranidae in three reef zones (windward reef slope, lagoon, back reef) of three reefs on the mid shelf and three reefs on the outer continental shelf in the central region of the Great Barrier Reef. Significant spatial variability was identified in the abundances of many species between locations (outer-shelf and mid-shelf communities), between reefs (high-abundance v. low-abundance reefs), and within reefs (characteristic communities within zones on individual reefs). Species of the Lutjanidae, Lethrinidae and Serranidae were found to occur in assemblages that were characteristic of major zones (windward reef slopes, lagoons and leeward back reefs), this pattern being consistent within and among shelf locations. Care will need to be taken in determining the appropriate spatial scales of sampling in any future experiments (e.g. manipulations of fishing pressure) to ensure that the effects of smaller-scale spatial differences are not confounded when larger-scale comparisons are made.
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9

Santosa, Tomi Apra, Winda Ayu Fietri, Abdul Razak, and Ramadhan Sumarmin. "Phylogenetic analysis of the grouper family (Serranidae) from various local markets in Indonesian waters using COI (cytochrome oxidase I)." Edubiotik : Jurnal Pendidikan, Biologi dan Terapan 6, no. 01 (May 24, 2021): 74–82. http://dx.doi.org/10.33503/ebio.v6i01.1204.

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Grouper fish (Serranidae) is a type of fish found in Indonesian waters. However, not many people have conducted further research on phylogenetics based on COI (Cytochrome Oxidase I). This study aims to explain the phylogeny of grouper fish from the Serranidae family based on COI (Cytochrome Oxidase I). This research is a literature study. The research samples were grouper fish from Lombok, Karimunjawa, Lampung, Kendari, Madura, Tanakeke, and Numfor. The research instrument was a grouper-type observation sheet and an observation sheet for the results of the MEGA 7 application test. The data were analyzed using qualitative descriptive analysis. The results showed that the level of kinship between the species tested was very close, including Epinephelus areolatus, E. merra, E. fasciatus, E. longispinis, E. coioides, E. ongus, and E. coeruleopunctatus with all genetic distance averages type. 0.02. The conclusion of this study is that in general the species relationships found are several species found in the same location with similar morphology and diet.
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10

Kamal, Mohammad Mukhlis, Agus Alim Hakim, Nurlisa Alias Butet, Yulia Fitrianingsih, and Rika Astuti. "AUTENTIKASI SPESIES IKAN KERAPU BERDASARKAN MARKA GEN MT-COI DARI PERAIRAN PEUKAN BADA, ACEH." Jurnal Biologi Tropis 19, no. 2 (August 14, 2019): 116. http://dx.doi.org/10.29303/jbt.v19i2.1245.

