ETHNOFORESTRY AS A PILLAR OF SOCIAL AND ECOLOGICAL RESILIENCE IN TROPICAL FORESTS

Andres  Villanueva; Catherine Li; Carlos  Fernandez

doi:10.70177/jsa.v3i2.3756

Andres Villanueva ⁽¹⁾, Catherine Li ⁽²⁾, Carlos Fernandez ⁽³⁾

(1) University of San Carlos, Philippines,

(2) University of Mindanao, Philippines,

(3) San Beda University, Philippines

https://doi.org/10.70177/jsa.v3i2.3756

Issue
Vol. 3 No. 2 (2026)

Submitted
April 29, 2026

Published
April 26, 2026

Keywords:

Biodiversity Conservation, Ethnoforestry, Indigenous Knowledge, Resilience, Tropical Forests

PDF

Abstract

Tropical forests are critical to global biodiversity and climate regulation. However, they face increasing threats from deforestation, climate change, and unsustainable land use practices. Ethnoforestry, the integration of indigenous knowledge and forest management practices, has emerged as a crucial component of both ecological and social resilience. Indigenous communities have long managed tropical forests using sustainable practices that ensure the balance of ecosystems while supporting local livelihoods. This research explores the role of ethnoforestry as a pillar of resilience in tropical forest regions. This study aims to investigate how ethnoforestry practices contribute to social and ecological resilience in tropical forests. Specifically, it seeks to understand the mechanisms through which indigenous forest management practices help mitigate environmental degradation and enhance community well-being. A qualitative approach was used, including field observations, interviews with indigenous forest managers, and analysis of case studies from tropical forest regions in Southeast Asia and Latin America. Data were analyzed using thematic analysis to identify key practices that promote resilience. The findings highlight that ethnoforestry practices, such as agroforestry, selective logging, and forest regeneration, contribute significantly to both biodiversity conservation and social cohesion. These practices foster sustainable resource use, mitigate environmental degradation, and enhance the adaptive capacity of communities. Ethnoforestry plays a vital role in enhancing the resilience of both ecosystems and human communities in tropical forests. Integrating indigenous knowledge into forest management strategies is essential for achieving long-term sustainability.

Full text article

Generated from XML file

References

Alves, G. P., Mandai, S. S., Barros, J. D., Arcoverde, G. F. B., Calvi, M. F., Bonavigo, P. H., Ferronato, M. L., Moretto, E. M., Branco, E. A., de Souza, M. P., Lobo, G. de S., & Reis, V. C. e S. (2025). Deforestation in Amazonian Sustainable Use Biodiversity Protection Areas: The case of the State Sustainable Yield Forests in Rondônia (Brazil). Journal for Nature Conservation, 88, 127055. https://doi.org/10.1016/j.jnc.2025.127055

Aragão, M. de A., Fiedler, N. C., Santos, A. R. dos, Moreira, T. R., Ramalho, A. H. C., Gomes, R., Souto, P. C., Peluzio, T. M. de O., Ferrari, J. L., Simões, D., Biazatti, L. D., & Lucas, F. M. F. (2025). Forest fires in Caatinga: Risk modeling and priority areas for prevention. Perspectives in Plant Ecology, Evolution and Systematics, 69, 125903. https://doi.org/10.1016/j.ppees.2025.125903

Arce-Plata, M. I., Norden, N., Burbano-Girón, J., Larocque, G., Díaz, M. C., Rodriguez-Buriticá, S., Corzo, G., & Poisot, T. (2026). Species’ habitat change over twenty years in Colombia’s tropical dry forests. Ecological Indicators, 182, 114562. https://doi.org/10.1016/j.ecolind.2025.114562

Balasubramanian, M., Ravichandran, R., Pandey, R., Sangha, K. K., & Geethanjali. (2026). Contribution of forest ecosystem services in India using meta-regression approach. Environmental and Sustainability Indicators, 30, 101237. https://doi.org/10.1016/j.indic.2026.101237

Bridhikitti, A., Sawangproh, W., & Nakayama, T. (2025). A review on atmospheric aerosols and dusts in different tropical forest ecosystems and policy recommendations toward climate resilience. Atmospheric Environment, 352, 121215. https://doi.org/10.1016/j.atmosenv.2025.121215

