neocalanus spp. and the structure of the pelagic ecosystem in the subarctic pacific ocean
DESCRIPTION
Neocalanus spp. and the Structure of the Pelagic Ecosystem in the Subarctic Pacific Ocean. M. Dagg, Louisiana Universities Marine Consortium H. Liu, Hong Kong University of science and Technology S. Strom, Western Washington University. Surface Mixed layer Thermocline - PowerPoint PPT PresentationTRANSCRIPT
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Neocalanus spp. and the Structure of the Pelagic Ecosystem in the Subarctic Pacific Ocean
M. Dagg, Louisiana Universities Marine ConsortiumH. Liu, Hong Kong University of science and TechnologyS. Strom, Western Washington University
![Page 2: Neocalanus spp. and the Structure of the Pelagic Ecosystem in the Subarctic Pacific Ocean](https://reader030.vdocuments.us/reader030/viewer/2022033102/56815215550346895dc05573/html5/thumbnails/2.jpg)
Surface
Mixed layer
Thermocline
Permanent halocline
N. plumchrus/flemingeri zone
N. cristatus and E. bungii zone
data from Mackas, D.L., H. Sefton, C. B. Miller and A. Raich. 1993. Vertical habitat partitioning by large calanoid copepods in the oceanic subarctic Pacific during spring. Prog. Oceanogr. 32: 259-294.
0 m
35-45 m
100-120 m
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N. plumchrus + N. flemingeri CV
0 50 100 150 200 250 300 350 400 450
0-15 m15-30 m30-50 m
0-15 m15-30 m30-50 m
0-15 m15-30 m30-50 m
0-15 m15-30 m30-50 m
0-15 m15-30 m30-50 m
0-15 m15-30 m30-50 m
0-15 m15-30 m30-50 m
0-15 m15-30 m30-50 m
0-15 m15-30 m30-50 m
0-15 m15-30 m30-50 m
12
34
56
78
91
0number ind/m3
May 1984 - 10 stations: mean abundance = 152 CVs / m3(from Mackas et al. 1993)
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N. plumchrus + N. flemingeri CV
0 100 200 300 400 500 600
0-10
10-25 m
25-50
0-10
10-25 m
25-50
0-10
10-25 m
25-50
0-10
10-25 m
25-50
0-10
10-25 m
25-50
0-10
10-25 m
25-50
1a1b
2a2b
3a3b
# ind/m3
June 1987 – mean abundance = 204 ind / m3(from Mackas et al. 1993)
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(from Levitus World Ocean Atlas 1994)
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5/18/01
copepods bottle-1
0 1 2 3 4 5
App
aren
t gro
wth
rat
e (
d-1)
-0.3
-0.2
-0.1
0.0
0.1
0.2
0.3
0.4
< 5 m5-20 m> 20 m
Chlorophyll concentration: < 5 m = 0.577 g l-1
5-20 m = 0.143 g l-1
> 20 m = 0.051 g l-1
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5/18/01
copepods bottle-1
0 1 2 3 4 5
App
aren
t gro
wth
rat
e (
d-1)
-0.3
-0.2
-0.1
0.0
0.1
0.2
0.3
0.4
< 5 m5-20 m> 20 m
Chlorophyll concentration: Clearance rate: < 5 m = 0.577 g l-1 -0.068 L cop-1 d-1
5-20 m = 0.143 g l-1 0.088 L cop-1 d-1
> 20 m = 0.051 g l-1 0.208 L cop-1 d-1
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5/18/01N. flemingeri and N. plumchrus CV
chlo
r < 5
chlo
r 5-2
0
chlo
r > 2
0ci
liate
s <
20ci
liate
s 20
-30
cilia
tes
> 30
dino
s <
20di
nos
20-3
0
dino
s >
30
Cle
aran
ce r
ate
(L d
-1)
-0.2
0.0
0.2
0.4
0.6
0.8
1.0
1.2
1.4
1.6
1.8
2.0
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are there enough copepods in situ to structure the nano- and pico-food web in the eastern subarctic Pacific?
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For 200 copepods m-3 and 1 L cop-1 d-1 = 200 liters d-1 m-3 (0.2 d-1)
Concentration of N. plumchrus/flemingeri CV = 25 - 500 m-3
Clearance rate on large particles (> 20 m) = 0.2 – 2.0 L cop-1 d-1
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• growth rates of large diatoms in this Fe limited system are 0.2 - 0.5 d-1
• growth rates of large ciliates and dinoflagellates??
• other copepodid stages must contribute also
Other considerations: top down effect by N. flemingeri/plumchrus
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Conclusions
Neocalanus flemingeri and N. plumchrus exert a strong structuring effect on the food web of the N. Pacific Ocean, driving the food web towards a small-cell dominated system by:
removal of large cells (diatoms and microzooplankton)
cascade effect that stimulates small cells
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Conclusions
Neocalanus flemingeri and N. plumchrus exert a strong structuring effect on the food web of the N. Pacific Ocean, driving the food web towards a small-cell dominated system by:
removal of large cells (diatoms and microzooplankton)
cascade effect that stimulates small cells
These effects are strongest:• at low food concentrations when copepod clearance rates are highest, and • under nutrient or food limiting conditions when growth rates of prey are reduced
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The END