中国沿岸水域养殖贝类及其养殖笼网污损苔虫7新种     

刘会莲  刘锡兴  孙松 《海洋科学集刊》2003,(45):202-222

拟小孔苔虫属Microporella和斑孔苔虫属Fenestrulina均隶于唇口目Cheilostomida有囊亚目Ascophorina皮壳次目 Lepraliomorpha裂孔超科Schizoporelloidea拟小孔苔虫科Microporellidae。这两个属的主要区别在于：拟小孔苔虫属具有鸟头体，而斑孔苔虫属无鸟头体。我们在研究中国沿岸水域养殖贝类及其养殖笼网的污损苔虫时发现，中国一些学者以前所报道的“纤毛拟小孔苔虫”并非 Pallas(1766)所鉴定的种，而是包括不同于纤毛拟小孔苔虫Microporella ciliata Pallas，1766的5个不同的独立种，即本文所描述的拟小孔苔虫属的5个新种：空穴拟小孔苔虫 Microporella vacuatus sp.nov.、小筛网拟小孔苔虫Microporella cribellata sp.nov.、无齿拟小孔苔虫Microporella inermis sp.nov.、异北方拟小孔苔虫 Microporella antiborealis sp.nov.和项链拟小孔苔虫 Microporella monilifera sp.nov.。这5个新种与纤毛拟小孔苔虫的主要区别是:5新种的口刺为2~6根，除无齿拟小孔苔虫的口上卵胞仅具一列边缘孔外，其他4新种卵胞前表面还有分散的穿孔；而纤毛拟小孔苔虫的口刺为6根，口上卵胞细颗粒状，无穿孔。研究中我们还发现前人所定名为“马氏斑孔苔虫”的种并非 Audouin(1826)所描述的种，而是4种不同于马氏斑孔苔虫 Fenestrulina mallusii Audouin，1826的独立种，其中两种不属于污损苔虫的范畴，另外的两种即本文所描述的斑孔苔虫属的两新种，即中华斑孔苔虫Fenestrulina Sinica sp.nov.和东方斑孔苔虫Fenestrulina orientalis sp.nov.。这两个新种与马氏斑孔苔虫的主要区别在于：两新种口刺均为4~6根，受孕个虫有2根裸露的口刺；而马氏斑孔苔虫的口刺为2~3根，受孕个虫无裸露的口刺。  相似文献   

Effects of temporal dynamics and vertical structure of the seagrass Zostera caulescens on distribution and recruitment of the epifaunal encrusting bryozoa Microporella trigonellata     

Naoko Kouchi  Masahiro Nakaoka  & Hiroshi Mukai 《Marine Ecology》2006,27(2):145-153

Seagrass is an ephemeral habitat for epifaunal sessile invertebrates attaching on seagrass leaves, and spatial and temporal dynamics of seagrasses strongly affect the distribution of epifauna. Zostera caulescens Miki, a seagrass species endemic to Japan, provides a complex habitat for epifauna with two types of shoots: vegetative, less than 1 m tall, and flowering, 5–7 m tall. We conducted monthly field observations and a manipulative field experiment to investigate the effects of the seagrass vertical structure and its temporal variation on the distribution and recruitment of the encrusting bryozoan Microporella trigonellata. The density of M. trigonellata on the leaves of flowering shoots, located at the seagrass canopy, varied temporally, reaching maximum in summer and minimum in winter. In contrast, M. trigonellata density on the leaves of vegetative shoots near the sea floor was consistently low throughout the study period. Early recruit bryozoans also showed this temporal and vertical variation in density; thus spatial and temporal variation in recruitment determined the distribution of the whole colonies. The field experiment revealed that the recruitment rate of M. trigonellata was significantly higher at the higher position of the water column (3 m above the sea floor) than at the lower position (0.5 m) in June. However, the recruitment rate was higher at the lower position in October when most of the flowering shoots started falling down. The temporal change in bryozoan habitat selection is considered to be adaptive to maintain their population on the seagrass leaves that show complex temporal dynamics.  相似文献