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Abstrak : Variasi bentuk dan pola pewarnaan tubuh ikan kerapu (Famili Serranidae) sangat variatif, sehingga pengenalan spesies secara morfologis sering tidak akurat. Penelitian ini bertujuan untuk mengautentikasi ikan kerapu dengan menggunakan marka gen COI. Contoh ikan kerapu yang diamati berjumlah 29 ekor yang dikumpulkan dari tiga tempat pendaratan ikan di Perairan Peukan Bada, Propinsi Aceh. Secara karakter morfologis, ikan kerapu tersebut teridentifikasi lebih dari 8 spesies. Untuk analisis DNA, sebanyak 30 mg daging sirip dari setiap ikan contoh diambil untuk dilakukan isolasi dan ekstraksi DNA, kemudian visualisasi elektroforesis dan fragmentasi DNA gen COI dengan metode PCR-sekuensing. Setelah diekstraksi, diperoleh 20 sampel DNA yang tervisualisasi dengan baik, yang dari jumlah tersebut terdapat 16 sampel dapat diamplifikasi. Hasilnya menunjukkan terdapat 6 spesies yang terautentikasi. Kelompok pertama adalah Variola albimarginata, Cephalopholis urodeta, dan C. sexmaculata dengan tingkat kemiripan ≥ 97%. Berikutnya C. boenak, Epinephelus merra, dan Scolopsis vosmeri tingkat kemiripannya ≤ 97%. Bila dibandingkan hasil autentikasi DNA, hasil penelitian menunjukkan bahwa 13 sampel atau > 80% tidak teridentifikasi dengan benar secara morfologis. Berdasarkan jarak genetik, pohon filogeni membentuk 2 clade antara Serranidae dan Nemipteridae. Hasil penelitian menunjukkan bahwa penggunaan marka gen COI sangat efektif untuk autentikasi spesies yang dapat dijadikan sebagai instrumen dalam pemanfaatan dan pengelolaan ikan kerapu.Kata kunci : kerapu, variasi morfologi, gen MT-COI, autentikasi.Abstract : The groupers (family Serranidae) show high variability both in body shapes and coloration leads to highly morphological-based misidentification. The research was aimed in autenthication of the grouper species using MT-COI gene. A total of 29 grouper fishes were collected from three fish landing sites of Peukan Bada, Aceh Province. These fishes were morphologically identified from which more than 8 species were obtained. A 30 mg of the fin meat of each sample was taken for DNA extraction, isolation, electrophoresis visualization, and DNA fragmentation of COI gene using PCR-sequenching. There were 20 DNA samples was clearly visualized of which 16 has been proceeded for amplification. The results showed that V. albimarginata, C. urodeta, and C. sexmaculata showed ≥ 97% similarity, whereas C. boenak, E. merra, dan S. vosmeri with ≤ 97% similarity. Based on phylogenetic tree analysis there was 2 clearly different clades separating family of Serranidae and Nemipteridae. The use of MT-COI gene was effective and accurate tool in species authentication which could be used as an instrument for utilization and management of the grouper species.Keywords : groupers, morphological variation, MT-COI gene, autenthication.
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11

Hastings, Philip A. "Protogynous Hermaphroditism in Paralabrax maculatofasciatus (Pisces: Serranidae)." Copeia 1989, no. 1 (February 27, 1989): 184. http://dx.doi.org/10.2307/1445619.

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12

ANDERSON, WILLIAM D. JR. "Annotated checklist of anthiadine fishes (Percoidei: Serranidae)." Zootaxa 4475, no. 1 (September 12, 2018): 1. http://dx.doi.org/10.11646/zootaxa.4475.1.1.

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This checklist includes information on the 29 genera and 226 species of anthiadine serranid fishes currently considered valid. For each genus the type species and number of species are given. For each species the valid name (and name under which it was originally described, if different), primary type(s), type locality, reference(s) to illustration(s), counts, and distribution are presented.
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13

Noikotr, Kowit, Krit Pinthong, Alongklod Tanomtong, Runglawan Sudmoon, Arunrat Chaveerach, and Tawatchai Tanee. "Karyotype analysis of two groupers,Epinephelusspecies (Serranidae)." Caryologia 67, no. 1 (January 2, 2014): 63–65. http://dx.doi.org/10.1080/00087114.2014.892277.

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14

Zeller, D. "Tidal current orientation of Plectropomus leopardus (Serranidae)." Coral Reefs 21, no. 2 (July 2002): 183–87. http://dx.doi.org/10.1007/s00338-002-0231-z.

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15

Allen, Gerald A., and Burhanuddin. "ANTHIAS HUTOMOI, A NEW SPECIES OF SERRANID FISH FROM INDONESIA (PERCIFORMES, SERRANIDAE)." Marine Research in Indonesia 16 (May 10, 2018): 45–50. http://dx.doi.org/10.14203/mri.v16i0.346.

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Anthias hutomoi, a member of the family Serranidae (subfamily Anthiinae) is described from 11 specimens taken by trawl at Seram, Indonesia. It appears to be allied to Anthias cichlops (BLEEKER,), but differs in several important respects, including head length, caudal shape, and counts for the lateral-line, soft dorsal rays, and pectoral rays.
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16

García Rosero, Ligia, Carlos Chuquillanqui Sotomayor, Jaris Veneros Guevara, and Saskia García Aucatoma. "Evaluación técnica y económica para dos métodos de producción de semilla pre básica de papa (Solanum tuberosum L.) bajo invernadero." Revista Científica y Tecnológica UPSE 4, no. 3 (December 15, 2017): 36–45. http://dx.doi.org/10.26423/rctu.v4i3.277.

