School of Marine and Tropical Biology, James Cook University Townsville, Queensland, Australia ; ARC Centre of Excellence for Coral Reef studies, James Cook University Townsville, Queensland, Australia.
Ecol Evol. 2013 Oct;3(12):4109-18. doi: 10.1002/ece3.778. Epub 2013 Sep 20.
Foraging theory predicts that individuals should choose a prey that maximizes energy rewards relative to the energy expended to access, capture, and consume the prey. However, the relative roles of differences in the nutritive value of foods and costs associated with differences in prey accessibility are not always clear. Coral-feeding fishes are known to be highly selective feeders on particular coral genera or species and even different parts of individual coral colonies. The absence of strong correlations between the nutritional value of corals and prey preferences suggests other factors such as polyp accessibility may be important. Here, we investigated within-colony feeding selectivity by the corallivorous filefish, Oxymonacanthus longirostris, and if prey accessibility determines foraging patterns. After confirming that this fish primarily feeds on coral polyps, we examined whether fish show a preference for different parts of a common branching coral, Acropora nobilis, both in the field and in the laboratory experiments with simulated corals. We then experimentally tested whether nonuniform patterns of feeding on preferred coral species reflect structural differences between polyps. We found that O. longirostris exhibits nonuniform patterns of foraging in the field, selectively feeding midway along branches. On simulated corals, fish replicated this pattern when food accessibility was equal along the branch. However, when food access varied, fish consistently modified their foraging behavior, preferring to feed where food was most accessible. When foraging patterns were compared with coral morphology, fish preferred larger polyps and less skeletal protection. Our results highlight that patterns of interspecific and intraspecific selectivity can reflect coral morphology, with fish preferring corals or parts of coral colonies with structural characteristics that increase prey accessibility.
觅食理论预测,个体应该选择能够最大限度地提高能量回报的猎物,相对于获取、捕获和消耗猎物所消耗的能量。然而,食物营养价值的差异和猎物可及性差异相关成本的相对作用并不总是很清楚。众所周知,珊瑚食鱼对特定的珊瑚属或种,甚至对单个珊瑚丛的不同部分,都是高度选择性的觅食者。珊瑚的营养价值和猎物偏好之间缺乏强烈的相关性表明,其他因素,如珊瑚虫的可及性,可能很重要。在这里,我们调查了珊瑚食性的纹鳍连鳍䲗(Oxymonacanthus longirostris)在单个珊瑚丛内的觅食选择性,以及猎物的可及性是否决定了觅食模式。在确认这种鱼主要以珊瑚虫为食后,我们研究了这种鱼是否对常见分枝珊瑚(Acropora nobilis)的不同部位表现出偏好,无论是在野外还是在实验室模拟珊瑚实验中。然后,我们实验测试了对首选珊瑚物种的非均匀觅食模式是否反映了珊瑚虫之间的结构差异。我们发现,纹鳍连鳍䲗在野外表现出非均匀的觅食模式,选择性地在分枝的中途觅食。在模拟珊瑚上,当食物在分枝上的可及性相等时,鱼会复制这种模式。然而,当食物可及性变化时,鱼会不断改变它们的觅食行为,更喜欢在食物最容易获得的地方进食。当觅食模式与珊瑚形态进行比较时,鱼更喜欢大的珊瑚虫和更少的骨骼保护。我们的结果强调,种间和种内选择性模式可以反映珊瑚形态,鱼类更喜欢具有增加猎物可及性的结构特征的珊瑚或珊瑚丛的某些部分。
