Functional morphology of Rocellaria dubia (Bivalvia: Gastrochaenidae) with new interpretations of crypt formation and adventitious tube construction, and a discussion of evolution within the family
Identifieur interne : 004790 ( Main/Exploration ); précédent : 004789; suivant : 004791Functional morphology of Rocellaria dubia (Bivalvia: Gastrochaenidae) with new interpretations of crypt formation and adventitious tube construction, and a discussion of evolution within the family
Auteurs : Brian Morton [Royaume-Uni] ; Melita Peharda [Croatie] ; Mirela Petri [Croatie]Source :
- Biological Journal of the Linnean Society [ 0024-4066 ] ; 2011-12.
Descripteurs français
- Wicri :
- topic : Zoologie.
English descriptors
- KwdEn :
- Adductor, Adriatic, Adventitious, Adventitious tube, Anteriorly, Aragonitic, Biological journal, Bivalve, Bivalve shells, Bivalvia, Borehole, Borehole wall, Boreholes, Borer, British museum, Byssal, Byssal gland, Calcareous, Calcite, Callus, Chemical etching, Ciliary, Ciliary currents, Crypt, Cucurbitula, Cuneiformis, Demibranch, Deshayes, Dubia, Dubia borehole, Dubia individuals, Edulis, Exhalant, External view, Functional morphology, Gape, Gastrochaena, Gastrochaenidae, Gastrochaenids, Glycymeris, Glycymeris violacescens, Greater detail, Hong kong, Iletic, Inhalant, Inner demibranch, Inner mantle folds, Inner shell layer, Inner surface, Internal callus, Internal view, Karsted, Karsted limestone, Labial, Labial palps, Lamella, Lamellibranch, Limestone, Linnaeus, Linnean, Linnean society, Mali ston, Mantle cavity, Mantle lobe, Mollusca, Mumia, Natural history, Nobilis, Ostrea, Ostrea edulis, Outer demibranch, Outer layer, Pallial, Pallial gland, Peharda, Periostracum, Pinna, Pinna nobilis, Posteriorly, Purchon, Retractor, Right side, Rocellaria, Rocellaria dubia, Same borehole, Secrete, Shell, Shell structure, Shell valve, Single borehole, Siphon, Siphonal, Siphonal directions, Siphonal tube, Siphonal tubes, Spengler, Substrata, Transverse section, Valve, Ventral, Venus verrucosa, Verrucosa, Violacescens, Visceral mass, Yonge, Zoology.
- Teeft :
- Adductor, Adriatic, Adventitious, Adventitious tube, Anteriorly, Aragonitic, Biological journal, Bivalve, Bivalve shells, Bivalvia, Borehole, Borehole wall, Boreholes, Borer, British museum, Byssal, Byssal gland, Calcareous, Calcite, Callus, Chemical etching, Ciliary, Ciliary currents, Crypt, Cucurbitula, Cuneiformis, Demibranch, Deshayes, Dubia, Dubia borehole, Dubia individuals, Edulis, Exhalant, External view, Functional morphology, Gape, Gastrochaena, Gastrochaenidae, Gastrochaenids, Glycymeris, Glycymeris violacescens, Greater detail, Hong kong, Iletic, Inhalant, Inner demibranch, Inner mantle folds, Inner shell layer, Inner surface, Internal callus, Internal view, Karsted, Karsted limestone, Labial, Labial palps, Lamella, Lamellibranch, Limestone, Linnaeus, Linnean, Linnean society, Mali ston, Mantle cavity, Mantle lobe, Mollusca, Mumia, Natural history, Nobilis, Ostrea, Ostrea edulis, Outer demibranch, Outer layer, Pallial, Pallial gland, Peharda, Periostracum, Pinna, Pinna nobilis, Posteriorly, Purchon, Retractor, Right side, Rocellaria, Rocellaria dubia, Same borehole, Secrete, Shell, Shell structure, Shell valve, Single borehole, Siphon, Siphonal, Siphonal directions, Siphonal tube, Siphonal tubes, Spengler, Substrata, Transverse section, Valve, Ventral, Venus verrucosa, Verrucosa, Violacescens, Visceral mass, Yonge, Zoology.