Castro-Díez, P., Gömöry, D., Maltoni, A., Mariotti, B., Mataruga, M., Piotti, A., Pucha?ka, R., Šibíková, M., & Tognetti, R. (2026). Chapter 9—Biodiversity conservation for climate adaptive forest restoration and reforestation. In J. A. Stanturf, P. V. Salvador, B. Mariotti, V. Iveti?, P. Madsen, A. Montagnoli, E. Andivia, I. Bebre, A. Dimitrova, & M. Klisz (Eds.), Guidelines for Climate Adaptive Forest Restoration and Reforestation Projects (pp. 305–351). Elsevier. https://doi.org/10.1016/B978-0-443-34086-4.00006-2

Chatakonda, M. K., Sethy, J., & Maletha, A. (2025). Chapter 24—Forest biodiversity and wildlife trading. In P. Saikia, A. Kumar, M. L. Khan, & X. Lei (Eds.), Forests for Inclusive and Sustainable Economic Growth (pp. 321–328). Elsevier. https://doi.org/10.1016/B978-0-443-31406-3.00024-2

Easa, P. S., & Rajesh, K. P. (2025). Chapter 6—Forests and its biodiversity in the Western Ghats of Kerala. In S. G. T. Vincent, T. C. Jennerjahn, S. Kunjupillai, & S. Chattopadhyay (Eds.), Ecohydrology of Kerala (pp. 77–95). Elsevier. https://doi.org/10.1016/B978-0-323-95606-2.00014-0

Ekka, P., Kumar, G., Kumar, A., & Saikia, P. (2026). Chapter 3—Forest monitoring tools and techniques with special emphasis on tropical forests. In P. Kumar, P. K. Srivastava, M. L. Khan, A. Arunachalam, P. S. Roy, & K. Kumar (Eds.), Advanced Geospatial and Ground Based Techniques in Forest Monitoring (pp. 61–83). Elsevier. https://doi.org/10.1016/B978-0-443-18949-4.00014-2

Filip, I. D., Peri, P. L., Fernández, P., Loto, D., Kees, S. M., Banegas, N., Nasca, J., Sacido, M., Faverin, C., & Vibart, R. (2026). Modelling woody carbon dynamics in tropical dry forests: A case study of the Dry Chaco Region. Ecological Modelling, 512, 111401. https://doi.org/10.1016/j.ecolmodel.2025.111401

García, J. H., & Moros, L. M. (2025). Key issues in carbon markets and lessons for biodiversity conservation and financing. Current Opinion in Environmental Sustainability, 77, 101586. https://doi.org/10.1016/j.cosust.2025.101586

Gastauer, M., Pinheiro, T., Caldeira, C. F., Ramos, S. J., Coelho, R. R., Fonseca, D. S., Tyski, L., Cardoso, A. L. de R., de Sá Carvalho Neto, C., Guimarães, L., & Sanjuan de Medeiros Sarmento, P. (2024). Large-scale forest restoration generates comprehensive biodiversity gains in an Amazonian mining site. Journal of Cleaner Production, 443, 140959. https://doi.org/10.1016/j.jclepro.2024.140959

Gerstner, B. E., & Zarnetske, P. L. (2025). Evaluating the effectiveness of protected areas and community-managed lands in capturing multiple dimensions of frugivorous biodiversity in the Tropical Andes. Biological Conservation, 302, 110904. https://doi.org/10.1016/j.biocon.2024.110904

Ghaedi, Z., Santos, C., & Monteiro, C. (2026). Nature-Based solutions, climate change, and biodiversity: A systematic review of opportunities and risks. Nature-Based Solutions, 9, 100302. https://doi.org/10.1016/j.nbsj.2026.100302

Hallaj, Z., Bijani, M., Karamidehkordi, E., Yousefpour, R., & Yousefzadeh, H. (2024). Forest land use change effects on biodiversity ecosystem services and human well-being: A systematic analysis. Environmental and Sustainability Indicators, 23, 100445. https://doi.org/10.1016/j.indic.2024.100445

