DOCSLIB.ORG

The Rock Shrimp Genus Sicyonia (Crustacea: Decapoda: Penaeoidea) in the Eastern Pacific

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
The Rock Shrimp Genus Sicyonia (Crustacea: Decapoda: Penaeoidea) in the Eastern Pacific mr ^Sa^ TO w THE ROCK SHRIMP GENUS SICYONIA (CRUSTACEA: DECAPODA: PENAEOIDEA) IN THE EASTERN PACIFIC ISABEL PEREZ FARFANTE1 ABSTRACT The genus Sicyonia is redefined and the 12 species occurring between Monterey Bay, California, and off Pisco, Peru, are treated in detail. A key to species is followed by illustrated species accounts including descriptions, ranges of intraspecific variation with analyses of morphometric data (rostrum to carapace ratio graphically represented for 10 species), and color notes. The size ranges at which males and the minimum sizes at which females attain adulthood are summarized, and ecological notes together with maps illustrating the ranges of the species (six of which have been extended beyond limits previously reported) are included. Sicyonia disparri seems to be restricted to the south and gulf coasts of Baja California and waters offNayarit, Mexico; S. affinis to waters off Costa Rica, Panama, and Colombia; and S. penicillata occurs on the ocean side of Baja California Sur, Mexico, and from the Gulf of California to Costa Rica. Sicyonia ingentis ranges from Monterey Bay to Nayarit, including the Gulf of California. Sicyonia disedwardsi and S. martini occur along the ocean side of Baja California Sur, in the Gulf of California, and southward to Panama, and four others, S. aliaffinis,S. disdorsalis,S. mixta, and S. picta, frequent the same waters, but also reach as far south as Peru. Sicyonia laevigata and S. brevirostris are found on both sides of the Continent, the former at the southern end of the Gulf of California and from off Costa Rica to the Golfo de Panama in the Pacific, and from North Carolina to Santa Catarina, Brazil, in the Atlantic. Sicyonia brevirostris has been recorded from the Golfo de Tehuantepec and from Virginia southward through the Gulf of Mexico to Yucatan, and also from the Bahamas and Cuba. In addition, there is an unverified literature record from Guyana. The treatment of each species is concluded with a comparison of its diagnostic features with those of the most closely allied congeners and a note on its present or potential economic value. Until a few years ago, members of the genus mation available is limited to the original descrip- Sicyonia, "rock shrimps", were discarded from the tions of the species, which are scattered in works large commercial catches of panaeoid shrimps published between 1871 and 1945, and to a limited made in tropical and subtropical waters of the number of locality records. Of the 12 species occur- eastern Pacific and western Atlantic. It was com- ring in the region, 4 had been recognized prior to monly thought that because of their hard, stony the close of the century. No other species were exoskeleton, they would be rejected by both con- reported from these waters until Burkenroad sumers and the processing industry; however, in- made his invaluable studies (1934-45) which re- creased demand for shrimp encouraged the sulted in the recognition of five new species plus fishermen and dealers to bring the larger species two others previously known to occur only in the to market, and now production is not only readily western Atlantic. Recently, Perez Farfante and absorbed, but some prefer rock shrimps to the Boothe (1981) described the 12th member of the thinner shelled species. genus frequenting the eastern Pacific. Two works The exploitation and comparatively recent rec- have been helpful in the identification of the ognition of the commercial potential of Sicyonia, American Sicyonia: one by Anderson and Lindner the most distinctive group within the superfamily (1945) which provided a key to the then known Penaeoidea, have motivated this review of mem- species; the other by Arana Espina and Mendez G. bers of the genus found in the American Pacific (1978) in which was presented an illustrated key, (the western Atlantic species have already been diagnoses, and ranges of the species found in the object of a number of studies, e.g., Chace 1972; Peruvian and Ecuadorean waters, and an analysis Huff and Cobb 1979). For the most part, the infor- of morphometric relations, with data on the growth and molting pattern of one of the species. The extensive collections (515 lots containing 1Systematics Laboratory, National Marine Fisheries Service, NOAA, National Museum of Natural History, Washington, DC 4,672 specimens) of Sicyonia available from Mon- 20560. terey Bay, Calif., to off Pisco, Peru, and the oppor- Manuscript accepted April 1984. 