This image captures the moment just before the Maldon Market Building was converted into the Shire Hall and Offices. The decision to so convert it was made formally by the man who painted it in has new role as Shire Secretary.This framed oil painting on canvas depicts the Maldon Market building, in the period before it was converted to be the Maldon Shire Hall and Offices. In the rear of the scene the Courthouse can be seen, with the Maldon Contingent of the Victorian Volunteer Rifles drilling in front of it. These buildings are located in the former Government Camp area. The work was painted by Henry Joseph Charles Mitchell, later to become the Shire Secretary in 1864.maldon victoria, market building, shire hall

In February 2001 the National Council for the Centenary of Federation called upon Australians to nominate someone whom they felt had significantly affected their lives, their community or our country. Thousands of these heroes and quiet achievers were selected. Betty Churcher, a member of the National Council, chaired the Peoplescape Selection Panel. Nominators then made life size, cutout figures to represent their "hero". The sculptures were installed in alphabetical order, on the hill at Parliament House and down to the Federation Mall in Canberra, each with a plaque at its base outlining the individual's achievement. This portrait was painted by Betty Barberis to represent her mother "Dolly" Barton. Dolly raised 12 children, lived through 2 World Wars and the depression. She kept the family dairy farm running whilst her husband was serving in World War 2 whilst still supporting the war effort through the Red Cross and CWA and the church guild. Betty’s great body of work included landscapes, banners, millinery, ceramics, and a bronze sculpture of her husband Vern Barberis who was a fellow schoolteacher and represented Australia as a weightlifter, winning a bronze medal at the Helsinki Olympics in 1952. She was also an art teacher of 22 years. Betty passed away at The Grange, Wodonga on 26 November 2013.This portrait was created by a renowned and highly regarded artist from Northeast Victoria for a national celebration of the centenary of Australian Federation in 2001.A large oil painting depicting a portrait of Dolly Barton, mother of the artist Betty L. Barberis. The painting includes representations of her 12 children, her farming way of life, her commitment to the community and to the war effort. The image was painted on to yellow corflute for exhibition. It has since been covered with perspex to protect the image.betty l. barberis, myrtle ann 'dolly" barton, peoplescape 2001

A portrait of His Royal Highness Prince Philip, Duke of Edinburgh that has been owned by Legacy for many years. It was previously hung alongside a painting of Her Majesty Queen Elizabeth II, but has been moved to storage in the archive. Extremely similar to a portrait of Price Philip that is owned by the City of Melbourne. It had been painted in 1956 just before Price Philip opened the Olympic games in Melbourne. Perhaps this was a draft or copy of the City of Melbourne portrait. Prince Philip was an honorary member of Legacy after a visit to Sydney Legacy in 1954.Oil painting of Prince Philip in a gilded wooden frame.Author signature in bottom right, 'Dargie'.portrait, prince philip

Painted by Cesare Vagarini at Camp 3.Painted on 3 ply. Framed in light wood. 2 huts. garden, tree above and between hutsLuise Imberger, 12 Phyllis Ave. Boronia, Tatura Camp 3. C Compound Vodere Baracke - Ernest Swatzky USW Hintere Baracke - Wilfred Imberger USW on the back Vagarini 1944. Bottom right cornerillustrations, oil

Oil painting of a lemon-scented gum at Heidelberg Golf Course, painted by Joy Kirwan. The corner of the old pro shop is on the right, the putting green in foreground.An original painting of part of the HGC groundsOil painting with timber frame Signed "Joy Kirwan"heidelberg golf club, joy kirwan, oil paintings

Oil painting of a bush scene, painted by Phyll Davidson. Adapted from an oil painting by Lloyd Rees.Oil painting with timber frame and glass On label on reverse: "Toward the high country. Adapted from an oil painting by [Lloyd] Rees. Artist Phyll Davidson". Framer's label " Framed by Keith Hoad"phyll davidson, lloyd rees, oil paintings

Shaun Tan is best known for his illustrated books and short films that deal with social, political and historical subjects through dream-like imagery and fantastic creatures. In addition to his book and film work, Tan is a respected and prolific painter. Octopus 2 is one of three paintings of Anstey Station, which is next to Tan’s art studio. Nearby, there is an octopus painted on the roller door of a bait shop. Tan observes that the octopus is usually only visible at night, and then not very well: "It is an eerie vision, a bit comical too. There is something about the tucked-away grouping of high and low walls, the amber light and the jumble of signage that I find very evocative, as if there is some spirit being tucked up in this unlooked-at pocket of the rail-line”.

Shaun Tan is best known for his illustrated books and short films that deal with social, political and historical subjects through dream-like imagery and fantastic creatures. In addition to his book and film work, Tan is a respected and prolific painter. Tan’s paintings capture a sense of place and atmosphere, even when the specific location is not made explicit. Tan says of his practice: “Often I don’t know why I need to paint a certain scene, only that I do, as if to stop it from drifting away too quickly, to just allow a little more time to think about it. Or to just say ‘I saw this’”.