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Se evaluaron dos métodos de producción de semilla pre-básica de papa en términos de producción, costo y beneficio. Esta se desarrolló en el Centro Internacional de la Papa – Lima, en la época de verano (Diciembre- Abril) utilizando dos variedades (Serranita y Chucmarina) y dos métodos de producción (Aeroponía y Convencional). Los tratamientos se organizaron en un Diseño Completo al Azar con 4 repeticiones. Se concluyó que, el mejor promedio de tubérculos > 5g, lo presentó el sistema Aeroponía-Serranita con 324 tubérculos/m2. El mayor promedio de tubérculos < 5g lo obtuvo el sistema Aeropónico (198 tubérculos/m2). Las altas temperaturas a las que estuvo expuesto el cultivo provocó baja productividad resultante del estrés de la planta. El menor costo total de producción por metro cuadrado (US $37.98/m2), se obtuvo en el sistema convencional en ambas variedades. El mayor ingreso total y rentabilidad lo obtuvo el tratamiento Aeropónico- Serranita con US $125.16/m2 y 66.97%.
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17

Izawa, Kunihiko. "A new and a known species of Taeniacanthus Sumpf, 1871 (Copepoda, Cyclopoida, Taeniacanthidae) parasitic on Japanese fishes." Crustaceana 94, no. 3 (March 2, 2021): 343–56. http://dx.doi.org/10.1163/15685403-bja10093.

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Abstract Taeniacanthus aulacocephali sp. nov. recovered from Aulacocephalus temminckii Bleeker, 1855 (Serranidae) is described and T. sebastichthydis Yamaguti, 1939 collected from Sebastiscus marmoratus (Cuvier, 1829) and Sebastes inermis Cuvier, 1829 (Sebastidae) is redescribed. The male, copepodid V male, both sexes of copepodid IV, and copepodid II of the latter species are herein described for the first time.
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18

Del Moral-Flores, Luis Fernando, Eduardo López-Segovia, Viridiana R. Escartín-Alpizar, and María de Lourdes Jiménez-Badillo. "Validating the presence of Spanish Flag, Gonioplectrus hispanus (Cuvier, 1828) (Perciformes, Serranidae), from the south-western Gulf of Mexico." Check List 17, no. 5 (September 21, 2021): 1299–303. http://dx.doi.org/10.15560/17.5.1299.

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We report the presence of Gonioplectrus hispanus (Cuvier, 1828) in Mexican waters of the Gulf of Mexico. Four specimens (198&ndash;224 mm standard length) were caught at two locations south of Veracruz. These records increases the number of species in the family Serranidae for Mexico to 113. We include morphometry and meristic data of our specimens.
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19

DEWI, KARTIKA, and HARRY W. PALM. "Two new species of philometrid nematodes (Nematoda: Philometridae) in Epinephelus coioides (Hamilton, 1822) from the South Bali Sea, Indonesia." Zootaxa 3609, no. 1 (January 25, 2013): 49–59. http://dx.doi.org/10.11646/zootaxa.3609.1.3.

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Based on light and scanning electron microscopy, two new species of philometrid nematodes, Spirophilometra endangae sp. nov. and Philometra epinepheli sp. nov. (Nematoda: Dracunculoidea: Philometridae) are described from Epinephelus coioides (Hamilton, 1822) (Perciformes: Serranidae) from the South Bali Sea, Indonesia. Spirophilometra endangae sp. nov. was isolated from the fins of E. coioides. The new species can be distinguished from the most closely related S. eichleri Parukhin, 1971 by a larger total body length and the site of infection in the host. The new species differs from S. centropomi (Caballero, 1974) also in the larger body size of the gravid females and the site of infection in the host. S. en-dangae sp. nov. differs from S. pacifica (Moravec, Santana-Pineros, Gonzales-Solis & Torres-Huerta, 2007) in the struc-ture and arrangement of the spines on the middle part of the body, the infection site of the worm, the type host and the zoogeographical host distribution. Philometra epinepheli sp. nov. differs from all other Philometra spp. congeners so far recorded from Ephinepelus groupers in the total body length and the site of infection. This is the first opercula-infecting species of Philometra described from the fish family Serranidae.
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20

Petersen, Elizabeth H., Dam Thi My Chinh, Ngo Thi Diu, Vu Van Phuoc, Truong Ha Phuong, Nguyen Van Dung, Nguyen Khac Dat, Pham Truong Giang, and Brett D. Glencross. "Bioeconomics of Grouper, Serranidae: Epinephelinae, Culture in Vietnam." Reviews in Fisheries Science 21, no. 1 (January 2013): 49–57. http://dx.doi.org/10.1080/10641262.2012.753403.

