This is a set of 15 photographs of a visit to the Army Survey Regiment, by the Regimental Sergeant-Major of the Australian Army (RSM-A) WO1 Kevin (Lofty) Wendt OAM, BEM on the 10th of August 1989. He was taken on a tour through the production facilities and messes. RSM-A WO1 Kevin (Lofty) Wendt OAM, BEM was the 2nd RSM to be appointed to the position of RSM-A, the most senior Warrant Officer position in the Australian Army. His appointment was from 1987 to 1990. On this occasion he was escorted by WO1 Neville Stone, who was the RSM of the Army Survey Regiment from 1988 to 1990. Refer to item 6437.16P for photos of the production facilities tour.This is a set of 15 photographs of a visit to the Army Survey Regiment (ASR) , Fortuna, Bendigo by the Regimental Sergeant-Major of the Australian Army (RSM-A) WO1 Kevin (Lofty) Wendt OAM, BEM on the 10th of August 1989. The photographs are on 35mm negative film and were scanned at 96 dpi. They are part of the Army Survey Regiment’s Collection. .1) - Photo, black & white, 1989. L to R: ASR RSM WO1 Neville Stone, RSM-A WO1 Kevin (Lofty) Wendt OAM, BEM. .2) - Photo, black & white, 1989. L to R: WO2 Rowan Gillies, SGT Noel McNamara, SGT Bruce Hammond, SGT Roger Rees, WO2 George Graham. .3) - Photo, black & white, 1989. L to R: unidentified, WO2 Steve Egan. WO1 Trevor Osborne, RSM-A WO1 Kevin (Lofty) Wendt OAM, BEM, unidentified, SGT Frank Lenane. .4) - Photo, black & white, 1989. L to R: ASR RSM WO1 Neville Stone, John ‘Stormy’ Tempest, SSGT Brad Peppler. .5) - Photo, black & white, 1989. L to R: RSM-A WO1 Kevin (Lofty) Wendt OAM, BEM, WO2 Barry Lutwyche OAM, SGT Steve Burke, SGT Frank Lenane, SGT Peter Imeson. .6) to .9) - Photo, black & white, 1989. Dinner is served - unidentified Catering Corps staff. .10) - Photo, black & white, 1989. Dinner is served - L to R: RSM-A WO1 Kevin (Lofty) Wendt OAM, BEM, ASR RSM WO1 Neville Stone. .11) - Photo, black & white, 1989. Dinner is served - L to R: ASR RSM WO1 Neville Stone, RSM-A WO1 Kevin (Lofty) Wendt OAM, BEM, WO1 Stevo Hinic, WO2 George Graham, unidentified, SSGT Brad Peppler, SGT Bob Garritty, SGT Paul Hopes. .12) - Photo, black & white, 1989. Dinner is served - unidentified Catering Corps staff. .13) - Photo, black & white, 1989. L to R: SGT Greg Anderson, RSM-A WO1 Kevin (Lofty) Wendt OAM, BEM. .14) - Photo, black & white, 1989. L to R: unidentified, SSGT Rick van der Bom. .15) - Photo, black & white, 1989. L to R: SGT Greg Anderson, unidentified, back of RSM-A WO1 Kevin (Lofty) Wendt OAM, BEM, unidentified..1P to .15P – no annotationsroyal australian survey corps, rasvy, army survey regiment, army svy regt, fortuna, asr

Token presented to the postmistress Miss Marianne Thomson from the citizens of Ringwood, 1st August 1913.Presentation to postmistress Miss Marianne Thomson, signed by the citizens of Ringwood on 1st August 1913. +Additional Keywords: Citizens of RingwoodThis token of Our esteem is presented to You by the Undermentioned Citizens of Ringwood on Your retirement from the position of Postmistress after thirty Years Honourable Service. We take this Opportunity of thanking You for Your very many Acts of Kindness and Courtesy. And in conclusion trusting that You will be long spared to enjoy the Rest You have so faithfully earned. We have the privilege of Subscribing Ourselves. Yours very Sincerely, 1st August 1913. A.J.B.Aird, J.G.Aird, W.Aitken, J.C.Allan, H.E.B.Armstrong, L.F.Armstrong, A.D.Anderson, G.Anderson, M.Anderson, O.Anderson, T.Anderson, F.Baker, Bamford Bros, J.W.Barrett, E.Baxter, J.Bienvenu, A.Blood, G.Blood, H.Blood, I.Blood, S.Blood, W.J.Blood, L.Brakewell, G.Bray, G.T.Bruce, Mrs.Bruce, T.Burrows, W.H.Chamberlain, A.Chivers, R.E.Clarke, F.Clayton, J.Cooper, J.Cornelt, W.J.Craig, M.A.Crusswell, W.Cutts, Mrs W.Cutts, A.Daniel, F.Daniel, G.G.Davey, E.Davis, O.Delaney, M.Dickson, E.J.Evans, H.L.Falconer, N.Falconer, T.Falconer, T.S.Falconer, J.C.Fitzpatrick, P.Fitzpatrick, Mr.Geraghty, Mrs.Geraghty, H.Gerlach, A.Gowty, M.A.Grant, T.Grant J.P, M.R.Grant, A.E.Grant, T.W.Grant, A.D.Guthrie, H.Hamilton, C.Hams, A.Hann, E.Hann, Mrs.E.Hann, E.L.Hann, J.Hann, Harding, K.Henriques, J.Higginson, J.Hill, W.Hill, W.Hone, G.B.Howship, P.Howship, H.C.Howship, S.J.Kennedy, E.Keogh, J.P.Kiernan, A.King, Mrs.A.King, A.Kleinert, J.Knox Jr., T.Knox, H.C.Jones, J.Jones, T.H.Justice, W.N.Lamont, A.T.Langley, Mrs.Langley, F.D.Laurie, R.C.Layton, L.Leadbeater, A.Lindsay, J.Lothian, A.Loughnan, B.Mackinlay, E.Mackinlay, H.Mackinlay, W.Mackinlay, W.R.Mackinlay, C.L.Madden, N.Madden, J.J.Maggs, Miss.D.Maggs, A.Matthews, A.H.Miles, A.T.Miles, L.C.Miles, C.E.Miles, R.F.Miles, S.D.Miles, W.E.Miles, C.Mills, E.A.Milne, E.Molloy, J.Muldowney, M.Murphy, B.B.McAlpin, J.B.McAlpin, E.M.McDermott, W.McEwan, J.McGillivray, M.McGillivray, I.McLean, M.McGillivray, Miss McNamara, B.McSweeney, E.Parker, J.Parker, J.T.Pickett, E.Pollard, F.R.Pollard, H.Pollard, D.Porteus, OJ.Pratt, Mrs.OJ.Pratt, V.Rooney, V.T.Rooney, E.Russell, S.Scales, W.Smith, W.G.Smith, H.Stephenson, A.Stowell, R.Sutherland, Mrs.R.Sutherland, T.D.Thorne, J.Trainor, S.Unsworth, Miss.Unsworth, C.E.Walden, A.E.Walker, C.Wedge, G.T.Wiggin, E.White, J.M.White, F.Wilkins, J.Wilkins, R.G.Wilkins, E.Williams, C.R.Williams, L.Williams, P.G.Williams, T.V.Williams, W.G.Williams, W.S.Williams, Mrs.W.S.Williams, W.S.Williams Jr., D.Wright, M.Wright, A.D.Young, M.M.Young, P.T.Young, P.T.Young Jr., E.M.Davis, M.McAlpin, R.Sutton, E.W.Taylor. Also Miss Marianne Thomson