Prior to carrying out a detailed condition report of the cetacean skeletons, it is useful to have an understanding of the materials we are likely to encounter, in terms of structure and chemistry. This entry invites you to join in learning about the composition of whale bone and oil. Whale bone (Cetacean) bone is comprised of a composite structure of both an inorganic matrix of mainly hydroxylapatite (a calcium phosphate mineral), providing strength and rigidity, as well as an organic protein ‘scaffolding’ of mainly collagen, facilitating growth and repair (O’Connor 2008, CCI 2010). Collagen is also the structural protein component in cartilage between the whale vertebrae and attached to the fins of both the Killer Whale and the Dolphin. Relative proportions in the bone composition (affecting density), are linked with the feeding habits and mechanical stresses typically endured by bones of particular whale types. A Sperm Whale (Physeter macrocephalus Linnaeus, 1758) skeleton (toothed) thus has a higher mineral value (~67%) than a Fin Whale (Balaenoptera physalus Linnaeus, 1758) (baleen) (~60%) (Turner Walker 2012). The internal structure of bone can be divided into compact and cancellous bone. In whales, load-bearing structures such as mandibles and upper limb bones (e.g. humerus, sternum) are largely composed of compact bone (Turner Walker 2012). This consists of lamella concentrically deposited around the longitudinal axis and is permeated by fluid carrying channels (O’Connor 2008). Cancellous (spongy) bone, with a highly porous angular network of trabeculae, is less stiff and thus found in whale ribs and vertebrae (Turner Walker 2012). Whale oil Whales not only carry a thick layer of fat (blubber) in the soft tissue of their body for heat insulation and as a food store while they are alive, but also hold large oil (lipid) reserves in their porous bones. Following maceration of the whale skeleton after death to remove the soft tissue, the bones retain a high lipid content (Higgs et. al 2010). Particularly bones with a spongy (porous) structure have a high capacity to hold oil-rich marrow. Comparative data of various whale species suggests the skull, particularly the cranium and mandible bones are particularly oil rich. Along the vertebral column, the lipid content is reduced, particularly in the thoracic vertebrae (~10-25%), yet greatly increases from the lumbar to the caudal vertebrae (~40-55%). The chest area (scapula, sternum and ribs) show a mid-range lipid content (~15-30%), with vertically orientated ribs being more heavily soaked lower down (Turner Walker 2012, Higgs et. al 2010). Whale oil is largely composed of triglycerides (molecules of fatty acids attached to a glycerol molecule). In Arctic whales a higher proportion of unsaturated, versus saturated fatty acids make up the lipid. Unsaturated fatty acids (with double or triple carbon bonds causing chain kinks, preventing close packing (solidifying) of molecules), are more likely to be liquid (oil), versus solid (fat) at room temperature (Smith and March 2007). Objects Made From the Whaling Industry We all know that men set forth in sailing ships and risked their lives to harpoon whales on the open seas throughout the 1800s. And while Moby Dick and other tales have made whaling stories immortal, people today generally don't appreciate that the whalers were part of a well-organized industry. The ships that set out from ports in New England roamed as far as the Pacific in hunt of specific species of whales. Adventure may have been the draw for some whalers, but for the captains who owned whaling ships, and the investors which financed voyages, there was a considerable monetary payoff. The gigantic carcasses of whales were chopped and boiled down and turned into products such as the fine oil needed to lubricate increasing advanced machine tools. And beyond the oil derived from whales, even their bones, in an era before the invention of plastic, was used to make a wide variety of consumer goods. In short, whales were a valuable natural resource the same as wood, minerals, or petroleum we now pump from the ground. Oil From Whale’s Blubber Oil was the main product sought from whales, and it was used to lubricate machinery and to provide illumination by burning it in lamps. When a whale was killed, it was towed to the ship and its blubber, the thick insulating fat under its skin, would be peeled and cut from its carcass in a process known as “flensing.” The blubber was minced into chunks and boiled in large vats on board the whaling ship, producing oil. The oil taken from whale blubber was packaged in casks and transported back to the whaling ship’s home port (such as New Bedford, Massachusetts, the busiest American whaling port in the mid-1800s). From the ports it would be sold and transported across the country and would find its way into a huge variety of products. Whale oil, in addition to be used for lubrication and illumination, was also used to manufacture soaps, paint, and varnish. Whale oil was also utilized in some processes used to manufacture textiles and rope. Spermaceti, a Highly Regarded Oil A peculiar oil found in the head of the sperm whale, spermaceti, was highly prized. The oil was waxy, and was commonly used in making candles. In fact, candles made of spermaceti were considered the best in the world, producing a bright clear flame without an excess of smoke. Spermaceti was also used, distilled in liquid form, as an oil to fuel lamps. The main American whaling port, New Bedford, Massachusetts, was thus known as "The City That Lit the World." When John Adams was the ambassador to Great Britain before serving as president he recorded in his diary a conversation about spermaceti he had with the British Prime Minister William Pitt. Adams, keen to promote the New England whaling industry, was trying to convince the British to import spermaceti sold by American whalers, which the British could use to fuel street lamps. The British were not interested. In his diary, Adams wrote that he told Pitt, “the fat of the spermaceti whale gives the clearest and most beautiful flame of any substance that is known in nature, and we are surprised you prefer darkness, and consequent robberies, burglaries, and murders in your streets to receiving as a remittance our spermaceti oil.” Despite the failed sales pitch John Adams made in the late 1700s, the American whaling industry boomed in the early to mid-1800s. And spermaceti was a major component of that success. Spermaceti could be refined into a lubricant that was ideal for precision machinery. The machine tools that made the growth of industry possible in the United States were lubricated, and essentially made possible, by oil derived from spermaceti. Baleen, or "Whalebone" The bones and teeth of various species of whales were used in a number of products, many of them common implements in a 19th century household. Whales are said to have produced “the plastic of the 1800s.” The "bone" of the whale which was most commonly used wasn’t technically a bone, it was baleen, a hard material arrayed in large plates, like gigantic combs, in the mouths of some species of whales. The purpose of the baleen is to act as a sieve, catching tiny organisms in sea water, which the whale consumes as food. As baleen was tough yet flexible, it could be used in a number of practical applications. And it became commonly known as "whalebone." Perhaps the most common use of whalebone was in the manufacture of corsets, which fashionable ladies in the 1800s wore to compress their waistlines. One typical corset advertisement from the 1800s proudly proclaims, “Real Whalebone Only Used.” Whalebone was also used for collar stays, buggy whips, and toys. Its remarkable flexibility even caused it to be used as the springs in early typewriters. The comparison to plastic is apt. Think of common items which today might be made of plastic, and it's likely that similar items in the 1800s would have been made of whalebone. Baleen whales do not have teeth. But the teeth of other whales, such as the sperm whale, would be used as ivory in such products as chess pieces, piano keys, or the handles of walking sticks. Pieces of scrimshaw, or carved whale's teeth, would probably be the best remembered use of whale's teeth. However, the carved teeth were created to pass the time on whaling voyages and were never a mass production item. Their relative rarity, of course, is why genuine pieces of 19th century scrimshaw are considered to be valuable collectibles today. Reference: McNamara, Robert. "Objects Made From the Whaling Industry." ThoughtCo, Jul. 31, 2021, thoughtco.com/products-produced-from-whales-1774070.Whale bone was an important commodity, used in corsets, collar stays, buggy whips, and toys.Whale bone vertebrae. Advanced stage of calcification as indicated by deep pitting. Off white to grey.Noneflagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, whales, whale bone, corsets, toys, whips, whalebone

