Institut des Systémes Complexes-Paris Île-de-France, 57-59 rue Lohmond, 75005 Paris, France.
Proc Natl Acad Sci U S A. 2010 Oct 26;107(43):18366-70. doi: 10.1073/pnas.1004620107. Epub 2010 Oct 25.
The biogeochemical role of phytoplanktonic organisms strongly varies from one plankton type to another, and their relative abundance and distribution have fundamental consequences at the global and climatological scales. In situ observations find dominant types often associated to specific physical and chemical water properties. However, the mechanisms and spatiotemporal scales by which marine ecosystems are organized are largely not known. Here we investigate the spatiotemporal organization of phytoplankton communities by combining multisatellite data, notably high-resolution ocean-color maps of dominant types and altimetry-derived Lagrangian diagnostics of the surface transport. We find that the phytoplanktonic landscape is organized in (sub-)mesoscale patches (10-100 km) of dominant types separated by physical fronts induced by horizontal stirring. These physical fronts delimit niches supported by water masses of similar history and whose lifetimes are comparable with the timescale of the bloom onset (few weeks). The resonance between biological activity and physical processes suggest that the spatiotemporal (sub-)mesoscales associated to stirring are determinant in the observation and modeling of marine ecosystems.
浮游植物生物的生物地球化学作用在不同浮游生物类型之间差异很大,它们的相对丰度和分布对全球和气候尺度具有根本的影响。原位观测发现,优势类型通常与特定的物理和化学水特性有关。然而,海洋生态系统组织的机制和时空尺度在很大程度上尚不清楚。在这里,我们通过结合多卫星数据,特别是主要类型的高分辨率海洋颜色图和海面运输的测高衍生拉格朗日诊断,来研究浮游植物群落的时空组织。我们发现,浮游植物景观是由(亚)中尺度斑块(10-100 公里)组成的,这些斑块由水平搅拌引起的物理锋面分隔。这些物理锋面限定了由相似历史的水团支持的小生境,其寿命与浮游植物爆发的时间尺度(数周)相当。生物活性与物理过程之间的共振表明,与搅拌相关的时空(亚)中尺度在海洋生态系统的观测和建模中是决定性的。