This is a set of seven photographs of personnel posted to the Army Survey Regiment in 1989. These formal group photos of three of of the four Squadrons, Officers, and Warrant Officers/Sergeants were probably taken after a CO’s Parade. There were no photos of Headquarters Squadron in this set of negatives. LTCOL John Winzar was the CO of the Army Survey Regiment from 1987 to 1989 and WO1 Neville Stone was the RSM from 1988 to 1990. This is a set of seven photographs of personnel posted to the Army Survey Regiment, Fortuna Villa, Bendigo Victoria in 1989. The photographs are on 35mm negative film and were scanned at 96 dpi. They are part of the Army Survey Regiment’s Collection. .1) to .2) - Photo, black & white, 1989. Officers Mess: Back row L to R: CAPT Roger Hancock, CAPT Graeme Wastell, unidentified US Exchange officer, CAPT John Greenwell, MAJ Owen Moss, MAJ Terry Edwards, unidentified nursing officer. Front row L to R: 2IC MAJ Rob McHenry, MAJ Laurie Newton, CO LTCOL John Winzar, ADJT CAPT Greg Tolcher. .3) - Photo, black & white, 1989. Senior appointments: L to R: RSM WO1 Neville Stone, CO LTCOL John Winzar, 2IC MAJ Rob McHenry, ADJT CAPT Greg Tolcher. .4) - Photo, black & white, 1989. SGTs Mess: Back row L to R: WO2 Steve Hansen, SGT Bob Garritty, SGT Steve Gloster, SGT Trevor Poll, unidentified, SSGT Brad Peppler, SGT Noel McNamara, SGT Mick Ferris, SSGT Peter Mustart, SGT Steve Burke, SGT Frank Lenane unidentified (x2), WO2 Bill Jones. 3rd row L to R: SGT Bruce Hammond, WO2 Neil ‘Ned’ Kelly, SSGT Jeff Willey, unidentified, SGT Chris Edwards, SSGT Dennis Learmonth, SSGT Rick van der Bom, SGT Paul Hopes, SSGT Kevin Boehm, SGT Graham Johnston, SGT Peter ‘Jack’ Elverd, SGT Russ Mollenhauer, WO2 Ian ‘Rock’ Thistleton, SGT Martin Evans. 2nd row L to R: unidentified (x2), WO2 Pat Lumsden, SGT Doug Carswell, WO2 Adrian ‘Charlie’ Creedy, SGT Greg Anderson, SGT Mick Minchin, SSGT Phil ‘Fred’ Smalley, SSGT Andy Boath, SGT John ‘Stormy’ Tempest, SGT Roger Rees, SGT Paul ‘Hutch’ Hunter, SGT Bob Bright, SGT Brian Collings. WO2 Rob Bogumil. Front row L to R: WO2 Ralph Chant, WO1 Allan Adsett, WO1 Rowan Gillies, WO1 Stu Thaxter, WO1 Peter Presser, RSM WO1 Neville Stone, WO2 Barry Lutwyche OAM, WO1 Russell ‘Rusty’ Williams, WO1 Stevo Hinic, WO1 Trevor Osborne, WO2 Alan Bunn, WO2 George Graham. .5) - Photo, black & white, 1989. Cartographic Squadron: Back row L to R: CPL Greg Hilson, SPR Chris Wride, SPR Stuart Adrain, SPR Charmian McKean, CPL Raelene (Munting) Brodie, CPL Craig Kellet, SPR Ian Brown, SPR Steve Salvestro, SPR Mick Duggan, SPR Steve Dee, CPL John Martin, SPR Toni Wright, SPR De Madge. 3rd row L to R: SPR Bob Bousfield, CPL Allan Choat, SPR Steve Wainwright, CPL Damian Killeen, SPR Peter Smyth, CPL Brendon McKinless, SPR Geoff Steegrestra, CPL Peter Johnson, SPR Lee Palfrey, SGT Graham Johnson, SPR Malcolm Oliver, LCPL Sandy Dee, SPR Grant Davis. 2nd row L to R: CPL Dave Murphy, SPR Tony Jackson, SPR Dick Crawford, SPR Danilo Cesconetto, CPL Jeff Le-Fevre, SPR Bruce Graham, CPL Mark Donnelly, SPR Gayle Humphrey, SPR Jodi Seath, SPR Nadine (Paul) Read, SPR Di (Thomas) Soutar, SPR Caroline Wyatt, CPL Barry Hogan, CPL John Reid, SPR Chris Wynn. Front row L to R: SGT Bob Bright, SGT Doug Carswell, SGT Paul ‘Hutch’ Hunter, SGT Martin Evans, SSGT Rick van der Bom, WO2 Adrian ‘Charlie’ Creedy, WO1 Stevo Hinic, OC CAPT John Greenwell, WO1 Colin Cuskelly, WO2 Ian ‘Rock’ Thistleton, SSGT Dennis Learmonth, SGT Paul ‘Fluff’ Cheater, SGT Brian Collings. .6) - Photo, black & white, 1989. Air Survey Squadron: Back row L to R: CPL Andy Love, CPL Glyn Mattock, SPR Peter Murphy, SPR John ‘Doc’ Commons, SGT Noel McNamara, SGT Steve Gloster, SPR Neil ‘Tex’ Houston, SPR Peter Coles, CPL Ian Nelson, SPR David Lankshear. 3rd row L to R: CPL Noel Brinsmead, SPR Steve Wegener, CPL Peter Peterson, CPL Max Watson, SPR Jeanette Dury-Lane, SPR Simone Rodgers, SPR Derek Percival, SPR Stuart Midgley, SPR Vaughn Ralston, CPL Darren Wilkinson, SGT Frank Downie. 2nd row L to R: SPR Darren Scott, SPR Frank Savy, SPR Stuart Bowd, SPR Ailsa (Sorby) Miller, SPR Phuc ‘Charlie’ Tran, SPR Paula (Golding) Brinsmead, CPL Chris ‘Charlie’ Brown, CPL Steve Coulson, SPR Chris Woodman, SPR Shane Torrens, CPL Greg Gilbert, unidentified. Front row L to R: SGT Paul Hopes, SGT Roger Rees, SSGT Phil ‘Fred’ Smalley, WO2 Barry Lutwyche OAM, WO1 Peter Presser, WO1 Russell ‘Rusty’ Williams, OC MAJ Laurie Newton, WO2 Neil ‘Ned’ Kelly, SSGT Andy Boath, SGT Peter ‘Jack’ Elverd, SGT Mick Ferris, SGT Bruce Hammond. .7) - Photo, black & white, 1989. Lithographic Squadron: Back row L to R: SPR Andrew Arman, SPR Colin Yeats, CPL Warren ‘Waldo’ Shirley, SPR Michelle Evans, SPR Shona Hastie, CPL Paul Baker, SPR Graeme Spong. 3rd row L to R: SPR Mark McCullogh, CPL John ‘Flash’ Anderson, CPL Peter Dillon, SPR Ross Anza, CPL Peter Breukel, CPL Kevin ‘Chuck’ Berry, SPR Doug Whiteside, SPR Damien Cole, SGT Frank Lenane. 2nd row L to R: CPL Graeme Priestley, SPR Gavin McLean, CPL Stuart Ridge, SPR Gary Lord, SPR Janet Murray, SPR Ken Labouchardiere, CPL Ken Peters, CPL Mick ‘Buddha’ Ellis, SPR Darren ‘Barney’ Maher, SPR Greg Howell. Front row L to R: SGT Bob Garritty, SSGT Jeff Willey, WO1 Trevor Osborne, WO2 Rob Bogumil, OC MAJ Terry Edwards, WO2 Bill Jones, WO2 Steve Egan, SGT Keith Quinton, SGT Steve Burke..1P to .7P – no annotationsroyal australian survey corps, rasvy, army survey regiment, army svy regt, fortuna, asr, litho sqn

