Interspecific competition in insects can be affected by abiotic and biotic factors. Abiotic factors include temperature, moisture, and light, which can impact insects' development rates, dispersal, fecundity, and diapause. Biotic factors include different types of competition over limited resources like food and space. The Lotka-Volterra competition model is used to understand how factors influence competitive outcomes between two species. Higher carrying capacity or enduring more crowding gives one species an advantage over another.
2. Competition
Competition is the struggle for use of shared
limiting resources . It is the interactions between
two organisms for nutrients, space, food,
water, nesting sites .
Example : competition between humming birds & insects
for nectar .
3. Competition divided into two main types :
a. Intraspecific competition
b. Interspecific competition
4. Intraspecificcompetition
It occurs within the species
Individuals of the same species compete for the exact same thing in the
environment
Therefore this is the strongest type of competition.
Example : Bracon hebetor (minute wasp)- internal parasitoid to larval stage of Indian
mealmoth.
5. Interspecificcompetition
Competition between different species compete for the same
resources in an ecosystem .
It can be violent, if the competing species are similar; but it is
never as strong as intraspecific completion.
Example : between entomopathogenic nematodes for lepidopterans larva.
6. COMPETITIVE LOTKA– VOLTERRAMODEL
Alfred Lotka and Vittora Volterra independently, and simultaneously, derived a model to explain
the outcome of competition between two species.
Simple mathematical model
Used to understand how different factors affect the outcomes of competitive interactions.
It combines the effects of each species on the other.
These effects are calculated separately for the first and second population respectively:
N- is the population size,
t- is time,
K- is the carrying capacity,
r- is the intrinsic rate of increase
α- the relative competition coefficients
(effect of one spp on other)
dN/dt-Population growth rate
7. In the first equation:
When α12 <1 the effect of species 2 on species 1 is less than the effect of
species 1 on its own members. Conversely, when α12 >1 the effect of
species 2 on species 1 is greater than the effect of species 1 on its own
member.
The α21 N1 term in the second equation is interpreted in the same way.
8. The two graphs below show the zero
isoclines for species1 and species 2
NOTE:- The sp have higher carrying capacity always win
(sp endure more crowding than other sp)
9. Four possible outcome of the model
Species 1 inhibits growth of species 2 and latter
goes extinction
Species 2 inhibits growth of species 1 and latter goes
extinction
10. Unstable situation, both inhibit in a density
dependent manner. Depending on initial density,
either can make other extinct
Each species inhibits its own population growth
more than competitor. Neither can eliminate
competitor
11.
12. Assumptions COMPETITIVE LOTKA– VOLTERRAMODEL
Environment is homogenous & stable .
Migration is not important .
Co-existance requires a stable equilibrium point.
Carrying capacities and competition coefficients for both sp is
constants
14. TEMPERATURE
The range of temperature within which animal thrive .
According to Chapman : it is the condition of body which determine transfer o
heat to or from the other bodies .
Temperature affects
Speed of development
Rate of dispersal
Fecundity
15. TEMPERATURE continue…
PREFERRED TEMPERATURE :When animals allowed to move
along temp gradient they usually congregate between quite
narrow limits of temperature .
Also known as temperature preferendum.
Example : Schistocerca gregaria : 29.4⁰C
16. Poikilothermic / cold blooded :
whose body temperature varies .
Example : Reptiles , Amphibians ,
Honey bees , Wasps .
Homeothermic / warm blooded :
maintain their body temperature
higher than their environment .
Example : Mammals , Birds.
17. Eurythermic insects : which can tolerate and thrives well in
wide range of temperature
Example :Dipteran larvae (upto55⁰C)
Stenothermic insects :Which are restrict to narrow range of
temperature.
Example : Astagobius angustatus (-1.7-1⁰C)
18. EffectOF Temperatureonspeedof development
Insects complete their development more in
warm weather than cool.
No effect on diapause insects .
Short exposure to very cool temperature
break the arrested growth .
Example :
Drosophila melanogaster pupae exposed to 33⁰C for one day unable
to maintain normal speed of development .
Locusta migrataria : 5 ⁰C for 16 days kill half insects eggs &
5-8.5⁰ C for 32 days kill all eggs
19. Effectof temponrateof dispaersal
process of spreading
Sitophilus oryzae : breeds for number of generations in a large bin of
wheat but if temperature reach 32⁰C , insects disperse to cooler places .
Schistocerca gregaria :At 17-22⁰C temperature ,migration takes place .
