interspecific competition · interspecific competition davidclaessen& instut de biologiede...
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Interspecific competition
David Claessen Ins-tut de Biologie de l’ENS Equipe Eco-‐Evolu-on Mathéma-que
Module BIO-‐M1-‐S06 “Evolu-onary ecology”
Based on “Modelling Population Dynamics” by André M. de Roos, University of Amsterdam, The Netherlands
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Explicit resources � Consumer-‐resource model � Tilman (1980)
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Func0onal response
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Equilibrium � Steady state resource concentration.
� Solve dN/dt = 0
� Steady state consumer population
� Tilman (1980, 1981, 1982) � The critical quantity for outcome of competition is not N* but R*
� Tilman’s theory is called « R* theory »
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Two consumers, one resource � Extension of previous model to two consumers
� Critical resource concentration for species 1 and 2 � R1* and R2* � If R1*< R2* then species 2 will go extinct
� Species 1 can sustain a population at a resource level too low for species 2
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Compe00ve exclusion � Generalisation: multiple species:
� p consumers for the same resource
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Two resources � Extension of the same basic model
� Two essential resources! (versus substitutable) � Liebig’s law of the minimum
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Zero net growth isoclines (ZNGI) � dN1/dt=0
growth
decline de
clin
e
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Steady state of system � Two methods:
� Solve equations (dR1/dt=0, dR2/dt=0, dN1/dt=0) � Graphically:
Consumption vector
Supply vector
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� To find the consumption vector Q1: � Consider the consumption rates for both resources = (second term in dRi/dt)
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� To find the supply vector S: � Consider the supply rates for both resources = (first term in dRi/dt)
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Steady state � The direction of Q1 is independent of R1, R2, and N1 � Steady state:
Q1 and supply vector must be in opposite directions
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Interspecifc compe00on… Tilman 1980
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ZNGI for both species � Coexistence possible only if ZNGI intersect Intersection = equilibrium
� And only if supply point in region III, IV, or V
ZNGI species 1
ZNGI species 2
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Supply point � Supply point in region I:
� Both consumers extinct
ZNGI species 1
ZNGI species 2
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Supply point � Supply point in region II:
� Consumer 1 persist � Consumer 2 extinct
ZNGI species 1
ZNGI species 2
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� Supply point in region VI: � Consumer 1 extinct � Consumer 2 persist
ZNGI species 1
ZNGI species 2
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Coexistence � The combined consumption vector is a linear combination of Q1 and Q2
� Hence only supply points in region IV can lead to stable coexistence
ZNGI species 1
ZNGI species 2
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Regions III and V � These regions can support both species in isolation � Region III: species 2 steady state is on vertical ZNGI
ZNGI species 1
ZNGI species 2
Species 2 steady state
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Regions III and V � These regions can support both species in isolation � Region III: species 2 steady state is on vertical ZNGI
ZNGI species 1
ZNGI species 2
Species 1 can invade, new steady state, species 2 extinct
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Stable coexistence in region IV?
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� Opposite relation of consumption vectors
� Same results for regions I, II, III, V, VI
� Region IV’: competitive exclusion dependent on initial conditions � compare LV competition
� Coexistence equilibrium exists but it is a saddle point
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David Tilman: R* theory
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Experimental tests � Diatom phytoplankton � Competing for two resources
� PO4 (phosphate) � SiO2 (silicate)
� Essential resources
� Asterionella formosa vs Cyclotella meneghiniana
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3: Asterionella should dominate
5: Cyclotella should dominate
4: coexistence predicted
★: Asterionella dominant
u: Cyclotella dominant
�: coexistence observed
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Model calibra0on
Fragilaria crotonensis
Synedra filiformis
Asterionella formosa
Tabellaria flocculosa
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Lotka-‐Volterra compe00on model � No explicit resources in the model � Presence of competitor reduces net population growth � Reduce reproduction � Increase mortality
� Equivalent of logistic growth (but for 2 species) � Parameters
� ri � Ki
� βij
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Phase-‐plane method � Isoclines for N1 and N2 � Steady states = intersection of N1 and N2 isoclines � Stability of equilibrium?
� Isoclines � Solve dN1/dt = 0
� Solve dN1/dt = 0
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Case I
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Case I
Add the arrows, and the steady-states
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Equilibria:
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� Outcome of competition:
� For the special case K1=K2:
� Interspecific competition < intraspecific competition à coexistence