Towards resilience in the Anthropocene: transforming conservation biology through Indigenous perspectives
M. Price A E , K. B. Winter A B C and A. Jackson DA Natural Resources and Environmental Management, University of Hawai‘i at Mānoa, 1910 East-West Road, Sherman Laboratory Room 101, Honolulu, HI 96822, USA.
B Hawai‘i Institute of Marine Biology, University of Hawai‘i at Mānoa, 46-007 Lilipuna Road, Kāne‘ohe, HI 96744, USA.
C Hawai‘i Conservation Alliance, 1601 East-West Road, Honolulu, HI 96848-1601, USA.
D Ngāti Whātua, Ngāpuhi, Ngāti Kahu o Whangaroa, Ngāti Wai, Te Koronga, School of Physical Education, Sport and Exercise Sciences, University of Otago, National Centre of Research Excellence Coastal People: Southern Skies, PO Box 56, Dunedin, 9054, New Zealand.
E Corresponding author. Email: pricemel@hawaii.edu
Pacific Conservation Biology 27(4) 309-319 https://doi.org/10.1071/PCv27n4_FO
Published: 8 December 2021
Journal Compilation © CSIRO 2021 Open Access CC BY-NC-ND
References
Aitken, J., Shadbolt, M., Doherty, J., Mark-Shadbolt, M., Marzano, M., and Ataria, J. (2021). Exploring the Indigenous voice in a graphical representation of Aotearoa’s biocultural heritage (flora and fauna). Pacific Conservation Biology 27, 481–492.| Exploring the Indigenous voice in a graphical representation of Aotearoa’s biocultural heritage (flora and fauna).Crossref | GoogleScholarGoogle Scholar |
Albrecht, G., Sartore, G. M., Connor, L., Higginbotham, N., Freeman, S., Kelly, B., Stain, H., Torma, A., and Pollard, G. (2007). Solastalgia: the distress caused by environmental change. Australasian Psychiatry 15, S95–S98.
| Solastalgia: the distress caused by environmental change.Crossref | GoogleScholarGoogle Scholar |
Artelle, K. A., Zurba, M., Bhattacharyya, J., Chan, D. E., Brown, K., Housty, J., and Moola, F. (2019). Supporting resurgent Indigenous-led governance: A nascent mechanism for just and effective conservation. Biological Conservation 240, .
| Supporting resurgent Indigenous-led governance: A nascent mechanism for just and effective conservation.Crossref | GoogleScholarGoogle Scholar |
Bambridge, T., D’arcy, P., and Mawyer, A. (2021). Oceanian Sovereignty: rethinking conservation in a sea of islands. Pacific Conservation Biology 27, 345–353.
| Oceanian Sovereignty: rethinking conservation in a sea of islands.Crossref | GoogleScholarGoogle Scholar |
Ban, N. C., Wilson, E., and Neasloss, D. (2019). Historical and contemporary Indigenous marine conservation strategies in the North Pacific. Conservation Biology 34, 5–14.
| Historical and contemporary Indigenous marine conservation strategies in the North Pacific.Crossref | GoogleScholarGoogle Scholar |
Barnosky, A. D., Matzke, N., Tomiya, S., Wogon, G. O. U., Swartz, B., Quental, T. B., Marshall, C., McGuire, J. L., Lindsey, E. L., Maguire, K. C., Mersey, B., and Ferrer, E. A. (2011). Has the Earth’s sixth mass extinction already arrived? Nature 471, 51–57.
| Has the Earth’s sixth mass extinction already arrived?Crossref | GoogleScholarGoogle Scholar |
Baron, J., and Spranca, M. (1997). Protected values. Organizational Behavior and Human Decision Processes 70, 1–16.
| Protected values.Crossref | GoogleScholarGoogle Scholar |
Belcher, S. M., Ripeka Mercier, O., Foley, J. P., and Deslippe, J. (2021). Ecological State Assessment Tool (ESAT): a cross-cultural natural resource management tool from Aotearoa, New Zealand. Pacific Conservation Biology 27, 464–480.
