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Indigenous knowledge applied to the scientific method

Indigenous science

Indigenous science is the application and intersection of Indigenous knowledge and science. In ecology, this is sometimes termed traditional ecological knowledge.^[1][2][3] Indigenous science refers to the knowledge systems and practices of Indigenous peoples, which are deeply rooted in their cultural traditions and relationships understanding of an Indigenous Nations territory or place. Indigenous science is holistic. It follows the same methods of Western science including (but not limited to): observation, prediction, interpretation, questioning.^[4] Despite the knowledge and expertise that Indigenous science brings, it has often been devalued by the Western scientific establishment.^[5] However, there has been a growing recognition in recent decades of the importance of incorporating Indigenous perspectives and knowledge systems into mainstream scientific practice, particularly in fields such as ecology and environmental management.^[6][7]

Traditional and scientific

Indigenous knowledge and experiences have traditionally been passed down orally from generation to generation.^[8][9] The concept of Indigenous science promotes the idea that every culture has its own science and understanding of the world.^[10] This point of view has been employed by scientists and policy makers to adopt new paradigms for the interpretation and human management of natural processes.^[11][12] While there are differences in the use of and structure between Indigenous science and scientific knowledge, Indigenous science has an empirical basis and has traditionally been used to predict and understand the world.^[13][14][15]

In ecology

Main article: traditional ecological knowledge

Indigenous Science is often used by the term "traditional ecological knowledge" or "TEK". However, Indigenous science refers to a multi-contextual thought.^[16] Whereas TEK refers to a term given by Western scientists to explain more regarding ecology, but it is a good representation of a category of Indigenous science.^[17]

The study of Ecology focuses on the relationships and patterns between organisms in their environment,^[18] which is a fundamental aspect of Indigenous Science. Using the subject of ecology is a great place to start when looking to see the different pathways of bridging Indigenous science and Western science. However, since this knowledge is place-based, it is important to understand that the various knowledges can vary depending on the questions and answers needed.^[19] It is often seen in Western science, the combination of two sciences to create a new subject with a new form of understanding. For example, ethnobiology combines biology with ecology allowing ethnobotanists to utilize methods of Indigenous knowledge and botany for the purpose of identification and classification of species.^[20] Using ecology can also be a great start when trying to understand the perspective of (w)holistic thought by thinking of impacts such as how the declining fish population effects nature, the food web, and coastal ecosystems.^[21]

Indigenous science has helped to address ecological challenges including the restoration of salmon,^[22] management of seabird harvests,^[23] outbreaks of hantavirus,^[24] and addressing wildfires.^[25]

Place based sciences

Indigenous science, unlike western science, differs in perspective because Indigneous science is subjective and not reductionist and objective like Western science is.^[26] What this means, is that a person's understanding of science is holistically based on their territory, cultural practices, and experiences/teachings throughout life.^[27]

This understanding in contemporary settings has led to the collaboration between Indigenous communities and scientists in projects, thus "indigenizing" the scientific method. This allows for Indigneous-led projects and community work to respect and legitimize their knowledge and understandings.^[28]

Climatology studies have made use of traditional knowledge (Qaujimajatuqangit) among the Inuit when studying long-term changes in sea ice.^[29][30]

As well as in ecology, Indigenous knowledge has been used in biological areas including animal behaviour, evolution, physiology, life history, morphology, wildlife conservation, wildlife health, and taxonomy.^[31]

Indigenous technologies

The definition of technology is "the application of scientific knowledge for practical purposes, especially in industry.".^[32] This would imply that when an Indigenous technology was developed, the science or knowledge of it came first. There are many examples of Indigenous technologies that were developed for specific use based on their location and culture such as: clam gardens, fish weirs, culturally modified trees (CMTs), looms, textiles, jewelry, etc....^[33] It is also important to note that these technologies were not as simple as providing tourist experiences but range a wide variety of subjects such as: agri- and mari-culture, fishing, forest management and resource exploitation, atmospheric, and land based management techniques.^[33]

Indigenous technologies were not commodities for profit but land-based, ecologically sustainable feats of science and mathematics. Chaco Canyon is an excellent example of this.^[34]

 

Culturally modified trees (CMTs) are when resources from a tree are used in a way that does not kill the tree itself.

 

Illustration of fish weir, designed to guide salmon in the enclosure to be hand selected as a way to manage the salmon population to ensure healthy runs the following year.

