Climate regime effects on Pacific herring growth using coupled nutrient-phytoplankton-zooplankton and bioenergetics models
Authored by Kenneth A Rose, Jake Schweigert, Bernard A Megrey, Francisco Werner, Douglas Hay
Date Published: 2008
DOI: 10.1577/t05-152.1
Sponsors:
United States National Oceanic and Atmospheric Administration (NOAA)
Platforms:
No platforms listed
Model Documentation:
Other Narrative
Model Code URLs:
Model code not found
Abstract
We used a nutrient-phytoplankton-zooplankton (NPZ) model coupled to a
fish bioenergetics model to simulate the weight-at-age responses of
Pacific herring Clupea pallasii to climate regimes. The NPZ model
represents the daily dynamics of the lower trophic levels by simulating
the uptake and recycling dynamics of nitrogen and silicon and the
photosynthesis and grazing interactions of multiple functional groups of
phytoplankton and zooplankton. The bioenergetics model simulates the
number and mean weight of Pacific herring for each of 10 age-classes.
Three zooplankton groups simulated in the NPZ model provide estimates of
the prey used to determine the consumption component of the herring
bioenergetics model. We used a spawner-recruit relationship to estimate
the number of new age-1 individuals joining the herring population every
year. The coupled models were applied to the coastal upwelling area off
the west coast of Vancouver Island. Model simulations were performed to
isolate the effects of each of four documented climate regimes on
Pacific herring weights at age. The climate regimes differed in the
environmental variables used in the spawner-recruit relationship as well
as in the water temperature, mixed-layer depth, and nutrient influxing
rate used by the NPZ model. In agreement with general opinion and with
the Pacific herring data from the west coast of Vancouver Island, the
model-predicted estimates of weight at age, recruitment, and spawning
stock biomass were highest in regime 1 (1962-1976), intermediate in
regime 2 (1977-1988), and lowest in regime 3 (1989-1999). Insufficient
time has passed to adequately document the conditions and herring
responses in regime 4 (1998-2002). The overall regime effect on weights
at age was a mix of recruitment effects and lower trophic level effects
that varied in direction and magnitude among the four regimes. Coupling
bioenergetics models to physics and food web models is the next
challenge in understanding and forecasting how climate change will
affect fish growth and population dynamics.
Tags
Individual-based model
Ecosystem
Variability
Fish
West-coast
British-columbia
Bering-sea
Clupea-harengus-pallasi
Vancouver-island
California current