20. Effectof tempon fecundity
the ability to produce an abundance of offspring
Plutella xylostella : lay less eggs at 22⁰ C &
more eggs at 16⁰ C
Sitophilus oryzae : lay few eggs at 14 ⁰C &
more eggs at 32 ⁰C
21. MOISTURE
Aquatic insects live in high moisture conditions while terrestrial
insects live in dry places . Desert insects survive in air containing
less than 10% moisture .
Food is the source of moisture for all insects .
Collembola live in very humid places where air is estimated
with moisture .
22. MOISTURE cont….
Moisture measured in terms of : Humidity - is the amount of water
vapor present in the air
23. Effectofdryair
Insects in some stages can’t survive in loss of even small %age of
water .
Diapause insects loose high proportion of water .
Leptinotarsa decemlineata : Able to survive in dry atmospheric
conditions during aestivation because it looses so much water so
that its internal organs shrivel up & alimentary canal attach to
ventral body wall like a thin ribbon .
24. Effect of excessivemoisture
• High mortality in insects.
• Affect breeding & development.
Example : Tsetse fly Glorina tachinoides ,doesn’t feed at
RH>88% &eventually dies .
• Reduce cold hardiness.
25. Effectofmoistureondevelopment
At high humidity :
• speed of development retarded . (Nymph of locust)
• Speed of development accelerated (Eggs of locust & Musca )
• Speed of development independent (Tineola , Thermobia )
26. Effectof moistureon reproduction
• Tribolium molitor : reared at 20% RH laid 4eggs/female/day &
at65% RH laid 102.4eggs/female/day .
• Dermestes spp when kept at 73%RH without drinking water laid
304eggs/female/day & with drinking water lay
567eggs/female/day.
27. LIGHT
Light plays an important role in the growth development &survival in
insects .
Oviposition stimulated by exposure to light & darkness .
Codling moth & cotton bollworm lay eggs in darkness while fruit flies
lay eggs in light .
Drosphila melanogaster caterpillar when exposed to light period of
12hours ,flies coming out are coloured but when exposed to 16hours
light period dark coloured butterflies emerge .
Reproduction is parthenogenetic & viviparous under long day light &
sexual during short day length .
28. EFFECTOF LIGHTONDIAPAUSE
In bivoltine races of silkworm Bombyx mori all females of first gen which
arise from eggs that are developing during short days of spring produce
only non diapause eggs but 2nd gen females which arise from eggs that
were developed during long days of mid summer laid diapause eggs .
He reared at different photoperiods ranging from 0-24hours of light
each day ranging from 15-28⁰C . Eggs which are exposed to <14hours of
light at 15 ⁰C give rise to moths which laid pale non diapause eggs
while which are exposed to >16hours at 20⁰C give rise to moths which
lay dark diapause eggs .
29. BIOTICfactors
Exploitative competition:- also referred to as resource competition.
is a form of competition in which one species consumes and
either reduces or more efficiently uses a shared limiting
resource and therefore depletes the availability of the
resource for the other species.
Thus, it is an indirect interaction because the competing
species interact via a shared resource.
Example- aphid species competing over the sap in plant phloem.
Each aphid species that feeds on host plant sap uses some of
the resource, leaving less for competing species
30. Interference competition :-is a form of competition in which individuals
of one species interacts directly with
individuals of other species via antagonistic displays or more
aggressive behavior.
Thus, it is an direct interaction because the competing
species interact directly to each others.
Example- different sp of Burying Beetles compete to other sp of
same genera for reproductive success.
31. Consumptive:-when food is a limited resource and individuals
reduce one another's intake. of food via
exploitation
Preemptive:- occurs when individuals occupy space and prevent
access to resources by other individuals.
.
32. Overgrowth competition :- occurs when an organism grows over
another, blocking access to resources.
Example- mainly in sessile organisms.(liverwort)
Chemical competition :- occurs when one species produces toxins
that negatively affect another.
Example- Assassin Bug-spitting venom up to 30 cm , it cause
intense local pain, vasodilation and edema.
In many cockroach spp have mucus like adhesive
secretion on their posterior.
33. Territorial competition :- occurs when mobile organisms protect a feeding
or breeding territory.
Example- in Bot Fly, an extreme capital breeding species that depends
on energy acquired during its immature stages
Encounter competition :- occurs when organisms interfere directly with
each other’s access to specific resources.
Example- Female crickets choose among males based on
characteristics of the courtship song. Female mated only with
males that produced courtship sound
femalemale
34. References:-
INSECT ECOLOGY: An Ecosystem Approach by TIMOTHY D. SCHOWALTER
ECOLOGICAL METHODES : Richard Southwood
Andrewartha HG, Brich Lc. The study of distribution and abundance of insects
Crombie AC. Experiments on insect competition
Hardin Garrett. The competitive exclusion principle
Park T. Experimental studies on interspecies competition