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Geology of the Springbrook Plateau Name: ________________________ School: _______________________ Date: _________________________ Geology of the Springbrook Plateau Student Program Booklet First Published in 2013 by Numinbah Valley Environmental Education Centre 1721 Nerang-Murwillumbah Rd, Numinbah Valley Q4211 All rights reserved 2013 Edition Copyright © State of Queensland, (Department of Education, Training and Employment) 2013 Copyright protects this publication. Except for purposes permitted by the Copyright Act, reproduction by whatever means is pr ohibited. However, limited photocopying for classroom use is permitted by educational institutions that have a license with the Copyright Agency Limited (CAL). Any inquiries should be addressed to the Copyright Officer, Studies Directorate, Department of Education, PO Box 33, Brisbane Albert St, Q 4002 ACKNOWLEDGEMENTS Original Concept and Program Development: Renata Machado Medeiros, Jim Rebgetz, Kees Nyssen, Melissa Traill, Sarah White and Kate McKensie Booklet Design and Typesetting: Kees Nyssen and Renata Machado Medeiros Illustrations: Jason Bell Special thanks to the geologist Warwick Willmott and to the Botanist David Jinks for sharing their knowledge with us. Numinbah Valley Environmental Education Centre 1721 Nerang-Murwillumbah Rd, Numinbah Valley Q 4211 Ph: (07) 5533 4148 – Fx: (07) 3374 2857 Website: www.numinbaheec.eq.edu.au Email: [email protected] Keeping safe in the Forest Wear sturdy shoes, a hat and sunscreen and take water. Stick to the tracks to avoid trampling plants and animals Pick up rubbish to keep our forests clean but be careful of glass or any sharp objects Learning Intents Students will be working towards the following learning intents: Explain how rock can be changed into soil, through different types of weathering (chemical and physical/biological) Name and recognise the difference between chemical and physical weathering Describe the environmental conditions that prohibit (native) seed germination Identify environmental conditions that allow introduced species to grow and survive Identify types of igneous (extrusive) volcanic rocks and describe the processes involved in their formation Create links between the formation and destruction of rock types and the processes involved Evaluate the relationships in the formation and destruction of rock types Determine the origin of rocks on the surface of the Earth Relate processes of rock formation with the geological timescale Identify rock types and other evidence in fieldwork locations Identify how rocks and minerals were used by humans Relate how the use of rocks and minerals has changed over time Link the properties of rock with their uses by different cultures Geological and Geomorphological History of the Region Springbrook National Park is located on the northern flank of the extinct Tweed Volcano, a broad shield volcano which erupted between 23 and 24 million years ago. At that time this part of the Australian crustal plate, which is moving 7cm northwards each year, was over a ‘hot spot’. Hot spots form deep in the Earth’s mantle and periodically force basaltic magma to the surface, through weaknesses in the overlying crust, where it erupts from broad volcanoes. Two large volcanoes were created at that time; the Focal Peak Volcano near Mount Barney, and the later Tweed Volcano. The Tweed Volcano (approximately 100km in diameter) stretched from Lismore (NSW) in the south to Tamborine (QLD) in the north, from Mt Lindesay (QLD) in the west and fourteen kilometres out to sea11. Figure 1 – The inner structure of Earth and the succession of major extinct volcanos from the Australian continent moving over stationary 'hot spot' modified from Willmott, 2010, page 9) The shield shaped Tweed Volcano built up from many lava flows over a period of 1 million years. The majority of the lava was highly fluid basalt which flowed long distances. Towards the end of the volcano’s activity, the magma deep below distilled into other lava types such as rhyolite. The viscous (sticky) rhyolite at first erupted explosively to form clouds of ash, which fell back to accumulate as beds of tuff. Then some thick lava flows surged out, but the rhyolite flows covered a much more limited area than the basalt ones. Some rhyolite magma cooled in narrow bodies just beneath the surface plugging subsidiary vents, such as Egg Rock and Pages Pinacles. After the rhyolite the volcano erupted basalt flows once more 11. Figure 2 - Tweed Shield Volcano cross section (Graham, 2004) The central summit of the Tweed Volcano was located over the present Mount Warning and is estimated to have reached about 2000 m above sea level. After the Tweed Volcano became extinct approximately 23 million years ago, the high mountain attracted heavy rainfall. The igneous rock gradually weathered to form rich soils 1 supporting thick rainforests and many streams flowed from the peak. Gradually the streams cut deep gorges and as erosion progressed - the valleys widened 11. 