The c1860 St Andrews Hotel, with the c1930 additions, and the Canary Island Palm, and the surrounding site to the title boundaries are historically, socially and aesthetically significant to the Shire of Nillumbik. The St Andrews Hotel is historically significant because it may have given its name 'St Andrews' to the town (another suggestion is that the name came from St Andrews church) and for its connection to Ewen Hugh Cameron (1831-1915) the prosperous local farmer, member of the Eltham Roads Board/Shire Council and local MP. It is also significant as the oldest hotel building in the former Shire of Eltham, as one of the few surviving buildings connected with the Caledonian goldfields era and as one of a handful of early structures to have survived the 1960s bushfires; the additions and alterations to the hotel reflect its long life. The hotel is socially significant because it has served as an important meeting place for more than 160 years. The Canary Island Palm is historically significant as a rare example of exotic tree planting in this rural area. The tree is aesthetically and historically significant as a local landmark and for its contribution to the streetscape and landscape value. Covered under Heritage Overlay, Nillumbik Planning Scheme. Published: Nillumbik Now and Then /​ Marguerite Marshall 2008; photographs Alan King with Marguerite Marshall.; p71 Built around 1860, St Andrews Hotel has changed little since it first welcomed thirsty gold diggers from the Caledonia Goldfields. The timber building, with gabled roof, beamed ceilings and a massive fireplace, is Nillumbik Shire’s oldest hotel and has always been an important community centre, particularly in its early days. Fortunately, the hotel and the near-by Canary Island Palm Tree, which is quite rare in this area, survived the 1960s bushfires, along with a few other early buildings. St Andrews (formerly Queenstown) was founded on gold, as were Panton Hill (formerly Kingstown), Research and Diamond Creek, from the mid-1850s to the 1860s. But by the early 20th century common use changed the name Queenstown to St Andrews, possibly after this hotel or after the church or the mining district.1 The Caledonia Diggings were probably named by Scottish settlers after the Roman name for Scotland, despite this land bearing little similarity to their homeland.2 Queenstown, which was proclaimed as a township in 1861, was the gold-mining centre on the Upper Diamond and in the 1850s had up to 600 European inhabitants and a small camp of Chinese on the flats along the creek. Queenstown was the administrative centre of the Upper Diamond with three hotels, a brewery and a slaughterhouse.3 It is unclear which hotel was the district’s first, as distinct from the earliest unlicensed grog shops, some of which operated in tents. John Corke Knell was one of eight unlicensed storekeepers supplying drink to miners at Caledonia in 1857, named by Sgt. McNamara of the Caledonia Police Station.4 In February 1859, Knell apparently bought most of the present hotel’s site at the first township land sales. As he was a local storekeeper, he might have first established a store there.5 Knell and his wife Eliza were early licensees of the St Andrews Hotel. The hotel had eight bedrooms – including three for public use – and the dining-room seated 30 people. It is thought they named the hotel St Andrews after Eliza’s hometown of St Andrews in Scotland. St Andrews Hotel was an important local centre in several ways. In the same building the Knells also operated a post office and general store. In 1867 Mrs Knell was appointed Deputy Registrar of Births and Deaths for Queenstown. The hotel was also used to hold inquests into people’s deaths when the police residence became too small.6 The hotel also became a fashionable destination at Christmas for parties from Melbourne. In 1868, possibly following her husband’s death, Mrs Knell applied for a temporary licence, which was then transferred to Robert Smith after their marriage in 1869. But then, possibly after Robert’s death, Mrs Smith operated the hotel until 1892. This contradicts a report in The Evelyn Observer 1882 that JC Knells of the St Andrews Hotel was granted a publican’s licence in the Queenstown Police Court. At that time he was supposed to have been dead for around 14 years! Although Mrs Smith was a respected citizen, known for her geniality and as an ideal hostess, she had a minor brush with the law when she was fined ten shillings for not lighting a lamp outside her licensed premises.7 From 1892 several publicans owned the hotel including W Atkins, from 1895. In 1909 the licensee was apparently Mrs Smith’s son, Walter Knell, who held the licence until at least the 1920s. Not surprisingly, this old hotel has attracted romantic stories. Mrs Smith is said to be seen roaming the pub in her nightdress – even though she was buried in the Queenstown Cemetery in 1911.8 A musical The Hero of Queenstown, set in the hotel, was written and produced by local actor Reg Evans in the 1970s.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, st andrews hotel