| Ecological State Assessment Tool (ESAT): a cross-cultural natural resource management tool from Aotearoa, New Zealand.Crossref | GoogleScholarGoogle Scholar |
Bennett-Jones, L., Gnanalingam, G., Flack, B., Scott, N., Pritchard, D., Moller, H., and Hepbum, C. (2021). Translocation of black foot pāua (Haliotis iris) in a customary fishery management area: transformation from top-down management to kaitiakitanga (local guardianship) of a cultural keystone. Pacific Conservation Biology 27, 402–417.
| Translocation of black foot pāua (Haliotis iris) in a customary fishery management area: transformation from top-down management to kaitiakitanga (local guardianship) of a cultural keystone.Crossref | GoogleScholarGoogle Scholar |
Berkes, F. (2011). Restoring unity: The Concept of Marine Social-Ecological Systems. In ‘World Fisheries: A Social-Ecological Analysis’. (Eds R. E. Ommer, R. I. Perry, K. Cochrane, P. Cury.) Chapter 2, pp. 9–28. (Wiley: New York.)
Berkes, F. (2018). Sacred Ecology, Fourth Edition. (Routledge, New York, YK and Abingdon, Oxon)
Borrelle, S. B., Koch, J. B., McDonough MacKenzie, C., Ingeman, K. E., McGill, B. M., Lambert, M. R., Belasen, A. M., Dudney, J., Chang, C. H., Teffer, A. K., and Wu, G. C. (2021). What does it mean to be for a Place? Pacific Conservation Biology 27, 354–361.
| What does it mean to be for a Place?Crossref | GoogleScholarGoogle Scholar |
Bossuyt, B., and Honnay, O. (2008). Can the seed bank be used for ecological restoration? An overview of seed bank characteristics in European communities. Vegetation Science 19, 875–884.
| Can the seed bank be used for ecological restoration? An overview of seed bank characteristics in European communities.Crossref | GoogleScholarGoogle Scholar |
Comberti, C., Thornton, T. F., Wyllie de Echeverria, V., and Patterson, T. (2015). Ecosystem services or services to ecosystems? Valuing cultivation and reciprocal relationships between humans and ecosystems. Global Environmental Change 34, 247–62.
| Ecosystem services or services to ecosystems? Valuing cultivation and reciprocal relationships between humans and ecosystems.Crossref | GoogleScholarGoogle Scholar |
Committee On Publication Ethics (2021). Guidelines. Available at https://publicationethics.org/guidance/Guidelines. [Accessed 1 August 2021].
Conroy, G. (2019). Ecological grief grips scientists. Nature 573, 318–319.
| Ecological grief grips scientists.Crossref | GoogleScholarGoogle Scholar |
Cunsolo, A., and Ellis, N. R. (2018). Ecological grief as a mental health response to climate change-related loss. Nature Climate Change 8, 275–281.
| Ecological grief as a mental health response to climate change-related loss.Crossref | GoogleScholarGoogle Scholar |
De Witte, H., Pienaar, J., and De Cuyper, N. (2016). Review of 30 years of longitudinal studies on the association between job insecurity and health and well-being: is there causal evidence? Australian Psychologist 51, 18–31.
| Review of 30 years of longitudinal studies on the association between job insecurity and health and well-being: is there causal evidence?Crossref | GoogleScholarGoogle Scholar |
Diaz, S., Settele, J., Brondizio, E. S., Ngo, H. T., Agard, J., Arneth, A., Balvanera, P., Brauman, K. A., Butchart, S. H. M., Chan, K. M. A., Garibaldi, L. A., Ichii, K., Liu, J. G., Subramanian, S. M., Midgley, G. F., Miloslavich, P., Molnar, Z., Obura, D., Pfaff, A., Polasky, S., Purvis, A., Razzaque, J., Reyers, B., Chowdhury, R. R., Shin, Y. J., Visseren-Hamakers, I., Willis, K. J., and Zayas, C. N. (2019). Pervasive human-driven decline of life on Earth points to the need for transformative change. Science 366, 1327.
