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Ethical Challenges for the Environment from Traditional and Complementary Medicine

  • Kate Chatfield
Chapter
Part of the SpringerBriefs in Philosophy book series (BRIEFSPHILOSOPH)

Abstract

A healthy environment is essential for human (and animal) health. The delivery of healthcare services can have highly detrimental environmental impacts. For instance, the production, transport and storage of medicines may contribute to the depletion of natural resources and, at the same time, accelerate pollution of the environment with by-products and waste materials. Thus, health care that is intended to keep humans and animals healthy also contributes to ill-health. Given the burgeoning need to make health care more sustainable, the impact of T&CM, specifically herbal medicine, upon the environment is examined. Recommendations are given on how harm to the environment can be avoided and/or minimised. Since the wellbeing of the environment is intricately linked to the health of living organisms, an examination of the relationship between the environment and health is included.

Keywords

Traditional and complementary medicine Herbal medicine Environment Sustainability Climate change Degradation Peak oil Ecosystems Health 

References

  1. AGC Glass Europe (2018) Our environmental impact. http://www.agc-glass.eu/en/sustainability/environmental-achievements/environmental-impact. Accessed 21 Nov 2017
  2. Alberici S, Toop G (2013) UK Biofuels industry overview. Department of Transport, LondonGoogle Scholar
  3. Aleklett K (2012) Peak oil. In: Peeking at peak oil. Springer, New York, pp 7–15CrossRefGoogle Scholar
  4. Banar M, Cokaygil Z (2008) A comparative life cycle analysis of two different juice packages. Environ Eng Sci 25(4):549–556CrossRefGoogle Scholar
  5. Bardi U (2009) Peak oil: the four stages of a new idea. Energy 34(3):323–326CrossRefGoogle Scholar
  6. Blengini GA, Busto M, Fantoni M, Fino D (2012) Eco-efficient waste glass recycling: integrated waste management and green product development through LCA. Waste Manage 32(5):1000–1008CrossRefGoogle Scholar
  7. Botanic Gardens Conservation International (2018) Mission and strategy. https://www.bgci.org/about-us/mission/. Accessed 02 May 2018
  8. British Glass (2018) Rycycling. https://www.britglass.org.uk/our-work/recycling Accessed 17 Jan 2018
  9. Brown K (1995) Medicinal plants, indigenous medicine and conservation of biodiversity in Ghana. Cambridge University Press, CambridgeCrossRefGoogle Scholar
  10. Casey M, Adams J, Sibbritt D (2007) An examination of the prescription and dispensing of medicines by Western herbal therapists: a national survey in Australia. Complement Ther Med 15(1):13–20CrossRefGoogle Scholar
  11. Ceballos G, Ehrlich PR, Barnosky AD, García A, Pringle RM, Palmer TM (2015) Accelerated modern human-induced species losses: entering the sixth mass extinction. Sci Adv 1(5):e1400253CrossRefGoogle Scholar
  12. Chae Y, An YJ (2018) Current research trends on plastic pollution and ecological impacts on the soil ecosystem: a review. Environ Pollut 240:387–395CrossRefGoogle Scholar
  13. Climate Change Act (2008) UK. https://www.legislation.gov.uk/ukpga/2008/27/contents. Accessed 12 Oct 2018
  14. Dahlberg AC, Trygger SB (2009) Indigenous medicine and primary health care: the importance of lay knowledge and use of medicinal plants in rural South Africa. Hum Ecol: An Interdisc J 37(1):79–94CrossRefGoogle Scholar
  15. Davies S (2018) Annual report of the Chief Medical Officer 2017: health impacts of all pollution. Department of Health and Social Care, LondonGoogle Scholar
  16. De Bolle L, Mehuys E, Adriaens E, Remon J-P, Van Bortel L, Christiaens T (2008) Home medication cabinets and self-medication: a source of potential health threats? Ann Pharmacother 42(4):572–579CrossRefGoogle Scholar
  17. De Decker K (2014) How much energy does it take? http://www.lowtechmagazine.com/what-is-the-embodied-energy-of-materials.html. Accessed 06 Sept 2017
  18. Depledge M (2011) Does the pharmaceutical industry need a new prescription? Sci Parliam 68(4):44Google Scholar
  19. De Vos JM, Joppa LN, Gittleman JL, Stephens PR, Pimm SL (2015) Estimating the normal background rate of species extinction. Conserv Biol 29(2):452–462CrossRefGoogle Scholar