Prior to carrying out a detailed condition report of the cetacean skeletons, it is useful to have an understanding of the materials we are likely to encounter, in terms of structure and chemistry. This entry invites you to join in learning about the composition of whale bone and oil. Whale bone (Cetacean) bone is comprised of a composite structure of both an inorganic matrix of mainly hydroxylapatite (a calcium phosphate mineral), providing strength and rigidity, as well as an organic protein ‘scaffolding’ of mainly collagen, facilitating growth and repair (O’Connor 2008, CCI 2010). Collagen is also the structural protein component in cartilage between the whale vertebrae and attached to the fins of both the Killer Whale and the Dolphin. Relative proportions in the bone composition (affecting density), are linked with the feeding habits and mechanical stresses typically endured by bones of particular whale types. A Sperm Whale (Physeter macrocephalus Linnaeus, 1758) skeleton (toothed) thus has a higher mineral value (~67%) than a Fin Whale (Balaenoptera physalus Linnaeus, 1758) (baleen) (~60%) (Turner Walker 2012). The internal structure of bone can be divided into compact and cancellous bone. In whales, load-bearing structures such as mandibles and upper limb bones (e.g. humerus, sternum) are largely composed of compact bone (Turner Walker 2012). This consists of lamella concentrically deposited around the longitudinal axis and is permeated by fluid carrying channels (O’Connor 2008). Cancellous (spongy) bone, with a highly porous angular network of trabeculae, is less stiff and thus found in whale ribs and vertebrae (Turner Walker 2012). Whale oil Whales not only carry a thick layer of fat (blubber) in the soft tissue of their body for heat insulation and as a food store while they are alive, but also hold large oil (lipid) reserves in their porous bones. Following maceration of the whale skeleton after death to remove the soft tissue, the bones retain a high lipid content (Higgs et. al 2010). Particularly bones with a spongy (porous) structure have a high capacity to hold oil-rich marrow. Comparative data of various whale species suggests the skull, particularly the cranium and mandible bones are particularly oil rich. Along the vertebral column, the lipid content is reduced, particularly in the thoracic vertebrae (~10-25%), yet greatly increases from the lumbar to the caudal vertebrae (~40-55%). The chest area (scapula, sternum and ribs) show a mid-range lipid content (~15-30%), with vertically orientated ribs being more heavily soaked lower down (Turner Walker 2012, Higgs et. al 2010). Whale oil is largely composed of triglycerides (molecules of fatty acids attached to a glycerol molecule). In Arctic whales a higher proportion of unsaturated, versus saturated fatty acids make up the lipid. Unsaturated fatty acids (with double or triple carbon bonds causing chain kinks, preventing close packing (solidifying) of molecules), are more likely to be liquid (oil), versus solid (fat) at room temperature (Smith and March 2007). Objects Made From the Whaling Industry We all know that men set forth in sailing ships and risked their lives to harpoon whales on the open seas throughout the 1800s. And while Moby Dick and other tales have made whaling stories immortal, people today generally don't appreciate that the whalers were part of a well-organized industry. The ships that set out from ports in New England roamed as far as the Pacific in hunt of specific species of whales. Adventure may have been the draw for some whalers, but for the captains who owned whaling ships, and the investors which financed voyages, there was a considerable monetary payoff. The gigantic carcasses of whales were chopped and boiled down and turned into products such as the fine oil needed to lubricate increasing advanced machine tools. And beyond the oil derived from whales, even their bones, in an era before the invention of plastic, was used to make a wide variety of consumer goods. In short, whales were a valuable natural resource the same as wood, minerals, or petroleum we now pump from the ground. Oil From Whale’s Blubber Oil was the main product sought from whales, and it was used to lubricate machinery and to provide illumination by burning it in lamps. When a whale was killed, it was towed to the ship and its blubber, the thick insulating fat under its skin, would be peeled and cut from its carcass in a process known as “flensing.” The blubber was minced into chunks and boiled in large vats on board the whaling ship, producing oil. The oil taken from whale blubber was packaged in casks and transported back to the whaling ship’s home port (such as New Bedford, Massachusetts, the busiest American whaling port in the mid-1800s). From the ports it would be sold and transported across the country and would find its way into a huge variety of products. Whale oil, in addition to be used for lubrication and illumination, was also used to manufacture soaps, paint, and varnish. Whale oil was also utilized in some processes used to manufacture textiles and rope. Spermaceti, a Highly Regarded Oil A peculiar oil found in the head of the sperm whale, spermaceti, was highly prized. The oil was waxy, and was commonly used in making candles. In fact, candles made of spermaceti were considered the best in the world, producing a bright clear flame without an excess of smoke. Spermaceti was also used, distilled in liquid form, as an oil to fuel lamps. The main American whaling port, New Bedford, Massachusetts, was thus known as "The City That Lit the World." When John Adams was the ambassador to Great Britain before serving as president he recorded in his diary a conversation about spermaceti he had with the British Prime Minister William Pitt. Adams, keen to promote the New England whaling industry, was trying to convince the British to import spermaceti sold by American whalers, which the British could use to fuel street lamps. The British were not interested. In his diary, Adams wrote that he told Pitt, “the fat of the spermaceti whale gives the clearest and most beautiful flame of any substance that is known in nature, and we are surprised you prefer darkness, and consequent robberies, burglaries, and murders in your streets to receiving as a remittance our spermaceti oil.” Despite the failed sales pitch John Adams made in the late 1700s, the American whaling industry boomed in the early to mid-1800s. And spermaceti was a major component of that success. Spermaceti could be refined into a lubricant that was ideal for precision machinery. The machine tools that made the growth of industry possible in the United States were lubricated, and essentially made possible, by oil derived from spermaceti. Whalebone The bones and teeth of various species of whales were used in a number of products, many of them common implements in a 19th century household. Whales are said to have produced “the plastic of the 1800s.” The bone of the whale which was most commonly used wasn’t technically a bone, it was baleen, a hard material arrayed in large plates, like gigantic combs, in the mouths of some species of whales. The purpose of the baleen is to act as a sieve, catching tiny organisms in sea water, which the whale consumes as food. As baleen was tough yet flexible, it could be used in a number of practical applications. And it became commonly known as whalebone. Perhaps the most common use of whalebone was in the manufacture of corsets, which fashionable ladies in the 1800s wore to compress their waistlines. One typical corset advertisement from the 1800s proudly proclaims, “Real Whalebone Only Used.” Whalebone was also used for collar stays, buggy whips, and toys. Its remarkable flexibility even caused it to be used as the springs in early typewriters. The comparison to plastic is apt. Think of common items which today might be made of plastic, and it's likely that similar items in the 1800s would have been made of whalebone. Baleen whales do not have teeth. But the teeth of other whales, such as the sperm whale, would be used as ivory in such products as chess pieces, piano keys, or the handles of walking sticks. Pieces of scrimshaw, or carved whale's teeth, would probably be the best remembered use of whale's teeth. However, the carved teeth were created to pass the time on whaling voyages and were never a mass production item. Their relative rarity, of course, is why genuine pieces of 19th century scrimshaw are considered to be valuable collectibles today. Reference: McNamara, Robert. "Objects Made From the Whaling Industry." ThoughtCo, Jul. 31, 2021, thoughtco.com/products-produced-from-whales-1774070.Whale bone during the 17th, 18th, 19th and early 20th centuries was an important industry providing an important commodity. Whales from these times provided everything from lighting & machine oils to using the animal's bones for use in corsets, collar stays, buggy whips, and many other everyday items then in use.Whale bone Vertebrae with advanced stage of calcification as indicated by deep pitting. Off white to grey.None.warrnambool, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, whale bones, whale skeleton, whales, whale bone, corsets, toys, whips, whaleling industry, maritime fishing, whalebone

