The polychaete Histriobdella homari and major groups of epibionts on the European lobster, Homarus gammarus and other decapods
Abstract The quantitative biology and ecology of epibiotic communities on decapods are only vaguely known. An analytic method revealed close to 100% of metazoan epibionts among the eggs and gills of some decapods in Swedish waters. High abundances of the epibiotic polychaete Histriobdella homari wer...
| Published in: | Crustaceana |
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| Main Author: | |
| Format: | Article in Journal/Newspaper |
| Language: | unknown |
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Brill
2019
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| Online Access: | http://dx.doi.org/10.1163/15685403-00003865 https://brill.com/view/journals/cr/92/2/article-p189_5.xml https://brill.com/downloadpdf/journals/cr/92/2/article-p189_5.xml |
| Summary: | Abstract The quantitative biology and ecology of epibiotic communities on decapods are only vaguely known. An analytic method revealed close to 100% of metazoan epibionts among the eggs and gills of some decapods in Swedish waters. High abundances of the epibiotic polychaete Histriobdella homari were found (100% prevalence) and European lobsters, Homarus gammarus , with a carapace length of 100 mm have, as a mean, approx. 6700 H. homari among their old eggs, underlining the importance of these epibiont polychaetes as cleaners of lobster eggs (and gills). For the first time, a nematode ( Pontonema sp.) was found feeding on H. homari . Gills of American lobsters, Homarus americanus , caught in Swedish waters were infested with the European parasitic copepod Nicothoe astaci (80% prevalence). This study shows that on decapods a number of epibionts (Ciliophora, Nematoda, Hydrachnidia, Copepoda, Ostracoda, Amphipoda and Kinorhyncha) can be quantified, using the method adopted here, which will enable a better understanding of epibiotic communities. |
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