The Victoria Cross (VC) is a military decoration awarded for valour "in the presence of the enemy" to members of the Australia Armed Forces. It may be awarded to a person of any rank in any service, and to civilians under military command. Being the highest award in the Australian Honours Order of Wearing, the Victoria Cross takes precedence over all other postnominals and Australian orders and decorations.Black metal frame containing image of Victoria Cross Medal with two columns of names either side.Australian Victoria Cross Recipients Certificate of Authenticityhowse, bisdee, wylly, bell, rogers, keysor, maygar, jacka, symons, burton, shout, dunstan, hamilton, tubb, throssell, jackson, dartnell, leak, blackburn, cooke, castleton, o'meara, murray, mcnamara, cherry, jensen, newland, kenny, whittle, pope, howell, moon, greive, carroll, inwood, birks, dwyer, bugden, mcgee, peeler, jeffries, mcdougall, storkey, sadlier, ruthven, davey, axford, dalziel, brown, borella, gaby, beatham, statton, joynt, mccarthy, gordon, cartwright, currey, lowerson, mactier, towner, buckley, woods, wark, ryan, maxwell, ingram, sullivan, pearse, edmondson, cutler, edwards, anderson, kingsbury, french, gurney, kibby, gratwick, middleton, newton, kelliher, derrick, rattey, chowne, mackey, kenna, simpson, starcevich, partridge, wheatley, badcoe, payne