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21

Lim, Sang Gu, Min Hwan Jeong, Bong Seok Kim, Tae Ho Lee, Hyun Woo Gil, and In-Seok Park. "Landmark-based Morphometric and Meristic Analysis of Serranidae." Development & Reproduction 20, no. 2 (June 2016): 73–85. http://dx.doi.org/10.12717/dr.2016.20.2.073.

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22

Sun, Yuena, Tao Wei, Xiurong Su, and Taiwu Li. "The complete mitochondrial genome ofGrammistes sexlineatus(Perciformes, Serranidae)." Mitochondrial DNA 27, no. 2 (May 20, 2014): 821–23. http://dx.doi.org/10.3109/19401736.2014.919458.

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23

Basaglia, Fulvia, Germano Salvatorelli, Andrea Santulli, and Vincenzo D'amelio. "Ontogenetic variations of some enzymes indicentrarchus labrax(Serranidae)." Bolletino di zoologia 56, no. 1 (January 1989): 1–6. http://dx.doi.org/10.1080/11250008909355615.

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24

Chevalier Monteagudo, P. P., M. Solignac, and E. Garc�a-Machado. "Lack of mtDNA differentiation among hamlets ( Hypoplectrus , Serranidae)." Marine Biology 144, no. 1 (January 1, 2004): 147–52. http://dx.doi.org/10.1007/s00227-003-1174-9.

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25

ISLAM, MD JAYEDUL, SHARMIN AKTER, PROVAKOR SARKAR, MOHAMMAD RASHED, IREEN PARVIN, and KAZI AHSAN HABIB. "First record of roving coral grouper Plectropomus pessuliferus (Fowler, 1904) from Saint Martin’s Island, Bangladesh based on Morphology and DNA Barcoding." Bangladesh Journal of Fisheries 32, no. 2 (January 15, 2021): 293–301. http://dx.doi.org/10.52168/bjf.2020.32.34.

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A new record of Plectropomus pessuliferus (Serranidae: Epinephelinae) wasdocumented based on morphological characters and DNA barcoding. The species was collectedduring a regular survey for making an inventory of reef associated fishes in Saint Martin`sIsland, Bangladesh. This is the first report of roving coral grouper from the marine waters ofBangladesh validated by morpho-meristic analysis and DNA barcoding. This is also the firstreport from the northern Bay of Bengal.
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26

Viera, M. C. "Aportaciones al conocimiento de la brioflora extremeña." Acta Botanica Malacitana 13 (December 1, 1988): 296–99. http://dx.doi.org/10.24310/actabotanicaabmabm.v13i.9438.

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27

El Sanabany, M. A., and M. K. H. Ali. "تقدير جهد الصيد في د يحمض، جزيرة سقطرى - اليمن." Electronic Journal of University of Aden for Basic and Applied Sciences 2, no. 1 (March 31, 2021): 30–38. http://dx.doi.org/10.47372/ejua-ba.2021.1.87.

