current research in ecotoxicity and ros-effect modelling
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Current research in ecotoxicity and ROS-effect modelling. Bas Kooijman Dept theoretical biology Vrije Universiteit Amsterdam [email protected] http://www.bio.vu.nl/thb /. Aix, 2009/11/25. Free radicals Aging 6.1c. Aging results from damage by Reactive Oxygen Species (ROS) Gerschman 1954 - PowerPoint PPT PresentationTRANSCRIPT
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Bas KooijmanDept theoretical biology
Vrije Universiteit [email protected]
http://www.bio.vu.nl/thb/
Current research in ecotoxicity and ROS-effect modelling
Aix, 2009/11/25
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Free radicals Aging 6.1c
Aging results from damage by Reactive Oxygen Species (ROS) Gerschman 1954 link with DEB model via dioxygen consumption & metabolic activity
Aging is binary in unicellulars, and gradual in multicellulars age-affected cells no longer divideTypical aging only occurs in multicellulars with irreversible cell differentiation that have post-mitotic tissues
Induction of damage inducing compounds dioxygen consumption contribution from assimilation is not included because of more local occurrence in organism
Empirical evidence points to acceleration of agingDamage inducing compounds generate• damage inducing compounds• damage compounds; hazard rate density of damage compounds
Some chemical compounds (e.g. RNS) and -radiation can stimulate aging
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energetics
growth
maintenance
Free radicals and ageing 6.1d
RespirationRespiration
Oxidative damageOxidative damage
free radicals (internally generated)
survival
feeding
tumour induction
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Aging in DEB3 6.1g
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Aging: sex differentiation 6.1i
time, dtime, d
surv
iva
l pro
b
bo
dy
we
igh
t, g
Data on Daphnia magna: MacArthur & Baillie 1929
Differences in aging between sexes are caused by differences in g
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Aging: endotherms & feeding 6.1l
time, dtime, d
time, d
surv
iva
l pro
be
mb
ryo
we
igh
t, g
bo
dy
we
igh
t, g
Data: Weindruch et al 1986 MacDowell et al 1927
feedinglevel
1
0.75
0.44
0.75
0.44
1
Life span • hardly depends on food in ecotherms• decreases for increasing food in endotherms
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Aging in DEB3 6.1.1
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Aging module of DEB theory 6.1.1a
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Aging: growing ectotherms 6.1.1d
time, dtime, d
surv
iva
l pro
b
bo
dy
we
igh
t, g
Data: Slob & Janse 1988
Weibull with shape 3 fits ectothermic survival well, even if growth period not small relative to life span
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Aging among species 8.2.2n
Conclusion for life span • hardly depends on max body size of ectotherms• increases with length in endotherms
slope 1/3, 1/5
Right whale
Ricklefs & Finch 1995
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1- maturitymaintenance
maturityoffspring
maturationreproduction
Modes of action of toxicants 6.5d
food faecesassimilation
reserve
feeding defecation
structurestructure
somaticmaintenance
growth
assimilation
maintenance costs
growth costs
reproduction costs
hazard to embryo
u
tumourtumour
maint tumour induction6
6
endocr. disruption7
7
lethal effects: hazard rateMode of action affectstranslation to pop level
8
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Effect on survival 6.5.3e
Effects of Dieldrin on survival of Poecilia
killing rate 0.038 l g-1 d-1
elimination rate 0.712 d-1
NEC 4.49 g l-1
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Decrease in assimilation 6.5.4a somatic maint coeff = maturity maint coeff
0 5 10 15 20 25 3015
20
25
30
35
40
45
50
55
60
65
time
bo
dy
le
ng
th
0 5 10 15 20
0
20
40
60
80
100
120
140
160
180
200
time
cu
mu
lati
ve
off
sp
rin
g p
er
fem
ale
Data: Alda Álvarez et al (2006)Fit: Jager
