Interactions of Small-scale Physical Mixing Processes with the Structural Morphology and Bloom Dynamics of Non-spheroid Diatoms

Abstract

Our long term goal is to understand the ecology of the large, colonial diatoms which frequently dominate the phytoplankton of coastal shelves, upwelling areas, fjords and banks. We are interested in ways in which species-specific properties, including colony size and shape interact with small scale physical mixing processes to regulate the spatio-temporal distribution of diatoms. We wish to understand these processes in sufficient detail to be able to predict bloom dynamics, size structure and the impact of species-specific characteristics of the phytoplankton on ocean optics. Our current research addresses the role of shear in regulating diatom blooms. Our goal is to increase understanding of how small-scale physical mixing processes affect the distribution of individual diatom taxa in space and time, as well as potential effects on growth, mortality and the size spectrum of colonies in the ocean. First order questions include (1) What is the pattern of distribution of diatoms in the field in space and time? (2) Do highly stratified regions of the water column provide sufficient refuge from disruption to lead to the formation of phytoplankton layers? (3) What is the relative susceptibility of different diatoms to shear stress? (4) Does a colony's past history affect its susceptibility to breakage? (5) Can diatom mortality be predicted based on larger scale physical forcing factors such as wind speed?

Document Details

Document Type

Technical Report

Publication Date

Sep 30, 1998

Accession Number

ADA569395

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