1 2 3 Figure 3 - Progressive Erosion of the Tweed Volcano (Willmott, 2010, page 14) 2 Stages of Erosion: Stage 1: When the volcano was still active the landscape would have consisted of new, bare, rocky lava fields, strips of colonizing shrub land on older flows, and rainforest-type vegetation in mature areas. Stage 2: After the Tweed Volcano became extinct, the shape of the whole hinterland would have been dominated by the high and broad shield landscape. The height of the volcano attracted considerable orographic rain, the basalt lavas decomposed to form rich soils supporting rainforest, and streams were etched on its flanks in a distinct radial pattern from its peak. The eastern streams were more active because of higher rainfall, and they eroded quickly westward to form the broad Tweed Valley. Streams flowing to the north formed the Numinbah (Nerang River), Coomera and Canungra Valleys. Stage 3: The widening and deepening of radial streams resulted in a stepped effect on the valley sides, with scarps or cliff lines representing the more resistant rocks derived from the Rhyolite lavas in contrast with the less resistant and softer sub horizontal layers derived from the Basalt lavas. The plateaus between the valleys such as: Springbrook, Lamington, Beechmont, and Tamborine are approximately the original surface of the northern flank of the volcano. The Tweed valley is an erosion caldera, leaving only the remnant resistant plug of Mount Warning 11 Rainfall of the Gold Coast Hinterland As the Tweed Volcano grew, it began to affect rainfall patterns. Rain falls when water vapour is forced upward into the cold upper atmosphere where it condenses into droplets and falls. The water vapour is blown west from the ocean, then pushed up by the Volcano, which causes the vapour to become rain. This is called Orographic Rain 1; a concentration of rainfall on one side of a mountain. Orographic rain caused the Tweed Volcano to erode on the eastern side, (as can be seen in Figure 4 below) and the inland to be dry because moisture was stripped from the clouds. Figure 4 - Orographic rainfall diagram (source: http://hbs.bishopmuseum.org/waipio/nativestreams.html) 3 Most erosion occurred in the valleys, while the ridges remained as flat plateaus such as Mt Tamborine and Beechmont. Today, the Eastern streams are still more active due to the higher rainfall there. The Tweed valley is an erosion caldera, leaving only the remnant resistant plug of Mt Warning. The southern region of the Gold Coast continues to receive more rain than the northern. The orographic rainfall on the Springbrook plateau contributes to a rain shadow over the western part of the Gold Coast. Average annual rainfall on the Gold Coast varies. On the coast and in the northern half of the City it is around 1500mm. However, in the Springbrook area, the average rainfall is that of 3000mm per year 3. Questions 1. What is the difference between the average annual rainfall at Springbrook to the average annual rainfall at the northern half of the Gold Coast in millimetres? 2. Sketch a diagram to illustrate the phenomenon that results in Springbrook receiving a higher annual rainfall than its hinterland. Hint: use a cross section showing the topography of the terrain from East (Pacific Ocean) to West (Springbrook Plateau) as an outline. Gondwana Rainforests of Australia World Heritage Area The Gondwana Rainforests of Australia World Heritage area, originally listed in 1986 to cover rainforests in New South Wales, was extended in 1994 to include rainforests on the Queensland side of the border. The Gondwana Rainforests of Australia World Heritage area meets three of the four natural criteria for listing: • represents a major stage of the earth's evolutionary history; • is an outstanding example of ongoing ecological and biological processes; and • contains the most important natural habitats for conserving biological diversity. Protected areas in this property include Lamington, Springbrook, Mt Barney and Main Range National Parks. An estimated two million people a year visit this World Heritage area. Rainforests on both sides of the border contain more frog, snake, bird and marsupial species than anywhere else in Australia. This site provides a home for many rare and threatened plants, animals, and ancient life forms. The subtropical rainforest in Springbrook provide homes for ground-dwelling birds such as the rare Albert's lyrebird and the endangered eastern bristlebird. 