Prior to carrying out a detailed condition report of the cetacean skeletons, it is useful to have an understanding of the materials we are likely to encounter, in terms of structure and chemistry. This entry invites you to join in learning about the composition of whale bone and oil. Whale bone (Cetacean) bone is comprised of a composite structure of both an inorganic matrix of mainly hydroxylapatite (a calcium phosphate mineral), providing strength and rigidity, as well as an organic protein ‘scaffolding’ of mainly collagen, facilitating growth and repair (O’Connor 2008, CCI 2010). Collagen is also the structural protein component in cartilage between the whale vertebrae and attached to the fins of both the Killer Whale and the Dolphin. Relative proportions in the bone composition (affecting density), are linked with the feeding habits and mechanical stresses typically endured by bones of particular whale types. A Sperm Whale (Physeter macrocephalus Linnaeus, 1758) skeleton (toothed) thus has a higher mineral value (~67%) than a Fin Whale (Balaenoptera physalus Linnaeus, 1758) (baleen) (~60%) (Turner Walker 2012). The internal structure of bone can be divided into compact and cancellous bone. In whales, load-bearing structures such as mandibles and upper limb bones (e.g. humerus, sternum) are largely composed of compact bone (Turner Walker 2012). This consists of lamella concentrically deposited around the longitudinal axis and is permeated by fluid carrying channels (O’Connor 2008). Cancellous (spongy) bone, with a highly porous angular network of trabeculae, is less stiff and thus found in whale ribs and vertebrae (Turner Walker 2012). Whale oil Whales not only carry a thick layer of fat (blubber) in the soft tissue of their body for heat insulation and as a food store while they are alive, but also hold large oil (lipid) reserves in their porous bones. Following maceration of the whale skeleton after death to remove the soft tissue, the bones retain a high lipid content (Higgs et. al 2010). Particularly bones with a spongy (porous) structure have a high capacity to hold oil-rich marrow. Comparative data of various whale species suggests the skull, particularly the cranium and mandible bones are particularly oil rich. Along the vertebral column, the lipid content is reduced, particularly in the thoracic vertebrae (~10-25%), yet greatly increases from the lumbar to the caudal vertebrae (~40-55%). The chest area (scapula, sternum and ribs) show a mid-range lipid content (~15-30%), with vertically orientated ribs being more heavily soaked lower down (Turner Walker 2012, Higgs et. al 2010). Whale oil is largely composed of triglycerides (molecules of fatty acids attached to a glycerol molecule). In Arctic whales a higher proportion of unsaturated, versus saturated fatty acids make up the lipid. Unsaturated fatty acids (with double or triple carbon bonds causing chain kinks, preventing close packing (solidifying) of molecules), are more likely to be liquid (oil), versus solid (fat) at room temperature (Smith and March 2007). Objects Made From the Whaling Industry We all know that men set forth in sailing ships and risked their lives to harpoon whales on the open seas throughout the 1800s. And while Moby Dick and other tales have made whaling stories immortal, people today generally don't appreciate that the whalers were part of a well-organized industry. The ships that set out from ports in New England roamed as far as the Pacific in hunt of specific species of whales. Adventure may have been the draw for some whalers, but for the captains who owned whaling ships, and the investors which financed voyages, there was a considerable monetary payoff. The gigantic carcasses of whales were chopped and boiled down and turned into products such as the fine oil needed to lubricate increasing advanced machine tools. And beyond the oil derived from whales, even their bones, in an era before the invention of plastic, was used to make a wide variety of consumer goods. In short, whales were a valuable natural resource the same as wood, minerals, or petroleum we now pump from the ground. Oil From Whale’s Blubber Oil was the main product sought from whales, and it was used to lubricate machinery and to provide illumination by burning it in lamps. When a whale was killed, it was towed to the ship and its blubber, the thick insulating fat under its skin, would be peeled and cut from its carcass in a process known as “flensing.” The blubber was minced into chunks and boiled in large vats on board the whaling ship, producing oil. The oil taken from whale blubber was packaged in casks and transported back to the whaling ship’s home port (such as New Bedford, Massachusetts, the busiest American whaling port in the mid-1800s). From the ports it would be sold and transported across the country and would find its way into a huge variety of products. Whale oil, in addition to be used for lubrication and illumination, was also used to manufacture soaps, paint, and varnish. Whale oil was also utilized in some processes used to manufacture textiles and rope. Spermaceti, a Highly Regarded Oil A peculiar oil found in the head of the sperm whale, spermaceti, was highly prized. The oil was waxy, and was commonly used in making candles. In fact, candles made of spermaceti were considered the best in the world, producing a bright clear flame without an excess of smoke. Spermaceti was also used, distilled in liquid form, as an oil to fuel lamps. The main American whaling port, New Bedford, Massachusetts, was thus known as "The City That Lit the World." When John Adams was the ambassador to Great Britain before serving as president he recorded in his diary a conversation about spermaceti he had with the British Prime Minister William Pitt. Adams, keen to promote the New England whaling industry, was trying to convince the British to import spermaceti sold by American whalers, which the British could use to fuel street lamps. The British were not interested. In his diary, Adams wrote that he told Pitt, “the fat of the spermaceti whale gives the clearest and most beautiful flame of any substance that is known in nature, and we are surprised you prefer darkness, and consequent robberies, burglaries, and murders in your streets to receiving as a remittance our spermaceti oil.” Despite the failed sales pitch John Adams made in the late 1700s, the American whaling industry boomed in the early to mid-1800s. And spermaceti was a major component of that success. Spermaceti could be refined into a lubricant that was ideal for precision machinery. The machine tools that made the growth of industry possible in the United States were lubricated, and essentially made possible, by oil derived from spermaceti. Baleen, or "Whalebone" The bones and teeth of various species of whales were used in a number of products, many of them common implements in a 19th century household. Whales are said to have produced “the plastic of the 1800s.” The "bone" of the whale which was most commonly used wasn’t technically a bone, it was baleen, a hard material arrayed in large plates, like gigantic combs, in the mouths of some species of whales. The purpose of the baleen is to act as a sieve, catching tiny organisms in sea water, which the whale consumes as food. As baleen was tough yet flexible, it could be used in a number of practical applications. And it became commonly known as "whalebone." Perhaps the most common use of whalebone was in the manufacture of corsets, which fashionable ladies in the 1800s wore to compress their waistlines. One typical corset advertisement from the 1800s proudly proclaims, “Real Whalebone Only Used.” Whalebone was also used for collar stays, buggy whips, and toys. Its remarkable flexibility even caused it to be used as the springs in early typewriters. The comparison to plastic is apt. Think of common items which today might be made of plastic, and it's likely that similar items in the 1800s would have been made of whalebone. Baleen whales do not have teeth. But the teeth of other whales, such as the sperm whale, would be used as ivory in such products as chess pieces, piano keys, or the handles of walking sticks. Pieces of scrimshaw, or carved whale's teeth, would probably be the best remembered use of whale's teeth. However, the carved teeth were created to pass the time on whaling voyages and were never a mass production item. Their relative rarity, of course, is why genuine pieces of 19th century scrimshaw are considered to be valuable collectibles today. Reference: McNamara, Robert. "Objects Made From the Whaling Industry." ThoughtCo, Jul. 31, 2021, thoughtco.com/products-produced-from-whales-1774070.Whale bone during the 17th, 18th, 19th and early 20th centuries was an important industry providing an important commodity. Whales from these times provided everything from lighting & machine oils to using the animal's bones for use in corsets, collar stays, buggy whips, and many other everyday items then in use.Whale jaw bone one side, long & curved with advanced stage of calcification off white to grey.None.warrnambool, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, whale bones, whale skeleton, whales, whale bone, corsets, toys, whips, whaleling industry, maritime fishing, whalebone