This is a set of 11 photographs of personnel posted to the Army Survey Regiment in 1990. These formal group photos of three of the four Squadrons, Officers, and Warrant Officers/Sergeants were probably taken after CO’s Parades. Although photo .11P is part of this set of negatives, it was taken on another occasion as the SGTs Mess personnel were in summer uniforms. Photos of Lithographic Squadron from this set of negatives are catalogued in item 6441.15P. LTCOL John Winzar was the CO of the Army Survey Regiment from 1987 to 1989 and WO1 Neville Stone was the RSM from 1988 to 1990.This is a set of 11 photographs of personnel posted to the Army Survey Regiment, Fortuna Villa, Bendigo Victoria on the 1st of October 1990. The photographs are on 35mm negative film and were scanned at 96 dpi. They are part of the Army Survey Regiment’s Collection. .1) to .2) - Photo, black & white, 1990. Senior appointments: L to R: RSM WO1 Neville Stone, CO LTCOL Rene van den Tol, 2IC MAJ Duncan Burns, ADJT CAPT Peter Parkes. .3) - Photo, black & white, 1990. Officers Mess: Back row L to R: back row L to R: LT Craig Hersant, LT Greg Tolcher, LT Martin Lyons, LT Steve Hledik, LT Derek Bell, LT Simon Buckpitt. Centre row L to R: CAPT Roger Greenwell, CAPT Dave McLachlan, ADJT CAPT Peter Parkes, unidentified UK exchange officer, CAPT Noel ‘Nesty’ Coulthard. Front row L to R: CAPT John South, MAJ Bob Coote, MAJ Neil Taylor, CO LTCOL Rene van den Tol, 2IC MAJ Duncan Burns, MAJ Peter Clark, MAJ Ray Redman. .4) - Photo, black & white, 1990. SGTs Mess: Back row L to R: SGT Max Watson, unidentified, SGT Martin Evans, SSGT Graham Johnston, SGT Brian Fauth, SGT Ian Fitzgerald, unidentified, SGT Mick Minchin, SGT Kim Reynolds, SGT Peter Imeson, SGT Brian Paul, SSGT John Phillips, SGT Keith Quinton, unidentified (x2), SSGT Noel McNamara, SGT Paul Hopes, SGT Brendan McKinless. 3rd row L to R: SSGT Di Chalmers, SGT Bob Bright, SGT Doug Carswell, WO2 Steve Egan, unidentified, SSGT Garry Drummond, SGT Steve Burke, SSGT Russ Mollenhauer, SGT Paul Cheater, SGT Sandy Craig, SSGT Peter Mustart, SGT Roger Rees, SGT Paul Leskovec CSM, unidentified, SGT John Shephard, SGT Frank Downie, SSGT Bruce Hammond, unidentified. 2nd row L to R: WO2 Jeff Willey, WO2 Barry Lutwyche OAM, WO2 Rob Bogumil, WO2 Rhys De Laine, WO2 Ted Burgess, WO2 Wayne Rothwell, WO2 Steve Hansen, WO2 Keith Fenton RE UK Exchange, SGT Chris Edwards, SGT Russ Mollenhauer, unidentified, SGT Greg Else, unidentified, SSGT Bob Garritty, SSGT Greg Byers, WO2 Pat Lumsden, WO2 George Graham, WO2 Mick Hogan, SGT Sherri (Dally) Burke. Front row L to R: WO1 Trevor Osborne, WO1 Colin Cuskelly, WO1 Bob Rogister, WO1 Allan Hancox, WO1 Bill Jones, 2IC MAJ Duncan Burns, RSM WO1 Neville Stone, WO2 Neil ‘Ned’ Kelly, WO1 Ken Slater, WO1 Rowan Gillies, WO1 Graham Ragless, WO1 Gary Warnest, WO2 Adrian ‘Charlie’ Creedy. .5) - Photo, black & white, 1990. Air Survey Squadron: Back row L to R: SPR Mark Linwood, SPR Trevor Roddam, CPL Noel Brinsmead, CPL Mark Lander, SGT Frank Downie, CPL Sandy Craig. 3rd row L to R: SPR Steve Rundle, SPR Cameron Gee, CPL Darren Wilkinson, CPL Dave Longbottom, CPL Max Watson, SPR Shane Torrens, SGT Paul Hopes, SPR Chris Woodman. 2nd row L to R: SGT John Shephard, SPR Paul Boulton, SPR Stuart Bowd, SPR Paula (Golding) Brinsmead, SPR Joanne Otto, CPL Steve Coulson, SPR Steve Linane, CPL Chris ‘Charlie’ Brown. Front row L to R: SSGT Bruce Hammond, WO2 Barry Lutwyche OAM, LT Craig Hersant, WO1 Allan Hancox, MAJ Peter Clark, LT Simon Buckpitt, WO2 Neil ‘Ned’ Kelly, SSGT SSGT Noel McNamara. .6) - Photo, black & white, 1990. Headquarters Squadron: Back row L to R: unidentified (x2), SPR Wolfgang Hofbauer, SGT Chris Edwards, CPL Pat Drury, SSGT John Phillips, unidentified, CPL Graeme Priestley, unidentified (x2), SGT Paul Leskovec CSM, LCPL Richard Arman. 4th row L to R: unidentified, SGT Ian Fitzgerald, unidentified (x2), LCPL Bob Sheppard, unidentified (x2), CPL John ‘Flash’ Anderson, SPR Todd Reynolds, SGT Keith Quinton, CPL Roger Pearson, unidentified, WO1 Bob Rogister. 3rd row L to R: WO2 Wayne Rothwell, SSGT Peter Mustart, SPR Eric Nicholson, unidentified, SGT Paul Cheater, unidentified, SGT Wolfgang Thun, unidentified (x2), CPL Paul Richards, SGT Mick Minchin, unidentified. 2nd row L to R: unidentified, SPR Kasey Northausen, unidentified, CPL Michelle Griffith, unidentified (x3), SPR Tracy Tillman, unidentified (x4), WO2 Steve Hansen. Front row L to R: WO1 Rowan Gillies, WO1 Colin Cuskelly, CAPT Noel ‘Nesty’ Coulthard, CAPT Roger Hancock, WO1 Ken Slater, MAJ Ray Redman, MAJ John South, unidentified UK exchange officer, WO2 Ted Burgess, WO2 George Graham, unidentified civilian. .7) & .8) - Photo, black & white, 1990. Cartographic Squadron: Back row L to R: Back row L to R: SGT Greg Else, CPL Perry Burt, SSGT Graham Johnston, CPL Mick McConnell, 3rd row L to R: SGT Bob Bright, SGT Doug Carswell, SPR Marcus Seecamp, CPL John Gilbert. 2nd row L to R: SGT Martin Evans, SPR Sandy Winn, SPR Jeanette Drury-Lane, SPR Simone Rodgers, Front row L to R: SPR Guenther Ebenwaldner, WO2 Pat Lumsden, LT Steve Hledik. .9) - Photo, black & white, 1990. Cartographic Squadron: Back row L to R: SGT Greg Else, CPL Perry Burt, SSGT Graham Johnston, CPL Mick McConnell, unidentified, SPR Mark Linwood, SPR Lee Palfrey, SPR John ‘Doc’ Commons, SPR Chris Wynn, SPR Mick Duggan, CPL Peter Johnson, SPR Allan Blake, CPL Damian Killeen, SPR Grant Davis, SPR Simon Reynolds, SPR Peter Smyth. 3rd row L to R: SPR Guenther Ebenwaldner, SGT Bob Bright, SGT Doug Carswell, SPR Marcus Seecamp, CPL John Gilbert, SPR Gordon Santo, SPR Frank Savy, SPR Chris Woodman, SSGT Greg Byers, SPR David Lankshear, SSGT Bob Garritty, CPL Craig Kellet, CPL Darren Maher, CPL Barry Hogan, CPL Dan Cirsky, SPR Bob Bousfield. 2nd row L to R: SGT Martin Evans, CPL John Reid, SPR Sandy Winn, SPR Jeanette Drury-Lane, SPR Simone Rodgers, SPR Cam Bramich, SPR Ailsa (Sorby) Miller, SPR Nadine (Paul) Read, SPR Jodi Seath, SGT Sherri (Dally) Burke, SPR Di (Thomas) Soutar, SPR Dawn Hoadley, CPL Raelene (Munting) Brodie, SPR Jo (Innes) Thun? SPR Damian Nolan. Front row L to R: WO2 Pat Lumsden, LT Steve Hledik, LT Derek Bell, CAPT Dave McLachlan, MAJ Neil Taylor, WO1 Graham Raglass, WO1 Gary Warnest, WO2 Mick Hogan, WO2 Adrian ‘Charlie’ Creedy. .10) - Photo, black & white, 1990. Cartographic Squadron leadership: Back row L to R: CAPT Dave McLachlan, LT Derek Bell, LT Steve Hledik, WO2 Pat Lumsden, WO2 Mick Hogan, WO2 Adrian ‘Charlie’ Creedy. WO1 Gary Warnest. Front row L to R: MAJ Neil Taylor, WO1 Graham Raglass. .11) - Photo, black & white, 1990. SGTs Mess: Back row L to R: WO2 Jeff Willey, unidentified, SGT Brian Fauth, unidentified, SGT Sandy Craig, unidentified, SGT Paul Leskovec CSM, SSGT John Phillips, unidentified, SGT Martin Evans, SGT Steve Burke, SGT Brendan McKinless, SGT Chris Edwards. 3rd row L to R: SGT Brian Paul, unidentified, SSGT Bob Garritty, SSGT Greg Byers, SGT Kim Reynolds, SGT John Reid, unidentified, SSGT Rick van der Bom, SGT Dale Hudson, unidentified, SGT John ‘Stormy’ Tempest, SGT Keith Quinton, SGT Greg Else. 2nd row L to R: WO2 Rob Bogumil, unidentified, WO2 Adrian ‘Charlie’ Creedy, WO2 George Graham, WO2 Wayne Rothwell, WO2 Pat Lumsden, WO2 Mick Flynn, WO2 Ted Burgess, unidentified, SSGT Dennis Learmonth, SGT Bob Bright, WO2 Steve Hansen, WO2 Rhys De Laine. Front row L to R: unidentified, WO1 Trevor Osborne, WO1 Bill Jones, WO1 Colin Cuskelly, MAJ Ray Redman, RSM WO1 Neville Stone, WO1 Stu Thaxter, WO2 Mick Hogan, WO1 Bob Rogister, WO1 Ken Slater, WO1 Gary Warnest..1P to .11P – no annotationsroyal australian survey corps, rasvy, army survey regiment, army svy regt, fortuna, asr

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 in two pieces. Advanced stage of calcification as indicated by deep pitting. Off white to grey.None.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, whale bones, whale skeleton, whales, whale bone, corsets, toys, whips

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 piece. Advanced stage of calcification as indicated by deep pitting. Off white to grey.None.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, whales, whale bone, corsets, toys, whips

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.None.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, whales, whale bone, corsets, toys, whips

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 piece. Advanced stage of calcification as indicated by deep pitting. Off white to grey.None.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, whales, whale bone, corsets, toys, whips

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 piece. Advanced stage of calcification as indicated by deep pitting. Off white to grey.None.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, whales, whale bone, corsets, toys, whips