4 The Yugumbeh and Bundjelung People O Figure 5 – Timeline of Hinterland Settlement Meenyahgu Yugambeh Dagun — Welcome to Yugambeh country. The Archaeological evidence suggests that Aboriginal people have inhabited the Gold Coast region for about 10,000 years before European settlement. By the early 19th century there were several distinct groups living between the Tweed and Logan Rivers and bounded approximately in the west by Beaudesert. They are believed to be: the Kombumerri, Gugingin, Bullongin, Minjingbal, Birinburra, Wangerriburra, Mununjali and Migunberri. Collectively they were known as Yugambeh people and spoke the Yugambeh language along with several distinct dialects in the region. It is believed that the Aboriginal Kombumerri lived on the mountains during summer and on coastal areas during winter, exerting only a seasonal impact on Springbrook in their search for food and medicines. This area of dense forests, high rainfall and cool weather did not encourage permanent habitation. Springbrook was considered to be of a spiritual importance due to the great beauty of the gorges and waterfalls. Tools and stone axes have been discovered at Black fellows Falls. Wollumbin is the traditional aboriginal name for Mt Warning. The area surrounding Wollumbin is of traditional significance to the local Bundjalung people. Wollumbin means, ‘cloud-catcher’, or alternatively ‘fighting chief of the mountains’ because the mountain appears to 'be making its own clouds' due to orographic cloud formation 7. There is a dreamtime story of Wollumbin, said to be Warrior Chief of the mountain. The spirits of the mountains were warriors. The wounds they received in battles can be seen as scars on the side of the mountain and the thunder and lightning are the effects of their battles. When you look toward Wollumbin from the lookout, you can see the face of the Warrior Chief in the mountain's outline 7. Captain Lieutenant James Cook in May 1770 named the mountain Mount Warning as he sailed by in the Endeavour on their route northwards along the eastern coastline of Australia. The designation ‘Mount Warning’ was meant to indicate the danger of the offshore reefs they encountered 7. The park was reserved for public recreation in 1928 and dedicated as a national park in 1966. The area is part of the Shield Volcano Group of the World Heritage - Gondwana Rainforests of Australia inscribed in 1986 and added to the Australian National Heritage List in 2007. 5 - Best of All Lookout Cool Temperate Rainforest Figure 6. Cool Temperate Rainforest diagram (modified from The Royal Botanical Gardens and Domain Trust, 2012a) Cool temperate rainforest occurs at altitudes more than 900 meters above sea level, were the climate is cool with high annual rainfall (1700 – 3000mm) and there are fertile soils. The forest structure is simple with one or two strata of canopy. There is only one to three dominant tree species. Trees have simple leaves with toothed margins, generally under 7.5cm long. Epiphytes, mosses, and lichens form dense coverings on tree trunks and branches. The forest floor has various ferns including tree ferns. Strangler figs, palms, buttress roots, large epiphytes (e.g. staghorns) and woody vines are rare or absent in cool temperate rainforest. Antarctic Beech Antarctic Beech (Nothofagus moorei) is only found in cool temperate rainforests of New South Wales and south East Queensland. The Antarctic Beech was very common when Australia was a part of the Gondwana supercontinent, but as Australia moved north and became hotter and drier, the species became less common. Fossil evidence of Antarctic Beech has been found in South America, New Zealand, and Papua New Guinea indicating that these landmasses were once connected. 6 Questions 1. Describe the features of the rock outcrop and its weathering on the side of the track after leaving the lookout (colour, grain size, layers, vesicular (full of bubbles), glass like, and others): 2. Name the rock at this site. 3. The diagram opposite represents the geological time scale. From the diagram determine: i. Age of the oldest dated rock. ii. The era and period at the time of the Tweed Volcano eruption. iii. The epoch when you were born. Figure 7.- Geological Time Scale (source: http://www.caveofthemounds.com/geotimeline.htm) 4. The small stand of Antarctic Beech trees are at 1000m which ensures a suitable temperature and rainfall. What will happen to the species and the organisms relying on them, if the climate continues to warm? 5. How would the discovery of the Antarctic Beech fossil on different continents be evidence of continental drift? 