Ludmilla Meilerts, Oil On Board, Botanical Gardens, Circa 1970 Ludmilla Meilerts (1908 - 1997), Botanical Gardens, Melbourne, an impressive work painted with bold brushstrokes and a vivid colourful palette which typifies the artists work. ​ Born in Riga,Latvia in 1908 - After displaying an early talent for art she studied at The Latvian Academy Of Fine Arts graduating in 1940. Later that year she married Otto Meilerts, an Economist, and they moved to Stuttgart, Germany to avoid living under Soviet occupation and then emigrated to Australia in 1948 settling in Melbourne. She worked as a nurse's aid and in a clothing factory to fund the further development of her artistic career achieving considerable early success with her colourful work encompassing portraiture, florals and city and landscapes. She particularly like painting dockland scenes. She was a member of The Victorian Artists Society (VAS) and The Melbourne Society Of Woman Painters And Sculptors. ​ Major prizes include The Dunlop Prize in 1952, Gosford Art prize 1971, Camberwell 1973, VAS Purstitz Gold Medal 1982. She is represented in The State Galleries of Victoria, NSW, Tasmania and Western Australia as well as several regional Galleries.​ ​Still life of fruit and a jog. Painted in thick impasto paint, creating a very textured surface. Fruit is depicted in green, brown, apricot, pink and red. Background is abstract. Upper left background is brown, upper centre and right background is in shades of grey, blue and green, with some white. Brown wooden frame.Front: L Meilerts 70 (lower right, black paint)still life, female artists, women, women artists

