4.2b

Question 1

Radiometric dating

Answer 1

Using radioactive isotopes, igneous and metamorphic rocks to determine the age of fossils, rocks, and minerals.
- Parent isotopes of elements undergo radioactive decay and release energy to become a more stable daughter atom.
- Rate of decay is steady, allowing scientists to calculate age from amount of radioactive isotopes remaining in sample

Question 2

Methods of measuring radioactivity

Answer 2

• SHRIMP (Sensitive High Resolution Ion Microprobe): dates very resilient grains of zircon. Can identify the oldest rocks on Earth e.g. 4.4 billion year old zircon grains from north-west WA
• Fission track dating: use electron microscopes to see the tracks left by decaying uranium atoms in the surface of grains as they release particles and energy
• Thermoluminescence: measuring the amount of radiation trapped in a rock using heat or laser light. The longer the crystal has been buried = the more radiation it has accumulated = the brighter the light

Question 3

CO2 analysis

Answer 3

More carbon dioxide in the atmosphere: warmer earth (greenhouse effect, CO2 traps solar radiation)
- CO2 bubbles trapped in polar ice indicate concentration of CO2 in atmosphere in ancient times → can infer past climate of earth
- Warming/cooling of climate directly impacts types of plants and animals that exist in a period

Question 4

O2 analysis

Answer 4

Use ratio of oxygen isotopes in ice core samples to reconstruct water temepratures on ancient earth
- Ratio of O-18 and O-16 in carbonate samples measured. Relationship between ratio and temperature is inverse: higher ratio of O-18 : O-16 = lower temperatures when carbonate was formed

Question 5

Case study: climate change in Australia from continental drift

Answer 5

Intially Australia was warm and humid when it was still connected to Gondwana
- Fossil evidence of soft-shelled insects from the Miocene: tropical rainforest habitats dominated Australia

132-96 million years ago Australia separated from Gondwana
- Climate became more arid as continent drifted north → tropical rainforests became limited to pockets of land
- Plant and animal life evolved to contend with harsher climate of arid Australia

Question 6

Sclerophyll adaptation as climate changed

Answer 6

• Tough leaves contain toxic chemicals
• Roots clumped together for efficiency in obtaining nutrients from nutrient-deficient soils
• E.g. eucalyptus and acacia
• Spread of eucalyptus and acacia coincided with increase in charcoal deposits in fossil records of around 20 million years ago → more frequent fires from hotter and drier climate = selection pressure against rainforest trees, favours sclerophyll species which can withstand dry climates
• Sclerophyll radiated into ecological niches vacated by rainforest plants

Question 7

Kangaroo adaptation as climate changed

Answer 7

• Decline of rainforests caused a decline in arboreal mammals that lived in trees
• Open grasslands became more prominent, favouring the evolution of kangaroos
• 25 mya kangaroo ancestors lived in the rainforest. Had possum-like features, climbed trees and ran through the forest floor on all fours. Most similar to: musky rat kangaroo
• 15-20 mya kangaroos took over woodlands and grasslands. Adapted to bipedal locomotion to move more quickly through open woodlands and grasslands.
• Teeth have higher tooth crowns and replace themselves naturally by migrating rear teeth forward = built for wear and tear → grazers adapted to eating grass and sclerophyll plants
• Hopping: efficient method of transport

Question 8

Procoptodon goliah

Answer 8

• Kangaroo-like megafauna that coexisted with modern kangaroos, now extinct
• Up to 3m high, couldn’t hop because body weight too heavy (240kg)
• Bulky, cube-shaped molars and tough jaw muscles, indiciating a propensity for eating woody vegetation.

Question 9

Localised extinction

Answer 9

• Population of a species ceases to exist in an area of its former range but other populations of the species still exist elsewhere
• Caused by selection pressure in one habitat that does not occur in other areas
• Fragmentatin of koala population across QLD, NSW and VIC has caused local extinctions to occur more frequently. Isolated populations due to land clearing and road construction.
• Lack of population migration prevents mixing of genes between populations → less genetic diversity → reduced ability to withstand environmental changes

Question 10

Origin of Plant in Australia

Three ways

Answer 10

1. Some were already on the continent when it split from Gondwana millions of years ago
2. Some dispersed from South-East Asia to Australia
3. Introduced species

Question 11

Origin of Animals in Australia

Four ways

Answer 11

1. Some are considered ‘original residents’ that were on the continent when it split from Gondwana.
2. Asian ‘immigrant’ species that arrived when sea levels were low, both 15 mya and again 40 000-30 000 years ago
3. Some were introduced by immigrant traders or late Aboriginals four thousand years ago
4. Some were introduced by European immigrants beginning two hundred years ago