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The diet and incidence of scurvy and adopted preventative measures in the two branches of Shackleton’s Imperial Trans-Antarctic Expedition 1914–1917

Published online by Cambridge University Press:  12 July 2019

David L. Harrowfield*
Affiliation:
The Polar Room, 70 Awamoa Road, Oamaru 9401, New Zealand
Bill Alp
Affiliation:
The Polar Room, 70 Awamoa Road, Oamaru 9401, New Zealand
*
Author for correspondence: David L. Harrowfield, E-mail: [email protected]

Abstract

Sir Ernest Henry Shackleton’s Imperial Trans-Antarctic Expedition (ITAE) 1914–1917, consisted of two parties – a Weddell Sea party led by Shackleton with Endurance, and a supporting Ross Sea depot-laying party, led by Captain Aeneas L.A. Mackintosh with Aurora. The purpose of this research paper is to consider why the Ross Sea party contracted scurvy and the Weddell Sea party did not. The authors suggest that for the Ross Sea shore party there was ineffectual leadership, insufficient medical care and sledging with excessive loads, and an inadequate diet for sledging, in both energy and vitamin C content. In their second season, depletion of vitamin C was again evident with one person dying. The Weddell Sea party, ably led by Shackleton, not only faced the arduous task of sledging heavy stores and moving camps in thick snow, but also had to haul three boats over pressure ridges, before reaching open water and rowing to Elephant Island. Here, the men lived almost exclusively on a fresh meat diet and were not affected by scurvy. This is the final paper for the trilogy commemorating the Ross Sea party centenary (the others are Harrowfield, 2013, 2015).

