growth heterogeneity in predatory fish larvae
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Growth heterogeneity in predatory fish larvae
Biotic and abiotic influences
Larvi’ 01Gent, 3-6 September 2001
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Contributors
P. Kestemont, M. Houbart & A. Cuvier-Péres,University of Namur, Belgium
E. Baras & C. Mélard, University of Liège, Belgium
S. Jourdan & P. Fontaine, University of Nancy, France
M. Paspatis & M. Kentouri, Institute of Marine Biologyof Crete, Greece
Project funded by EC (FAIR 96-1572)
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Occurrence of size variation• Multimodal size distributions are present in both populations and cohorts of animals and terrestrial plants
• Size heterogeneity and growth depensation are very common features in fish, particularly in recently domesticated species
Species name Larvalweight (mg)
Initial CVweight(%)
Salmo salar 69.5 7.5Oncorhynchus mykiss 55.7 7.5Acipenser baeri 18.3 8.1Dicentrarchus labrax 0.5 20Perca fluviatilis 0.8 15-20Perca flavescens 0.5 8-10Clarias gariepinus 1.6 9.2Heterobranchus longifilis 2 12.3Cyprinus carpio 1.2 10Carassius auratus 1.1 9Brycon moorei 1.5 11Oreochromis niloticus 10.7 11
Body weight variation of larvae at hatching
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Consequences of size variation in larviculture
• Reduced efficiency of the feeding schedule
• Increased agonistic behaviour and competition for food
• Ultimately, emergence of cannibalism or significant increase of its impact on population dynamics in predatory species
Type I cannibalism
seabass
Type II cannibalism
perch
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Factors involved in size variation
Interaction of 4 primary factors
1. initial size distribution2. distribution of growth rates resulting from differences among individuals3. size and time dependence of each individual’s growth rate (interaction of the life history pattern with the environment)
4. mortality affecting size classes differently
• different combinations of the primary factors might produce similar final size distributions• a variety of biotic and abiotic mechanisms may affect each ofthese factors in a manner that produces the same result
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Interaction of initial size distribution and growth-rate distributionModified from Huston & DeAngelis, Am. Nat., 1987
Assuming that : - a simple growth model (Wt = Wo ert) is applicable- mortality rate = 0 (regardless of size class)
SIZE CLASS
GROWTH RATE CLASSNU
MB
ER P
ER
CLA
SS
(1) (2) (3)
NU
MB
ER P
ER C
LASS
SIZE CLASS
(a)
(b)
(c)
t = 2t = 4
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Biological mechanisms producing size variation among larvae
All mechanisms can be classified as :• Inherent : mechanisms with a strong genetic component,expressed to some degree under any environmental conditions
• Imposed : mechanisms that require certain biotic or abiotic conditions to be manifested
• Noninteractive : mechanisms that may not require interactions between individuals to be expressed
• Interactive : mechanisms that may require interactions between individuals to be expressed
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Biological mechanisms producing size variationamong larvae (2)
Adapted from Huston & DeAngelis, Am. Nat., 1987
Noninteractive InteractiveInherent
Imposed Temporal heterogeneityHatchingTemperaturePhotoperiod & light intensity
Spatial heterogeneityAbiotic resourcesFood availability/sizeTemperature
Change in morpho-physiology
MortalityCannibalismDensity-dependent
CompetitionPhotoperiod & light intensityTurbidity Food availabilityStocking density
Genetic variationChange in morpho-physiology
MortalityDensity-independent
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Selection of experimental variablesEurasian perch & European seabass as comparative models
Hatching time
Initial heterogeneity
Stocking density
Population
Temperature
Photoperiod
Light intensity
Abiotic environment
Feeding level
Food composition (live/dry food ratio)
Feeding
Size variation
survival - cannibalism growth
Feed intake Digestion process
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General methodologyFacilities and fish• Sibling fish reared in recirculating system, under optimal physico-chemical conditions for both species
• 2 stages of development : larvae and post-larvae (weaning stage)
Feeding• Artemia nauplii from day 3 to day 21 in perchlarvae
• Brachionus plicatilis then Artemia nauplii inseabass larvae
• Weaning phase in both species by progressive replacement of Artemia nauplii by dry food
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Population variables
Hatching timeMaterial & Methods
• Rearing of larvae hatched from the same egg batches in pure (same age larvae) or mixed (different ages) populations
• Labelling of larvae hatched on day 3 (perch) or on day 1 (seabass) by immersion in alizarine red solution
• Identification of labelled larvae inthe final sampling by observation oflabelled otoliths in epifluorescence microscopy
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Population variables
Hatching time in perchResults
0%10%20%30%40%50%
D1+2
60%
D3 D1+2+3
a b b
Survival
0
20
40
60
80
D1+2
mg
D3 D1+2+3
a b b
Final weight
0%10%20%30%40%50%
D1+2
60%
D3 D1+2+3
CVweight
a b
initialfinal
0%5%
10%15%20%25%
initial finalD1+2
a bProportion of larvae hatchedon D1+2 in D1+2+3 mixedpopulation
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Population variables