Notable scholars

• Nancy C. Maryboy
• Karlie Noon
• Lydia Jennings
• Ian Saem Majnep
• Robin Wall Kimmerer

References

1. Cajete, Gregory (2000). Native science : natural laws of interdependence. Clear Light Publishers. ISBN 1-57416-035-4. OCLC 610678710.
2. Huntington, Henry P. (2000). "Using Traditional Ecological Knowledge in Science: Methods and Applications". Ecological Applications. 10 (5): 1270–1274. doi:10.1890/1051-0761(2000)010[1270:UTEKIS]2.0.CO;2. ISSN 1051-0761.
3. Cajete, Gregory A. (17 November 2020). "Indigenous Science, Climate Change, and Indigenous Community Building: A Framework of Foundational Perspectives for Indigenous Community Resilience and Revitalization". Sustainability. 12 (22): 9569. doi:10.3390/su12229569. ISSN 2071-1050.
4. Henri, Dominique A.; Provencher, Jennifer F.; Bowles, Ella; Taylor, Jessica J.; Steel, Jade; Chelick, Carmen; Popp, Jesse N.; Cooke, Steven J.; Rytwinski, Trina; McGregor, Deborah; Ford, Adam T.; Alexander, Steven M. (April 2021). "Weaving Indigenous knowledge systems and Western sciences in terrestrial research, monitoring and management in Canada: A protocol for a systematic map". Ecological Solutions and Evidence. 2 (2). doi:10.1002/2688-8319.12057. ISSN 2688-8319. S2CID 235519593. Archived from the original on 17 April 2023. Retrieved 17 April 2023.
5. Kimmerer, Robin Wall (2013). Braiding sweetgrass (1st ed.). Minneapolis, Minnesota. ISBN 978-1-57131-335-5. OCLC 829743464. Archived from the original on 17 April 2023. Retrieved 17 April 2023.
6. Battiste, Marie (2005). Hsieh, Jolan (ed.). "Indigenous Knowledge: Foundations for First Nations". International Journal of Indigenous Education Scholarship. 1. Archived from the original on 15 April 2023. Retrieved 17 April 2023.
7. Berkes, Fikret (29 March 2012). Sacred Ecology (1st ed.). Routledge. doi:10.4324/9780203123843. ISBN 978-1-136-34173-1. Archived from the original on 17 April 2023. Retrieved 17 April 2023.
8. Reynolds, Nathaniel; Romano, Marc (2013). "Traditional Ecological Knowledge: Reconstructing Historical Run Timing and Spawning Distribution of Eulachon through Tribal Oral History". Journal of Northwest Anthropology. 47 (1): 47–70.
9. Nimmo, Evelyn R.; Carvalho, Alessandra I. de; Laverdi, Robson; Lacerda, André E. B. (2020). "Oral history and traditional ecological knowledge in social innovation and smallholder sovereignty: a case study of erva-mate in Southern Brazil". Ecology and Society. 25 (4): art17. doi:10.5751/ES-11942-250417. ISSN 1708-3087. S2CID 228904326. Archived from the original on 7 August 2022. Retrieved 7 August 2022.
10. Ogawa, Masakata (1995). "Science education in a multiscience perspective". Science Education. 79 (5): 583–593. Bibcode:1995SciEd..79..583O. doi:10.1002/sce.3730790507. ISSN 0036-8326. Archived from the original on 7 August 2022. Retrieved 7 August 2022.
11. Colorado, Pam (1 January 1988). "Bridging Native and Western Science". Convergence. 21 (2). ProQuest 1437894282. Archived from the original on 9 April 2023. Retrieved 7 August 2022 – via ProQuest.
12. Johnson, Jay T.; Howitt, Richard; Cajete, Gregory; Berkes, Fikret; Louis, Renee Pualani; Kliskey, Andrew (2016). "Weaving Indigenous and sustainability sciences to diversify our methods". Sustainability Science. 11 (1): 1–11. doi:10.1007/s11625-015-0349-x. ISSN 1862-4065. S2CID 131199874.
13. Stevenson, Marc G. (1996). "Indigenous Knowledge in Environmental Assessment". Arctic. 49 (3): 278–291. doi:10.14430/arctic1203. ISSN 0004-0843. JSTOR 40512004.
14. Traditional ecological knowledge : concepts and cases. Julian Inglis, International Program on Traditional Ecological Knowledge, International Development Research Centre, International Association for the Study of Common Property. Meeting, Common Property Conference. Ottawa, Ont., Canada. 1993. ISBN 9780889366831. OCLC 137342338. Archived from the original on 17 April 2023. Retrieved 7 August 2022.