1 FISHERY BULLETIN: VOL. 83, NO. 1,1985. FISHERY BULLETIN: VOL. 83, NO. 1 tunity to examine all except two of the extant extension within the limits cited herein, and all of type-specimens of the species have made a critical the gaps encompass areas off southern Mexico. study of the genus in the eastern Pacific possible. Perhaps the discontinuities are due to limited The present work includes a definition of the genus exploratory investigations; however, one species, and a key to the species occurring in the region. A S. disdorsalis, has been found to occur virtually complete synonymy and usually complete list of continuously from the Gulf of California to Peru. references, vernacular names, and a diagnosis Nevertheless, speculations attempting to explain precede the detailed description of each species, the apparent gaps in the ranges of these species which includes a discussion of the extensive varia- should await the confirmation of their existence. tion exhibited as well as meristic and morphomet- Except for records of the occurrence of S. picta at ry data. In addition, relation of the length of the 333 m (Faxon 1893) and 369-400 m (Arana Espina rostrum to the length of the carapace is graphed and Mendez G. 1978) and S. brevirostris at 329 m for 10 species. Color notes, size range at which (Williams 1965), no other species were previously males reach adulthood, and minimum size known from depths greater than about 200 m; here at which females have been observed to be im- six others are reported between about 250 and 300 pregnated are given. Geographic and bathymetric m, depths considerably greater than their previ- ranges are delimited, and ecological data are pro- ously known maximum occurrence. vided. Analyses of the diagnostic features utilized Distributions of members of the genus Sicyonia in the recognition of species and a discussion of in the eastern Pacific appear to differ strikingly their phylogenetic relationships are also pre- from those of most species of the closely related sented. Distributional maps as well as illustra- family Penaeidae in that region. Whereas some tions of entire animals, genitalia, and a few other species of Sicyonia are restricted to comparatively morphological features are included along with a small areas (one confined to the southern and gulf bibliography which is as complete as possible. A coasts of Baja California and waters immediately statement of their economic importance follows south), others range from the Gulf of California to the treatment of the pertinent species, and a list of the northern or to the central coasts of Peru. Most the specimens examined, with their localities, is of the eastern Pacific species, like their western appended to each of the 12 species. Atlantic congeners, reveal a marked preference for The distributional studies have resulted in ex- firm or coarse bottoms. tensions of both geographic and bathymetric ranges of several species; e.g., of the seven species PRESENTATION OF DATA known to occur both in the Gulf of California and on the ocean side of the peninsula, five have not Many characters used in the descriptions are been previously reported from the latter, and one, depicted in Figures 1-7. To provide an appreciation which had been recorded only as far north as Point of the structure of the eye and the nomenclature Conception, Calif., was found to reach Monterey employed in its description I have chosen that of S. Bay (Perez Farfante and Boothe 1981). Of the 12 disedwardsi. To illustrate the first article of the species that have been reported from the region, 10 antennular peduncle and anterior gnathal append- (or 11, in the unlikely event that the presence of S. ages, S. ingentis was selected. The petasmata affinis is confirmed) occur in the Gulf of California; have been drawn from specimens stained with fast of those occurring in the gulf, S. disparri appears green. For convenience, both the armature of ster- to be virtually confined to it and only S. ingentis nite XI and the shape of the posterior thoracic extends northward beyond Mexico, along the coast ridge are presented with the description of the of the United States. Eight of the 10 species range thelycum. Scales accompanying the illustrations southward to Central America, and of them 4 are in millimeters. The length of the rostrum (rl) reach as far as Peru and S. aliaffinis also occurs off recorded herein is the linear distance from the Islas Galapagos. Sicyonia brevirostris has been apex to the orbital margin; length of the carapace reported exclusively from the Golfo de Tehuan- (cl) is the distance between the orbital margin and tepec, and S. affinis is known with certainty only the midposterior margin of the carapace; and the from Costa Rica to Colombia. total length (tl) is the distance from the apex of the Seven of the species, S. laevigata, S. mixta, S. rostrum to the posterior end of the telson. The disedwardsi, S. penicillata, S. aliaffinis, S. mar- geographic distribution of each of the species pre- tini, and S. picta, appear to have disjunct ranges. sented on the maps is based on material personally None has been recorded from stretches variable in examined and on published records believed to be 2 PfcREZ FARFANTE: ROCK SHRIMP GENUS SICYONIA reliable.