Hatching time in seabassResults
0%10%20%30%40%50%
D1
60%
D2 D3
a a a
Survival
ba
D1+2 D1+30%
10%20%30%40%50%
D1
60%
D2 D3
CVweight
a
D1+2 D1+3
a a ab
initialfinal
020406080
100
D1 D1 D1 D1
D2 D2 D3 D3*
initial initial finalfinal
D1+D2 population
D1+D3 population
%
Proportion of larvae hatched on day 1 within the initial and final mixed populations
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Population variables
Initial size heterogeneityMaterial & Methods
Perch : larvae of 9mg and post-larvae of 85mg
Seabass : post-larvae of 33mg
- Standard heterogeneity : larvae of same age reared under standard conditions
- High heterogeneity : larvae reared at 2 different densities to create size differences
- Controlled heterogeneity : same as standard, but weekly size-sorting of fish by removing potential cannibals and replacing them by medium size
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Population variables
Initial size heterogeneity in perchResults
• No significant effect of size-sorting on survival, cannibalism and growth in perch larvae
• A significant increase of mortality due to cannibalism at high initial heterogeneity in perch post-larvae
2030405060
CVw
eigh
t(%
)
0 3 6 9 12 15 18 21days
70
Larvae0
10
standardhighcontrolled
2030405060
CVw
eigh
t(%
)
0 3 6 9 12 15 18 21days
70
Post-larvae0
10
• A fluctuating evolution of size heterogeneity due to a combination of differential growth and differential mortality
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Population variables
Stocking densityMaterial & Methods
Perch
- Low density : 10 fish L-1
- Medium density : 32 fish L-1
- High density : 100 fish L-1
• Post-larvae (178 mg) - Low density : 1 fish L-1
- Medium density : 3.2 fish L-1
- High density : 10 fish L-1
• Larvae (0.9 mg)
Seabass
• Post-larvae (26 mg) • Larvae (0.45 mg)
50 - 100 - 150 - 200 fish L-1 5 - 10 - 15 - 20 fish L-1
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Stocking density in perchResults (1)
Population variables
0
5
10
15
20%
10 32 100 fish L-1
Survival
a bab
0
20
40
60%
10 32
Cannibalism
a abb
100 fish L-1
Larvae
0
25
50
75
100%
1 3.2 10 fish L-1
Survival
a ba
0
10
15
20%
1 3.2
Cannibalism
a
b
a5
10 fish L-1
Post-larvae
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Population variables
Stocking densityin perchResults (2)
Larvae0
10
20
30
0 5 10 15 20 25
5
15
25Final weight distribution
%
Weight (mg)
10 fish L-1
32 fish L-1
100 fish L-1
25
20
15
10
5
0
35
30
0 500 1000 1500 2000 2500
Initial and final weightdistribution
Weight (mg)
%
Initial
Final
1 fish L-1
3.2 fish L-1
10 fish L-1Post-larvae
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Population variables
Stocking density in seabassResults
• No significant effect of stocking density in larvae but a significant increase of mortality and cannibalism at high stocking density in seabass post-larvae
0
20
6040
Survival (%)
0
2
5 10 15
Cannibalism (%)
4
6
8
80
a b c c
a b c c
20 fish L-1
25
20
15
10
5
0
35
30
0 50 100 150 200
u
Final weight distributionN fish
Weight (mg)
5 fish L-1
10 fish L-1
15 fish L-1
20 fish L-1
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Environmental variables
Temperature in perchStocking of newly-hatched larvae in 10-m2 tanks during 45 days at 3 temperatures : 17°C - 20°C - 23°C
0
10
20
30
40%
17°C 20°C 23°C
Survival
a b c
0
200
400
600
800mg
17°C 20°C 23°C
Body weight
a a b
0
2
N m-2
17°C 20°C 23°C
Cannibals
4
6
8
a b b
0
1000
2000
3000
4000mg
17°C 20°C 23°C
Body weightcannibals
b ba
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Environmental variables
Temperature in perch (2)
10080604020
0
Cannibals N = 7
Frequency (%)
10080604020
0
Cannibals N = 63
10080604020
0100 31001100 41002100
Cannibals N = 76
Body weight (mg)5100 5900
17°C
20°C
23°C
Cannibals N=7
Cannibals N=63
Cannibals N=76
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PhotoperiodEnvironmental variables
0
20
40
60% Survival
0
10
20
30% Cannibalism
0
20
% Final CV weight
12:12 16:8 24:0
40
abab ba
cab bca
6080
Light:dark 8:16 12:12 16:8 24:0
Light:dark 8:16
Perch larvae Seabass larvae
%
0
20
40
60% Survival
0
20
8:16 12:12 16:8
Final CV weight
40aa ba
6080
No cannibalism
8:16 12:12 16:8 24:0 Light:dark
24:0 Light:dark
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Feeding variables
Feeding level in perch larvae
0
20
40
60
% Survival
0
5
10
15%
Cannibalism
bb ba
80
1 5 10 20% biomass
ba ba0
20
% Final CV weight
40
abab ba
60
1 5 10 20% biomass
0
20
40
10
mg Final weight
ba ba
50
30
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ConclusionsA tentative summary of size variation causes
• Hatching time• Initial size variation• Stocking density
• Temperature• Photoperiod• Light intensity
• Feeding level• Food composition
Population
Environment
Feeding
Perch SeabassLarvae Post
larvaeLarvae Post
larvae
+--
--
+--
+-
++
---
?++?
?--
+ +-
? ?+
++++
? +
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Conclusions (cont.)
• many factors are susceptible to induce or enhance growth depensation and multimodality in cultured larval population
• imposed, interactive variables (initial size variation, density)appear to affect predominantly survival and growth rather thanfinal size variation
• imposed, non interactive variables (temperature, photoperiod, food availability) appear to affect predominantly final size variation, either directly or indirectly via interactive mechanisms such as cannibalism and size-dependent mortality
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