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

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

This set of 38 black and white photographs were taken at the Army Survey Regiment’s parade rehearsal held at Fortuna, Bendigo in 1980. The rehearsal was for the Freedom of Entry parade held 1-2 weeks later in 1980. The exact date for the Freedom of Entry parade is not known. The Freedom of Entry to the City of Bendigo was an honour first conferred by the Bendigo City Council to the Army Survey Regiment in 1970. The Freedom of Entry parade in 1980 was the fourth time the unit exercised its right of freedom of entry. The Regiment also exercised its Freedom of Entry with anniversary parades in 1977, 1980 and 1995. Refer to items 6020.8P, 6021.25P, 6248P, 6266, 6409.2, 6430.39P, 6490.53P and 6491.19P for more Army Survey Regiment Freedom of Entry photographs, documents and certificates. See item 6471.2P for photos of Lithographic Squadron taken on the same day of this parade rehearsal. This set of 38 black and white photographs of the Army Survey Regiment (Army Svy Regt) were taken in a rehearsal for the Freedom of Entry parade to the City of Bendigo, held 1-2 weeks later in 1980. The photographs are on 35mm negative film and were scanned at 96 dpi. They are part of the Army Survey Regiment’s Collection. .1) - Photo, black & white, 1980. WO1 John McCulloch observes the rehearsal. .2) - Photo, black & white, 1980. RSM WO1 Aub Harvey, WO1 Dave Thomson and WO1 Roger Rix observe the rehearsal. .3) - Photo, black & white, 1980. Under command of SSM WO1 Bob Mason, Air Survey Squadron marches onto the parade ground - Front rank L to R: SPR Peter Jones, SPR Barry Miller, CPL Alan Hawkins. .4) - Photo, black & white, 1980. Air Survey Squadron marches on the parade ground - L to R: SPR Peter Jones, CPL Lyall Camp, SPR Barry Miller, SPR Geoff Havelberg, unidentified, CPL Alan Hawkins, CPL Peter Treble, unidentified (x2), SGT Mick Hogan, SGT Bruce Hammond, unidentified, SPR Steve Linane, SPR Jamie McRae, unidentified (x2). .5) - Photo, black & white, 1980. Air Survey Squadron formed up – CAPT Peter Ralston on far left. .6) - Photo, black & white, 1980. Air Survey Squadron inspection – L to R: CAPT Peter Ralston, CPL Alan Hawkins, CO LTCOL Bob Skitch, SGT Mick Hogan, SGT Bruce Hammond, SPR Jamie McRae. .7) - Photo, black & white, 1980. Air Survey Squadron inspection – L to R: SPR Peter Jones, unidentified, CPL Paul Hopes, unidentified, SGT Rick van der Bom, LTCOL Bob Skitch, SPR Steve Linane, CPL Mick Minchin, unidentified, SPR Gae (Robinson) Amato, unidentified, SPR Chris ‘CPL Peter Treble, Charlie’ Brown, SPR Ginny (Turner) Rowe. .8) - Photo, black & white, 1980. Lithographic Squadron marches onto the parade ground - Front rank L to R: SPR Brian Fauth, SPR Roy Hicks, SPR Per Andersen, commanded by LT Steve Cooper. .9) - Photo, black & white, 1980. Lithographic Squadron marches onto the parade ground - L to R: SSM WO1 Ken Slater, Front rank SPR Brian Fauth, SPR Roy Hicks, SPR Per Andersen, LT Steve Cooper. .10) - Photo, black & white, 1980. Lithographic Squadron inspection - L to R: CAPT Stan Vote, LT Steve Cooper, CO LTCOL Bob Skitch, SPR Neville Carr, SPR Laurie Justin, SPR Keith Quinton. .11) - Photo, black & white, 1980. Lithographic Squadron inspection - L to R: unidentified, LT Steve Cooper, CPL Frank Lenane, CPL Mick ‘Buddha’ Ellis, SPR Martin van de Maele, CO LTCOL Bob Skitch, unidentified (x2), SPR Garry Hudson, remainder unidentified. .12) - Photo, black & white, 1980. Lithographic Squadron inspection - L to R: LT Steve Cooper, CPL Rob Bogumil, unidentified, CO LTCOL Bob Skitch, CPL Bill Jones, CPL John ‘Flash’ Anderson, CPL Warren ‘Waldo’ Shirley, unidentified. .13) - Photo, black & white, 1980. Lithographic Squadron inspection - L to R: unidentified (x4), CO LTCOL Bob Skitch, unidentified, CPL Bill Jones, LT Steve Cooper, CPL Warren ‘Waldo’ Shirley. .14) - Photo, black & white, 1980. Lithographic Squadron performs form - right file L to R: SPR Brian Fauth, SPR Roy Hicks, SPR Per Andersen. .15) - Photo, black & white, 1980. Lithographic Squadron completes form at the halt. .16) - Photo, black & white, 1980. Lithographic Squadron marches in column of route – right file L to R: SPR Keith Quinton, SPR John Whaling, SPR Martin van de Maele, SPR John Whaling, SPR Garry Hudson, unidentified. Centre marker: CPL Warren ‘Waldo’ Shirley, remainder unidentified. .17) - Photo, black & white, 1980. Lithographic Squadron marches in column of route – right file L to R: SPR John Whaling, SPR Martin van de Maele, SPR John Whaling, SPR Garry Hudson, unidentified. Centre marker CPL Warren ‘Waldo’ Shirley, remainder unidentified. .18) - Photo, black & white, 1980. Lithographic Squadron marches in column of route – L to R: SPR Per Andersen, CPL Josh Degroot, SPR Neville Carr, SPR Laurie Justin, SPR Keith Quinton, SPR John Whaling, SPR Martin van de Maele, SPR John Whaling, SPR Garry Hudson, unidentified. .19) - Photo, black & white, 1980. Lithographic Squadron marches in column of route – L to R: SPR Per Andersen, CPL Josh Degroot, SPR Neville Carr, SPR Laurie Justin, SPR Keith Quinton, SPR Martin van de Maele, SPR John Whaling, SPR Garry Hudson, unidentified (x2), CPL Warren ‘Waldo’ Shirley, unidentified. .20) - Photo, black & white, 1980. Lithographic Squadron rehearses ‘rest on arms reverse.’ .21) - Photo, black & white, 1980. Cartographic Squadron marches onto the parade ground in column of route - L to R: SPR Cheryl Lofthouse, unidentified, SSM WO1 Gordon Lowery, unidentified, SPR Megan (McBurney) Reynolds, unidentified (x6), SPR Peter Main, CPL Stu Symonds, SPR Greg Else, SPR Rod Skidmore. .22) - Photo, black & white, 1980. Cartographic Squadron marches onto the parade ground in column of route - L to R: SPR Rod Skidmore, SPR Greg Else, CPL Phil McGuire, CPL Dennis Learmonth, CPL Brad Peppler, CPL Trevor Bottomley, SPR Gina (Coore) Neilson, SPR Carla Dell, CPL Lyn Johnson, commanded by CAPT Bob Williams. .23) - Photo, black & white, 1980. Cartographic Squadron inspection - L to R: unidentified officer, CAPT Bob Williams, SPR Greg Else, CO LTCOL Bob Skitch, CPL Phil McGuire, CPL Dennis Learmonth, CPL Brad Peppler, CPL Trevor Bottomley. .24) - Photo, black & white, 1980. Cartographic Squadron inspection - L to R: RSM WO1 Aub Harvey, unidentified officer, CAPT Bob Williams, CO LTCOL Bob Skitch. Front rank L to R: SPR Rod Skidmore, CPL Phil McGuire, CPL Dennis Learmonth, CPL Brad Peppler, CPL Trevor Bottomley, SPR Gina (Coore) Neilson, SPR Carla Dell, CPL Lyn Johnson. Centre rank L to R: CPL Terry Danger, SPR John Martin, SPR Bob Sheppard. SPR Megan (McBurney) Reynolds. .25) - Photo, black & white, 1980. Cartographic Squadron inspection - Front rank L to R: CPL Phil McGuire, CAPT Bob Williams, CPL Brad Peppler, CO LTCOL Bob Skitch, CPL Trevor Bottomley, SPR Gina (Coore) Neilson, SPR Carla Dell, CPL Lyn Johnson. .26) - Photo, black & white, 1980. Cartographic Squadron inspection - L to R: WO1 Roger Rix, RSM WO1 Aub Harvey, unidentified officer. Front rank L to R: SPR Rod Skidmore, SPR Greg Else, CPL Phil McGuire, CPL Brad Peppler, CPL Trevor Bottomley, SPR Gina (Coore) Neilson, SPR Carla Dell, CPL Lyn Johnson. Centre rank L to R: CPL Terry Danger, SPR John Martin, SPR Bob Sheppard. SPR Megan (McBurney) Reynolds. .27) - Photo, black & white, 1980. Cartographic Squadron inspection - L to R: CPL Dennis Learmonth, CPL Brad Peppler, CO LTCOL Bob Skitch, CPL Trevor Bottomley, SPR Gina (Coore) Neilson, SPR Carla Dell, CPL Lyn Johnson. .28) - Photo, black & white, 1980. Cartographic Squadron inspection - L to R: CAPT Bob Williams, unidentified, CO LTCOL Bob Skitch, SPR John Martin, SPR Bob Sheppard, SPR Megan (McBurney) Reynolds, rear rank L to R: SPR Peter Main, unidentified (x3). .29) - Photo, black & white, 1980. Cartographic Squadron rehearses ‘reverse arms’ - L to R: SPR Peter Main, CPL Stu Symonds, SPR Rod Skidmore, SPR Greg Else, remainder unidentified. .30) - Photo, black & white, 1980. Cartographic Squadron rehearses ‘rest on arms reverse.’ - Front rank L to R: SPR Rod Skidmore, SPR Greg Else, CPL Phil McGuire, CPL Dennis Learmonth, CPL Brad Peppler, CPL Trevor Bottomley. remainder unidentified. Centre rank L to R: unidentified (x2), SPR John Martin, SPR Bob Sheppard, SPR Megan (McBurney) Reynolds. Rear rank L to R: unidentified (x3), SPR Carla Dell on far right. .31) - Photo, black & white, 1980. Cartographic Squadron marches in column of route. .32) - Photo, black & white, 1980. Cartographic Squadron marches in column of route. Left file L to R: SPR Rod Skidmore, SPR Greg Else, CPL Phil McGuire, CPL Dennis Learmonth, CPL Brad Peppler, CPL Trevor Bottomley, SPR Gina (Coore) Neilson, SPR Carla Dell, CPL Lyn Johnson. Centre file L to R: unidentified (x2), SPR Dan Cirsky, SPR Bob Sheppard. Commanded by CAPT Bob Williams (foreground). .33) - Photo, black & white, 1980. Cartographic Squadron rehearses ‘order arms.’ Front rank L to R: SPR Rod Skidmore, SPR Greg Else, CPL Phil McGuire, CPL Dennis Learmonth, CPL Brad Peppler, CPL Trevor Bottomley, SPR Gina (Coore) Neilson, SPR Carla Dell, CPL Lyn Johnson. Centre rank L to R: unidentified (x2), SPR Dan Cirsky, SPR Megan (McBurney) Reynolds, SPR Ilen Isaac. Rear rank L to R: SPR Cathy Regan, unidentified, SPR Cheryl Lofthouse. .34) - Photo, black & white, 1980. Cartographic Squadron rehearses ‘right dress.’ Front rank L to R: SPR Rod Skidmore, SPR Greg Else, CPL Phil McGuire, CPL Dennis Learmonth, CPL Brad Peppler, CPL Trevor Bottomley, SPR Gina (Coore) Neilson, SPR Carla Dell, CPL Lyn Johnson. Centre rank L to R: SPR John Martin, SPR Bob Sheppard. SPR Megan (McBurney) Reynolds, SPR Ilen Isaac. Rear rank L to R: unidentified (x2), SPR Cathy Regan, unidentified, SPR Cheryl Lofthouse. Commanded by CAPT Bob Williams (far left). 35) - Photo, black & white, 1980. Air Survey Squadron section rehearses marching with reverse arms. L to R: SPR Bob Hopper, CPL Rick Downie, CPL Paul Hopes, unidentified (x2, SGT Rick van der Bom, SPR Steve Hilton, CPL Peter Treble, unidentified, SPR John Lane, remainder unidentified. .36) - Photo, black & white, 1980. Air Survey Squadron section rehearses marching with reverse arms. L to R: CPL Alan Hawkins, CPL John Smith, SPR Dave Jobe, unidentified (x2), SGT Mick Hogan, SPR Barry Miller, WO1 Dave Thomson. .37) - Photo, black & white, 1980. Cartographic Squadron sections practice drill. .38) - Photo, black & white, 1980. Air Survey Squadron rest break from drill practice. L to R: unidentified (x2), CPL Noel McNamara, SSGT Peter Warwick, SSGT Greg Buckingham (facing away), SGT Jim Beard, unidentified, SPR Sharon (Jones) Treble (foreground), unidentified, SGT Bruce Gordon, SPR Kristin (Isaac) Skidmore.There are no personnel identified. royal australian survey corps, rasvy, army survey regiment, army svy regt, fortuna, asr