Set of nine photocopied plans or drawings on A3 sheets of the "Preston Workshops" - c1939 .1 - P8491 - Plan of land showing layout and associated drawings including Reservoir railway line - 19-4-1939. .2 - P8492 - Plan of Timber stacks and Hall - 3-2-1939 .3 - P8493 - Plan of Offices and location of sub-station - 13-12-1938 .4 - P8494 - Plan of Store including Oil store - c1939. .5 - P8495 - Plan of Paint Shop and relationship to timber stack - 1-3-1939 .6 - P8496 - Plan of Car building and Repairs shop - 6-12-1938 .7 - P8497 - Plan of machine shop - 10-12-1938 .8 - P8500 - Plan of Blacksmiths shop - 1-12-1938 .9 - P8590 - Plan of Substation - 1-12-1938trams, tramways, drawings, depots, property, preston workshops, workshops, substation

Prior to carrying out a detailed condition report of the cetacean skeletons, it is useful to have an understanding of the materials we are likely to encounter, in terms of structure and chemistry. This entry invites you to join in learning about the composition of whale bone and oil. Whale bone (Cetacean) bone is comprised of a composite structure of both an inorganic matrix of mainly hydroxylapatite (a calcium phosphate mineral), providing strength and rigidity, as well as an organic protein ‘scaffolding’ of mainly collagen, facilitating growth and repair (O’Connor 2008, CCI 2010). Collagen is also the structural protein component in cartilage between the whale vertebrae and attached to the fins of both the Killer Whale and the Dolphin. Relative proportions in the bone composition (affecting density), are linked with the feeding habits and mechanical stresses typically endured by bones of particular whale types. A Sperm Whale (Physeter macrocephalus Linnaeus, 1758) skeleton (toothed) thus has a higher mineral value (~67%) than a Fin Whale (Balaenoptera physalus Linnaeus, 1758) (baleen) (~60%) (Turner Walker 2012). The internal structure of bone can be divided into compact and cancellous bone. In whales, load-bearing structures such as mandibles and upper limb bones (e.g. humerus, sternum) are largely composed of compact bone (Turner Walker 2012). This consists of lamella concentrically deposited around the longitudinal axis and is permeated by fluid carrying channels (O’Connor 2008). Cancellous (spongy) bone, with a highly porous angular network of trabeculae, is less stiff and thus found in whale ribs and vertebrae (Turner Walker 2012). Whale oil Whales not only carry a thick layer of fat (blubber) in the soft tissue of their body for heat insulation and as a food store while they are alive, but also hold large oil (lipid) reserves in their porous bones. Following maceration of the whale skeleton after death to remove the soft tissue, the bones retain a high lipid content (Higgs et. al 2010). Particularly bones with a spongy (porous) structure have a high capacity to hold oil-rich marrow. Comparative data of various whale species suggests the skull, particularly the cranium and mandible bones are particularly oil rich. Along the vertebral column, the lipid content is reduced, particularly in the thoracic vertebrae (~10-25%), yet greatly increases from the lumbar to the caudal vertebrae (~40-55%). The chest area (scapula, sternum and ribs) show a mid-range lipid content (~15-30%), with vertically orientated ribs being more heavily soaked lower down (Turner Walker 2012, Higgs et. al 2010). Whale oil is largely composed of triglycerides (molecules of fatty acids attached to a glycerol molecule). In Arctic whales a higher proportion of unsaturated, versus saturated fatty acids make up the lipid. Unsaturated fatty acids (with double or triple carbon bonds causing chain kinks, preventing close packing (solidifying) of molecules), are more likely to be liquid (oil), versus solid (fat) at room temperature (Smith and March 2007). Objects Made From the Whaling Industry We all know that men set forth in sailing ships and risked their lives to harpoon whales on the open seas throughout the 1800s. And while Moby Dick and other tales have made whaling stories immortal, people today generally don't appreciate that the whalers were part of a well-organized industry. The ships that set out from ports in New England roamed as far as the Pacific in hunt of specific species of whales. Adventure may have been the draw for some whalers, but for the captains who owned whaling ships, and the investors which financed voyages, there was a considerable monetary payoff. The gigantic carcasses of whales were chopped and boiled down and turned into products such as the fine oil needed to lubricate increasing advanced machine tools. And beyond the oil derived from whales, even their bones, in an era before the invention of plastic, was used to make a wide variety of consumer goods. In short, whales were a valuable natural resource the same as wood, minerals, or petroleum we now pump from the ground. Oil From Whale’s Blubber Oil was the main product sought from whales, and it was used to lubricate machinery and to provide illumination by burning it in lamps. When a whale was killed, it was towed to the ship and its blubber, the thick insulating fat under its skin, would be peeled and cut from its carcass in a process known as “flensing.” The blubber was minced into chunks and boiled in large vats on board the whaling ship, producing oil. The oil taken from whale blubber was packaged in casks and transported back to the whaling ship’s home port (such as New Bedford, Massachusetts, the busiest American whaling port in the mid-1800s). From the ports it would be sold and transported across the country and would find its way into a huge variety of products. Whale oil, in addition to be used for lubrication and illumination, was also used to manufacture soaps, paint, and varnish. Whale oil was also utilized in some processes used to manufacture textiles and rope. Spermaceti, a Highly Regarded Oil A peculiar oil found in the head of the sperm whale, spermaceti, was highly prized. The oil was waxy, and was commonly used in making candles. In fact, candles made of spermaceti were considered the best in the world, producing a bright clear flame without an excess of smoke. Spermaceti was also used, distilled in liquid form, as an oil to fuel lamps. The main American whaling port, New Bedford, Massachusetts, was thus known as "The City That Lit the World." When John Adams was the ambassador to Great Britain before serving as president he recorded in his diary a conversation about spermaceti he had with the British Prime Minister William Pitt. Adams, keen to promote the New England whaling industry, was trying to convince the British to import spermaceti sold by American whalers, which the British could use to fuel street lamps. The British were not interested. In his diary, Adams wrote that he told Pitt, “the fat of the spermaceti whale gives the clearest and most beautiful flame of any substance that is known in nature, and we are surprised you prefer darkness, and consequent robberies, burglaries, and murders in your streets to receiving as a remittance our spermaceti oil.” Despite the failed sales pitch John Adams made in the late 1700s, the American whaling industry boomed in the early to mid-1800s. And spermaceti was a major component of that success. Spermaceti could be refined into a lubricant that was ideal for precision machinery. The machine tools that made the growth of industry possible in the United States were lubricated, and essentially made possible, by oil derived from spermaceti. Baleen, or "Whalebone" The bones and teeth of various species of whales were used in a number of products, many of them common implements in a 19th century household. Whales are said to have produced “the plastic of the 1800s.” The "bone" of the whale which was most commonly used wasn’t technically a bone, it was baleen, a hard material arrayed in large plates, like gigantic combs, in the mouths of some species of whales. The purpose of the baleen is to act as a sieve, catching tiny organisms in sea water, which the whale consumes as food. As baleen was tough yet flexible, it could be used in a number of practical applications. And it became commonly known as "whalebone." Perhaps the most common use of whalebone was in the manufacture of corsets, which fashionable ladies in the 1800s wore to compress their waistlines. One typical corset advertisement from the 1800s proudly proclaims, “Real Whalebone Only Used.” Whalebone was also used for collar stays, buggy whips, and toys. Its remarkable flexibility even caused it to be used as the springs in early typewriters. The comparison to plastic is apt. Think of common items which today might be made of plastic, and it's likely that similar items in the 1800s would have been made of whalebone. Baleen whales do not have teeth. But the teeth of other whales, such as the sperm whale, would be used as ivory in such products as chess pieces, piano keys, or the handles of walking sticks. Pieces of scrimshaw, or carved whale's teeth, would probably be the best remembered use of whale's teeth. However, the carved teeth were created to pass the time on whaling voyages and were never a mass production item. Their relative rarity, of course, is why genuine pieces of 19th century scrimshaw are considered to be valuable collectibles today. Reference: McNamara, Robert. "Objects Made From the Whaling Industry." ThoughtCo, Jul. 31, 2021, thoughtco.com/products-produced-from-whales-1774070.Whale bone during the 17th, 18th, 19th and early 20th centuries was an important industry providing an important commodity. Whales from these times provided everything from lighting & machine oils to using the animal's bones for use in corsets, collar stays, buggy whips, and many other everyday items then in use.Whale rib bone with advanced stage of calcification as indicated by brittleness. None.warrnambool, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, whale bones, whale skeleton, whales, whale bone, corsets, toys, whips, whaleling industry, maritime fishing, whalebone