Acrobeloides nanusPentachlorobenzene
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Increase in maintenance costs 6.5.4c
time
cum
ula
tive
off
spri
ng
time
bo
dy
len
gth
TPT
Jager et al. (2004)
Folsomia candidaTri-Phenyl-Tin
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Increase cost for structure 6.5.4d
0 5 10 15 20 25 30 3515
20
25
30
35
40
45
50
55
60
65
time
bo
dy
le
ng
th
0 5 10 15 20
0
20
40
60
80
100
120
140
160
180
time
cu
mu
lati
ve
off
sp
rin
g p
er
fem
ale
Acrobeloides nanusCadmium
Data: Alda Álvarez et al (2006)Fit: Jager
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0 5 10 15 20 25 30 3515
20
25
30
35
40
45
50
55
60
65
time
bo
dy
le
ng
th
0 5 10 15 20
0
20
40
60
80
100
120
140
160
180
time
cu
mu
lati
ve
off
sp
rin
g p
er
fem
ale
Acrobeloides nanusCadmium
Increase cost for structure 6.5.4e Decrease in maturity maintenance
Data: Alda Álvarez et al (2006)Fit: Jager
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0 5 10 15 20 25 30 3515
20
25
30
35
40
45
50
55
60
65
time
bo
dy
le
ng
th
0 5 10 15 20
0
20
40
60
80
100
120
140
160
180
time
cu
mu
lati
ve
off
sp
rin
g p
er
fem
ale
Acrobeloides nanusCadmium
Increase cost for structure 6.5.4f
Decrease in maturity maintenanceIncrease of ageing
Data: Alda Álvarez et al (2006)Fit: Jager
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Increase in cost for structure 6.5.4g
time
bo
dy
len
gth
time
cum
ula
tive
off
spri
ng Pentachlorobenzene
Alda Álvarez et al. (2006)
Caenorhabditis elegans
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Effects on reproduction 6.5.4i
time, dtime, d
cum
# o
ffsp
ring/
♀cu
m #
off
sprin
g/♀
cum
# o
ffsp
ring/
♀
assimilation
maintenance
growth
cost/offspring
hazard
Phenol on Daphnia magna at 20°C
indirect effects
direct effects3200
1800
1000
5600, 320
mg L-1
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Direct effect on reproduction 6.5.4j
time, d
cum
. #
youn
g/fe
mal
e
0
0.2
0.4
0.812
g Cd/l
Effect on hazardNEC = 0.023 g Cd/l
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Increase in cost for offspring 6.5.4l
time
cum
ula
tive
off
spri
ng
time
bo
dy
len
gth
Chlorpyrifos
Jager et al. (2007)
Folsomia candida
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Toxicants affect ageing 6.5.6d
0 20 40 60 80 100 1200
0.1
0.2
0.3
0.4
0.5
0.6
0.7
volu
me
tric
bod
y le
ngt
h (m
m)
0 20 40 60 80 100 1200
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0 20 40 60 80 100 1200
0.1
0.2
0.3
0.4
0.5
0.6
0.7
volu
me
tric
bod
y le
ngt
h (m
m)
Folsomia candidacadmium
Jager et al. (2004)
time (days)0 20 40 60 80 100 120
0
0.2
0.4
0.6
0.8
1
0 20 40 60 80 100 1200
0.2
0.4
0.6
0.8
1
fra
ctio
n s
urv
ivin
g
time (days)
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Effect on survival for mixture 6.5.7
Model for survival in time for a binary mixture: 8 parameters in total using data for all observation times control mortality rate, interaction parameter 2 (NEC, killing rate, elimination rate)
Model tested for 6 binary mixtures of metals (Cu, Cd, Pb & Zn) on Folsomia candida (Collembola)
Survival measurements daily for 21 days 6 6 concentrations 22 6 6 = 792 data points for each mixture
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Data: Bart van HouteTheory: Bas KooijmanFit: Jan BaasMovie: Jorn Bruggeman
Interaction Cu,Cd, Pb, Zn: Cu & Pb: slightly antagonistic Other combinations: nill
Folsomia candida
Cd & Cu survival of Folsomia 6.5.7a
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Population effects can depend on food density 6.5.8a
Population growth of rotifer Brachionus rubens at 20˚Cfor different algal concentrations
3,4-dichloroanilinedirect effect on reproduction
potassium metavanadateeffect on maintenance
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Food intake at carrying capacity 6.5.8b
103
cells
/dap
hnid
.d10
3 ce
lls/d
aphn
id.d
log mg V/l log mg Br/l log mg DMQ/l
log mg K2Cr2O7/l log mg AA/l log mg Col/l
9-aminoacridine colchicine
2,6-dimethylquinolinesodium bromidemetavanadate
potassium dichromate