Newspaper articles about the As We Are Eltham Banner Project undertaken within the Shire of Eltham 1. Eltham banner to celebrate environment, Diamond Valley News, Tuesday, September 16, 1986, p16 2. Group paints for peace, Diamond Valley News, Tuesday, September 30, 1986, p2 3. Banners show people of Eltham as they are, Diamond Valley News, Tuesday, October 14, 1986, pp12-13 4. Banners fly high at lastt, Diamond Valley News, Tuesday, October 21, 1986, p17 Also various advertisements from businesses within the shire Newspaper clippingsas we are, banner project, eltham banners, meruka house, sarah houseman, advertising, eagle screens & blinds, 1986, alistair knox park, bob manuell, don brown, dooncal air coinditioning and central heating, eltham festival, eltham outdoor art show, eltham peace banner, eltham town park, grand parade, pauline therese toner, peter wilson, research shops, river of life banner, shire of eltham acquisitive award, valley carpets, 16 sherbourne road briar hill, 22 were street montmorency, 1177-1181 main road eltham, barry reading goumet butchers, eltham hardware & plumbing supplies pty ltd, hutchinsons garden supplies, 38 bridge street eltham, artists, costless clearance centre, cr bob manuell, jud duigan, margaret cherry, tracey naughton, woolworths arcade, anthea morrison, beyond the end of the line, diamond valley musical society, eltham college, eltham community festival, eltham high school, eltham service club, geraldine veerman, ian robertson, 19 were street montmorency, arnold thomas, arnolds recycling centre, kevin mcnamara, luck street eltham, mcewans, montmorency hardware, peel street eltham, tim payze, 1022 main road eltham, as we are banner exhibition, jud degan, marg cherry, the cut ahead, arthur street, eltham mall, flexiteller, national australia bank