Built by noted artist Theodore Penleigh Boyd, father of architect Robin Boyd. Covered under National Estate, National Trust of Australia (Victoria) Local Significance and Heritage Overlay, Nillumbik Planning Scheme. Published: Nillumbik Now and Then /​ Marguerite Marshall 2008; photographs Alan King with Marguerite Marshall.; p111 The Robins at Warrandyte,* was once home to a member of a famous family and is also one of the first reinforced concrete houses in Victoria. The builder, Theodore Penleigh Boyd, born in 1890, was a talented painter1 noted for his works of the Warrandyte bush. He was the father of architect Robin Boyd, author of the Australian Ugliness and the uncle of painter, Arthur Boyd. Penleigh Boyd’s great grandfather was Sir William A’Beckett, Victoria’s first Chief Justice. Penleigh Boyd is considered by some to be an ‘unsung hero’ overshadowed by more famous members of his family. Mornington Gallery Director Andrea May said many believed Boyd ‘had never received the national acclaim that he deserved’.2 Classified by the National Trust3 and part of the Australian National Heritage,4 The Robins is set well back near the end of Kangaroo Ground – Warrandyte Road, unobserved by passers-by. Built in 1913, The Robins has some Art Nouveau influences and is a descendant of the Queen Anne style. It is covered in stucco and has a prominent attic, which Boyd used as a studio. Some parts of the house are up to 33 centimetres thick and built in part with pisé (rammed earth) and in part with reinforced concrete. Amazingly, Boyd built The Robins without an accessible driveway, and only a narrow track along which he had to cart building materials. The journey was uphill and Boyd terraced the land with Warrandyte rock5 without the aid of machinery. At only 33 years, Boyd was killed in a car accident in 1923. He was buried in Brighton near the home of his parents. Several people have since owned the house, including political journalist, Owen Webster. Boyd was born at Penleigh House, Wiltshire, and studied at Haileybury College, Melbourne and The Hutchins School, Hobart. He attended the Melbourne National Gallery School and in his final year exhibited at the Victorian Artists’ Society. He arrived in London in 1911 and his painting Springtime was hung at the Royal Academy. He painted in several studios in England and then worked in Paris.6 There he met painter Phillips Fox through whom he met artists of the French modern school and also his wife-to-be, Edith Anderson, whom he married in Paris in 1912. After touring France and Italy, the couple returned to Melbourne. In 1913 Boyd held an exhibition and won second prize in the Federal Capital site competition, then the Wynne Prize for landscape in 1914. In 1915 Boyd joined the Australian Imperial Force, and became a sergeant in the Electrical and Mechanical Mining Company. However he was severely gassed at Ypres and invalided to England. In 1918 in London Boyd published Salvage, writing the text and illustrating it with 20 black-and-white ink-sketches of army scenes. Later that year he returned to Melbourne, and, despite suffering from the effects of gas, he held several successful one-man shows, quickly selling his water-colour and oil paintings. In his short career Penleigh Boyd was recognized as one of Australia’s finest landscape painters. He loved colour, having been influenced early by Turner and McCubbin. His works are in all Australian state galleries, the National Collection in Canberra as well as in regional galleries.7 His wife Edith was also an artist having studied at the Slade School, London, and in Paris with Phillips Fox. After her marriage she continued to paint and excelled in drawing. In later years she wrote several dramas, staged by repertory companies, and radio plays for the Australian Broadcasting Commission, in which she took part. She was the model for the beautiful red-haired woman in several of Phillips Fox’s paintings and the family hold three of his portraits of her. *Possibly named after the Aboriginal words warran, meaning ‘object’ and dyte, meaning ‘thrown at’.This collection of almost 130 photos about places and people within the Shire of Nillumbik, an urban and rural municipality in Melbourne's north, contributes to an understanding of the history of the Shire. Published in 2008 immediately prior to the Black Saturday bushfires of February 7, 2009, it documents sites that were impacted, and in some cases destroyed by the fires. It includes photographs taken especially for the publication, creating a unique time capsule representing the Shire in the early 21st century. It remains the most recent comprehenesive publication devoted to the Shire's history connecting local residents to the past. nillumbik now and then (marshall-king) collection, kangaroo ground-warrandyte road, north warrandyte, the robins