  20. Dickov V, Kuzman B (2011) Analyzing pharmaceutical industry. Natl J Physiol Pharm Pharmacol 1(1):1–8CrossRefGoogle Scholar
  21. Dietrich AS (2008) Corrosion in the system: the community health by-products of pharmaceutical production in Northern Puerto Rico. In: Singer M, Baer H (eds) Killer commodities: public health and the corporate production of harm. Altimera Press, Plymouth, pp 335–365Google Scholar
  22. Energy Information Administration (2017) Energy use for transportation. http://www.eia.gov/Energyexplained/?page=us_energy_transportation. Accessed 08 July 2017
  23. Eriksen M (2014) The plastisphere—the making of a plasticized world. Tulane Environ Law J 27(2):153–163Google Scholar
  24. Erwin WM, Korpela AP, Jones RC (2013) Chiropractors as primary spine care providers: precedents and essential measures. J Can Chiropr Assoc 57(4):285–291Google Scholar
  25. Frumkin H, Hess J, Parker CL, Schwartz BS (2011) Peak petroleum: fuel for public health debate. Am J Public Health 101(9):1542CrossRefGoogle Scholar
  26. Frumkin H, Hess J, Vindigni S (2009) Energy and public health: the challenge of peak petroleum. Public Health Rep 124(1):5–19CrossRefGoogle Scholar
  27. Gander P (2008) Glass half full for availability, price and carbon footprint. Food Manuf 83(11):23Google Scholar
  28. Gao Y, Zhong B, Yue H, Wu B, Cao S (2011) A degradation threshold for irreversible loss of soil productivity: a long-term case study in China. J Appl Ecol 48(5):1145–1154CrossRefGoogle Scholar
  29. Halden RU (2010) Plastics and health risks. Annu Rev Public Health 31:179–194CrossRefGoogle Scholar
  30. Hawkins B (2008) Plants for life: medicinal plant conservation and botanic gardens. Botanic Gardens Conservation International, SurreyGoogle Scholar
  31. Hofstrand D (2009a) Efficiency and environmental improvements of corn ethanol production. http://www.agmrc.org/renewable_energy/ethanol/efficiency-and-environmental-improvements-of-corn-ethanol-production. Access 12 Mar 2018
  32. Hofstrand D (2009b) Greenhouse gas emissions of corn ethanol production. http://www.agmrc.org/renewable_energy/climate_change/greenhouse-gas-emissions-of-corn-ethanol-production/. Accessed 12 Mar 2018
  33. Intergovernmental Panel on Climate Change (2014) Climate change 2014: impacts, adaption and vulnerability. http://www.ipcc.ch/report/ar5/wg2/. Accessed 30 Mar 2018
  34. Ishizawa Y (2011) General anesthetic gases and the global environment. Anesth Analg 112(1):213–217CrossRefGoogle Scholar
  35. Larson J, English B, Ugarte DDLT, Menard R, Hellwinckel C, West TO (2010) Economic and environmental impacts of the corn grain ethanol industry on the United States agricultural sector. J Soil Water Conserv 65(5):267–279CrossRefGoogle Scholar
  36. Larsson D (2008) Drug production facilities—an overlooked discharge source for pharmaceuticals to the environment. In: Pharmaceuticals in the environment. Springer, Berlin, pp 37–42Google Scholar
  37. McElroy K (2011) Herbal medicine practice: future environmental impacts. Aust J Med Herbalism 23(4):164–167Google Scholar
  38. McKenzie M, Kirakosyan A, Kaufman PB (2009) Risks associated with over collection of medicinal plants in natural habitats. In: Recent advances in plant biotechnology. Springer, Berlin, pp 363–387CrossRefGoogle Scholar
  39. Morgan J (2014) The carbon footprint of homeopathy [personal communication 17/11/2014]Google Scholar
  40. Narancic T, O’Connor KE (2017) Microbial biotechnology addressing the plastic waste disaster. Microb Biotechnol 10(5):1232–1235CrossRefGoogle Scholar
  41. Naylor C, Appleby J (2012) Sustainable health and social care: connecting environmental and financial performance. King’s Fund, LondonGoogle Scholar
  42. Naylor C, Appleby J (2013) Environmentally sustainable health and social care: scoping review and implications for the English NHS. J Health Serv Res Policy 18(2):114–121CrossRefGoogle Scholar
  43. Ncube B, Finnie JF, Van Staden J (2012) Quality from the field: the impact of environmental factors as quality determinants in medicinal plants. S Afr J Bot 82:11–20CrossRefGoogle Scholar
  44. Nilsson K, Sund V, Florén B (2011) The environmental impact of the consumption of sweets, crisps, and soft drinks. Nordic Council of Ministers, CopenhagenGoogle Scholar
