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- #ICOLLECTIONS 4.8.1 DRIVERS#
- #ICOLLECTIONS 4.8.1 DRIVER#
- #ICOLLECTIONS 4.8.1 FULL#
- #ICOLLECTIONS 4.8.1 MAC#
Within Visual Studio to create and edit objects within a MySQLĬonnector/J provides driver support for connecting to MySQL fromĪ Java application using the standard Java Database ConnectivityĬonnector/MXJ is a tool that enables easy deployment and Means that you can use the schema and data manipulation tools The plugin is a MySQL DDEX Provider, which The MySQL Visual Studio Plugin works with Connector/NET and To use Connector/NET can be written in any of the supported. Support for use with ADO.NET aware tools. Implements a fully-functional ADO.NET interface and provides That use data stored in a MySQL database.
#ICOLLECTIONS 4.8.1 MAC#
Is available for ODBC connectivity from Windows, Unix and Mac OSĬonnector/NET enables developers to create. Server using the Open Database Connectivity (ODBC) API. There areĬonnector/ODBC provides driver support for connecting to a MySQL
#ICOLLECTIONS 4.8.1 DRIVERS#
This chapter describes MySQL Connectors, drivers that provideĬonnectivity to the MySQL server for client programs. Using the MySQL Visual Studio Plugin 23.3.4. Creating a connection to the MySQL server 23.3.3. Installing the MySQL Visual Studio Plugin 23.3.2. Connector/NET Examples and Usage Guide 23.2.4. Various speciation patterns, including possible examples of host race speciation and speciation facilitated by sexual selection, occur within decapod species complexes.Table of Contents 23.1. For this reason the term "sibling" should be reserved for those species which have been shown to be very closely related using biochemical tech- niques. Electrophoretic analyses, such as those done for species complexes of Uca, Trapezia, and Alpheus, have also shown that cryptic species pairs may or may not be more closely related to each other than morphologically distinct congeners. Although nonmorphological characters cannot be scored in most museum specimens, statistical analysis of morphometric data first collected for individuals of known identity can subsequently be used to identify preserved material. Examples include species of Uca and various symbionts of coral reef organisms (e.g., in the genera Trapezia and Alpheus and the subfamily Pontoniinae). Color pattern of living specimens is a particularly useful character, since it is easy to assess and appears to differentiate mor- phologically similar species in a number of decapod groups. Electrophoretic and mating studies have been very useful in determining whether individuals that differ in ecology, behavior, life history, or color can potentially interbreed. Among the decapod Crustacea, there are probably many unrecognized complexes of cryptic species because of dependence on preserved material. A lot of genera still need a careful revision and groups like the Thalassinidea and Stomatopoda are obviously under-represented.Ĭryptic species are those which are difficult to recognize using traditional systematic meth- ods. Despite these efforts, knowledge of the regional fauna remains incomplete, and it is estimated that the number of species will easily exceed 800 when recent collections from the Marquesas are fully studied (MUSORSTOM 9). published after 1980, have generated 322 new records. The total number of French Polynesian Decapoda and Stomatopoda is now 758, mainly Brachyura (377 species), Caridea (170 species), and Anomura (126 species). Modifications to the first documented checklist of the French Polynesian lobsters, hermit crabs, and crabs (POUPIN, 1996a) are also included with 28 additional species of the genera Stereomastis and Panulirus for the lobsters, Calcinus, Dardanus, Catapagurus, Nematopagurus, Pylopaguropsis, Oncopagurus, Munida, and Albunea for the hermit crabs, Calappa, Mursia, Alainodaeus, Hexagonalia, Tetralia, Trapezia, Lithoscapus, Sphenomaia, and Utinomiella, for the crabs. New records include 23 species of the genera Aristaeomorpha, Funchalia, Metapenaeopsis, Pelagopenaeus, Sicyonia, Nematocarcinus, Janicella, Stylodactylus, Anchistus, Harpiliopsis, Jocaste, Paranchistus, Periclimenes, Philarius, Vir, and Thor, for the shrimps, and Alima, Busquilla, and Gonodactylus, for the Stomatopoda. When available a brief indication is also given on the biotop.
#ICOLLECTIONS 4.8.1 FULL#
Full literature and distribution in French Polynesia are indicated for each species. Within the shrimps, Caridea dominate with 170 species, mainly Alpheidae (57 species), Palaemonidae (46 species), and Pandalidae (29 species).
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Number of species is 205 for the shrimps and 26 for the Stomatopoda. French Polynesian Decapoda, restricted to shrimps, and Stomatopoda are inventoried from literature and unpublished fields collections.