【 摘 要 】

ABSTRACT: For many sessile subtidal and intertidal organisms, the connection between isolated adult populations occurs through oceanic dispersal of the larval stage. We define the ‘temporal ­kernel’ as  the normalised frequency histogram of oceanic dispersal times between ­otherwise isolated populations, and suggest minimum dispersal times are best defined in terms of a percentile of the temporal kernel. Under certain assumptions, larval dispersal in the ocean can be treated as Gaussian-distributed random-walk motion in the presence of a mean flow. If this is so, the dispersal time is analogous to the ‘first-passage time’ as described by Schrödinger (1915: Phys Z 16:289–295), and the temporal kernels are described by the inverse Gaussian function. Here, solutions for the temporal kernel are derived for such a model. The solutions for the percentiles of the temporal kernel are exact, but solutions for mean and standard deviation values exist only in the limit of large island ­separation. The exact and approximate solutions are compared for random walks ­representative of realistic oceans, and the sensitivity of the temporal kernel to uncertainty in the eddy diffusivity is evaluated.

【 授权许可】

Unknown   

【 预 览 】

附件列表

Files	Size	Format	View
RO201911300084937ZK.pdf	306KB	PDF	download