Abstract
Rocellaria dubia bores into subtidal rocks of karsted limestone in the Adriatic Sea and elsewhere. It also bores into the shells of various bivalve species. The mechanism of boring has hitherto been debated, but examination of occupied shells suggest that this is achieved by mechanical (the shell) abrasion and chemical etching using secretions produced from glands in the anterior mantle. Fast‐growing bivalves such as Ostrea edulis and Pinna nobilis carry heavy R. dubia burdens, and encapsulate the borer in secreted calluses. Slow‐growing bivalves such as the burrowing Venus verrucosa and Glycymeris violacescens carry low R. dubia burdens, are less able to encapsulate the borers, and probably incur enhanced mortalities as a result. Individuals of R. dubia removed from their limestone boreholes re‐secreted adventitious tubes around their siphons, probably from glands in the posterior mantle. The lifestyle of R. dubia is now better understood, and its ability to bore bivalve shells in particular suggests how the more advanced tropical gastrochaenids Cucurbitula and Eufistulana have evolved from initial (as juveniles) bivalve shell borers into occupants of adventitious crypts and tubes, respectively. It is further argued that the Gastrochaenidae show convergent similarities with the similar crypt‐ and tube‐building representatives of the Clavagelloidea. © 2011 The Linnean Society of London, Biological Journal of the Linnean Society, 2011, 104, 786–804.
Url:
DOI: 10.1111/j.1095-8312.2011.01763.x
Affiliations:
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Le document en format XML
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<term>Adriatic</term>
<term>Adventitious</term>
<term>Adventitious tube</term>
<term>Anteriorly</term>
<term>Aragonitic</term>
<term>Biological journal</term>
<term>Bivalve</term>
<term>Bivalve shells</term>
<term>Bivalvia</term>
<term>Borehole</term>
<term>Borehole wall</term>
<term>Boreholes</term>
<term>Borer</term>
<term>British museum</term>
<term>Byssal</term>
<term>Byssal gland</term>
<term>Calcareous</term>
<term>Calcite</term>
<term>Callus</term>
<term>Chemical etching</term>
<term>Ciliary</term>
<term>Ciliary currents</term>
<term>Crypt</term>
<term>Cucurbitula</term>
<term>Cuneiformis</term>
<term>Demibranch</term>
<term>Deshayes</term>
<term>Dubia</term>
<term>Dubia borehole</term>
<term>Dubia individuals</term>
<term>Edulis</term>
<term>Exhalant</term>
<term>External view</term>
<term>Functional morphology</term>
<term>Gape</term>
<term>Gastrochaena</term>
<term>Gastrochaenidae</term>
<term>Gastrochaenids</term>
<term>Glycymeris</term>
<term>Glycymeris violacescens</term>
<term>Greater detail</term>
<term>Hong kong</term>
<term>Iletic</term>
<term>Inhalant</term>
<term>Inner demibranch</term>
<term>Inner mantle folds</term>
<term>Inner shell layer</term>
<term>Inner surface</term>
<term>Internal callus</term>
<term>Internal view</term>
<term>Karsted</term>
<term>Karsted limestone</term>
<term>Labial</term>
<term>Labial palps</term>
<term>Lamella</term>
<term>Lamellibranch</term>
<term>Limestone</term>
<term>Linnaeus</term>
<term>Linnean</term>
<term>Linnean society</term>
<term>Mali ston</term>
<term>Mantle cavity</term>
<term>Mantle lobe</term>
<term>Mollusca</term>
<term>Mumia</term>
<term>Natural history</term>
<term>Nobilis</term>
<term>Ostrea</term>
<term>Ostrea edulis</term>
<term>Outer demibranch</term>
<term>Outer layer</term>
<term>Pallial</term>
<term>Pallial gland</term>
<term>Peharda</term>
<term>Periostracum</term>
<term>Pinna</term>
<term>Pinna nobilis</term>
<term>Posteriorly</term>
<term>Purchon</term>
<term>Retractor</term>
<term>Right side</term>
<term>Rocellaria</term>
<term>Rocellaria dubia</term>
<term>Same borehole</term>
<term>Secrete</term>
<term>Shell</term>
<term>Shell structure</term>
<term>Shell valve</term>
<term>Single borehole</term>
<term>Siphon</term>
<term>Siphonal</term>
<term>Siphonal directions</term>
<term>Siphonal tube</term>
<term>Siphonal tubes</term>
<term>Spengler</term>
<term>Substrata</term>
<term>Transverse section</term>
<term>Valve</term>
<term>Ventral</term>
<term>Venus verrucosa</term>
<term>Verrucosa</term>
<term>Violacescens</term>
<term>Visceral mass</term>
<term>Yonge</term>
<term>Zoology</term>
</keywords>
<keywords scheme="Teeft" xml:lang="en"><term>Adductor</term>
<term>Adriatic</term>
<term>Adventitious</term>
<term>Adventitious tube</term>
<term>Anteriorly</term>
<term>Aragonitic</term>
<term>Biological journal</term>
<term>Bivalve</term>
<term>Bivalve shells</term>
<term>Bivalvia</term>
<term>Borehole</term>
<term>Borehole wall</term>
<term>Boreholes</term>
<term>Borer</term>
<term>British museum</term>
<term>Byssal</term>
<term>Byssal gland</term>
<term>Calcareous</term>