Image showing three stone buildings in a country scene. In the foreground there is man and child and two goats. There is a car with three people surrounding it. The weather looks dark, dark clouds. A large Norfolk Pine behind the building. The middle building is two storey with an outhouse attached. A chimney and two spires at each end of the house. The building to the right of the main building is weatherboard with a fence. To the left of the main building is a ruined stone building with the roof fallen in. Trees and hills surround. Gold painted frame.Bottom right - Kenneth Jack - July 1952

CEMA Art collection. Winner of 1966 Portland art Society Art Prize for category oil. Included in the 1999 "Salvage" exhibition at CEMA Arts Centre.AbstractAbstract depiction of a person with a bunch of bananas completed in shades of red, brown and black. The focus of the work is the standing human figure with brown clothing and red skin tones. The person is looking to their right at the bunch of bananas they are holding. The work has a two tiered wooden frame and exposed canvas.Front: Von(lower left, etched into black paint) Back: Taped label:"Banana Grower" Yvonne Cohen Porter St Templestow $ 90.00 Glued label: Yvonne Cohen :Banana Grower"(1966) Yellow sticker: 1966cema, portland artists society, female artists, female, women, bannana, agriculture

Painted by Sue JarvisFramed oil painting featuring a Buckland Valley landscape. Titled: "Valley" painted by Sue Jarvis. Brown wood frame. Signed by the artist lower right corner. Painting of a view of a valley with a tree on the left hand lower corner and hills in the distance. Painted predominately in shades of blues and greens. Framed in a gold frame. Note: Item approved for deaccession August 2023. SGSC will now follow deaccession procedures as outlined in the Arts and Civic Memorabilia Collection Policy - https://www.southgippsland.vic.gov.au/downloads/file/2763/arts_and_artefacts_collection_policy_c69. Signed by the artist lower right corner

Framed oil painting titled: "Coastline near Inverloch" painted by Mary Hennekam. Set in cream card window mount with brass plaque affixed to lower edge. Gold painted wood frame. Note: Item approved for deaccession August 2023. SGSC will now follow deaccession procedures as outlined in the Arts and Civic Memorabilia Collection Policy - https://www.southgippsland.vic.gov.au/downloads/file/2763/arts_and_artefacts_collection_policy_c69.

Framed oil painting titled: "Natures Bounty" painted by Joanna Miles. Features still life of fruit, vase of flowers, ceramic bottle and dish on cloth covered table. Decorative gold painted wood frame. Note: Item approved for deaccession August 2023. SGSC will now follow deaccession procedures as outlined in the Arts and Civic Memorabilia Collection Policy - https://www.southgippsland.vic.gov.au/downloads/file/2763/arts_and_artefacts_collection_policy_c69.

Travis Webber was born in South Australia in 1900. He died in 1968. He studied at the South Australian School of Arts where he went on to teach. Webber established himself as one of the Australia's most prolific landscape artists. His work is held in several large galleries.Bluestone building with a shingle roof. In foreground right is a wooden fence. A carriageway cuts through centre of building, and above this is a window filled in with corrugated iron. The right side of building has large cracks. A tree is growing against the building in image centre, and bushes at image left and right. Framed in wooden frame.Front: Travis Webber (brown paint, lower left) Back: Geelong Picture Framers, 211 Moorabool Street, Gelong. Ph: 97805 (blue ink stamp, lower centre).oil painting, greenmount, landscape, portland landscape

Painted by former internee in Loveday camp, thought to be Ludwig Winter, and given to Mrs. Gillies. Winter, was interned from Persia, and on his release, obtained a position as Electrical Engineer at the Kyabram Cannery.Oil painting in plain cream chamfered timber frame. Man in foreground with hut, high peimeter fencing and guard tower.Niltatura, loveday internment camp, ludwig winter, illustrations, oil

CEMA Art Collection Winner of Portland Artists' Society Prize for category Oil.The painting portrays a standing female figure. She has straight black hair which sits just above shoulder length. she has a short fringe. She wears a blue and green dress with orange markings. She is depicted as looking at the observer and holds something in her right hand which is held across her body. The background is a mixture of purple, green and blue. The work has a thick wooden frame and exposed canvas.Front: - 63 AMOR (lower right, black paint) Back: ELMA AMOR HERBST "GIRL" (1963) (lower left, typed label)cema, portland artists society, female artist, women, female artists, female portrait, portrait painting, portrait

View of two tents and a wagon in a dry landscape. In foreground is a camel loaded with packaged goods. A man on a horse is in centre of image, to the right of one of the tents. Two more horses are tethered by the wagon of far right. In background are trees and grassland. The top half of image is sky, with clouds painted in blue, grey and mauve with white highlights. Australian desert scene. Framed in silver and gold painted wooden frame.Front: B. Malloch '77 (lower right) (sienna paint) Back: 8 (pencil, sticker, upper left)oil painting, camel, horses, transport