| Pervasive human-driven decline of life on Earth points to the need for transformative change.Crossref | GoogleScholarGoogle Scholar |
Douglas, J. (1978). Biologists urge US endowment for conservation. Nature 275, 82–83.
| Biologists urge US endowment for conservation.Crossref | GoogleScholarGoogle Scholar |
Dudley, N., Jonas, H., Nelson, F., Parrish, J., Pyhala, A., Stolton, S., and Watson, J. E. M. (2018). The essential role of other effective area-based conservation measures in achieving big bold conservation targets. Global Ecology and Conservation 15, e00424.
| The essential role of other effective area-based conservation measures in achieving big bold conservation targets.Crossref | GoogleScholarGoogle Scholar |
Echeverri, A., Callahan, M. M., Chan, K. M. A., Satterfield, T., and Zhao, J. (2017). Explicit not implicit preferences predict conservation intentions for endangered species and biomes. PLoS ONE 12, e0170973.
| Explicit not implicit preferences predict conservation intentions for endangered species and biomes.Crossref | GoogleScholarGoogle Scholar |
Fabre, P., Bambridge, T., Claudet, J., Sterling, E., and Mawyer, A. (2021). Contemporary Rāhui: placing Indigenous, conservation, and sustainability sciences in community-led conservation. Pacific Conservation Biology 27, 451–463.
| Contemporary Rāhui: placing Indigenous, conservation, and sustainability sciences in community-led conservation.Crossref | GoogleScholarGoogle Scholar |
Fantinato, E., Del Vecchio, S., Gaetan, C., and Buffa, G. (2019). The resilience of pollination interactions: importance of temporal phases. Plant Ecology 12, 157–162.
| The resilience of pollination interactions: importance of temporal phases.Crossref | GoogleScholarGoogle Scholar |
Fernbach, P. M., Kan, C., and Lynch, J. G. (2015). Squeezed: coping with constraint through efficiency and prioritization. Consumer Research 41, 1204–1227.
| Squeezed: coping with constraint through efficiency and prioritization.Crossref | GoogleScholarGoogle Scholar |
Folke, C., Carpenter, S., Walker, B., Scheffer, M., Elmqvist, T., Gunderson, L., and Holling, C. S. (2004). Regime shifts, resilience, and biodiversity in ecosystem management. Annual Review of Ecology Evolution, and Systematics 35, 557–581.
| Regime shifts, resilience, and biodiversity in ecosystem management.Crossref | GoogleScholarGoogle Scholar |
Folke, C., Carpenter, S. R., Walker, B., Scheffer, M., Chapin, T., and Rockström, J. (2010). Resilience thinking: integrating resilience, adaptability and transformability. Ecology and Society 15, 20.
Frank, A. S. K., and Schaeffler, L. (2019). Identifying key knowledge gaps to better protect biodiversity and simultaneously secure livelihoods in a priority conservation area. Sustainability 11, 1–22.
| Identifying key knowledge gaps to better protect biodiversity and simultaneously secure livelihoods in a priority conservation area.Crossref | GoogleScholarGoogle Scholar |
Gann, G. D., McDonald, T., Walder, B., Aronson, J., Nelson, C. R., Jonson, J., Hallett, J. G., Eisenberg, C., Guariguata, M. R., Liu, J., Hua, F., Echeverría, C., Gonzales, E., Shaw, N., Decleer, K., and Dixon, K. W. (2019). International principles and standards for the practice of ecological restoration. Second edition. Restoration Ecology 27, S1–S46.
| International principles and standards for the practice of ecological restoration. Second edition.Crossref | GoogleScholarGoogle Scholar |
Garnett, S. T., Burgess, N. D., Fa, J. E., Fernández-Llamazares, Á., Molnár, Z., Robinson, C. J., Watson, J. E. M., Zander, K. K., Austin, B., Brondizio, E. S., French Collier, N., Duncan, T., Ellis, E., Geyle, H., Jackson, M. V., Jonas, H., Malmer, P., McGowan, B., Sivongxay, A., and Leiper, I. (2018). A spatial overview of the global importance of Indigenous lands for conservation. Nature Sustainability 1, 369–374.