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بيانات اسماك الشعب المرجانية التي تم تجميعها خلال الفترة مارس 2007 حتى مارس 2009 في منطقة د يحمض تعطي فرصة لمعرفة تأثير الاصطياد في تركيبة المجتمع السمكي، فقد تم تحليل البيانات لمعرفة التغيرات في جهد الاصطياد.وأظهرت النتائج أن الصيادين في منطقة د يحمض - سقطرى يصطادون 49 نوع من الأسماك تنتمي إلى 19 عائلة سمكية، خمس عائلات تهيمن على الصيد عائلة التونة (Scombridae)، الجحش (Lethrinidae)، الهامور (Serranidae)، والفرس (Xiphiidae) والعنتق (Lutjanidae) وهي المكون الرئيسي للإنتاج حيث شكلت 95% تقريبا من الإنتاج خلال سنوات الدراسة. وأظهرت نتائج جهد الاصطياد (كجم/يوم) خلال الفترة مارس 2007 حتى مارس 2009 أن عائلة أسماك التونة كانت أكثر إنتاجا في شهر أكتوبر وحققت 3998,46 كغم/ يوم وكذلك عائلة اسماك الفرس حققت اعلي إنتاج في شهر أكتوبر 830,33 كغم / يوم. كما أظهر جهد الاصطياد (كجم/يوم) خلال الفترة مارس 2007 حتى مارس 2009 أن عائلات اسماك الجحش (Lethrinidae)، والهامور (Serranidae) والعنتق (Lutjanidae) قد تفاوت إنتاجها خلال شهور الدراسة وبشكل عام كان أكثر إنتاجها في شهر فبراير حيث حققت 1949.76، 1778، 381.33 كغم/ يوم على التوالي.أما بالنسبة لجهد الصيد الكلي (كغم / يوم) في منطقة د يحمض- سقطرى بالنسبة للشهور خلال فترة الدراسة مارس 2007 – مارس 2009 فقد كانت أعلى قيمة 5025,26 كغم/يوم خلال شهر أكتوبر 2007م واقل قيمة68,99 كغم /يوم خلال شهر مايو 2008م.وعلى أساس المعدل الكلي (كغم / يوم) بالنسبة للعائلات كان أعلى معدل صيد 343,89كغم /يوم لعائلة اسماك التونة (Scombridea) واقل قيمة لعائلة اسماك البوري (Mugilidae) 6,55 كغم /يوم. أما التغيرات الحاصلة في جهد الاصطياد (كغم /يوميا) لعشر عوائل خلال فترة الدراسة، فقد لوحظ زيادة في إنتاج القرش في 2008 مقارنة ب 2007 ولكن لوحظ وجود انخفاض كبير في إنتاج عائلة القرش (shark) في 2009 وكذلك انخفاض في إنتاج عائلة التونة والفرس والبياض بعد الزيادة الكبيرة خلال أكتوبر 2007وكذلك انخفاض في الإنتاج الكلي للأسماك القاعيه (Demersal fish) مجتمعة (الجحش (Lethrinidae)، الهامور (Serranidae)، العنتق (Lutjanidae))، بعد الزيادة الكبيرة في إنتاجها في شهر فبراير عام 2008م.وأخيرا يجب التأكيد على أن معرفة التغيرات الحاصلة في الاصطياد وتركيبته السمكية مهم جدا لتقييم تأثير جهد الصيد على المخزون السمكي وكذلك كموجه لاتخاذ التدابير الإدارية اللازمة لتنظيم الصيد، خصوصا وان تأثيرات الاصطياد ممكن أن تحدث حتى ولو كان الصيد في مراحله لأولى.
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İşçimen, Bilal, Yakup Kutlu, and Cemal Turan. "Classification of Serranidae Species Using Color Based Statistical Features." Natural and Engineering Sciences 2, no. 1 (February 8, 2017): 25–34. http://dx.doi.org/10.28978/nesciences.292352.

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29

Kim, Maeng-Jin, and Choon-Bok Song. "First Record of Epinephelus areolatus (Perciformes: Serranidae) from Korea." Fisheries and aquatic sciences 13, no. 4 (December 31, 2010): 340–42. http://dx.doi.org/10.5657/fas.2010.13.4.340.

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30

Lee, S. C., and W. C. Chao. "Biochemical systematics of some serranids from Taiwan (Pisces, Serranidae)." Journal of Zoological Systematics and Evolutionary Research 28, no. 3 (April 27, 2009): 183–90. http://dx.doi.org/10.1111/j.1439-0469.1990.tb00375.x.