Type
Research Article
Copyright
© Cambridge University Press 2019 

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References

Ajibola, V. O., Babatunde, B. O., & Suleiman, S. (2009). The effect of storage method on the vitamin C content in some tropical fruit juices. Trends in Applied Sciences Research, 4, 7984. https://scialert.net/abstract/?doi=tasr.2009.79.84.CrossRefGoogle Scholar
Amundsen, R. A. (1912). The South Pole (Vols. 1–2). London: John Murray.Google Scholar
Atkinson, E. A. (1915). The British Antarctic expedition, 1910-1913. Journal of the Royal Naval Medical Service, 14(1), 202203.Google Scholar
Beveridge, W. (1925). Discussion on food and health. Sessional Meeting London February 10th, 1925. Journal of the Royal Sanitary Institute, 45(2), 1.Google Scholar
Butler, A. R. (2013). The role of scurvy in Scott’s return from the South Pole. Journal of the Royal College of Physicians, 43, 175–81.CrossRefGoogle ScholarPubMed
Carpenter, K. J. (1986). The history of scurvy and vitamin C. Cambridge: Cambridge University Press.Google Scholar
Carr, A. C., & Maggini, S. (2017). Vitamin C and immune function. Nutrients 9, 1211, doi: 10.3390/nu9111211.CrossRefGoogle ScholarPubMed
Charcot, J. (1978). The voyage of the “Pourquoi-Pas?”: The journal of the second French Polar Expedition 1908-1910. London: C. Hurst & Co.Google Scholar
Cherry-Garrard, A. (1937). The worst journey in the world. London: Chatto & Windus.Google Scholar
Cook, F. A. (1909). Through the first Antarctic night. New York: Doubleday, Page & Company.Google Scholar
Cope, J. L. (1917). Medical report of the Ross Sea Base ITAE January 1917. (MS 1537/4/3;D). Scott Polar Research Institute, Cambridge.Google Scholar
Evans, E. R. G. R. [ca. 1932]. South with Scott. London: Collins.Google Scholar
Fisher, M., & James (1957). Shackleton. London: James Barrie Books Ltd.Google Scholar
Funk, C. (1912). The etiology of the deficiency diseases. Journal of State Medicine, 20, 341368.Google Scholar
Guly, H. R. (2012a). Polar anaemia: Cardiac failure during the heroic age of Antarctic exploration. Polar Record, 48(245), 157164.CrossRefGoogle ScholarPubMed
Guly, H. R. (2012b). Psychiatric illness and suicide in the heroic age of Antarctic exploration. History of Psychiatry, 23(2), 206215.CrossRefGoogle ScholarPubMed
Guly, H. R. (2013). The understanding of scurvy during the heroic age of Antarctic exploration. Polar Record, 49, 2632.CrossRefGoogle Scholar
Harrowfield, D. L. (2013). ‘Intentions-hopeful’: The Ross Sea Party Girling motor-sledge in Canterbury Museum. Shackleton’s Imperial Trans-Antarctic Expedition 1914-1916. Records of the Canterbury Museum, 27, 97111.Google Scholar
Harrowfield, D. L. (2015). ‘For the Sake of Science and Country’. The Ross Sea Party 1914-1917. Polar Record, 51(4), 343365.CrossRefGoogle Scholar
Hayward, V. (1915a). January 27. [Diary]. (MS 2030). Alexander Turnbull Library, Wellington.Google Scholar
Hayward, V. (1915b). February 18, March 5, March 9; (1916), March 11-14, March 19. [Diary]. (MS JOD/231/1). National Maritime Museum Greenwich, London.Google Scholar
Holst, A. (1907). Experimental studies relating to “Ship-beri-beri” and scurvy 1: Introduction. Journal of Hygiene, 7(5), 619633.Google Scholar
Holst, A., & Fröhlich, T. (1907). Experimental studies relating to “Ship-beri-beri” and Scurvy. On the etiology of scurvy 2. Journal of Hygiene, 7(5), 634671.Google Scholar
Hopkins, F. G. (1912). Feeding experiments illustrating the importance of accessory factors in normal dietarcis. Journal of Physiology, 44, 425460.CrossRefGoogle Scholar
Høygaard, A., & Rasmussen, H. W. (1939). Vitamin C sources in Eskimo food. Nature, 143, 943.CrossRefGoogle Scholar
Huntford, R. (1985). Shackleton. London: Hodder and Stoughton.Google Scholar
Hurley, J. F. (1916). February 23, April 15, April 28, May 8, May 15, June 6, June 28, August 10, August 15). [Diary]. (MS 383). National Library of Australia, Canberra.Google Scholar
Jack, A. K. (1915). October 6, October 22; 1916, January 17, June 21, July 20, November 11, December 14). [Diary]. (MS 448; BJ). Scott Polar Research Institute, Cambridge.Google Scholar
Jones, A. G. E. (1977). ‘Atch’. Journal of the Royal Naval Medical Service, 63(3), 149152.Google Scholar
Jones, A. G. E. (1978). Frankie Wild’s hut. Journal of the Royal Naval Medical Service, 64(Spring), 5158.Google ScholarPubMed
Joyce, E. E. M. (1929). The south polar trail. London: Duckworth.CrossRefGoogle Scholar
Kendall, E. J. C. (1955). Scurvy during some British polar expeditions, 1875 -1917. Polar Record, 7(51), 467485.CrossRefGoogle Scholar
Mackintosh, A. L. A. (1915a). June 5. [Diary]. (MS 1537/4/1/1; D). Scott Polar Research Institute, Cambridge.Google Scholar
Mackintosh, A. L. A. (1915b). July 26. [Typescript Report]. (MS 1537/4//4/11; D). Scott Polar Research Institute, Cambridge.Google Scholar
Macklin, A. H. [ca. 1951]. Marooned on Elephant Island. [Typescript, 1 page]. (GB15.MS 1617/7/12D). Scott Polar Research Institute, Cambridge.Google Scholar
Macklin, A. H., & Hussey, L. D. (1921). Scurvy: A system of prevention for a polar expedition based on present day knowledge. Lancet, 198(511), 319372.CrossRefGoogle Scholar
