johnson thesis presentation draft 08.06.15
TRANSCRIPT
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Will ocean acidification affect the early ontogeny of a tropical oviparous elasmobranch (Hemiscyllium ocellatum)?
By Martijn Johnson
Supervisor: Dr. Jodie Rummer
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Outline
Introduction Aims Methods Results Conclusions
- Problem- Why sharks- Background
research
- Animal welfare- Research design- Stats
- Growth- Yolk usage- Animal
physiology- Survival
- The big picture
- Importance
- Aims- Objectives
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Ocean Acidification
Introduction Aims Methods Results Conclusions
• Current day CO₂ ~400 μatm• pH ~ 8.1
• Predicted CO₂ ~1000 μatm by 2100• pH ~ 7.8
• Change of pH by 0.3-0.4 units by 2100
• Negative effects on marine life
Modified from IPCC 2007
2015: Current day 2100
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Introduction Aims Methods Results Conclusions
What’s known?
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Why study elasmobranchs
Introduction Aims Methods Results Conclusions
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• A quarter of all sharks are threatened by extinction
• Different factors threatening species
• In combination of life history characteristics
• Low fecundity
• Late sexual maturity
• Fewer offspring
• Longer gestation time
Introduction Aims Methods Results Conclusions
Why study elasmobranchs?
• Where to start?
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Introduction Aims Methods Results Conclusions
Epaulette sharks (Hemiscyllium ocellatum)
• Commonly found on reef flats
• Small species• Can withstand low oxygen
for a period of time• Oviparous (egg laying)
• But what about the eggs and embryos?
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Aims
• To determine if the early ontogeny of epaulette sharks have a developmental tolerance or intolerance to elevated PCO₂
Objective
• To determine if growth parameters and following physiological parameters are impacted during embryonic development by high PCO₂ conditions.
Introduction Aims Methods Results Conclusions
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Introduction Aims Methods Results Conclusions
• Removed fibrous layer• Candled for age and dev stage
Research design & treatment
TreatmentPCO2
(μatm)pH
Temperature
(°C)
Control
n=16
422.61
± 4.769
8.14
±0.004
28.49
±0.03
Elevated CO2
n= 20
945.40
±13.668
7.88
±0.003
28.29
±0.040
• Randomly placed in each tank and treatment
• Eggs were candled every 3 days to view embryo and yolk
YolkEmbryo
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Data analysis
Introduction Aims Methods Results Conclusions
Measurements • Growth ( cm2 day-1 )• Yolk Usage ( cm2 day-1 )• Tail undulations (min-1 )• Ventilation Rate (min-1 )
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Introduction Aims Methods Results Conclusions
Growth
0
3
6
9
12
15
18
21
24
10 16 22 28 34 40 46 52 58 64 70 76 82 88
Ave
rage
gro
wth
(cm
²)
Days post fertilization (dpf)
Control CO₂
MLMp = 0.168
• MLM= Mixed linear models
Hatched
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Introduction Aims Methods Results Conclusions
Yolk Usage
0
10
20
30
40
50
60
70
80
90
100
19 22 25 28 31 34 37 40 43 46 49 52 55 58 61 64 67
Ave
rage
Yo
lk u
sed
(%
)
days post fertilization (dpf)
Control CO₂
MLMp = 0.699
Small amount of yolk
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Introduction Aims Methods Results Conclusions
0
10
20
30
40
50
60
70
80
90
100
0
10
20
30
40
50
60
70
80
90
100
10 16 22 28 34 40 46 52 58 64 70 76 82
Ave
rage
ven
tila
tio
n r
ate
(gill
mo
vem
ents
min
ˉ¹)
Ave
rage
Tai
l Mo
vem
ent
(Osc
illat
ion
s m
inˉ¹)
Days post fertilization (dpf)
0
10
20
30
40
50
60
70
80
90
100
0
10
20
30
40
50
60
70
80
90
100
10 16 22 28 34 40 46 52 58 64 70 76 82
Days post fertilization (dpf)
Control Treatment CO₂ Treatment
MLMTail undulations, p = 0.961Ventilation rate, p = 0.094
Movement
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Introduction Aims Methods Results Conclusions
30 day Post hatching survival (n=19)Pre-hatching survival (n=36)
ᵡ²p=0.55
ᵡ²p = 0.08
Survival
0
10
20
30
40
50
60
70
80
90
100
Control CO₂
Surv
ival
(%
)
0
10
20
30
40
50
60
70
80
90
100
Control CO₂(n=16) (n=20) (n=11) (n=8)
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• Growth = NS
• Yolk Usage = NS
• Tail Undulations = NS
• Ventilation rate = NS
• Pre-hatching survival = NS
• Post hatching survival = NS
Introduction Aims Methods Results Conclusions
Summary of Results
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• Growth & yolk consumption rates similar
• No extra time in egg case
• Tail movement used for gas/oxygen exchange in early development
• Gill development (major milestone)
Introduction Aims Methods Results Conclusions
The big picture: Growth & Physiology
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• Mortality always occurred before gill development
• Survival reduced under elevated CO₂ conditions
• Indicating some sort of stressor occurring in embryo• Not seen in our parameters
Introduction Aims Methods Results Conclusions
The big picture: Survival
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Overall Outlook• Adult epaulette sharks can tolerate
changing ocean chemistry• vulnerable stage- first month after fertilization
• Decreased survival- could have implications for future populations
• What about other species of elasmobranchs• vital in understanding the effects OA has on egg
laying species
Introduction Aims Methods Results Conclusions
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People to thank !!
• Dr. Jodie Rummer
• The wonderful Rummer lab group
• Dan Kraver
• Prof. Gillian Renshaw
• Munday lab group
• MARFU
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Thanks for your attention
10 dpf 25 dpf40 dpf
55 dpf
70 dpfHatched 88 dpf