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He, Binyuan, Tinghe Lai, Zaiqing Peng, Xin Wang, and Lianghao Pan. "Complete mitogenome of the Areolate grouperEpinephelus areolatus(Serranidae, Epinephelinae)." Mitochondrial DNA 24, no. 5 (February 21, 2013): 498–500. http://dx.doi.org/10.3109/19401736.2013.770503.

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Peng, Zaiqing, Yong Huang, Jing Chen, Tinghe Lai, and Liangzhong Wu. "Complete mitochondrial genome of dotted grouperEpinephelus epistictus(Serranidae: Epinephelinae)." Mitochondrial DNA 25, no. 3 (May 15, 2013): 190–91. http://dx.doi.org/10.3109/19401736.2013.792070.

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Lv, Liyuan, Changxu Tian, Xufang Liang, Yongchao Yuan, Cheng Zhao, and Yi Song. "The complete mitochondrial genome sequence ofCoreoperca whiteheadi(Perciformes: Serranidae)." Mitochondrial DNA 27, no. 1 (March 11, 2014): 301–3. http://dx.doi.org/10.3109/19401736.2014.892087.

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34

Yang, Yuqing, Zhenzhen Xie, Cheng Peng, Jingyuan Wang, Shuisheng Li, Yong Zhang, Haifa Zhang, and Haoran Lin. "The complete mitochondrial genome of theEpinephelus tukula(Perciformes, Serranidae)." Mitochondrial DNA 27, no. 1 (April 8, 2014): 520–22. http://dx.doi.org/10.3109/19401736.2014.905837.

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35

Wang, Huan, Limei Guo, and Shao-Xiong Ding. "The complete mitochondrial genome of Diploprion bifasciatum (Perciformes, Serranidae)." Mitochondrial DNA Part A 27, no. 5 (March 25, 2015): 3137–38. http://dx.doi.org/10.3109/19401736.2015.1007301.

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36

Rodríguez-Daga, R., A. Amores, and G. Thode. "Karyotype and Nucleolus Organizer Regiones inEpinephelus caninus(Pisces, Serranidae)." Caryologia 46, no. 1 (January 1993): 71–76. http://dx.doi.org/10.1080/00087114.1993.10797248.

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37

Watson, Maggie, Dave Righton, Tim Austin, and Rupert Ormond. "The Effects of Fishing on Coral Reef Fish Abundance and Diversity." Journal of the Marine Biological Association of the United Kingdom 76, no. 1 (February 1996): 229–33. http://dx.doi.org/10.1017/s0025315400029179.

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The effect of artisanal fishing on the abundance and diversity of coral reef fish assemblages was investigated in the Kisite Marine National Park and Mpunguti Marine National Reserve at Shimoni, Kenya. Fishing is prohibited within the Park whereas in the Reserve artisanal fishing using traditional methods is practised. Visual censuses of six representative reef fish families (Chaetodontidae, Lethrinidae, Lutjanidae and Serranidae in 1992 and 1994, and Labridae and Pomacentridae in 1994 only) were undertaken along 250×10 m band transects on two similar pairs of reefs subject to differing fishing pressure. The abundance of commercial species (Lethrinidae, Lutjanidae and Serranidae) was depressed in the Reserve. The unfished butterflyfishes (Chaetodontidae) and damselfishes (Pomacentridae) also showed a greater abundance in the Park than in the Reserve. However, neither species number nor Shannon diversity (H′) of any of these families was affected by fishing pressure. Possible reasons for these findings are discussed. The abundance of commercial species, though not of non-commercial unfished species, increased significantly in the Reserve between 1992 and 1994, suggesting that the unfished Park may be acting as a source of larvae or supply of emigrating adults for the depleted Reserve. The results are comparable with other recent studies describing the effects of fishing pressure and also with those studies detailing the effects of habitat refugia in coral reef areas.
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Lee, Seungki, Dae-Sung Lee, Jong Su Yoo, and Ha Yeun Song. "Characterization of the complete mitochondrial genome of the white grouper Epinephelus aeneus (Perciformes, Serranidae) and a comparative analysis with other Serranidae species." Mitochondrial DNA Part B 5, no. 3 (May 28, 2020): 2226–27. http://dx.doi.org/10.1080/23802359.2020.1768956.