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17. Snively, Gloria; Corsiglia, John (2000). "Discovering indigenous science: Implications for science education". Science Education. 85 (1): 6–34. doi:10.1002/1098-237x(200101)85:1<6::aid-sce3>3.0.co;2-r. ISSN 0036-8326. Archived from the original on 17 April 2023. Retrieved 17 April 2023.
18. Odum, Eugene (1971). Fundamentals of Ecology (Vol. 3 ed.). Saunders Philadelphia.
19. Alexander, Steven M.; Provencher, Jennifer F.; Henri, Dominique A.; Nanayakkara, Lushani; Taylor, Jessica J.; Berberi, Albana; Lloren, Jed Immanuel; Johnson, Jay T.; Ballard, Myrle; Cooke, Steven J. (July 2021). "Bridging Indigenous and Western sciences in freshwater research, monitoring, and management in Canada". Ecological Solutions and Evidence. 2 (3). doi:10.1002/2688-8319.12085. ISSN 2688-8319. S2CID 237787345.
20. Johnson, Jay T.; Howitt, Richard; Cajete, Gregory; Berkes, Fikret; Louis, Renee Pualani; Kliskey, Andrew (1 January 2016). "Weaving Indigenous and sustainability sciences to diversify our methods". Sustainability Science. 11 (1): 1–11. doi:10.1007/s11625-015-0349-x. ISSN 1862-4057. S2CID 131199874.
21. Díaz, Sandra; Demissew, Sebsebe; Carabias, Julia; Joly, Carlos; Lonsdale, Mark; Ash, Neville; Larigauderie, Anne; Adhikari, Jay Ram; Arico, Salvatore; Báldi, András; Bartuska, Ann; Baste, Ivar Andreas; Bilgin, Adem; Brondizio, Eduardo; Chan, Kai MA (1 June 2015). "The IPBES Conceptual Framework — connecting nature and people". Current Opinion in Environmental Sustainability. Open Issue. 14: 1–16. Bibcode:2015COES...14....1D. doi:10.1016/j.cosust.2014.11.002. ISSN 1877-3435. S2CID 14000233. Archived from the original on 6 March 2023. Retrieved 17 April 2023.
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23. Moller, H.; Berkes, F.; Lyver, P. O. B.; Kislalioglu, M. (2004). "Combining science and traditional ecological knowledge: monitoring populations for co-management". Ecology and Society. 9 (3). doi:10.5751/ES-00675-090302. JSTOR 26267682.
24. Stumpff, Linda. "Hantavirus and the Navajo Nation: A Double Jeopardy Disease". Native Case Studies. Archived from the original on 4 July 2022. Retrieved 7 August 2022.
25. Stumpff, Linda. "Your Tribal Land is Not Secure: Traditional Knowledge and Science Face Wildfire in the Valley of the Wild Roses". Native Case Studies. Archived from the original on 7 August 2022. Retrieved 7 August 2022.
26. Anto., Johnson, Peter, Indigenous North American cosmological and astronomical knowledge : perspectives & teachings, ISBN 978-1-77369-702-4, OCLC 1333224828, retrieved 17 April 2023
27. Aikenhead, Glen S.; Ogawa, Masakata (1 July 2007). "Indigenous knowledge and science revisited". Cultural Studies of Science Education. 2 (3): 539–620. Bibcode:2007CSSE....2..539A. doi:10.1007/s11422-007-9067-8. ISSN 1871-1510. S2CID 144674577. Archived from the original on 17 April 2023. Retrieved 17 April 2023.
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30. "Enabling Resiliency in the Face of Climate Change: SmartICE is an award-winning technological innovation for the North". SmartIce. Archived from the original on 4 August 2022. Retrieved 12 August 2022. We are the worldʼs first climate change adaptation tool to integrate traditional knowledge of sea ice with advanced data acquisition and remote monitoring technology. Our system combines these approaches to provide invaluable, data-driven insights into sea ice thickness and local ice conditions, in near real-time.
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34. Hudson, Dee T. (20 August 1972). "Anasazi Measurement Systems at Chaco Canyon, New Mexico". Kiva. 38 (1): 27–42. doi:10.1080/00231940.1972.11757770. JSTOR 30247773.