Journal
ECOLOGY
Volume 91, Issue 4, Pages 977-989Publisher
WILEY
DOI: 10.1890/09-1207.1
Keywords
Critical Depth Hypothesis; grazing; growth rates; North Atlantic; phytoplankton blooms; remote sensing
Categories
Funding
- National Aeronautics and Space Administration Ocean Biology and Biogeochemistry [NNX08AK70G, NNG05GD16G, NNG05GR50G]
- NASA [99837, NNX08AK70G] Funding Source: Federal RePORTER
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The Critical Depth Hypothesis formalized by Sverdrup in 1953 posits that vernal phytoplankton blooms occur when surface mixing shoals to a depth shallower than a critical depth horizon defining the point where phytoplankton growth exceeds losses. This hypothesis has since served as a cornerstone in plankton ecology and reflects the very common assumption that blooms are caused by enhanced growth rates in response to improved light, temperature, and stratification conditions, not simply correlated with them. Here, a nine-year satellite record of phytoplankton biomass in the subarctic Atlantic is used to reevaluate seasonal plankton dynamics. Results show that (1) bloom initiation occurs in the winter when mixed layer depths are maximum, not in the spring, (2) coupling. between phytoplankton growth (mu) and losses increases during spring stratification, rather than,decreases, (3) maxima in net population growth rates (r) are as likely to occur in midwinter as in spring, and (4) r is generally inversely related to mu. These results are incompatible with the Critical Depth Hypothesis as a functional framework for understanding bloom dynamics. In its place, a Dilution-Recoupling Hypothesis is described that focuses on the balance between phytoplankton growth and grazing, and the seasonally varying physical processes influencing this balance. This revised view derives from fundamental concepts applied during field dilution experiments, builds upon earlier modeling results, and is compatible with observed phytoplankton blooms in the absence of spring mixed layer shoaling.
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