Lecture 18- Australian invertebrates' diversity III

Question 1

What is the classification of termites?

Answer 1

• P: Arthropoda C: Insecta O: Isoptera (termites)

- Remember: very diverse, widespread & abundant, thus a very important group in Australia

Question 2

Why are termites important in nutrient cycling?

Answer 2

• important in nutrient cycling because many species feed on dead plant material, converting dead grasses & wood into soil very quickly
• symbiotic relationship with protists allows them to exploit this very abundant but poor quality food source
• Termites enrich soils with nitrogen & phosphates
• carry their food back to the nest, thus soil immediately around the termite mound/nest is gradually enriched with N and P
• over time this is redistributed into surrounding soils
• important!

Question 3

Where in particular are termites important for recycling nutrients?

Answer 3

• important role in nutrient cycling in northern Australia due to pronounced wet-dry seasons & low nutrient soils
• when dry season nothing grows
• This system can’t support large endothermic grazers with high energy needs

Question 4

How much of carbon do termites recycled in tropical systems?

Answer 4

-20%
-Tropical savannas in Aust. can’t support high density of grazing
vertebrates:
- 24kg of cow/ha (1 cow/25ha) - 40 to 120kg termite/ha

Question 5

What are the mastotermes?

Answer 5

• large species, worst pest termite across tropical Australia
• type of termite
• impressive in success
• can chew almost through everything

Question 6

What can invertebrates also be and examples? (parasites)

Answer 6

wildlife parasites: health impacts, disease etc.

• e.g. rump-wear in Mountain Brushtail Possums: mites?
• sarcoptic mange in wombats: mites?

Question 7

What is the life cycle of a tick like?

Answer 7

-ticks: external blood sucking parasites
1.Generalised life cycle
adult female: takes blood meal from host (c) & mates
2.Lays eggs
3.Eggs hatch into larvae, quest for host(a) feed & drop off.
4.Larvae develop into nymphs, quest for host(b), feed and drop off
5. Nymphs develop into adults, quest for host(c)

-Hosts a,b&c may be different species

Question 8

What are the issues when attempting to investigate parasite life cycles in wildlife?

Answer 8

• Many parasites have several stages in life cycle
• Different life stages of parasites may have different hosts
• Often difficult to determine which adult species the larvae or nymphs belong to

-Laboratory studies

Question 9

What was the project investigating ticks infesting koalas?

Answer 9

• Different species of ticks infest koalas from different populations in Victoria!!
• Raymond Island, Gippsland – koala tick – Haemaphysalis bancrofti
• Far east Gippsland – also Ixodes holocyclus, the paralysis tick
• Phillip Island – koala tick – Ixodes tasmani * French Island – koala tick – Ixodes hirsti

Question 10

How did they investigate the ticks in koalas?

Answer 10

-French Island, Vic
* Catch koalas each month, (several years of data
needed to demonstrate true seasonal patterns)
* Examine whole body for ticks – Ixodes hirsti
* Impacts on koala hosts: - low tick loads: minimal - high tick loads: anaemia

Question 11

What was the seasonal pattern of adult tick infestation on French Island koalas?

Answer 11

• higher during September to February
• this is when they occur
• seasonal occurrence

Question 12

What is the life cycle of the tick Ixodes hirsti that infests koalas?

Answer 12

1. Lays eggs on ground
2. Eggs hatch into larvae, and quest for a host – (species unknown, small mammal ?? e.g. native rat??) - feed & drop off.
3. Larvae develop into nymphs, quest for unknown species, feed and drop off
4. Nymphs develop into adults, quest for koala hosts (koalas move along ground to change trees)
5. adult female tick: blood meal from koala & mate

Question 13

How can you understand the life history of the koala tick, Ixodes hirsti?
-reproductive output

Answer 13

-Surveying for different life stages in the field:
- adult ticks - examine koala host - larvae and nymphs –identify host
if possible, or sample for questing stage:
-1. Fully engorged adult female ticks, taken back to lab and maintained for egg laying
2. Each females laid a mean of 3250 eggs over a period of 40 days
3. Eggs took approx 60 days to hatch Females back to Lab
4. Eggs hatched into larvae, but would not attach to rats or birds to feed thus next stage = nymph still not confirmed as I. hirsti
5. Intermediate hosts in field remain unknown

Question 14

Why are cockroaches important?