Load more

Recommended publications
  • Shrimp Fishing in Mexico
    235 Shrimp fishing in Mexico Based on the work of D. Aguilar and J. Grande-Vidal AN OVERVIEW Mexico has coastlines of 8 475 km along the Pacific and 3 294 km along the Atlantic Oceans. Shrimp fishing in Mexico takes place in the Pacific, Gulf of Mexico and Caribbean, both by artisanal and industrial fleets. A large number of small fishing vessels use many types of gear to catch shrimp. The larger offshore shrimp vessels, numbering about 2 212, trawl using either two nets (Pacific side) or four nets (Atlantic). In 2003, shrimp production in Mexico of 123 905 tonnes came from three sources: 21.26 percent from artisanal fisheries, 28.41 percent from industrial fisheries and 50.33 percent from aquaculture activities. Shrimp is the most important fishery commodity produced in Mexico in terms of value, exports and employment. Catches of Mexican Pacific shrimp appear to have reached their maximum. There is general recognition that overcapacity is a problem in the various shrimp fleets. DEVELOPMENT AND STRUCTURE Although trawling for shrimp started in the late 1920s, shrimp has been captured in inshore areas since pre-Columbian times. Magallón-Barajas (1987) describes the lagoon shrimp fishery, developed in the pre-Hispanic era by natives of the southeastern Gulf of California, which used barriers built with mangrove sticks across the channels and mouths of estuaries and lagoons. The National Fisheries Institute (INP, 2000) and Magallón-Barajas (1987) reviewed the history of shrimp fishing on the Pacific coast of Mexico. It began in 1921 at Guaymas with two United States boats.
    [Show full text]
  • South Carolina Department of Natural Resources
    FOREWORD Abundant fish and wildlife, unbroken coastal vistas, miles of scenic rivers, swamps and mountains open to exploration, and well-tended forests and fields…these resources enhance the quality of life that makes South Carolina a place people want to call home. We know our state’s natural resources are a primary reason that individuals and businesses choose to locate here. They are drawn to the high quality natural resources that South Carolinians love and appreciate. The quality of our state’s natural resources is no accident. It is the result of hard work and sound stewardship on the part of many citizens and agencies. The 20th century brought many changes to South Carolina; some of these changes had devastating results to the land. However, people rose to the challenge of restoring our resources. Over the past several decades, deer, wood duck and wild turkey populations have been restored, striped bass populations have recovered, the bald eagle has returned and more than half a million acres of wildlife habitat has been conserved. We in South Carolina are particularly proud of our accomplishments as we prepare to celebrate, in 2006, the 100th anniversary of game and fish law enforcement and management by the state of South Carolina. Since its inception, the South Carolina Department of Natural Resources (SCDNR) has undergone several reorganizations and name changes; however, more has changed in this state than the department’s name. According to the US Census Bureau, the South Carolina’s population has almost doubled since 1950 and the majority of our citizens now live in urban areas.