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39

Izawa, Kunihiko. "Redescription of Lernaeenicus ramosus Kirtisinghe, 1956 (Copepoda, Siphonostomatoida, Pennellidae), with description of its male and the postnaupliar developmental stages." Crustaceana 92, no. 1 (2019): 119–28. http://dx.doi.org/10.1163/15685403-00003852.

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Abstract Lernaeenicus ramosus Kirtisinghe, 1956 is redescribed on the basis of metamorphosed females recovered from the body surface of Epinephelus akaara (Temminck & Schlegel, 1842) (Pisces, Serranidae). Also the male, copepodid I, both sexes of chalimus II and III, and chalimus IV male were recovered, together with the females, from the branchial lamellae of the same host and are herein described for the first time for the species. The developmental process of leg 4 in L. ramosus differs from that in L. sprattae (Sowerby, 1806).
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WHITE, WILLIAM T., and DHARMADI. "Giganthias serratospinosus, a new serranid (Perciformes: Serranidae: Anthiinae) from the island of Lombok in Indonesia." Zootaxa 3161, no. 1 (January 16, 2012): 60. http://dx.doi.org/10.11646/zootaxa.3161.1.6.

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A new species of anthiine fish (Serranidae) belonging to the genus Giganthias from southeastern Indonesia is described.This is the second species recorded for this genus and the first record of this genus in Indonesian waters. The new species,Giganthias serratospinosus, is clearly separable from the other member of the genus, G. immaculatus, in morphometricsand meristics. The key characteristics of this species include: first to fourth dorsal-fin spines and pelvic-fin spine with expanded, coarsely serrated tips; pectoral-fin rays 13–14, soft dorsal-fin rays 12.
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Moravec, František, and Jean-Lou Justine. "New records of cucullanid nematodes from marine fishes off New Caledonia, with descriptions of five new species of Cucullanus (Nematoda, Cucullanidae)." Parasite 27 (2020): 37. http://dx.doi.org/10.1051/parasite/2020030.

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Recent examinations of cucullanid nematodes (Cucullanidae) from marine fishes off New Caledonia, collected in the years 2004–2009, revealed the presence of the following five new species of Cucullanus Müller, 1777, all parasitic in Perciformes: Cucullanus variolae n. sp. from Variola louti (type host) and V. albimarginata (both Serranidae); Cucullanus acutospiculatus n. sp. from Caesio cuning (Caesionidae); Cucullanus diagrammae n. sp. from Diagramma pictum (Haemulidae); Cucullanus parapercidis n. sp. from Parapercis xanthozona (type host) and P. hexophtalma (both Pinguipedidae); and Cucullanus petterae n. sp. from Epinephelus merra (type host) and E. fasciatus (both Serranidae). An additional congeneric species, Cucullanus bioccai Orecchia et Paggi, 1987 was recorded from Mugil cephalus (Mugilidae, Mugiliformes) (first record in the Pacific Ocean) and Cucullanus sp. (only female) was found in Arothron manilensis (Tetraodontidae, Tetraodontiformes). Furthermore, two known cucullanid species, Dichelyne (Cucullanellus) branchiostegi (Yamaguti, 1941) in Branchiostegus wardi (Malacanthidae, Perciformes) (new host and geographical records) and Dichelyne (Cucullanellus) bodiani Moravec et Justine, 2019 in Bodianus busellatus (new host) and B. perditio (both Labridae, Perciformes), were found; Dichelyne (Cucullanellus) sp. (only females) coinfecting the latter host may represent an unknown species. Most species are described based on light and electron microscopical studies. The specimens described by Xu et al., 2017 as Cucullanus bourdini Petter et Le Bel, 1992 from Caesio xanthonota (Caesionidae) in the Taiwan Strait are considered to represent a new species, for which the name Cucullanus sinensis n. sp. is proposed.
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CRIBB, T. H., R. A. BRAY, T. WRIGHT, and S. PICHELIN. "The trematodes of groupers (Serranidae: Epinephelinae): knowledge, nature and evolution." Parasitology 124, no. 7 (September 24, 2002): 23–42. http://dx.doi.org/10.1017/s0031182002001671.