7 Figure 8.-a) Gondwanan fossil distribution map source:. http://australianmuseum.net.au/image/Gondwanan-fossil-distribution-map) b) Image of Antarctic Beech pollen, 50 Micrometers (um) = 0.05 Milimeters (mm), source: http://www.geo.arizona.edu/palynology/nsw/shimeld/nothofagus_moorei.jpg Boy-ull Creek Dry Sclerophyll Forest Figure 9 – Dry Sclerophyll Forest diagram Dry Sclerophyll Forest communities develop in areas where the rainfall exceeds 600mm. They also occur in high rainfall areas where the soil is infertile or shallow and does not retain moisture. Springbrook Plateau has high rainfall but where the soils are developed on rhyolite flows they are very infertile and clayey. The ground cover can be grass or shrubs, depending on the length of time since the last fire. Characteristic Features of Dry Sclerophyll Forest: Tall eucalypts, understorey of scrubs, grasses, ferns, open canopy 30-70%, rainfall 1500mm p.a., poorer soils, dominant species-eucalypts, acacias and casuarinas. Tallanbana in Yumbabeh language is: out of the rushes Boy-ull in Yugambeh language means hill top. Questions Look northwards from the bridge over Boy-ull Creek. Observe the cliffs of pale coloured rock that extends along its sides. The outcrop shows flat surfaces of light coloured rock called ___________________ with contorting flow banding. The rhyolite rock weathers and forms soils that are acid, poorly developed, often shallow and rocky and infertile. These soils develop directly over hard unweathered rock or decomposed rock. The forest after the crossing of the bridge is called Dry Sclerophyll Forest. 8 Ee-jung Creek Figure 10. Classification and flow characteristics of volcanic rocks Figure 10 – Classification and flow characteristics of volcanic rocks source: http://volcanoes.usgs.gov/images/pglossary/VolRocks.php Questions The major factors which determine the rate of weathering are; climate of the area, time scale, vegetation soil, and chemical composition of the rock. Weathering is the destruction of rocks by two means: Physical weathering is the breaking down of rocks into smaller blocks/particles through natural processes due to pressure and/or temperature. The breaking down can be caused by freezing water (when water fills cracks in rocks in cold climates it often freezes, making the cracks larger); salt wedging (rainwater that fills cracks in warm climates as it evaporates may leave behind salt and crystals begin to grow and create wedges), plants (as plant's root systems develop, it cracks the earth/rocks around it and these cracks enlarge over time), temperature fluctuations (rocks expand in hot air and contract in cold air and in time, this movement crumbles rock); Chemical weathering occurs when a reaction between a primary mineral within a rock structure and water with dissolved chemicals, cause the formation of a new secondary mineral. 1. List some evidence of weathering that you see on the rock here? 9 Tamarramai Falls Warm Temperate Rainforest Figure 11 - Warm Temperate rainforest diagram (modified from The Royal Botanical Gardens and Domain Trust, 2012c) Warm-temperate rainforest is a cool moist habitat on fertile soil with a rainfall of over 3000mm annually. Two tree strata form an even canopy. Its vegetation is less diverse than in Subtropical Rainforest with usually only three to fifteen species in canopy. Leaves are mostly simple and toothed, over 7.5cm long and on average smaller than in Subtropical Rainforests. Dominant species are coachwood and brushbox. Stranglers, palms, plank buttresses, and woody vines are rare or absent. Tree trunks are slender and uniform. Epiphytes (mainly lichens) are common but not obvious. Ground ferns are common. Questions 1. Describe the features of the rock outcrop and its weathering on the side of the track after leaving the lookout (colour, grain size, layers, vesicular (full of bubbles), glass like, and others): 2. Name the rock at this site._______________________________________ 3. Describe evidence of chemical and physical weathering at this site? 10 TWIN FALLS Questions 1. The pie graph below represents the main chemical compounds present in basalt and rhyolite rock 8. Basalt SiO2 TiO2 Rhyolite Al2O3 Fe2O3 FeO MnO MgO CaO Na2O3 K2 0 For each rock, estimate the percentage of: silica (SiO2) % P2O3 H20 % iron oxide (Fe2O3 + FeO) % % magnesium and calcium oxide (MgO + CaO) % % The soils developed from the weathering of basalt rocks are red to brown, strongly structured clay soils (50-70% clay) ranging in depth from less than 1 m to over 7 m. The red colour is formed by an oxidation reaction between water and the iron in the basalt rock during the chemical weathering. This results in a rich soil for growth. 