Life History Patterns of Calanus finmarchicus and Pseudocalanus spp.
in the Gulf of Maine: Effects of temperature and water column structure.
INVESTIGATORS:
C. Meise
NOAA/NMFS
28 Tarzwell Dr.
Narragansett, RI 02882
(401)782-3278
cmeise@whsun1.wh.whoi.edu
W. Morse
Howard Marine Lab
NOAA/NMFS
Highlands, NJ.
wmorse@wahoo.sh.nmfs.gov
J. Green
NOAA/NMFS
28 Tarzwell Dr.
Narragansett, RI 02882
(401)782-3240
jgreen@fish1.gso.uri.edu
E. Durbin
University of Rhode Island
Graduate School of Oceanography
Narragansett, RI
(401)792-6807
edurbin@gsosun1.gso.uri.edu
GRANT PERIOD: July 1993-October 1995
OBJECTIVES:
There are currently 10 years of archived small mesh (53 and 164 um )
zooplankton samples collected by NMFS during 1977-1987 under the Marine
Monitoring and Prediction (MARMAP) program. These samples in conjunction
with the already sorted larger mesh (333 um) samples provide an
opportunity to:
- establish a time series and reference points for the life history
stages of Calanus finmarchicus and Pseudocalanus spp.
- examine the results of (1) in the context of concurrent hydrographic
conditions;
- explore the interacting effects of hydrographic conditions, small
mesh plankton abundance/production and larval fish abundance/production.
STATEMENT OF WORK:
In January 1995 sorting of a subset (300) of small mesh samples from two
years (1979-1980) of MARMAP was completed. These samples provide almost
monthly coverage of the younger life history (naupliar and copepodite
1-2) stages of Calanus finmarchicus and Pseudocalanus spp. on Georges
Bank and in the Gulf of Maine. The zooplankton were collected with
concurrent hydrographic and larval fish samples. These data will be
analyzed together to establish any potential relationships between
hydrography, larval fish and small mesh zooplankton. In addition these
results are being related to the existing 10 year large mesh plankton
dataset broadening their scope.
SUMMARY OF FINDINGS:
We have demonstrated the importance of the Gulf of Maine population of
Calanus finmarchicus to the region both in terms of its overall higher
abundance and its low variability. We have called into question certain
geographic and temporal paradigms for this species and Pseudocalanus on
Georges Bank. Particularly we have questioned the long held assumptions
that C. finmarchicus and Pseudocalanus are as abundant on the center of
Georges Bank as elsewhere in the region (they are lower) during spring
production and our small mesh data have raised question to the long held
belief that the regions C. finmarchicus population goes to resting stage
in the late summer/fall. Our samples indicate that a small segment of
this population does not. We have also demonstrated an increasingly
negative relationship between C. finmarchicus and water column
temperature as the hydrographic season progresses and life history stage
moves toward adult.
We have also established the importance of major hydrographic currents
and frontal areas on the distribution of these two species. Our small
mesh data are not yet available on the GLOBEC database.
PUBLICATIONS/PRESENTATIONS:
Meise, C. J. and J. E. O'Reilly (accepted, Deep Sea Research). Spatial
and seasonal patterns in abundance and age-composition of Calanus
finmarchicus in the Gulf of Maine and on Georges Bank: 1977-1987.
Meise, C. J., J. E. O'Reilly and J. Kane. Spatial and seasonal patterns
in abundance and age-composition of Calanus finmarchicus and
Pseudocalanus spp. in the Gulf of Maine and on Georges Bank: 1977-1987.
The Oceanography Society Meetings, Newport, RI. April 18-21,1995.