    [Show full text]
  • Addition of Fossil Evidence to a Robust Morphological Cladistic Data Set
    Bulletin of the Mizunami Fossil Museum, no. 31 (2004), p. 1-19, 7 figs., 1 table. c 2004, Mizunami Fossil Museum Decapod phylogeny: addition of fossil evidence to a robust morphological cladistic data set Frederick R. Schram 1 and Christopher J. Dixon 2 1 Zoological Museum, University of Amsterdam, Mauritskade 57, NL-1092 AD Amsterdam, The Netherlands <[email protected]> 2 Institut für Botanik, University of Vienna, Rennweg 14, A-1030 Vienna, Austria Abstract Incorporating fossils into schemes for the phylogenetic relationships of decapod crustaceans has been difficult because of the generally incomplete nature of the fossil record. Now a fairly robust data matrix of characters and taxa relevant to the phylogeny of decapods has been derived from consideration of living forms. We chose several taxa from the fossil record to test whether the robustness of the matrix can withstand insertion of fossils with various degrees of incomplete information. The essential structure of the original tree survives, and reasonable hypotheses about the affinities of selected fossils emerge. Sometimes we detected singular positions on our trees that indicate a high certainty about where certain taxa fit, while under other conditions there are alternative positions to choose from. Definitive answers are not to be expected. Rather, what is important is the demonstration of the usefulness of a method that can entertain and specifically document multiple alternative hypotheses. Key words: Decapoda, phylogeny, cladistics clades, viz., groups they termed Fractosternalia [Astacida Introduction + Thalassinida + Anomala + Brachyura], and Meiura [Anomala + Brachyura]. Schram (2001) later computerized Taxonomies of Decapoda have typically been constructed their analysis, allowing a more objective view of similar either with almost no regard to the fossil record, or, in a data.
    [Show full text]
  • Amphipod Cell Lineages
    Development 129, 5789-5801 5789 © 2002 The Company of Biologists Ltd doi:10.1242/dev.00155 Cell lineage analysis of the amphipod crustacean Parhyale hawaiensis reveals an early restriction of cell fates Matthias Gerberding1,3, William E. Browne2 and Nipam H. Patel1,3,* 1Department of Organismal Biology and Anatomy, University of Chicago, Chicago, IL 60637, USA 2Department of Molecular Genetics and Cell Biology, University of Chicago, Chicago, IL 60637, USA 3Howard Hughes Medical Institute, University of Chicago, Chicago, IL 60637, USA *Author for correspondence (e-mail: [email protected]) Accepted 11 September 2002 SUMMARY In the amphipod crustacean, Parhyale hawaiensis, the endoderm and the fourth micromere generates the first few embryonic cleavages are total and generate a germline. These findings demonstrate for the first time a stereotypical arrangement of cells. In particular, at the total cleavage pattern in an arthropod which results in an eight-cell stage there are four macromeres and four invariant cell fate of the blastomeres, but notably, the cell micromeres, and each of these cells is uniquely identifiable. lineage pattern of Parhyale reported shows no clear We describe our studies of the cell fate pattern of these resemblance to those found in spiralians, nematodes or eight blastomeres, and find that the eight clones resulting deuterostomes. Finally, the techniques we have developed from these cells set up distinct cell lineages that differ in for the analysis of Parhyale development suggest that this terms of proliferation, migration and cell fate. Remarkably, arthropod may be particularly useful for future functional the cell fate of each blastomere is restricted to a single analyses of crustacean development.
