Erickson Amy A, Paul Valerie J, Van Alstyne Kathryn L, Kwiatkowski Lisa M
Smithsonian Marine Station, 701 Seaway Drive, Fort Pierce, FL 34949, USA.
J Chem Ecol. 2006 Sep;32(9):1883-95. doi: 10.1007/s10886-006-9116-x. Epub 2006 Aug 12.
This study compared algal palatability and chemical defenses from subtropical green algae that may use different types of defense systems that deter feeding by the rock-boring sea urchin Echinometra lucunter. The potential defense systems present include (1) the terpenoid caulerpenyne and its activated products from Caulerpa spp., and (2) dimethylsulfoniopropionate (DMSP)-related defenses in Ulva spp. Secondary metabolites from these chemical groups have been shown to deter feeding by various marine herbivores, including tropical and temperate sea urchins. Live algal multiple-choice feeding assays and assays incorporating algal extracts or isolated metabolites into an artificial diet were conducted. Several green algae, including Ulva lactuca, Caulerpa prolifera, and Cladophora sp., were unpalatable. Nonpolar extracts from U. lactuca deterred feeding, whereas nonpolar extracts from C. prolifera had no effect on feeding. Polar extracts from both species stimulated feeding. Caulerpenyne deterred feeding at approximately 4% dry mass; however, dimethyl sulfide and acrylic acid had no effect at natural and elevated concentrations. E. lucunter is more tolerant than other sea urchins to DMSP-related defenses and less tolerant to caulerpenyne than many reef fish. Understanding the chemical defenses of the algae tested in this study is important because they, and related species, frequently are invasive or form blooms, and can significantly modify marine ecosystems.
本研究比较了亚热带绿藻的适口性和化学防御机制,这些绿藻可能采用不同类型的防御系统来阻止钻孔海胆Echinometra lucunter的摄食。目前存在的潜在防御系统包括:(1)来自蕨藻属的萜类化合物蕨藻素及其活性产物,以及(2)石莼属中与二甲基巯基丙酸内盐(DMSP)相关的防御机制。这些化学类别的次生代谢产物已被证明能阻止包括热带和温带海胆在内的各种海洋食草动物的摄食。进行了活藻多项选择摄食试验,以及将藻类提取物或分离的代谢产物掺入人工饲料中的试验。几种绿藻,包括石莼、增殖蕨藻和刚毛藻,都不可口。石莼的非极性提取物能阻止摄食,而增殖蕨藻的非极性提取物对摄食没有影响。这两个物种的极性提取物都刺激了摄食。蕨藻素在干重约为4%时能阻止摄食;然而,二甲基硫醚和丙烯酸在自然浓度和升高浓度下都没有效果。与其他海胆相比,Echinometra lucunter对与DMSP相关的防御机制更具耐受性,而与许多礁鱼相比,对蕨藻素的耐受性较低。了解本研究中测试的藻类的化学防御机制很重要,因为它们以及相关物种经常具有入侵性或形成水华,并能显著改变海洋生态系统。