| A spatial overview of the global importance of Indigenous lands for conservation.Crossref | GoogleScholarGoogle Scholar |
Goldsmith, K., Roux, C., and Ma, J. (2018). When seeking the best brings out the worst in consumers: Understanding the relationship between a maximizing mindset and immoral behavior. Consumer Psychology 28, 293–309.
| When seeking the best brings out the worst in consumers: Understanding the relationship between a maximizing mindset and immoral behavior.Crossref | GoogleScholarGoogle Scholar |
Gon, S. M. ‘O., Winter, K. B., and Demotta, M. (2021). KUA-LAKO-MO’O: a methodology for exploring Indigenous conceptualisations of nature and conservation in Hawai‘i. Pacific Conservation Biology 27, 320–326.
| KUA-LAKO-MO’O: a methodology for exploring Indigenous conceptualisations of nature and conservation in Hawai‘i.Crossref | GoogleScholarGoogle Scholar |
Griskevicius, V., and Kenrick, D. T. (2013). Fundamental motives: how evolutionary needs influence consumer behavior. Consumer Psychology 23, 372–386.
| Fundamental motives: how evolutionary needs influence consumer behavior.Crossref | GoogleScholarGoogle Scholar |
Hamilton, R. W., Mittal, C., Shah, A., Thompson, D. V., and Griskevicius, V. (2019). How financial constraints influence consumer behavior: an integrative framework. Consumer Psychology 29, 285–305.
| How financial constraints influence consumer behavior: an integrative framework.Crossref | GoogleScholarGoogle Scholar |
Hanselmann, M., and Tanner, C. (2008). Taboos and conflicts in decision making: Sacred values, decision difficulty, and emotions. Judgment and Decision Making 3, 51–63.
Harmon, K. C., Winter, K. B., Kurashima, N., Fletcher, C. H., Kane, H. H., and Price, M. R. (2021). Indigenous practices expand waterbird habitat under rising seas. Anthropocene 34, 100293.
| Indigenous practices expand waterbird habitat under rising seas.Crossref | GoogleScholarGoogle Scholar |
Hartel, T., Scheele, B., Rozylowicz, L., Horcea-Milcu, A., and Cogalniceanu, D. (2020). The social context for conservation: Amphibians in human shaped landscapes with high nature values. Nature Conservation 53, .
| The social context for conservation: Amphibians in human shaped landscapes with high nature values.Crossref | GoogleScholarGoogle Scholar |
He, T., Derfler-Rozin, R., and Pitesa, M. (2020). Financial vulnerability and the reproduction of disadvantage in economic exchanges. Applied Psychology 105, 80–96.
| Financial vulnerability and the reproduction of disadvantage in economic exchanges.Crossref | GoogleScholarGoogle Scholar |
Hurley, K. K. C., Sosa Kapur, M., Siple, M., Kotubetey, K., Kawelo, A. H., and Toonen, R. J. (2021). A codeveloped management tool to determine harvest limits of introduced mud crabs, Scylla serrata (Forskål, 1775), within a Native Hawaiian fishpond. Pacific Conservation Biology 27, 418–431.
| A codeveloped management tool to determine harvest limits of introduced mud crabs, Scylla serrata (Forskål, 1775), within a Native Hawaiian fishpond.Crossref | GoogleScholarGoogle Scholar |
Jackson, A.-M., Mita, N., and Hakopa, H. (2017). Hui-te-ana-nui: Understanding kaitiakitanga in our marine environment. (National Science Challenge Sustainable Seas: Wellington.)
