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东北太平洋深海海参和蛇尾的脂质、固醇及脂肪酸组成:对食物网的影响

Lipid, sterols and fatty acid composition of abyssal holothurians and ophiuroids from the North-East Pacific Ocean: food web implications.

作者信息

Drazen Jeffrey C, Phleger Charles F, Guest Michaela A, Nichols Peter D

机构信息

University of Hawaii, Department of Oceanography, 1000 Pope Road, Honolulu, HI 96822, USA.

出版信息

Comp Biochem Physiol B Biochem Mol Biol. 2008 Sep;151(1):79-87. doi: 10.1016/j.cbpb.2008.05.013. Epub 2008 Jun 4.

DOI:10.1016/j.cbpb.2008.05.013
PMID:18577461
Abstract

The lipid, fatty acid (FA), and sterol composition of two ophiuroids and four holothurians from the abyssal eastern North Pacific were analysed to assess their feeding habits and to ascertain their composition for use in a larger study to examine food web dynamics and trophic ecology. Holothurians were rich in phytosterols and algal derived FA such as docosahexaenoic acid and eicosapentaenoic suggesting tight trophic coupling to phytodetritus. Large proportions of stanols were found, probably a result of enteric bacteria but they may come from sterol metabolism in the holothurians themselves. Oneirophanta mutabilis was distinct with much higher levels of stanols and bacterially derived FA suggesting specific selection of bacteria rich detrital particles or the activity of enteric and integumental bacteria. The ophiuroids sterol and FA compositions differed greatly from the holothurians and reflected consumption of animal material in addition to phytodetritus. Large proportions of energy storage lipids suggested a sporadic food supply. Several unusual fatty acids were found in these abyssal echinoderms. Tetracosahexaenoic acid, 24:6omega3, in ophiuroids and 23:1 in holothurians may be good biomarkers for food web studies. We report the first occurrence of alphaOH 24:1 in holothurians with none detected in ophiuroids. Its function is presently unknown.

摘要

分析了来自北太平洋东部深海的两种蛇尾类动物和四种海参的脂质、脂肪酸(FA)和甾醇组成,以评估它们的摄食习性,并确定其组成,用于一项更大规模的研究,以研究食物网动态和营养生态学。海参富含植物甾醇和藻类衍生的脂肪酸,如二十二碳六烯酸和二十碳五烯酸,这表明它们与植物碎屑存在紧密的营养耦合。发现了大量的甾烷醇,这可能是肠道细菌作用的结果,但也可能来自海参自身的甾醇代谢。多变异手参与众不同,其甾烷醇和细菌衍生脂肪酸的含量要高得多,这表明它对富含细菌的碎屑颗粒有特定的选择,或者肠道和体表细菌有活性。蛇尾类动物的甾醇和脂肪酸组成与海参有很大不同,除了植物碎屑外,还反映出它们对动物物质的消耗。大量的能量储存脂质表明食物供应是零星的。在这些深海棘皮动物中发现了几种不寻常的脂肪酸。蛇尾类动物中的二十四碳六烯酸(24:6ω3)和海参中的23:1可能是食物网研究的良好生物标志物。我们首次报道了海参中出现αOH 24:1,而在蛇尾类动物中未检测到。其功能目前尚不清楚。

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