    [Show full text]
  • Fishery Bulletin/U S Dept of Commerce National Oceanic and Atmospheric Administration National Marine Fisheries Service V.85
    LIFE HISIDRY AND FISHERY OF THE CALIFORNIA SCORPIONFISH, SCORPAENA GUTTATA, WITHIN THE SOUTHERN CALIFORNIA BIGHT MILTON S. LOVE,l BRITA AXELL,l PAMELA MORRIS,1 ROBSON COLLINS,s AND ANDREW BROOKS~- ABSTRACT We examined the life history of the California scorpionfish in the Southern California Bight. Based on sportfish creel census data, the species was most abundant in the southern part of the Bight. particular­ ly around Catalina, San Clemente, and the Coronado Islands. Trawl studies from 1974 to 1984 indicated that California scorpionfish populations varied considerably in abundance, with numbers peaking in 1982. Though the species usually associates with hard substrata, it was abundant over mud about the Palos Verdes Peninsula, site of a major sewage outfall. We think that this anomalous abundance was due to the presence of large numbers of a prey species, the ridgeback prawn, Sicyonia ingentis, which was attracted to the nutrient-rich substrata. Female California scorpionfish lived to 21 years. males to 15. Females grew faster than males. Von Bertalanffy age-length parameters for females were L - 44.3, k = 0.13, to = -1.9, and for males L = 36.3, k = 0.12, to = -3.86. Over 50% ofboth females and males were mature at 2 years of age. Males tended to mature at a slightly smaller size. Spawning occurred from May through August, peaking in July. California scorpionfish formed large offshore spawning aggregations in waters deeper than their off-season habitat. 'ragging results indicated that fish return to the same spawning area annually. Crabs, primarily juvenile Cancer antlwnyi, were the most important food item of fishes inhabiting soft substrata in shallow water.
    [Show full text]
  • Further Records of Penaeoidea from the East Coast of South Africa
    Further records of Penaeoidea from the East coast of South Africa w. Emmerson Department of Zoology, University of Port Elizabeth, Port Elizabeth Fifty-four specimens of ten penaeoid species were Identified. Apart from commercial operations, Penaeoidea have Of particular interest was the finding of pelagic juveniles of been described and collected from South African waters two species, Funchalia (Funchalia) vil/osa and Penaeus since the beginning of this century (Stebbing 1914; marginatus. CaIman 1925; Barnard 1947, 1950; Joubert & Davies S. Afr. J. Zool. 1981,16: 132 -136 1966; Kensley 1968, 1969, 1977; Champion 1973; Ivanov Vier-en-vyftig eksemplare van tien Penaeoldea-spesies is & Hassan 1976b)_ The aim of the present work is to ge"identifiseer. Die voorkoms van onvolwasse individue van die record new localities for a clearer knowledge of distribu­ twee spesies Funchalia (Funchalia) vil/osa en Penaeus tion, especially for recently recorded species such as marginatus was van besondere belang. Aristeus virilis and Funchalia (Funchalia) vi/losa (Kensley S.-Afr. Tydskr. Dlerk. 1981, 16: 132 -136 1977), and to contribute to juvenile pelagic penaeoid ecology, of which very little is known_ The specimens are lodged in the South African Museum, Cape Town. ) 0 1 0 Methods 2 d A number of penaeoids were collected between 1967 and e t a 1973, mainly by trawlers operating off Durban, at depths d ( between 92 and 700 m with mesh diameters of 2,5 (ex­ r e ploratory) to 12,5 (commercial) cm_ Fifty-four specimens h s i of 10 penaeoid species were identified. The classification l b system used was that established by Perez Farfante u P (1977a) where previous subfamilies are elevated to e families of the superfamily Penaeoidea.
