Add to ORKGAggregations of the sessile, serpulid tubeworm Hydroides elegans are commonly encountered on hard surfaces in Pearl Harbor, Hawai\u27i, and a bio-organic film has been found to be one requisite for larval settlement in this species. To determine if additional pre-or post-settlement factors influence larval distribution, we recorded settlement frequency, location, and survival on biofilmed settlement plates, either unoccupied as controls, or occupied by live juvenile or adult worms, tubes of dead adult worms, or plastic mimics of adult worm tubes. Early post-settlement mortality was extremely low in all trials (\u3c1.0 %), and thus not responsible for structuring populations of H. elegans. The hypothesis that larvae settle preferentially on ...
© 2019 Society for Applied Microbiology and John Wiley & Sons Ltd. Settlement of many benthic marine...
Settlement of many benthic marine invertebrates is stimulated by bacterial biofilms, although it is ...
Also published as: Marine Ecology Progress Series 5 (1981): 69-74Larval development of the serpulid ...
Aggregations of the sessile, serpulid tubeworm Hydroides elegans are commonly encountered on hard su...
Planktonic larvae of many invertebrates settle preferentially on surfaces covered by bacterial biofi...
The broadly distributed serpulid worm Hydroides elegans has become a model organism for studies of m...
The development, settlement behaviour and settlement preferences of various marine tubeworm larvae ...
The effect of season on “biofilming”;, as a cue for the settlement of marine invertebrate larvae, wa...
<div><p>The life cycle of many sessile marine invertebrates includes a dispersive planktonic larval ...
Static settlement assays are considered the standard tool for determining the settlement preferences...
Many species of tube-building polychaetes form dense aggregations or ‘patches’ within marine soft-bo...
Serpulids are a globally represented group of polychaetes and can be found in many habitats from the...
Larval settlement in the polychaete Hydroides elagans is mediated by marine biofilms, complex agglom...
Although the polychaete Hydroides elegans and bryozoan Bugula neritina are dominant members of the f...
Although the polychaete Hydroides elegans and bryozoan Bugula neritina are dominant members of the f...
© 2019 Society for Applied Microbiology and John Wiley & Sons Ltd. Settlement of many benthic marine...
Settlement of many benthic marine invertebrates is stimulated by bacterial biofilms, although it is ...
Also published as: Marine Ecology Progress Series 5 (1981): 69-74Larval development of the serpulid ...
Aggregations of the sessile, serpulid tubeworm Hydroides elegans are commonly encountered on hard su...
Planktonic larvae of many invertebrates settle preferentially on surfaces covered by bacterial biofi...
The broadly distributed serpulid worm Hydroides elegans has become a model organism for studies of m...
The development, settlement behaviour and settlement preferences of various marine tubeworm larvae ...
The effect of season on “biofilming”;, as a cue for the settlement of marine invertebrate larvae, wa...
<div><p>The life cycle of many sessile marine invertebrates includes a dispersive planktonic larval ...
Static settlement assays are considered the standard tool for determining the settlement preferences...
Many species of tube-building polychaetes form dense aggregations or ‘patches’ within marine soft-bo...
Serpulids are a globally represented group of polychaetes and can be found in many habitats from the...
Larval settlement in the polychaete Hydroides elagans is mediated by marine biofilms, complex agglom...
Although the polychaete Hydroides elegans and bryozoan Bugula neritina are dominant members of the f...
Although the polychaete Hydroides elegans and bryozoan Bugula neritina are dominant members of the f...
© 2019 Society for Applied Microbiology and John Wiley & Sons Ltd. Settlement of many benthic marine...
Settlement of many benthic marine invertebrates is stimulated by bacterial biofilms, although it is ...
Also published as: Marine Ecology Progress Series 5 (1981): 69-74Larval development of the serpulid ...