Jalonen, R., Fremout, T., Warrier, R. R., Yuskianti, V., Tolentino, E., Tiburan, C., Miah, Md. Z. R., Rahaman, Md. T., Wilkie, P., Sudrajat, D. J., Denny, & Kettle, C. J. (2026). Are there enough native tree seed sources to meet forest restoration targets? A spatially explicit assessment in tropical Asia. Biological Conservation, 317, 111811. https://doi.org/10.1016/j.biocon.2026.111811

Jambhekar, R., Satish, R., Sharma, S., Bakhale, G., Ranganathan, P., Naidu, D. G. T., Deshpande, K., & Krishnaswamy, J. (2026). Nature-based solutions and urban biodiversity conservation in the Global South. Ecological Indicators, 183, 114627. https://doi.org/10.1016/j.ecolind.2026.114627

Kamesa, S. K., Kioko, E. N., Chen, Y., & Chen, J. (2026). Forest conversion alters taxonomic and functional diversity of oribatid mite communities through shifts in environmental conditions in Taita Hills, Kenya. Pedobiologia, 114, 151121. https://doi.org/10.1016/j.pedobi.2026.151121

Lhoumeau, S., & Borges, P. A. V. (2025). Up from the bottom: Consistent vertical distance-decay in arthropod assemblage similarity across native and exotic forests in Terceira island (Azores). Forest Ecology and Management, 596, 123059. https://doi.org/10.1016/j.foreco.2025.123059

Mannion, N., Braunholtz, L., Pfeifer, M., & Puttick, R. (2025). Chapter 32—Biodiversity, function, and change of the tropical rainforests of Borneo. In G. L. Demolin-Leite (Ed.), Terrestrial Biomes (pp. 457–481). Academic Press. https://doi.org/10.1016/B978-0-443-36569-0.00032-X

Martínez-Revelo, D. E., Socolar, J. B., Edwards, F. A., Medina-Uribe, C. A., Ochoa Quintero, J. M., Montoya-Lerma, J., Freckleton, R. P., Barlow, J., Haugaasen, T., Armbrecht, I., & Edwards, D. P. (2026). Tropical insect biodiversity loss from forest-pasture conversion is substantially underestimated across spatial scales. Current Biology. https://doi.org/10.1016/j.cub.2026.03.056

McGunnigle, N., Bardsley, D., Nuberg, I., Cedamon, E., & Pandit, B. H. (2025). Intermediate levels of socio-ecological disturbance drive higher biodiversity in naturally regenerating forests: A case study from Nepal. Journal of Rural Studies, 115, 103582. https://doi.org/10.1016/j.jrurstud.2025.103582

Merelli, P., Oliveira Clemente, L., & Cazzolla Gatti, R. (2024). Monitoring the rewilding of the Brazilian Atlantic Forest on tree and mammal diversity: From a biodiversity hotspot to a biodiversity hopespot. Environmental and Sustainability Indicators, 24, 100496. https://doi.org/10.1016/j.indic.2024.100496

Mosisa, G. B., Tassie, N., & Yesuf, F. (2026). Land use change-driven greenhouse gas emissions in the Eastern Afromontane Rainforest Biodiversity Hotspot: Evidence from the Yayu Coffee Forest Biosphere Reserve. Nature-Based Solutions, 9, 100324. https://doi.org/10.1016/j.nbsj.2026.100324

Nyiramvuyekure, V., Fischer, J., Kaplin, B. A., Mukuralinda, A., & Temperton, V. M. (2026). Woody vegetation diversity remains low after extensive forest landscape restoration efforts in a western Rwandan landscape. Biological Conservation, 317, 111812. https://doi.org/10.1016/j.biocon.2026.111812

Oluwajuwon, T. V., Chazdon, R. L., Gregorio, N., Ota, L., Tripoli, R., Pasa, A., & Herbohn, J. (2025). Assisted natural regeneration for tropical forest and landscape restoration in the Philippines: Implementation, motivations, challenges and future directions. Trees, Forests and People, 20, 100896. https://doi.org/10.1016/j.tfp.2025.100896