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Groupers (Epinephelinae) are prominent marine fishes distributed in the warmer waters of the world. Review of the literature suggests that trematodes are known from only 62 of the 159 species and only 9 of 15 genera; nearly 90% of host–parasite combinations have been reported only once or twice. All 20 families and all but 7 of 76 genera of trematodes found in epinephelines also occur in non-epinephelines. Only 12 genera of trematodes are reported from both the Atlantic–Eastern Pacific and the Indo–West Pacific. Few (perhaps no) species are credibly cosmopolitan but some have wide distributions across the Indo–West Pacific. The hierarchical ‘relatedness’ of epinephelines as suggested by how they share trematode taxa (families, genera, species) shows little congruence with what is known of their phylogeny. The major determinant of relatedness appears to be geographical proximity. Together these attributes suggest that host-parasite co-evolution has contributed little to the evolution of trematode communities of epinephelines. Instead, they appear to have arisen through localized episodes of host-switching, presumably both into and out of the epinephelines. The Epinephelinae may well be typical of most groups of marine fishes both in the extent to which their trematode parasites are known and in that, apparently, co-evolution has contributed little to the evolution of their communities of trematodes.
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CARRERAS-CARBONELL, J., E. MACPHERSON, and M. PASCUAL. "Characterization of 12 microsatellite markers in Serranus cabrilla (Pisces: Serranidae)." Molecular Ecology Notes 6, no. 1 (March 2006): 204–6. http://dx.doi.org/10.1111/j.1471-8286.2005.01193.x.

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Oh, Bong-Se, Dae-Ju Oh, Min-Min Jung, and Yong-Hwan Jung. "Complete mitochondrial genome of the longtooth grouperEpinephelus bruneus(Perciformes, Serranidae)." Mitochondrial DNA 23, no. 2 (March 13, 2012): 137–38. http://dx.doi.org/10.3109/19401736.2012.660928.

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Lai, Tinghe, Binyuan He, Zaiqing Peng, Xin Wang, and Lianghao Pan. "Complete mitochondrial genome of the striped grouperEpinephelus latifasciatus(Serranidae, Epinephelinae)." Mitochondrial DNA 24, no. 5 (February 25, 2013): 510–12. http://dx.doi.org/10.3109/19401736.2013.770507.

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Peng, Zaiqing, Jing Chen, Tinghe Lai, Yong Huang, and Liangzhong Wu. "Complete mitochondrial genome of the longfin grouperEpinephelus quoyanus(Serranidae: Epinephelinae)." Mitochondrial DNA 25, no. 3 (April 30, 2013): 175–76. http://dx.doi.org/10.3109/19401736.2013.792063.

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Peng, Cheng, Dengdong Wang, Jianan He, Lin Tang, Zhujing Tang, Yali Liu, Minwei Huang, Shuisheng Li, Yong Zhang, and Haoran Lin. "The complete mitochondrial genome of the Epinephelus fuscoguttatus (Perciformes: Serranidae)." Mitochondrial DNA Part A 27, no. 6 (January 28, 2015): 4110–11. http://dx.doi.org/10.3109/19401736.2014.1003867.

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Zheng, Leyun, Junfeng Xie, Zhenzhen Xie, Ling Xiao, Qing Wang, Minwei Huang, Huimin Chen, et al. "The complete mitochondrial genome of the Epinephelus corallicola (Perciformes: Serranidae)." Mitochondrial DNA Part A 27, no. 6 (December 26, 2014): 3971–72. http://dx.doi.org/10.3109/19401736.2014.989509.

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Zhang, Guoqing, Mengmeng Chen, Jian Luo, and Guohua Chen. "The complete mitochondrial genome of the Epinephelus polyphekadion (Teleostei, Serranidae)." Mitochondrial DNA Part A 27, no. 4 (June 10, 2015): 2367–68. http://dx.doi.org/10.3109/19401736.2015.1028033.

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50

French, B., M. E. Platell, K. R. Clarke, and I. C. Potter. "Optimization of foraging and diet by the piscivorousOthos dentex(Serranidae)." Journal of Fish Biology 90, no. 5 (February 20, 2017): 1823–41. http://dx.doi.org/10.1111/jfb.13269.

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