    [Show full text]
  • SEAMAP Atlas 1985
    <;tJLF STATES MARINE FISHERIES COMMISSION COMMISSIONERS ALABAMA Rep. Frank J. Patti Mr. James C. Martm LA House of Representatives Al Dcparlmcnl of ( 'orn.nvalHlll P.O. Box 53 a11d Natural Resource:-, Belle Chasse, LA 70037 M North Union Strct'.l Montgomery. AL >6104 Mr. Leroy Kiffe Route 1, Box 239 Rep. Taylor I-. Harper Lockport, LA 70374 AL House of Rcprcsenlativcs P.O. Box 229 MISSISSIPPI Grand Bay, AL .16541 Mr. Vernon Bevil Executive Director Mr. John Ray Nelson MS Department of Wildlife Bon Sccour Fisheries, Inc. Conservation P.O. Box 60 P.O. Box 451 Bon Sccour, AL 36511 Jackson, MS 39205 FLORIDA Rep. Ted Millette Dr. Tom Gardner MS House of Representatives Executive Director Box 1177 FL Dept. of Natural Resources Pascagoula, MS 39567 3900 Commonwealth Boulevard Tallahassee, FL 32303 Mr. Holton D. Turnbough WGUF Radio Station Rep. Sam Mitchell P.O. Box 789 FL House of Representatives Gulfport, MS 39501 P.O. Box 299 Chipley, FL 32428 TEXAS Mr. Charles D. Travis Mr. Clyde Richbourg Executive Director 220 Billoree Road Texas Parks and Wildlife Deparunent Pace, FL 32571 4200 Smith School Road Austin, TX 78744 LOUISIANA Mr. J. Burton Angelle Sen. H. Tati Santiesteban Executive Secretary Texas Senate LA Department of Wildlife 747 East San Antonio, Suite 100 and Fisheries El Paso, TX 79901 P.O. Box 15570 Baton Rouge, LA 70895 Mr. Charles E. Belaire P.O. Box 1210 Fulton, TX 78358 STAFF Larry B. Simpson Virginia K. Herring Thomas M. Van Dcvcndcr Ronald R. Lukens Lucia B. Hourihan Eileen M. Benton Nancy K. Marcellus SEAMAP ENVIRONMENTAL AND BIOLOGICAL ATLAS OF THE GULF OF MEXICO, 1985 Edited by Perry A.
    [Show full text]
  • TESIS Doctor En Ciencias
    CENTRO DE INVESTIGACIONES BIOLÓGICAS DEL NOROESTE, S.C. Programa de Estudios de Posgrado ANÁLISIS DE LA BIODIVERSIDAD EN ARRECIFES ROCOSOS EN LA ZONA DE TRANSICIÓN TROPICAL-SUBTROPICAL DEL PACÍFICO MEXICANO TESIS Que para obtener el grado de Doctor en Ciencias Uso, Manejo y Preservación de los Recursos Naturales (Orientación Biología Marina) P r e s e n t a Verónica Cristina García Hernández La Paz, Baja California Sur, Agosto de 2014 i I Comité tutorial El presente trabajo fue co-dirigido por: Dra. Elisa Serviere Zaragoza Centro de Investigaciones Biológicas del Noroeste Dr. Héctor Reyes Bonilla Universidad Autónoma de Baja California Sur Cotutores: Dr. Eduardo Ríos Jara Universidad de Guadalajara Dr. Eduardo Francisco Balart Páez Centro de Investigaciones Biológicas del Noroeste Dr. Salvador Emilio Lluch Cota Centro de Investigaciones Biológicas del Noroeste Comité Revisor de Tesis: Dra. Elisa Serviere Zaragoza Centro de Investigaciones Biológicas del Noroeste Dr. Héctor Reyes Bonilla Universidad Autónoma de Baja California Sur Dr. Eduardo Ríos Jara Universidad de Guadalajara Dr. Eduardo Francisco Balart Páez Centro de Investigaciones Biológicas del Noroeste Dr. Salvador Emilio Lluch Cota Centro de Investigaciones Biológicas del Noroeste Jurado del Examen de Grado: Dra. Elisa Serviere Zaragoza Centro de Investigaciones Biológicas del Noroeste Dr. Héctor Reyes Bonilla Universidad Autónoma de Baja California Sur Dr. Eduardo Ríos Jara Universidad de Guadalajara Dr. Eduardo Francisco Balart Páez Centro de Investigaciones Biológicas del
    [Show full text]
  • SICYONIIDAE and Sicyonia Typica