Johnstone, J. F., Allen, C. D., Franklin, J. F., Frelich, L. E., Harvey, B. J., Higuera, P. E., Mack, M. C., Meentemeyer, R. K., Metz, M. R., Perry, G. L. W., Schoennagel, T., and Turner, M. G. (2016). Changing disturbance regimes, ecological memory, and forest resilience. Frontiers in Ecology and the Environment 14, 369–378.
| Changing disturbance regimes, ecological memory, and forest resilience.Crossref | GoogleScholarGoogle Scholar |
Kealiikanakaoleohaililani, K., Sato, A. Y., Giardina, C. P., Litton, C. M., Ramavarapu, S., Hutchins, L., Wight, E. H., Clark, M., Cordell, S., Francisco, K. S., McMillen, H., Pascua, P., and Yogi, D. (2021). Increasing conservation capacity by embracing ritual: kuahu as a portal to the sacred. Pacific Conservation Biology 27, 327–336.
| Increasing conservation capacity by embracing ritual: kuahu as a portal to the sacred.Crossref | GoogleScholarGoogle Scholar |
Keppel, G., Van Niel, K. P., Wardell-Johnson, G. W., Yates, C. J., Byrne, M., Mucina, L., Schut, A. G. T., Hopper, S. D., and Franklin, S. E. (2012). Refugia: Identifying and understanding safe havens for biodiversity under climate change. Global Ecology and Biogeography 21, 393–404.
| Refugia: Identifying and understanding safe havens for biodiversity under climate change.Crossref | GoogleScholarGoogle Scholar |
Kingston, L. (2015). The destruction of identity: Cultural genocide and Indigenous peoples. Journal of Human Rights 14, 63–83.
| The destruction of identity: Cultural genocide and Indigenous peoples.Crossref | GoogleScholarGoogle Scholar |
Leonard, D. L. (2008). Recovery expenditures for birds listed under the US Endangered Species Act: The disparity between mainland and Hawaiian taxa. Biological Conservation 141, 2054–2061.
| Recovery expenditures for birds listed under the US Endangered Species Act: The disparity between mainland and Hawaiian taxa.Crossref | GoogleScholarGoogle Scholar |
Luat-Hū‘eu, K., Winter, K. B., Blaich Vaughan, M., Barca, N., and Price, M. R. (2021). Understanding the co-evolutionary relationships between Indigenous cultures and non-native species can inform more effective approaches to conservation: the example of pigs (pua‘a; Sus scrofa) in Hawai‘i. Pacific Conservation Biology 27, 442–450.
| Understanding the co-evolutionary relationships between Indigenous cultures and non-native species can inform more effective approaches to conservation: the example of pigs (pua‘a; Sus scrofa) in Hawai‘i.Crossref | GoogleScholarGoogle Scholar |
Lyver, P. O., Ruru, J., Scott, N., Tylianakis, J. M., Arnold, J., Malinen, S. K., Bataille, C. Y., Herse, M. R., Jones, C. J., Gormley, A. M., Peltzer, D. A., Taura, Y., Timoti, P., Stone, C., Wilcox, M., and Moller, H. (2019a). Building biocultural approaches into Aotearoa – New Zealand’s conservation future. Journal of the Royal Society of New Zealand 49, 394–411.
| Building biocultural approaches into Aotearoa – New Zealand’s conservation future.Crossref | GoogleScholarGoogle Scholar |
Lyver, P. O., Timoti, P., Davis, T., and Tylianakis, J. M. (2019b). Biocultural hysteresis inhibits adaptation to environmental change. Trends in Ecology and Evolution 34, 771–780.
| Biocultural hysteresis inhibits adaptation to environmental change.Crossref | GoogleScholarGoogle Scholar |
MacRoberts, M. H., and MacRoberts, B. R. (2018). The mismeasure of science: Citation analysis. Journal of the Association for Information Science and Technology 69, 474–482.
