著者

本間 義治

出版者

日本ベントス学会

雑誌

日本ベントス研究会連絡誌 (ISSN:1883888X)

巻号頁・発行日

vol.1972, no.5-6, pp.23-34, 1972-12-30 (Released:2009-08-07)

参考文献数

28

被引用文献数

1

著者

内田 紘臣

出版者

日本ベントス学会

雑誌

日本ベントス研究会連絡誌 (ISSN:1883888X)

巻号頁・発行日

vol.1983, no.24, pp.1-23, 1983-03-31 (Released:2010-02-05)

参考文献数

39

被引用文献数

1 7

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Many species of polynoids have been famous for the "conrnensal" habit among Polychaeta. The author can count 274 species of cornmensal (or may be commensal) Polychaeta in 34 different families in literature, and 40% of them in polynoids. They are classified into three ranks. Rank A is for the Polychaetes almost always foufhd in commensal condition with hosts. Rank B is for the species not only frequently found in commensal but also in free living condition. Rank C is for the species almost free living, bur sometimes in commensal. The polychactes of strong tendency toward commensal life (A+B=t) are 154 species, and the species of the family Poiynoidae are half of them (72 species).Many groups of marine organisms are well known as involving of many commensal or parasitic species. But almost all the groups are classified as the differentiated or modified situation rather than the primitive one in each higher taxa. Polynoidae is said to one of the most primitive families in Polychaeta, and it is the largest family in Polychaeta. This is he most peculiar point of Polynoidae comparing with other commensal groups. But commensal condition of Polynoe dae is rather similar to that of the shrimps of the family Alpheidae.The setal modifications for comtneusal life in polynoids may be three characters. 1) Basal cusp in neurosetae, 2) Hook-shaped neurosetae to anterior parapodia, 3) short, stout neurosetae with reduced teeth on their free margin. Many genera known to contain commensal species, are applicable to some of three characters mentioned above, but some genera dissatisfy any of those. In opposition, two genera, weberia Horst 1915 and Paraholoepidella Pettibone 1965 never rerorded commensalism, satisfy the third character, therefore, these two genera my be commensas. Adaptive color patterns are also conspicuous in many species. Ventral lamellae aid unusual development of ventral cirri are also characteristic in some commensal species.Poiynoid comensals can be divided into two types, lodging type and clinging type. The former is for the species living in tubes or burrows of polychaetes, holothurians and other marine organisms. The latter is for the species clinging on the body surface of echinoderms, alcyonarians, etc. Polynoids of the subfamily Lepidonotinae prefer to lodging type, and that of the subfamily harmat;loinae to clinging type. Therefore, the range of host types are different between two subfamilies. The species in Lepidonotinae frequently prefer to sedentary polychaetes as theirr hosts, the other hand the species in Harmothoinae usually prefer to echinoderms and anthozoans.It seers reasonable that morphological and color adaptive changes for commensal life are necessary for the clingings rather than the lodgings. Therefore, Hamothoinae has more adaptive modifications in setal morphology or ventral structures than Lepidonotinae.Furthermore, the former has more genera consisted of only commensal species than the latter.

著者

山川 紘

出版者

日本ベントス学会

雑誌

日本ベントス研究会連絡誌 (ISSN:1883888X)

巻号頁・発行日

vol.1978, no.15-16, pp.41-46, 1978-04-30 (Released:2009-08-07)

参考文献数

7

著者

西田 睦

出版者

日本ベントス学会

雑誌

日本ベントス研究会連絡誌 (ISSN:1883888X)

巻号頁・発行日

vol.1980, no.19-20, pp.48-50, 1980-05-31 (Released:2009-08-07)

著者

佐々木 俊一

出版者

JAPANESE ASSOCIATION OF BENTHOLOGY

雑誌

日本ベントス研究会連絡誌 (ISSN:1883888X)

巻号頁・発行日

no.23, pp.27-35, 1982

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Egg-spawning and browsing behavour of an archiannelid, Saccocirrus uchidai, were studied at a mediolittoral habitat in Oshoro, Hokkaido, north Japan. During the breeding season, May to July, in 1980 and 1981, it was occasionally observed that a number of worms came out from the interstices among coarse Shelly sands, then they spawned eggs or fed over the sediment. Timing, position and abundance for the occurrence of these behavioral phenomena displayed over the sediment were studied together with their under-sediment movement (aggregation and migration). Besides the above, the motions of egg-spawning worms were closely observed in the laboratory condition.