    click for previous page Sicyoniidae 279 SICYONIIDAE Rock shrimps iagnostic characters: Body robust, rigid, of stony appearance. Rostrum short (not over-reaching Dantennular peduncle, armed with dorsal teeth, ventral margin toothless); bases of eyestalks with styliform projections on their inner surfaces and without a tubercle on their mesial borders. Carapace without postorbital spines; cervical grooves very faint or absent. Last 2 pairs of pereiopods well developed. Sec- ond pair of pleopods in males bearing only appendix masculina;third and fourth pairs of pleopode sin- gle branched. Telson usually armed with a fixed spine on each side of tip. A single well-developed arthrobranch on penultimate thoracic segment. telson Habitat, biology, and fisheries: All of the representatives of this family are marine, but only 2 of the species occurring in the Western Central Atlantic are of economic interest. Remarks: One genus, Sicyonia H. Milne Edwards, 1830, and 43 species, all marine, have been recognized in this family; 2 species occurring in the Western Central Atlantic are of economic interest, Sicyonia brevirostris and Sicyonia typica. Similar families occurring in the area Solenoceridae, Aristeidae and Penaeidae: integument thinner and less rigid; abdomen without deep grooves or tubercles. Further distinguishing characters of these families are the following: Solenoceridae: carapace with postorbital spines; cervical grooves long, usually ending at or close to dorsal midline;endopods of second pair of pleopods in males bearing appendix masculina, appendix interna, and lat- eral projection; 2 well-developed arthrobranchs on penultimate thoracic segment. cervical cervical groove groove postorbital spine Solenoceridae Penaeidae 280 Shrimps Aristeidae: cervical grooves long, ending at or appendix close to dorsal midline; second pair of masculina pleopods in males bearing appendix masculina and appendix interna; spines on each side of tip of telson movable; 2 well-developed arthrobranchs on penultimate thoracic segment.
    [Show full text]
  • 10 Taxonomy, Biology and Distribution of Deep Sea Shrimps
    Taxonomy, Biology and 10 Distribution of Deep Sea Shrimps Rekha Devi Chakraborty Crustacean Fisheries Division Shellfish systematics is the most unique one in fisheries science in view of its importance and implications in diversity. The systematic zoology is the science that discovers names, determines relationships, classifies and studies the evolution of living organisms. It is an important branch in biology and is considered to be one of the major subdivisions of biology having a broader base than genetics, biochemistry and physiology. The shellfish includes two highly diversified phyla i.e. phylum Arthropoda and phylum Mollusca. These two groups are named as shellfishes because of the presence of exoskeleton made of chitin in arthropods and shells made of calcium in molluscs. These two major phyla are invertebrates. They show enormous diversity in their morphology, in the habitats they occupy and in their biology. Phylum Arthropoda includes economically important groups such as lobsters, shrimps, crabs. Taxonomical study reveals numerous interesting phenomena in shellfish phylogeny and the study is most indispensable for the correct identification of candidate species for conservation and management of our fishery resources and aquaculture practices. On the whole taxonomic study on shellfishes furnishes the urgently needed information about species and it cultivates a way of thinking and approaching of all biological problems, which are much needed for the balance and well being of shellfish biology as a whole. Training Manual on Species Identification Shrimp resources are available both from inshore and from offshore waters. As the fish resource from inshore waters remained static during the last two decades, fishing pattern underwent several changes in the previous decade, leading to the exploitation of deep sea resources either with deployment of large sized vessels or modified medium/small sized vessels.
