Meyer Xavier, MacIntosh Andrew J J, Chiaradia Andre, Kato Akiko, Ramírez Francisco, Sueur Cédric, Ropert-Coudert Yan
CNRS IPHC UMR7178 Université de Strasbourg Strasbourg France.
Kyoto University Primate Research Institute Inuyama Japan.
Ecol Evol. 2020 May 24;10(13):6610-6622. doi: 10.1002/ece3.6393. eCollection 2020 Jul.
Changes in marine ecosystems are easier to detect in upper-level predators, like seabirds, which integrate trophic interactions throughout the food web.Here, we examined whether diving parameters and complexity in the temporal organization of diving behavior of little penguins () are influenced by sea surface temperature (SST), water stratification, and wind speed-three oceanographic features influencing prey abundance and distribution in the water column.Using fractal time series analysis, we found that foraging complexity, expressed as the degree of long-range correlations or memory in the dive series, was associated with SST and water stratification throughout the breeding season, but not with wind speed. Little penguins foraging in warmer/more-stratified waters exhibited greater determinism (memory) in foraging sequences, likely as a response to prey aggregations near the thermocline. They also showed higher foraging efficiency, performed more dives and dove to shallower depths than those foraging in colder/less-stratified waters.Reductions in the long-term memory of dive sequences, or in other words increases in behavioral stochasticity, may suggest different strategies concerning the exploration-exploitation trade-off under contrasting environmental conditions.
海洋生态系统的变化在上层捕食者中更容易被察觉,比如海鸟,它们整合了整个食物网中的营养级相互作用。在此,我们研究了小企鹅( )的潜水参数和潜水行为时间组织的复杂性是否受海面温度(SST)、水体分层和风速这三个影响水柱中猎物丰度和分布的海洋学特征的影响。通过分形时间序列分析,我们发现,以潜水序列中的长程相关性或记忆程度表示的觅食复杂性在整个繁殖季节都与SST和水体分层有关,但与风速无关。在较温暖/分层更明显的水域觅食的小企鹅在觅食序列中表现出更大的确定性(记忆),这可能是对温跃层附近猎物聚集的一种反应。它们还表现出更高的觅食效率,与在较冷/分层较少的水域觅食的小企鹅相比,进行了更多次潜水且潜水深度更浅。潜水序列长期记忆的减少,或者换句话说行为随机性的增加,可能表明在不同环境条件下关于探索 - 利用权衡的不同策略。