Palmeirim, A. F., Barreto, J. R., & Prist, P. R. (2025). The importance of Indigenous Lands and landscape structure in shaping the zoonotic disease risk—Insights from the Brazilian Atlantic Forest. One Health, 21, 101104. https://doi.org/10.1016/j.onehlt.2025.101104

Sarang, S. K., Sreekumar, D., & Sejian, V. (2024). Indigenous cattle biodiversity in India: Adaptation and conservation. Reproduction and Breeding, 4(4), 254–266. https://doi.org/10.1016/j.repbre.2024.09.001

Shrestha, U. B., Chaudhary, T., & Shrestha, S. (2025). Chapter 20—Major forest biodiversity and ecosystem goods and services. In P. Saikia, A. Kumar, M. L. Khan, & X. Lei (Eds.), Forests for Inclusive and Sustainable Economic Growth (pp. 269–280). Elsevier. https://doi.org/10.1016/B978-0-443-31406-3.00020-5

Stan, K. D., Sanchez-Azofeifa, A., & Hamann, H. F. (2024). Widespread degradation and limited protection of forests in global tropical dry ecosystems. Biological Conservation, 289, 110425. https://doi.org/10.1016/j.biocon.2023.110425

Suwardi, A. B., Navia, Z. I., Sutrisno, I. H., Efriani, Elisa, H., Kurniatuhadi, R., Reza, A., & Gunawan, W. R. (2026). Ecological functions, ecosystem services, and biocultural significance of wild edible fruits in a biodiversity hotspot: Evidence from West Kalimantan, Indonesia. Ecological Frontiers, 46(2), 627–635. https://doi.org/10.1016/j.ecofro.2025.10.014

Tabarelli, M., Filgueiras, B. K. C., Ribeiro, E. M. S., Lopes, A. V., & Leal, I. R. (2024). Tropical Dry Forests. In S. M. Scheiner (Ed.), Encyclopedia of Biodiversity (Third Edition) (pp. 294–312). Academic Press. https://doi.org/10.1016/B978-0-12-822562-2.00090-6

Wang, L., Wei, F., Tagesson, T., Fang, Z., & Svenning, J.-C. (2025). Transforming forest management through rewilding: Enhancing biodiversity, resilience, and biosphere sustainability under global change. One Earth, 8(3), 101195. https://doi.org/10.1016/j.oneear.2025.101195

Widyati, E., Sadino, Budiharta, S., Akbar, A., Susilo, A., Kurniawan, A., Sadili, A., Prameswari, D., Mirmanto, E., Hadi, E. E. W., Siregar, M., Wardani, M., Yuniarti, N., Mindawati, N., Pasaribu, P. H. P., Irianto, R. S. B., Nisaa’, R. M., Hartatik, S. E., Suharti, S., … Santika, T. (2025). Changes in soil-root-organism interactions following tropical forest conversion to tree and oil palm plantations. Applied Soil Ecology, 213, 106253. https://doi.org/10.1016/j.apsoil.2025.106253

Williams, B. A., Metzger, J.-P., Krieger, J. M., & Rhodes, J. R. (2025). Integrate biodiversity and resilience into climate-driven forest restoration strategies for the Atlantic Forest. One Earth, 8(6), 101321. https://doi.org/10.1016/j.oneear.2025.101321

Wingate, V. R., Curatola Fernández, G. F., Agossou, P. S., & Speranza, C. I. (2026). Losing connection: The decline of structurally intact forests linking protected areas in West Africa. Forest Ecology and Management, 612, 123738. https://doi.org/10.1016/j.foreco.2026.123738

Authors

Andres Villanueva

University of San Carlos

andresvillanueva@gmail.com (Primary Contact)

Catherine Li

University of Mindanao

Carlos Fernandez

San Beda University

Villanueva, A. ., Li, C., & Fernandez, C. (2026). ETHNOFORESTRY AS A PILLAR OF SOCIAL AND ECOLOGICAL RESILIENCE IN TROPICAL FORESTS. Journal of Selvicoltura Asean, 3(2), 154–168. https://doi.org/10.70177/jsa.v3i2.3756