Ecology Lecture 15: Interspecific Interactions PDF

Summary

This document is a lecture on interspecific interactions in ecology. It covers various types of species interactions, including examples, and diagrams to illustrate each type of interaction. The document provides an overview of ecology topics.

Full Transcript

Ecology
Week 10

Lecture 15 – Interspecific
Interactions
 Interspecific Interactions
Can be organized by effect on each
species:
+/- =Consumer-Resource
-/- =Competition
+/+ =Mutualism
+/0 =Commensalism
-/0 =Amensalism

2
 Consumer-Resource
Predator-prey
Parasite-host
Parasitoid-host
Herbivore-plant
– Grazing vs. browsing
– Seed Predator

3
Predation

4
5
 Parasitism
Often symbiotic
 Parasitism
Often symbiotic
Symbiosis = two species living in
tight, close physical association

Ectoparasite: lives external; on body
surface or outside body
Endoparasite: lives within tissue of
host
How is this distinguished from predation?
Doesn’t kill (example: flu/virulence)
 Parasitism
Examples of blood-consuming
parasites of humans?
 Parasitism
Examples in blood-consuming
parasites of humans:
– Free-living: mosquitoes, leeches, ticks
– Symbiotic: fleas, lice, malaria

Ectoparasites
Endoparasite

9
 Endoparasite
Primary host
(Mature)

Secondary
host
(Immature)

Tapeworm Life Cycle 10
Endoparasite

Cordyceps fungus
(“Zombie ant fungus”) 11
Ectoparasite

Bat flies 12
 Parasitoid
= Insect whose larvae
consume & kill host
(Nasonia etc.)

Tarantula hawk (Pepsis 13
spp.)
 Herbivory

Grazing: grass/herbs Browsing: woody vegetation
Plant-animal version of what? 14
Seed Predator
(Granivore)

15
 Consumer-Resource
Predator-prey
Parasite-host
Parasitoid-host
Herbivore-plant
– Grazing vs. browsing
– Seed Predator

16
 Defensive mechanisms
Ways to avoid predation:
– Early detection and swift escape
– Camouflage (crypsis)
– Chemical defense (animals and plants)
– Protection: spines (porcupine), thorns
(plants)
– Warning coloration (aposematic)

17
 Predator Avoidance Costs

Bullfrog tadpoles 18
 Predator Avoidance Costs

Bullfrog tadpoles 19
Cryptic coloration

20
Lithops

Cryptic coloration

21
Aposematic
warning coloration
22
 “fecal
shield”
Tortoise Beetle and Wild Bergamot (Monarda fistulosa)
Mullerian mimicry
Poisonous
animals mimic
each others
color patterns
What kind of
interaction?

24
25
 Mullerian mimicry

Heliconius numata

Heliconius erato

26
 Batesian mimicry
Non-toxic
animals mimic
the color
patterns of
wasp mantid
toxic or
dangerous
forms.
What kind of
interaction?
moth 27
Batesian mimicry

“Red touches
black, safe for
Jack. Red
touches yellow,
kills a fellow”

28
29
 Plant defense
Structural: spines, bark
Chemical: Secondary Compounds:
compounds not directly related to
metabolism/photosynthesis
– Lignin (indigestible)
– Morphine, nicotine (poisons)
– Latex (poison/ gum up mouthparts)

30
 Plant defense
Chemical
defense:

Milkweed 31
 Mulberry leaves

Konno 2011, Phytochemistry Specialist herbivore32
Galapagos Opuntia
33
 Plant defense
Constitutive: Always produced
Induced: Occur after defoliation (an
‘immune response’)

34
 Plant defense
Constitutive: Always produced
Induced: Occur after defoliation

Cotton
Plants

35
 Plant defense
Constitutive: Always produced
Induced: Occur after defoliation

Why wouldn’t they always produce?
– A tradeoff - energy/ resources used to
make such secondary compounds
could instead make primary compounds
(for growth and reproduction)
36
 Interspecific Interactions
Can be organized by effect on each
species:
+/- =Consumer-Resource
-/- =Competition
+/+ =Mutualism
+/0 =Commensalism
-/0 =Amensalism

37
 Competition
Intraspecific competition –
individuals of same species
Interspecific competition –
individuals of different species
Interference competition – Direct
interaction (e.g. physical aggression,
territorial fights)
Exploitative competition – Depleting
shared resources (e.g. bats,
hummingbirds, and nectar) 38
 Interspecific Competition
Exploitative competition – Depleting
shared resources (e.g. bats,
hummingbirds, and nectar)
Interference competition – Direct
interaction (e.g. physical aggression,
territorial fights)

39
Exploitative
competition

Interference
competition
40
 Mutualism
Trophic mutualism
Defensive mutualism
Dispersive mutualism

41
 Mutualism
Trophic mutualism: complementary
ways of receiving food
– Cows and cellulose-digesting bacteria
– Giant tubeworms and symbiotic bacteria

42
 http://www.youtube.com/watch?v=
mVtSYRmlirg

East African groups (Masai, Hadza, Yao)
Honeyguide
– Preferred food: beeswax (and larva) 43
(Spottiswoode et al. 2016) 44
(Spottiswoode et al. 2016) 45
Regional ‘Dialects’

(Spottiswoode & Wood 2023)
46
 Mutualism
Defensive mutualism: defend partner in
exchange for food/shelter
– Cleaning mutualism
(removes parasites
from fish)

“Cleaning stations”
 Mutualism
Defensive mutualism: defend partner in
exchange for food/shelter
– Cleaning mutualism
– Ants & plants

Acacia and ants
 Mutualism
Defensive mutualism: defend partner in
exchange for food/shelter
– Cleaning mutualism
– Ants & plants

Bornean pitcher plants & bats
 Mutualism
Dispersive mutualism: transport pollen
or seeds (plant-animal interactions)

Seed dispersal – benefits?
 Mutualism
Dispersive mutualism: transport pollen
or seeds (plant-animal interactions)

Pollination
Commensalism
Antbirds and Army ants

52
 Commensalism

Remora
(suckerfish) 53
 Commensalism

Epiphytes (e.g., orchids, bromeliads)
54
Amensalism

55
56