Eltham District History, Eltham Road Board, 1856-1871Two binders containing 486 A4 pages (photocopied) of mostly handwritten notes from research undertaken of Public Office Records of Victoria various holdings. Some photocopies from source reference books. Includes 20 page subject index (handwritten) at front and 5 pages of notes and sources at rear and a photocopy of short biography of Keith Chappel.a. foley, a. harkness, a. mackie, a. mcintyre, a. von ziegler, a.a. vivian, a.d. kinninmont, a.d. quadri, a.h. grimshaw, a.w. page, aboriginal reserve, aborigines, abraham quarman, abraham rooks, abraham taylor, adam goudie, aenaes harrison, agnes black, agnes charlton, agnes dalrymple, ah chong, ah cock, ah hein, ah lie, ah sing, albert lunson, albert ness, albert parker, albert ramseyor, alert hunt, alex cameron, alex eason, alex mcandrew, alexander crichton, alexander donaldson, alexander falconer, alexander innes, alexander james, alexander mcdonald, alexander miller, alexander thompson, alexander walker, alexander white, alfred armstrong, alfred burgess, alfred davey, alfred deschamp, alfred eddy, alfred hinley, alfred hooper, alfred hubbard, alfred lowman, alfred smith, alfred whelpton, alice power, allen heeps, allwood, amelia neuman, amos taylor, anderson, andersons creek, andrew brown, andrew byrne, andrew harkness, andrew herbert, andrew ross, andrew smith, angus mcdonald, ann emmott, ann mcphee, ann odea, ann plunkett, ann snell, ann tatty, annie ashmore, annie herbert, annie stuart, anthony beale, anthony currie, ants nest, archibald mcphee, arthur connor, arthur lyttle, arthur rooke, arthur young, arthurs creek, arthurs creek school, august ostling, b.o. wallis, barkers creek, barr, belton, benjamin bain, benjamin jenken, benjamin lawford, benjamin rice, benjamin shaw, benjamin smith, benjamin wallis, benjamin walton, berry, bismark hotel, black calf gully, black thursday, boomers gully, bridget bunker, bridget hailes, bridget kearse, bruno hirt, burns, bushranger, c. twiss, c.h. bade, caleb sherar, caledonia, caledonia diggings, campbell hunter, carl euman, caroline davey, catherine kennedy, cathren brock, cecilia farman, chamberlain, chapman, charles caldwell, charles campbell, charles dale, charles draper, charles fowler, charles green, charles hawkins, charles hempel, charles hirt, charles hirtson, charles jefer, charles jesse, charles kerchevell, charles lidgerwood, charles morris, charles peake, charles prince, charles rielly, charles roberts, charles rowand, charles simms, charles souter, charles swan, charles verso, charles wells, charles whelpton, charles williams, charles wingrove, charles woodley, charleys gully, charlotte beltison, charlotte goodwin, ching ah hock, christine brennan, christine mckenzie, christmas hills hotel, christmas hills school, christopher battaila, christopher twiss, chune grove, church of england, church of england school, clarissa milton, cleir hills, colin amos, constable quirke, constable talty, cornelius haley, cornelius stewart, cottles bridge, councillors hotel, cricket, cucksons brewery, d. nicholson, d.w. morrissey, dalry, daniel charleston, daniel harding, daniel jepps, daniel mccarthy, daniel mckenzie, daniel mcloughlin, daniel oloughlin, david 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Ballarat Technical Art School was a predecessor of Federation UniversityTyped Letters - .1 Alan McCulloch to Ballarat Art School .2 Reply from Ballarat Art School to Alan McCulloch. In regard to Biographical Dictionary of Australian Artballarat technical art school, alan mcculloch, biographical dictionary of australian art, h.e. arblaster, harold herbert, alan t. bernaldo, amalie colquhuon, charles mcnamara, victor greenhalgh, percy trompff, normie gude, nornie gude

A page from a calendar showing the Marysville Real Estate in Marysville in Victoria.A page from a calendar showing the Marysville Real Estate in Marysville in Victoria. 20 Murchison Street Marysville has been a real estate office since 1999. It was first McNamara Country Real Estate then changed in November 2002 to become Marysville Country Real Estate. Prior to 1999, the building functioned as an ANZ bank for many years. The building was constructed around 1950 and was renovated in the late 1990s. The building, along with most of the buildings in Marysville, was destroyed in the 2009 Black Saturday bushfires.marysville, victoria, marysville real estate, calendar page, calendar, isobel gregory, 2009 black saturday bushfires

A colour photograph of Marysville Country Real Estate in Marysville in Victoria.A colour photograph of Marysville Country Real Estate in Marysville in Victoria. 20 Murchison Street Marysville has been a real estate office since 1999. It was first McNamara Country Real Estate then changed in November 2002 to become Marysville Country Real Estate. Prior to 1999, the building functioned as an ANZ bank for many years. The building was constructed around 1950 and was renovated in the late 1990s. The building, along with most of the buildings in Marysville, was destroyed in the 2009 Black Saturday bushfires.marysville, victoria, marysville real estate, photograph, 2009 black saturday bushfires