<term>Calcite</term>
<term>Callus</term>
<term>Chemical etching</term>
<term>Ciliary</term>
<term>Ciliary currents</term>
<term>Crypt</term>
<term>Cucurbitula</term>
<term>Cuneiformis</term>
<term>Demibranch</term>
<term>Deshayes</term>
<term>Dubia</term>
<term>Dubia borehole</term>
<term>Dubia individuals</term>
<term>Edulis</term>
<term>Exhalant</term>
<term>External view</term>
<term>Functional morphology</term>
<term>Gape</term>
<term>Gastrochaena</term>
<term>Gastrochaenidae</term>
<term>Gastrochaenids</term>
<term>Glycymeris</term>
<term>Glycymeris violacescens</term>
<term>Greater detail</term>
<term>Hong kong</term>
<term>Iletic</term>
<term>Inhalant</term>
<term>Inner demibranch</term>
<term>Inner mantle folds</term>
<term>Inner shell layer</term>
<term>Inner surface</term>
<term>Internal callus</term>
<term>Internal view</term>
<term>Karsted</term>
<term>Karsted limestone</term>
<term>Labial</term>
<term>Labial palps</term>
<term>Lamella</term>
<term>Lamellibranch</term>
<term>Limestone</term>
<term>Linnaeus</term>
<term>Linnean</term>
<term>Linnean society</term>
<term>Mali ston</term>
<term>Mantle cavity</term>
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<term>Natural history</term>
<term>Nobilis</term>
<term>Ostrea</term>
<term>Ostrea edulis</term>
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<term>Outer layer</term>
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<term>Pallial gland</term>
<term>Peharda</term>
<term>Periostracum</term>
<term>Pinna</term>
<term>Pinna nobilis</term>
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<term>Purchon</term>
<term>Retractor</term>
<term>Right side</term>
<term>Rocellaria</term>
<term>Rocellaria dubia</term>
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<term>Shell structure</term>
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<term>Single borehole</term>
<term>Siphon</term>
<term>Siphonal</term>
<term>Siphonal directions</term>
<term>Siphonal tube</term>
<term>Siphonal tubes</term>
<term>Spengler</term>
<term>Substrata</term>
<term>Transverse section</term>
<term>Valve</term>
<term>Ventral</term>
<term>Venus verrucosa</term>
<term>Verrucosa</term>
<term>Violacescens</term>
<term>Visceral mass</term>
<term>Yonge</term>
<term>Zoology</term>
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<front><div type="abstract">Rocellaria dubia bores into subtidal rocks of karsted limestone in the Adriatic Sea and elsewhere. It also bores into the shells of various bivalve species. The mechanism of boring has hitherto been debated, but examination of occupied shells suggest that this is achieved by mechanical (the shell) abrasion and chemical etching using secretions produced from glands in the anterior mantle. Fast‐growing bivalves such as Ostrea edulis and Pinna nobilis carry heavy R. dubia burdens, and encapsulate the borer in secreted calluses. Slow‐growing bivalves such as the burrowing Venus verrucosa and Glycymeris violacescens carry low R. dubia burdens, are less able to encapsulate the borers, and probably incur enhanced mortalities as a result. Individuals of R. dubia removed from their limestone boreholes re‐secreted adventitious tubes around their siphons, probably from glands in the posterior mantle. The lifestyle of R. dubia is now better understood, and its ability to bore bivalve shells in particular suggests how the more advanced tropical gastrochaenids Cucurbitula and Eufistulana have evolved from initial (as juveniles) bivalve shell borers into occupants of adventitious crypts and tubes, respectively. It is further argued that the Gastrochaenidae show convergent similarities with the similar crypt‐ and tube‐building representatives of the Clavagelloidea. © 2011 The Linnean Society of London, Biological Journal of the Linnean Society, 2011, 104, 786–804.</div>
</front>
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<affiliations><list><country><li>Croatie</li>
<li>Royaume-Uni</li>
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<tree><country name="Royaume-Uni"><noRegion><name sortKey="Morton, Brian" sort="Morton, Brian" uniqKey="Morton B" first="Brian" last="Morton">Brian Morton</name>
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<name sortKey="Morton, Brian" sort="Morton, Brian" uniqKey="Morton B" first="Brian" last="Morton">Brian Morton</name>
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<country name="Croatie"><noRegion><name sortKey="Peharda, Melita" sort="Peharda, Melita" uniqKey="Peharda M" first="Melita" last="Peharda">Melita Peharda</name>
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<name sortKey="Petri, Mirela" sort="Petri, Mirela" uniqKey="Petri M" first="Mirela" last="Petri">Mirela Petri</name>
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