Copepod vertical distribution within a spatially variable food source: a simple foraging-strategy model
Authored by AW Leising, PJS Franks
Date Published: 2000
DOI: 10.1093/plankt/22.6.999
Sponsors:
United States Office of Naval Research (ONR)
United States National Science Foundation (NSF)
Platforms:
No platforms listed
Model Documentation:
Other Narrative
Mathematical description
Model Code URLs:
Model code not found
Abstract
An individual-based model of copepod behavioral responses to vertically
patchy food was developed. It was hypothesized that a decrease in step
length inversely proportional to the concentration of food
(area-restricted search) would result in aggregation of the copepods
within food patches, and a high value of food eaten/distance traveled.
The performance of the copepods using the step-length reduction behavior
was compared with two control behaviors. Copepods were allowed to forage
through simulated distributions, and other distributions based on a
high-resolution, field-sampled, vertical profile of fluorescence. The
step-length reduction behavior led to higher values of food
eaten/distance traveled, due to a significant portion (>30\% at times)
of the population that did extremely well compared with the others, in
both the theoretical and real field-sampled distributions. The
step-length reduction behavior also led to higher spatial correlation
between the food and the copepods. This strategy should allow some
copepods to bypass local food maxima, where they might not meet their
daily feeding requirements, and reach the area of highest food
concentration within the water column. Copepods foraging within
smoothed,versions of the field profiles received little benefit from the
step-length reduction behavior, emphasizing the importance of sampling
the environment on the appropriate scale.
Tags
behavior
patterns
Phytoplankton
plankton
zooplankton
Patchiness
Calanoid copepods
Acartia-tonsa
Area-restricted search
Predation
risk