    [Show full text]
  • Chec List Marine and Coastal Biodiversity of Oaxaca, Mexico
    Check List 9(2): 329–390, 2013 © 2013 Check List and Authors Chec List ISSN 1809-127X (available at www.checklist.org.br) Journal of species lists and distribution ǡ PECIES * S ǤǦ ǡÀ ÀǦǡ Ǧ ǡ OF ×±×Ǧ±ǡ ÀǦǡ Ǧ ǡ ISTS María Torres-Huerta, Alberto Montoya-Márquez and Norma A. Barrientos-Luján L ǡ ǡǡǡǤͶ͹ǡ͹ͲͻͲʹǡǡ ǡ ȗ ǤǦǣ[email protected] ćĘęėĆĈęǣ ϐ Ǣ ǡǡ ϐǤǡ ǤǣͳȌ ǢʹȌ Ǥͳͻͺ ǯϐ ʹǡͳͷ͹ ǡͳͷ ȋǡȌǤǡϐ ǡ Ǥǡϐ Ǣ ǡʹͶʹȋͳͳǤʹΨȌ ǡ groups (annelids, crustaceans and mollusks) represent about 44.0% (949 species) of all species recorded, while the ͹͸ʹ ȋ͵ͷǤ͵ΨȌǤǡ not yet been recorded on the Oaxaca coast, including some platyhelminthes, rotifers, nematodes, oligochaetes, sipunculids, echiurans, tardigrades, pycnogonids, some crustaceans, brachiopods, chaetognaths, ascidians and cephalochordates. The ϐϐǢ Ǥ ēęėĔĉĚĈęĎĔē Madrigal and Andreu-Sánchez 2010; Jarquín-González The state of Oaxaca in southern Mexico (Figure 1) is and García-Madrigal 2010), mollusks (Rodríguez-Palacios known to harbor the highest continental faunistic and et al. 1988; Holguín-Quiñones and González-Pedraza ϐ ȋ Ǧ± et al. 1989; de León-Herrera 2000; Ramírez-González and ʹͲͲͶȌǤ Ǧ Barrientos-Luján 2007; Zamorano et al. 2008, 2010; Ríos- ǡ Jara et al. 2009; Reyes-Gómez et al. 2010), echinoderms (Benítez-Villalobos 2001; Zamorano et al. 2006; Benítez- ϐ Villalobos et alǤʹͲͲͺȌǡϐȋͳͻ͹ͻǢǦ Ǥ ǡ 1982; Tapia-García et alǤ ͳͻͻͷǢ ͳͻͻͺǢ Ǧ ϐ (cf. García-Mendoza et al. 2004). ǡ ǡ studies among taxonomic groups are not homogeneous: longer than others. Some of the main taxonomic groups ȋ ÀʹͲͲʹǢǦʹͲͲ͵ǢǦet al.
    [Show full text]
  • University of Miami US Department of Commerce Miami-Dade County
    Fisheries assessment of Biscayne Bay 1983 Item Type monograph Authors Berkeley, Steven A. Publisher NOAA/National Ocean Service Download date 01/10/2021 13:52:32 Link to Item http://hdl.handle.net/1834/30510 NOAA/University of Miami Joint Publication NOAA Technical Memorandum NOS NCCOS CCMA 166 University of Miami RSMAS TR 2004-01 Coastal and Estuarine Data Archaeology and Rescue Program University of Miami Rosenstiel School of Marine and Atmospheric Science February 2004 Miami, FL US Department of Commerce Miami-Dade County National Oceanic and Atmospheric Department of Environmental Administration Resources Management Silver Spring, MD Miami, FL a NOAA/University of Miami Joint Publication NOAA Technical Memorandum NOS NCCOS CCMA 166 University of Miami RSMAS TR TR 2004-01 Fisheries Assessment of Biscayne Bay 1983 Steven A. Berkeley Rosenstiel School of Marine and Atmospheric Science University of Miami Prepared for: Metropolitan Dade County Department of Environmental Resources Management A. Y. Cantillo NOAA National Ocean Service (Editor, 2004) February 2004 United States National Oceanic and Department of Commerce Atmospheric Administration National Ocean Service Donald L. Evans Conrad C. Lautenbacher, Jr. Jamison S. Hawkins Secretary Vice-Admiral (Ret.), Acting Assistant Administrator Administrator For further information please call or write: NOAA National Ocean Service National Centers for Coastal Ocean Science 1305 East West Hwy. Silver Spring, MD 20910 301 713 3020 COVER PHOTO: Pat Cope (Rosenstiel School of Marine and Atmospheric Science) interviewing a fisherman on the causeway leading to Miami Beach during the fisheries assessment. Photograph taken by Stephen Carney while at the Rosenstiel School of Marine and Atmospheric Science, University of Miami.
    [Show full text]