Martínez Cobo, J. (1982). Study of the Problem of Discrimination Against Indigenous Populations. Final Report Submitted to the United Nations. Available at https://www.un.org/development/desa/indigenouspeoples/publications/martinez-cobo-study.html
Masterson, V. A., Stedman, R. C., Enqvist, J., Tengö, M., Giusti, M., Wahl, D., and Svedin, U. (2017). The contribution of sense of place to social-ecological systems research: a review and research agenda. Ecology and Society 22, 49.
| The contribution of sense of place to social-ecological systems research: a review and research agenda.Crossref | GoogleScholarGoogle Scholar |
Mehta, R., and Zhu, M. (2016). Creating when you have less: the impact of resource scarcity on product use creativity. Consumer Research 42, 767–782.
| Creating when you have less: the impact of resource scarcity on product use creativity.Crossref | GoogleScholarGoogle Scholar |
Meyer, M. A. (2008). Indigenous and authentic: Hawaiian epistemology and the triangulation of meaning. Handbook of critical and Indigenous methodologies, pp. 217–232. (Thousand Oaks, CA: Sage)
Meyer, M. A. (2013). Holographic epistemology: Native common sense. China Media Research 9, 94–101.
Negrón-Ortiz, V. (2014). Pattern of expenditures for plant conservation under the Endangered Species Act. Biological Conservation 171, 36–43.
| Pattern of expenditures for plant conservation under the Endangered Species Act.Crossref | GoogleScholarGoogle Scholar |
Norgaard, K. M., and Reed, R. (2017). Emotional impacts of environmental decline: What can Native cosmologies teach sociology about emotions and environmental justice? Theory and Society 46, 463–495.
| Emotional impacts of environmental decline: What can Native cosmologies teach sociology about emotions and environmental justice?Crossref | GoogleScholarGoogle Scholar |
Office of Hawaiian Affairs, National Oceanic and Atmospheric Administration, U.S. Fish and Wildlife Service, and State of Hawai‘i. (2021). Mai Ka Pō Mai: A Native Hawaiian Guidance Document for Papahānaumokuākea Marine National Monument. Honolulu, HI: Office of Hawaiian Affairs.
Palmer, S., Mercier, O. R., and King-Hunt, A. (2021). Towards rangatiratanga in pest management? Māori perspectives and frameworks on novel biotechnologies in conservation. Pacific Conservation Biology 27, 391–401.
| Towards rangatiratanga in pest management? Māori perspectives and frameworks on novel biotechnologies in conservation.Crossref | GoogleScholarGoogle Scholar |
Paul, A., Rother, R., and Bwe Moo, S. S. (2021). Relational ontology and more-than-human agency in Indigenous Karen conservation practice. Pacific Conservation Biology 27, 376–390.
| Relational ontology and more-than-human agency in Indigenous Karen conservation practice.Crossref | GoogleScholarGoogle Scholar |
Price, M. R., Forsman, Z. H., Knapp, I., Toonen, R. J., and Hadfield, M. G. (2021). Evolutionary genomics of endangered Hawaiian tree snails (Achatinellinae: Achatinellidae) for conservation of adaptive capacity. PeerJ 9, e10993.
| Evolutionary genomics of endangered Hawaiian tree snails (Achatinellinae: Achatinellidae) for conservation of adaptive capacity.Crossref | GoogleScholarGoogle Scholar |
Pukui, M. K. (1983). ‘Olelo No’eau: Hawaiian proverbs & poetical sayings (Vol. 71). Bishop Museum Press, Honolulu USA.
Reihana, K. R., Wehi, P. M., Harcourt, N., Booth, P., Murray, J. M., and Pomare-Pieta, M. (2021). Indigenisation of conservation education in New Zealand. Pacific Conservation Biology 27, 493–504.
| Indigenisation of conservation education in New Zealand.Crossref | GoogleScholarGoogle Scholar |
Sato, A. Y., Ticktin, T., Alapai, L., von Allmen, E. I., Brawner, W. P. I., Carter, Y. Y., Carter, K. A., Keakealani, R. K., Medeiros, A. C., and Zahawi, R. A. (2021). Biocultural restoration of Hawaiian tropical dry forests. Pacific Conservation Biology 27, 362–375.