Answer 14

• Very important in nutrient cycling (many eat wood)
• Australia has many native cockroach species e.g. Australian rhinoceros cockroach, the largest species in the world, 8cm
• important for conservation

Question 15

How is habitat loss and fragmentation dangerous for invertebrates?

Answer 15

• invertebrates are small so the scale is different, cannot cross even small distances if cannot fly
• Habitat fragments:
• Patches and linear remnants of varying size, connectivity & spacing
• Composition: remnants of original vegetation, species mix & age of vegetation variable

Question 16

What did research uncover about cockroaches?

Answer 16

• Some species with limited mobility
• Research: comparison of populations in large intact forest patches vs small fragments
• Findings: changes in genetic structure of populations over very short time periods (20 years)
• Important message for conservation: importance of understanding of biodiversity & health of invertebrate populations
• for cockroaches a road is a big barrier

Question 17

What are the characteristics of Eltham copper butterfly?

Answer 17

• Habitat: woodlands with understory of sweet bursaria lay eggs on this shrub
• Caterpillars shelter in ant nests near base of shrub during the day, move up to feed on leaves at night & are guarded by the ants, which feed on sugar secretions
• Butterflies only found in areas with this genus of ants
• Listed in Vic as vulnerable to extinction – is rare & declining
• Threats: isolation, habitat destruction, fire, pests
• Remaining populations in only 3 regions in Vic

Question 18

What are wetas?

Answer 18

Wetas – New Zealand

• Many NZ species endemic
• Some of the largest insects in world, including some of largest insects capable of flight, some flightless
• like a big grasshopper

Question 19

What are the wetas threatened by?

Answer 19

• • Threatened by:
• introduced predators (cats, rats hedgehogs and stoats)
• habitat destruction (clearing)
• habitat disturbance (introduced browsing animals
• 16/70 NZ species at risk!!!

Question 20

What is the conservation project going on for wetas?

Answer 20

• Managed under a DOC “Recovery Plan” * Wetas have high reproductive potential
• Thrive in captive breeding programs
• Being invertebrates, possible to establish populations in relatively small conservation parks
• Can be successfully reintroduced to modified habitat e.g. will use nest boxes
• • Control of introduced predators often a crucial part of mgment

Question 21

What is the Lord Howe Island Phasmid (stick insect)?

Answer 21

• Very old group * 15 cm long * Flightless * Nocturnal
• Parthenogenic
• Rarest insect in the world? Known only from pre 1918, from Lord Howe Island: thought to be extinct

Question 22

What is the thread to the Lord Howe Island Phasmid?

Answer 22

Threatening process: introduction of rats (feral) onto Lord Howe Island from a shipwreck in 1918

Question 23

What is special about Balls Pyramid?

Answer 23

Balls Pyramid, off Lord Howe Island, Australia: the last refuge of the Lord Howe Island Phasmid
-* Dead specimens discovered 1960s * Rediscovered live, 2001

Question 24

What is the conservation project concerned with Lord Howe Phasmid?

Answer 24

Conservation program to save the Lord Howe Island Phasmid:
* Captive breeding program, Taronga & Melbourne Zoos (parthenogenic character
assists conservation)
* Eradication of rats from Lord Howe Is.
* Aim: reintroduction of phasmids to original habitat
• Hatching of more phasmids at Melbourne Zoo. Now managed in large greenhouses, free- ranging: breeding success has increased: now approx 500 individuals.
• Classified under Australian Commonwealth Government legislation: EPBC Act
• Conservation issue raised in NSW Parliament
• Reintroductions to Lord Howe Island from 2007 onwards

Question 25

What is inbreeding depression?

Answer 25

when breed within a population and the offspring will be worse off than if bred with out population

Question 26

What is outbreeding depression?

Answer 26

: caused when a population of individual will breed with an individual from a different population and the offspring will be worse off than of bred inside a population!