2. How would you classify the type of forest type you observed growing in this fertile basaltic soil? 11 Stratigraphy - the study of layered volcanic rocks Questions 1. Label the diagram with the correct rock types (rhyolite, basalt and tuff). Figure 12 –Rock outcrop diagram 2. In the figure above draw two arrows representing the main forces (pressure) acting on breaking down the rocks due to physical weathering at this site? 3. What evidence of chemical weathering can you see at this site? 4. What inference can you make in relation to the age of the each one of rocks at this site? 12 Landslide Area In 1890, rural inhabitants, of what is now the Gold Coast, noticed the sudden appearance of a large scar just below the Springbrook cliffs. A large landslide had resulted in the leveling of the forest in the area in which you now stand. Questions 1. What factors cause landslides to happen? 2. What evidence can still be seen today? Subtropical Rainforest Figure 13. Subtropical rainforest diagram(modified from The Royal Botanical Gardens and Domain Trust, 2012b) 13 Warm moist habitat on fertile soils with a rainfall of over 1300mm annually; two or three tree strata forming a multi-layered billowing canopy; ten to sixteen tree species in canopy. Tree leaves are mostly compound, not toothed; leaves or leaflets over 7.5cm long; stranglers, palms, plank buttresses, epiphytes and woody vines prominent; and large leaved herbs and ground ferns common. Characteristic features of subtropical rainforests include: • mixed composition of many tree species with no obvious domination by any one species • trees of large to medium size with a range of leaf forms • palms, strangler figs, buttressed trunks, large vines and large epiphytes common and diverse Blackfellow Falls are known as maibin jabang ( = blackfellow's ghost) by the Yugambeh people Wedge Bluff Lookout Montane Heath Figure 14 - Montane Heath diagram Montane Heath occurs as shrubby vegetation on rocky infertile soils, notably along cliff edges and cliff faces. This vegetation is characterized by grass trees, banksias, bottlebrushes, hakea, mint bushes, tea trees and other long-growing heath plants. Questions 1. Name the rock at this site. 2. Looking at the view identify the following: Burleigh Headland, Coolangatta, Nerang River, Tallebudgera Creek, South Stradbroke Island and Pacific Ocean. 14 References 1) Bureau of Meteorology, (2012), Cloud formation and rainfall, viewed on 15 July 2012, http://www.bom.gov.au/info/ftweather/page_9.shtml. 2) Crisp, C and Crisp, J. (2006) Springbrook Its Parks, Walks and Wildlife a visitor’s guide 3) Gold Coast City Council, (2012), Our Living City Report 2004–05, Chapter 2, viewed 10 July 2012, http://www.goldcoast.qld.gov.au/attachment/publications/our_living_city0405_chp2.pdf 4) Graham, B (2004) The Green Coast Southern Cross University, Lismore 5) Hinze Dam stage 3 Environment Impact Statement, downloaded in 10 July, 2012 from http://www.hinzedamstage3.com/PDF/eis/section_04_topography_geomorphology.pdf 6) Hunter, J, (2011) Under the canopy a guide to rainforest of NSW, downloaded in 10 July, 2012 from http://www.environment.nsw.gov.au/resources/education/20100158UnderTheCanopyAll.pdf 7) McPherson, M.,(1999), Minjungbal Aboriginal Cultural Centre, viewed 12 July 2012, < http://www.bigvolcano.com.au/stories/minjung/aborigin.htm> 8) Richards, H.C., (1916), The volcanic rocks of south-eastern Queensland. Proc. R. Soc. Qld 27, pp.105-204. 7) The Royal Botanical Gardens and Domain Trust, (2012a), Cool-temperate Rainforests , viewed 12 July 2012, http://www.rbgsyd.nsw.gov.au/education/Resources/rainforests/Australian_Rainforests/Cool-temperate_rainforests 9) The Royal Botanical Gardens and Domain Trust, (2012b), Subtropical Rainforests , viewed 12 July 2012, http://www.rbgsyd.nsw.gov.au/education/Resources/rainforests/Australian_Rainforests/Subtropical_rainforests 10) The Royal Botanical Gardens and Domain Trust, (2012c), Warm-temperate Rainforests , viewed 12 July 2012, http://www.rbgsyd.nsw.gov.au/education/Resources/rainforests/Australian_Rainforests/Warm-temperate_rainforests 11) Willmott, W. (2010), Rocks and Landscapes of the Gold Coast expanded third edition, Geological Society of Australia Incorporated, Queensland Division, Brisbane. 15 TWIN FALLS CIRCUIT N When you see this symbol in your booklet: 1. Mark an X to represent your position. 2. Take a compass bearing to determine the direction you are traveling. Figure 15 – Topographical Map of Twin Falls Circuit, Springbrook 16