| Biocultural restoration of Hawaiian tropical dry forests.Crossref | GoogleScholarGoogle Scholar |
Schuster, R., Germain, R. R., Bennett, J. R., Reo, N. J., and Arcese, P. (2019). Vertebrate biodiversity on Indigenous-managed lands in Australia, Brazil, and Canada equals that in protected areas. Environmental Science and Policy 101, 1–6.
| Vertebrate biodiversity on Indigenous-managed lands in Australia, Brazil, and Canada equals that in protected areas.Crossref | GoogleScholarGoogle Scholar |
Shah, A. K., Mullainathan, S., and Shafir, E. (2012). Some consequences of having too little. Science 338, 682–685.
| Some consequences of having too little.Crossref | GoogleScholarGoogle Scholar |
Smith, L. T. (1999). Decolonizing methodologies: Research and indigenous peoples. (University of Otago Press: Dunedin.)
Soulé, M. (1985). What is Conservation Biology? BioScience 35, 727–734.
| What is Conservation Biology?Crossref | GoogleScholarGoogle Scholar |
Stillman, P. E., Fujita, K., Sheldon, O., and Trope, Y. (2018). From “me” to “we”: The role of construal level in promoting maximized joint outcomes. Organizational Behavior and Human Decision Processes 147, 16–25.
| From “me” to “we”: The role of construal level in promoting maximized joint outcomes.Crossref | GoogleScholarGoogle Scholar |
Tambosi, L. R., Martensen, A. C., Ribeiro, M. C., and Metzger, J. P. (2014). A framework to optimize biodiversity restoration efforts based on habitat amount and landscape connectivity. Restoration Ecology 22, 169–177.
| A framework to optimize biodiversity restoration efforts based on habitat amount and landscape connectivity.Crossref | GoogleScholarGoogle Scholar |
Uchida, K., and Kamura, K. (2020). Traditional ecological knowledge maintains useful plant diversity in semi-natural grasslands in the Kiso region, Japan. Environmental Management 65, 478–489.
| Traditional ecological knowledge maintains useful plant diversity in semi-natural grasslands in the Kiso region, Japan.Crossref | GoogleScholarGoogle Scholar |
United Nations (2009). State of the world’s Indigenous peoples. (United Nations Department of Economic and Social Affairs: New York.)
Van Looy, K., Tonkin, J. D., Floury, M., Leigh, C., Soininen, J., Larsen, S., Heino, J., Poff, N. L., Delong, M., Jähnig, S. C., Datry, T., Bonada, N., Rosebery, J., Jamoneau, A., Ormerod, S. J., Collier, K. J., and Wolter, C. (2019). The three Rs of river ecosystem resilience: Resources, recruitment, and refugia. River Research and Applications 35, 107–120.
| The three Rs of river ecosystem resilience: Resources, recruitment, and refugia.Crossref | GoogleScholarGoogle Scholar |
Von der Porten, S., Ota, Y., Cisneros-Montemayor, A., and Pictou, S. (2019). The role of Indigenous resurgence in marine conservation. Coastal Management 47, 527–547.
| The role of Indigenous resurgence in marine conservation.Crossref | GoogleScholarGoogle Scholar |
Waitangi Tribunal. (2011). Ko Aotearoa Tēnei: A Report into Claims Concerning New Zealand Law and Policy Affecting Māori Culture and Identity. (WAI 262) (Vol. Te Taumata Tuatahi Volume 1). Wellington: Legislation Direct.
Wehi, P. M., Wilson, D. J., Stone, C., Ricardo, H., Jones, C., Jakob-Hoff, R., and Lyver, P. O‘B. (2021). Managing for cultural harvest of a valued introduced species, the Pacific rat (Rattus exulans) in Aotearoa New Zealand. Pacific Conservation Biology 27, 432–441.
| Managing for cultural harvest of a valued introduced species, the Pacific rat (Rattus exulans) in Aotearoa New Zealand.Crossref | GoogleScholarGoogle Scholar |
Wilshusen, P. R., Brechin, S. R., Fortwangler, C. L., and West, P. C. (2002). Reinventing a square wheel: Critique of a resurgent “Protection Paradigm” in international biodiversity conservation. Society and Natural Resources 15, 17–40.
| Reinventing a square wheel: Critique of a resurgent “Protection Paradigm” in international biodiversity conservation.Crossref | GoogleScholarGoogle Scholar |
Winter, K. B., and McClatchey, W. (2008). Quantifying Evolution of Cultural Interactions with Plants: Implications for Managing Diversity for Resilience in Social-Ecological Systems. Functional Ecosystems and Communities 2, 1–10.
