Matich Philip, Kiszka Jeremy J, Heithaus Michael R, Le Bourg Baptiste, Mourier Johann
Marine Sciences Program, Florida International University, 3000 NE 151st, North Miami, FL, 33181, USA.
Texas Research Institute for Environmental Studies, Sam Houston State University, 2424 Sam Houston Avenue, Huntsville, TX, 77341, USA.
Oecologia. 2019 Mar;189(3):621-636. doi: 10.1007/s00442-019-04357-5. Epub 2019 Feb 22.
Ontogenetic niche shifts are widespread. However, individual differences in size at birth, morphology, sex, and personalities can cause variability in behavior. As such, inherent inter-individual differences within populations may lead to context-dependent changes in behavior with animal body size, which is of concern for understanding population dynamics and optimizing ecological monitoring. Using stable carbon and nitrogen isotope values from concurrently sampled tissues, we quantified the direction and magnitude of intraspecific variation in trophic shifts among three shark species, and how these changed with body size: spurdogs (Squalus spp.) in deep-sea habitats off La Réunion, bull sharks (Carcharhinus leucas) in estuarine habitats of the Florida Everglades, and blacktip reef sharks (Carcharhinus melanopterus) in coral reef ecosystems of Moorea, French Polynesia. Intraspecific variation in trophic shifts was limited among spurdogs, and decreased with body size, while bull sharks exhibited greater individual differences in trophic shifts, but also decreased in variability through ontogeny. In contrast, blacktip reef sharks exhibited increased intraspecific variation in trophic interactions with body size. Variability in trophic interactions and ontogenetic shifts are known to be associated with changes in energetic requirements, but can vary with ecological context. Our results suggest that environmental stability may affect variability within populations, and ecosystems with greater spatial and/or temporal variability in environmental conditions, and those with more diverse food webs may facilitate greater individual differences in trophic interactions, and thus ontogenetic trophic shifts. In light of concerns over environmental disturbance, elucidating the contexts that promote or dampen phenotypic variability is invaluable for predicting population- and community-level responses to environmental changes.
个体发育过程中的生态位转移很普遍。然而,出生时的体型、形态、性别和个性方面的个体差异会导致行为的变异性。因此,种群内部固有的个体间差异可能导致动物行为随体型产生依赖于环境的变化,这对于理解种群动态和优化生态监测而言至关重要。我们利用同时采集的组织样本中的稳定碳和氮同位素值,量化了三种鲨鱼物种在营养级转移方面种内变异的方向和幅度,以及这些变异如何随体型变化:留尼汪岛深海栖息地的尖吻角鲨(Squalus spp.)、佛罗里达大沼泽地河口栖息地的公牛鲨(Carcharhinus leucas)以及法属波利尼西亚莫雷阿岛珊瑚礁生态系统中的黑鳍礁鲨(Carcharhinus melanopterus)。尖吻角鲨在营养级转移方面的种内变异有限,且随体型减小,而公牛鲨在营养级转移方面表现出更大的个体差异,但在个体发育过程中变异性也降低了。相比之下,黑鳍礁鲨在营养级相互作用方面的种内变异随体型增加。已知营养级相互作用和个体发育转移的变异性与能量需求的变化有关,但会因生态环境而异。我们的结果表明,环境稳定性可能会影响种群内部的变异性,而环境条件在空间和/或时间上变异性更大的生态系统,以及食物网更多样化的生态系统,可能会促进营养级相互作用中更大的个体差异,从而导致个体发育过程中的营养级转移。鉴于对环境干扰的担忧,阐明促进或抑制表型变异性的环境对于预测种群和群落水平对环境变化的响应非常重要。
