Limnology Lecture 9 - University of...
Transcript of Limnology Lecture 9 - University of...
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Populations in lakes
Limnology Lecture 9
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Outline
• Adaptations in lake organisms to – Low oxygen – Predation – Seasonal disturbance
• Populations in lakes – Exponential – Logistic – Metapopulation
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Low Oxygen Tolerance Hemoglobin type
pigments
Chironomid (midge larvae)
“Anoxibiosis” inactive, low metabolic rates
Chaoborus
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Low Oxygen Tolerance: snorkels and air tanks
Breathing tubes
Rat-tailed fly (Eristalomyia)
“physical lung”
Diving beetles (Dytiscidae)
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Induced defenses Requires reliable cue Kairomones – chemical signals produced by predators that affect prey defenses - Why do predators create cues? Assumes fitness cost to trait (trade-off) Either cost of maintaining plasticity or expressing wrong trait in wrong environment Why? Very common in aquatic systems Why?
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Induced defenses Cyclomorphosis: seasonal variation in helmet and spine length in Daphnia
Brachionus rotifer – induced spines
Induced neckteeth in Daphnia
Dodson 1989
Reliable indicator of predation leads to altered prey traits Phenotypic plasticity – trait change in response to enviroment
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Seasonal disturbance Diapause: Physiological state with suspended metabolism Ephippium [Gr. “saddle”] – molted carapace containing 2 sexual eggs - resists drying, freezing, digestion
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Hairston & Kearns 2002
Disturbance: diapause
Resurrection ecology
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Populations in Lakes
Critical goal in ecology and fisheries management
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Populations in Lakes
Population – group of conspecifics living in same place* * birth/death dynamics determined by local mechanisms rather than immigration - source and sink populations - a sink becomes extirpated if you remove emigration - sub-population - part of meta-population
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Lake populations very dynamic
Fig. 6.3
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Populations sometimes cycle over longer periods
Cohort effects – strong recruitment Cannibalism leads to small future size classes
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Nile perch introduced to Lake Victoria in 1950s
> 400 lbs > 6 ft long One of world’s 100 worst invasive species
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y = e0.4848x R² = 0.865
0
50000
100000
150000
200000
250000
300000
0 5 10 15 20 25
Nile
per
ch c
atch
in to
ns
Time in years
Nile perch drove many cichlid species to extinction
Nile perch expansion and its ecological effects
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Exponential growth Differential Equation dN/dt = rN N = population size r = intrinsic rate of natural increase = (b-d) per capita birth rate – per capita
death rate What does per capita mean?
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Exponential growth Geometric growth (seasonal births) Nt = N0 ert
Nt
N0
t
Pop
ulat
ion
size
0
What values for r mean a decreasing pop.?
What values for λ mean a decreasing pop.?
Nt = N0 λt
λ = er
r=0, λ = 1
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Exponential growth Geometric growth (seasonal births) Nt = N0 ert
Doubling time
Nt /N0 = 2 = ert
ln(2) = 0.69 = rt
tdoubling ~ 0.7/r
~ 70/r*100
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y= e0.4848x
0
50000
100000
150000
200000
250000
300000
0 5 10 15 20 25
Nile
per
ch c
atch
in to
ns (N
)
Time in years (t)
Nile perch
Nt = e0.5t Nt = N0 ert
What is the doubling time?
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Big assumption Birth and death rates do not vary with age
0
0.002
0.004
0.006
0.008
0.01
0.012
0 10 20 30 40 50 60
Prob
abili
ty o
f dea
th
Age
Males
Females
Matrix models
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2nd Big assumption Birth and death rates remain constant regardless of population density
Beginning with 1 Hydra 99 days to span across equator Any organism growing exponentially would soon take over the Earth
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What is population regulation?
• Density-dependent control of population size
• Birth/death rates depend on population size
• Due to intraspecific competition for limited resources
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Density dependent vital rates
Population size (N)
b0
d0
K 0
Death rate
Birth rate
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The logistic equation describes the growth of a regulated population
Population size N
K
0
Time
K
0
Time
K/2
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Logistic growth Differential Equation dN/dt = rN (1– N/K) N = population size r = intrinsic rate of natural increase K = carrying capacity
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The logistic equation Po
pula
tion
size
N
K=100
1
Time
dN/dt = rN (1– N/K)
(1– N/K) = (1 – 50/100) ½ rN
(1– N/K) = (1 – 150/100) - ½ rN
(1– N/K) = (1 – 1/100) rN
(1– N/K) = (1 – 100/100) 0
50
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0
50000
100000
150000
200000
250000
300000
0 10 20 30 40 50
Nile
per
ch c
atch
in to
ns
Time in years
Nile perch today
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Fig. 6.6 and 6.7
Population control example
Hall’s work on Daphnia Expected higher densities and birth rates during summer Solution: ?
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Factors affecting population size
• Density-dependent factors • competition for resources • predation (generalist) • Allee effects (positive)
• Density-independent factors • climate • disturbance • predation (specialist)
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Metapopulation – multiple subpopulations linked by migration Leibold et al. 2004
Rescue effect – large productive populations provide immigrants that keep small populations from going extinct by chance
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Metapopulation – multiple subpopulations linked by migration Leibold et al. 2004
Fraction of occupied habitats depends on: 1. Migration
2. Local extinction