Winter, K. B., Beamer, K., Blaich Vaughan, M., Friedlander, A. M., Kido, M., Whitehead, A. N., Akutagawa, M. K. H., Kurashima, N., Lucas, M. P., and Nyberg, B. (2018a). The Moku System: Managing biocultural resources for abundance within social-ecological regions in Hawai‘i. Sustainability 10, 3554.
| The Moku System: Managing biocultural resources for abundance within social-ecological regions in Hawai‘i.Crossref | GoogleScholarGoogle Scholar |
Winter, K. B., Lincoln, N. K., and Berkes, F. (2018b). The Social-Ecological Keystone Concept: A metaphor for understanding the structure and function of a biocultural system. Sustainability 10, 3294.
| The Social-Ecological Keystone Concept: A metaphor for understanding the structure and function of a biocultural system.Crossref | GoogleScholarGoogle Scholar |
Winter, K. B., Alegado, R., Bowen, B., Bremer, L., Coffman, M., Cypher, M., Deenik, J., Donahue, M., Falinski, K., Frank, K., Franklin, E., Hewitt, A., Hintzen, K., Kaluhiwa, R., Kawelo, A. H., Kekuewa, K., Kotubetey, K., Kukea-Shultz, K., Kurashima, N., Lee, T., Leong, J., Lincoln, N., Madin, E., McManus, M., Neilson, B., Nelson, C., Okano, R., Olegario, A., Oleson, K., Pascua, P., Price, M. R., Reppun, F., Rii, Y., Rivera, M. A., Rodgers, K., Sabine, C., Smith, C., Thomas, B., Ticktin, T., and Toonen, R. J. (2020a). Resolving pathways towards sustainable futures: A research framework for the He‘eia National Estuarine Research Reserve. Ecology and Society 25, 15.
| Resolving pathways towards sustainable futures: A research framework for the He‘eia National Estuarine Research Reserve.Crossref | GoogleScholarGoogle Scholar |
Winter, K. B., Lincoln, N., Berkes, F., Kawelo, A. H., Kotubetey, K., Kukea-Shultz, K., Alegado, R., Kurashima, N., Frank, K., Pascua, P., Rii, Y., Reppun, F., Knapp, I., McClatchey, W., Ticktin, T., Smith, C., Franklin, E., Oleson, K., Price, M. R., McManus, M., Donahue, M., Rodgers, K., Bowen, B., Nelson, C., Neilson, B., Thomas, B., Leong, J., Madin, E., Rivera, M. A., Falinski, K., Bremer, L., Deenik, J., Gon, S., Okano, R., Olegario, A., and Toonen, R. J. (2020b). Ecomimicry in Indigenous resource management: Optimizing ecosystem services to achieve resource abundance in Hawai‘i. Ecology and Society 25, 26.
| Ecomimicry in Indigenous resource management: Optimizing ecosystem services to achieve resource abundance in Hawai‘i.Crossref | GoogleScholarGoogle Scholar |
Winter, K. B., Blaich Vaughan, M., Kurashima, N., Giardina, C., Quiocho, K., Chang, K., Akutagawa, M., Beamer, K., and Berkes, F. (2021). Empowering Indigenous agency through community-driven collaborative management to achieve effective conservation: Hawai‘i as an example. Pacific Conservation Biology 27, 337–344.
| Empowering Indigenous agency through community-driven collaborative management to achieve effective conservation: Hawai‘i as an example.Crossref | GoogleScholarGoogle Scholar |