  45. North EJ, Halden RU (2013) Plastics and environmental health: the road ahead. Rev Environ Health 28(1):1–8CrossRefGoogle Scholar
  46. Pandey D, Agrawal M, Pandey JS (2011) Carbon footprint: current methods of estimation. Environ Monit Assess 178(1–4):135–160CrossRefGoogle Scholar
  47. Patz J, Corvalan C, Hortwitz P, Campbell-Lendrum D (2012) Our planet, our health, our future. Human health and the Rio Conventions: biological diversity, climate change and desertification. World Health Organization, GenevaGoogle Scholar
  48. Poland B, Dooris M (2010) A green and healthy future: the settings approach to building health, equity and sustainability. Critl Public Health 20(3):281–298CrossRefGoogle Scholar
  49. Poland B, Dooris M, Haluza-Delay R (2011) Securing ‘supportive environments’ for health in the face of ecosystem collapse: meeting the triple threat with a sociology of creative transformation. Health Promot Int 26(2):ii202–ii215CrossRefGoogle Scholar
  50. Rastogi S, Kaphle K (2011) Sustainable traditional medicine: taking the inspirations from ancient veterinary science. Evid Based Complement Altern Med (eCAM) 8(1):1–6Google Scholar
  51. Rodríguez JP, Rodriguez-Clark KM, Baillie JE, Ash N, Benson J, Boucher T, Brown C, Burgess ND, Collen B, Jennings M (2011) Establishing IUCN red list criteria for threatened ecosystems. Conserv Biol 25(1):21–29CrossRefGoogle Scholar
  52. Rohrer J (2011) Plastic bags and plastic bottles: CO2 emissions during their lifetime. https://timeforchange.org/plastic-bags-and-plastic-bottles-CO2-emissions. Accessed 12 Oct 2018
  53. Rutland Biodynamics (2015) Environmental impact of herbal medicine. http://www.rutlandbio.com/about-rutlandbio/environmental-impact/. Accessed 30 Apr 2018
  54. Sabaliauskaitė K, Kliaugaitė D (2014) Resource efficiency and carbon footprint minimization in manufacture of plastic products. Efektyvus išteklių naudojimas ir anglies dioksido pėdsako mažinimas plastikinių gaminių gamyboje. 67(1):25–34Google Scholar
  55. Schwartz BS, Parker CL (2011) Public health and medicine in an age of energy scarcity: the case of petroleum. Am J Public Health 101(9):1560CrossRefGoogle Scholar
  56. Sharma M, Sharma K (2014) Food security and ecological degradation: challenges and opportunities for inclusive growth. Am J Public Health 3(200):2Google Scholar
  57. Smith K (2013) Environmental hazards: assessing risk and reducing disaster. Routledge, LondonCrossRefGoogle Scholar
  58. Sustainable Development Unit (2016) Carbon footprint update for NHS England. https://www.sduhealth.org.uk/policy-strategy/reporting/nhs-carbon-footprint.aspx. Accessed 20 Feb 2018
  59. Timmermans K (2003) Intellectual property rights and traditional medicine: policy dilemmas at the interface. Soc Sci Med 57(4):745–756CrossRefGoogle Scholar
  60. Twitchett RJ (2006) The palaeoclimatology, palaeoecology and palaeoenvironmental analysis of mass extinction events. Palaeogeogr Palaeoclimatol Palaeoecol 232(2):190–213CrossRefGoogle Scholar
  61. United States Energy Information (2013) Today in energy. http://www.eia.gov/todayinenergy/detail.cfm?id=12631. Accessed 30 Oct 2017
  62. United States Environmental Protection Agency (2018) Climate indicators. https://www.epa.gov/climate-indicators/oceans. Accessed 03 May 2018
  63. van Andel T, Havinga R (2008) Sustainability aspects of commercial medicinal plant harvesting in Suriname. For Ecol Manage 256(8):1540–1545CrossRefGoogle Scholar
  64. Wiedmann T, Minx J (2008) A definition of ‘carbon footprint’. Ecol Econ Res Trends 1:1–11Google Scholar
  65. Wong BBM, Candolin U (2015) Behavioral responses to changing environments. Behav Ecol 26(3):665–673CrossRefGoogle Scholar
  66. World Health Organization (1986) Ottawa charter for health promotion. World Health Organization, GenevaGoogle Scholar
  67. World Health Organization (2013) WHO traditional medicine strategy: 2014–2023, Hong Kong SAR: World Health OrganizationGoogle Scholar

Copyright information

© The Author(s), under exclusive license to Springer Nature Switzerland AG 2018

Authors and Affiliations

  1. 1.Centre for Professional EthicsUniversity of Central LancashirePrestonUK

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