Marshall, E. S. (1908). 21 November 1908. [Diary]. (MS 206/1/1-2; MJ). Cambridge: Scott Polar Research Institute.Google Scholar
Marshall, E. S. (1909). 13 February 1909. [Diary]. (MS 206/1/1-2; MJ). Cambridge: Scott Polar Research Institute.Google Scholar
Marshall, E. S. (1950, August 22). [Letter to Dr E. J. C. Kendall]. (MS656/1/1). Scott Polar Research Institute, Cambridge.Google Scholar
Mawson, D. (1915). The home of the blizzard (Vols. 1–2). London: William Heinemann.Google Scholar
McElrea, R. G., & Harrowfield, D. L. (2004). Polar castaways. Christchurch: Canterbury University Press.Google Scholar
McOrist, W. (2015). Shackleton’s heroes. London: The Robson Press.Google Scholar
Norris, J. (1983). The “Scurvy disposition”: Heavy exertion as an exacerbating influence on scurvy in modern times. Bulletin of the History of Medicine, 57: 325–38.Google ScholarPubMed
Padayatty, S. J., Katz, A., Wang, Y., Eck, P., Kwon, O., Lee, J.-H., Chen, S., Corpe, C., Dutta, A., Dutta, S. K., & Levine, M. (2003). Vitamin C as an antioxidant: Evaluation of its role in disease prevention. Journal of the American College of Nutrition, 22(1), 1835.CrossRefGoogle ScholarPubMed
Patarra, R. F., Piavara, L., Neto, A. L., Lima, E., & Baptista, E. (2010). Nutritional value of selected algae. Journal Applied Phycology, 23, 205208. doi: 101007/s10811-010.9556-0.CrossRefGoogle Scholar
Pemberton, J. (2006). Medical experiments carried out in Sheffield on conscientious objectors to military service during the 1939-45 war. International Journal of Epidemiology, 35(3), 556558.CrossRefGoogle ScholarPubMed
Priestley, R. (1969) Inexpressible Island. Nutrition Today, 4(3), 1827.CrossRefGoogle Scholar
Richards, R. W. [ca. 1961]. The Ross Sea Shore Party 1914–17. [Photocopy of draft]. Canterbury Museum, Christchurch and Harrowfield Collection.Google Scholar
Richards, R. W. (1962). The Ross Sea Shore Party 1914-17.(Special Publication Number 2). Cambridge: Scott Polar Research Institute.Google Scholar
Savours, A. (Ed.). (1966). Edward Wilson. Diary of the ‘Discovery’ expedition to the Antarctic 1901–1904. London: Blandford Press.Google Scholar
Scott, R. F., & Huxley, L. (arranger) (1913). Scott’s last expedition (Vols. 1–2). London: Smith Elder & Co.CrossRefGoogle Scholar
Scott-Fawcett, S. D. (Ed.). (2014). The Shackleton centenary book (2014). Cromer: Sutherland House Publishing.Google Scholar
Shackleton, E. H. (1909). The Heart of the Antarctic (Vols. 1–2). London: William Heinemann.Google Scholar
Shackleton, E. H. (1917, January 20). [Letter to A. E. Mabin from Ross Sea off Beaufort Island]. (2019.1.22). Canterbury Museum, Christchurch and Harrowfield Collection.Google Scholar
Shackleton, E. H. (1919). South: The story of the 1914-1917 expedition. London: William Heinemann.Google Scholar
Shirihai, H. (2007). A complete guide to Antarctic wildlife (2nd ed.) London: A&C Black.Google Scholar
Smith, M. S. R. (1966). Studies of the Weddell Seal (Leptonychotes weddelli Lesson) in McMurdo Sound, Antarctica. (Unpublished doctoral dissertation). University of Canterbury, Christchurch.Google Scholar
Spencer-Smith, A. P. (1915). January. 30, April 14. [Diary]. (MS 434). Canterbury Museum, Christchurch.Google Scholar
Spencer-Smith, A. P. (1916). January 12. [Diary]. (MS 1390/1-2; BJ). Scott Polar Research Institute, Cambridge.Google Scholar
Stenhouse, J. R. (1914). [Stores for SS Ionic]. (MS1590/4/14). Scott Polar Research Institute, Cambridge.Google Scholar
Stenhouse, J. R. (1915). March 11. [Log SY Aurora]. (MS 1605/8/1; D). Scott Polar Research Institute, Cambridge.Google Scholar
Stevens, A. (1917). Account of the Ross Sea party, 30 October 1914–3 January 1917. (MS 1537/4/4/18/4; D). Scott Polar Research Institute, Cambridge.Google Scholar
Stirling, I. (1971). Population aspects of Weddell Seal harvesting at McMurdo Sound Antarctica. Polar Record, 15(98), 653667.CrossRefGoogle Scholar
Thomson, J. (Ed. (2003). Elephant Island & beyond. The life and diaries of Thomas Orde Lees. Norwich: The Erskine Press and Bluntisham Books. Orde Lees, T. (1916) [Diary]. (qMS 1150). Alexander Turnbull Library, Wellington.Google Scholar
Thomson, L. J. F. (1915). January 23. [Diary]. Malcolm Thomson Collection, Sydney.Google Scholar
Tyler-Lewis, K. (2006). The lost men. New York: Viking.Google Scholar
US Department of Health & Human Services (2018). Vitamin C: Fact sheet for health professionals. Retrieved from https://ods.od.nih.gov/factsheets/VitaminC-HealthProfessional/#en24.Google Scholar
Wild, H. E. (1915). December 28–30. [Diary]. (MS 928/3; BJ). Scott Polar Research Institute, Cambridge.Google Scholar
Wild, H. E. (1916). April 20, April 23, December 17. [Diary]. (MS 24070). Alexander Turnbull Library, Wellington.Google Scholar
Wilson, E. A. (1905). The medical aspects of the Discovery’s voyage to the Antarctic. British Medical Journal, Jul8; 2 (2323), 77–80.CrossRefGoogle Scholar
Yong-Guen, A. (1999). Dog meat foods in Korea. [Table 4. Composition of dog meat]. Korean Journal of Food and Nutrition, 12 (4), 397408.Google Scholar