Water security is one of the key sustainability challenges in this modern era regardless of the level of development. While the problem keep on increasing year after year, man is a dominant player over hydrological system and also possesses powerful ways and means of utilizing hydrological resources and responds to hydrological dynamics in different ways. The utilization of hydrological resources is influenced by natural resources which are available in the aquatic system, communities’ culture and assets. These three main factors can be divided into two groups, namely, bio-cultural and community/ anthropogenic asset. Bio-cultural asset helps to understand ways in which man interacts with hydrological systems, which behavior (s) can lead to transformations of hydrological functions, and how man reacts to these changes. While, community assets help to understand how the communities can sustainably manage themselves by identifying and mobilizing the existing, but often unrecognized assets, and thereby respond to and create local opportunities for themselves instead of depending on resources from outside. In most cases, the bio-cultural and Asset Based Community Development (ABCD) approaches have been used separately to study the involvement of people and their behavior towards water resource management. It is expected that integrating of these two approaches can be useful in understanding the links between hydrology and local systems; at the same time understanding how a community can restore and be resilient to the changes that occur to the aquatic ecosystems from a cultural, social, economic, political, and biological perspectives. The combination of bio-cultural and ABCD approaches can also, be a better strategy for identifying the parameters and functional relationships which can be used in socio-hydrological model simulation.
| Published in | American Journal of BioScience (Volume 6, Issue 1) |
| DOI | 10.11648/j.ajbio.20180601.13 |
| Page(s) | 15-22 |
| Creative Commons |
This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited. |
| Copyright |
Copyright © The Author(s), 2024. Published by Science Publishing Group |
Biocultural, Community, Asset, Catchment and Resources
| [1] | Conca, K. (2008). The United States and international water policy. The Journal of Environment & Development, 17 (3), 215-237. |
| [2] | Sivapalan, M., Konar, M., Srinivasan, V., Chhatre, A., Wutich, A., Scott, C. A., & Rodríguez‐Iturbe, I. (2014). Socio‐hydrology: Use‐inspired water sustainability science for the Anthropocene. Earth's Future, 2 (4), 225-230. |
| [3] | Food and Agriculture Organization (FAO) (2012), “Water scarcity” http:www.fao.org/nr/water/topics_scarcity. Html. |
| [4] | Elshafei, Y., Coletti, J. Z., Sivapalan, M., & Hipsey, M. R. (2015). A model of the socio‐hydrologic dynamics in a semiarid catchment: Isolating feedbacks in the coupled human‐hydrology system. Water Resources Research, 51 (8), 6442-6471. |
| [5] | Troy, T. J., Pavao‐Zuckerman, M. & Evans, T. P. (2015). Debates—Perspectives on socio‐hydrology: Socio‐hydrologic modeling: Tradeoffs, hypothesis testing, and validation. Water Resources Research, 51 (6), 4806-4814. |
| [6] | Sivapalan, M., Savenije, H. H., & Blöschl, G. (2012). Socio‐hydrology: A new science of people and water. Hydrological Processes, 26 (8), 1270-1276. |
| [7] | Walker, E., Loucks, D. P & Carr, G. (2015). Social Responses to Water Management Decisions. Environ. Process. (2015) 2: 485–509. |
| [8] | Krause, F. & Strang, V. (2016). Thinking relationships through water. Society & Natural Resources, 29 (6), 633-638. |
| [9] | Pande, S. & Sivapalan, M. (2017). Progress in socio‐hydrology: a meta‐analysis of challenges and opportunities. Wiley Interdisciplinary Reviews: Water, 4 (4). Sivapalan, M., Konar, M., Srinivasan, V., Chhatre, A., Wutich, A., Scott, C. A., …and Rodríguez‐Iturbe, I. (2014). Socio‐hydrology: Use‐inspired water sustainability science for the Anthropocene. Earth's Future, 2 (4), 225-230. |
| [10] | Montanari, A., Young, G., Savenije, H. H. G., Hughes, D., Wagener, T., Ren, L. L., and Blöschl, G. (2013). “Panta Rhei—everything flows”: change in hydrology and society—the IAHS scientific decade 2013–2022. Hydrological Sciences Journal, 58 (6), 1256-1275. |
| [11] | Montanari, A. (2015). Debates—Perspectives on socio‐hydrology: Introduction. Water Resources Research, 51 (6), 4768-4769. |
| [12] | Elshafei, Y., Sivapalan, M., Tonts, M., & Hipsey, M. R. (2014). A prototype framework for models of socio-hydrology: identification of key feedback loops and parameterisation approach. Hydrology and Earth System Sciences, 18 (6), 2141-2166. |
| [13] | Di Baldassarre, G., M. Kooy, J. S. Kemerink, & L. Brandimarte (2013a). Towards understanding the dynamic behaviour of floodplains as human-water systems, Hydrol. Earth Syst. Sci., 17, 3235–3244. |
| [14] | Di Baldassarre, G., A. Viglione, G. Carr, L. Kuil, J. L. Salinas, and G. Bl€oschl (2013b), Socio-hydrology: Conceptualising human-flood interactions, Hydrol. Earth Syst. Sci., 17, 3295–3303. |
| [15] | Johnston, B. R. (2013). Human needs and environmental rights to water: a biocultural systems approach to hydrodevelopment and management. Ecosphere, 4 (3), 1-15. |
| [16] | Gurarie, D., & Seto, E. Y. (2009). Connectivity sustains disease transmission in environments with low potential for endemicity: modelling schistosomiasis with hydrologic and social connectivities. Journal of the Royal Society Interface, 6 (35), 495-508. |
| [17] | Klaver, I. J. (2011). Introduction: water and cultural diversity. In Water, Cultural Diversity, and Global Environmental Change (pp. 3-7). Springer Netherlands. |
| [18] | Zlinszky, A., & Timár, G. (2013). Historic maps as a data source for socio-hydrology: a case study of the Lake Balaton wetland system, Hungary. Hydrology and Earth System Sciences, 17 (11), 4589-4606. |
| [19] | Maffi, L & Dilts, O. (2012). Biocultural Diversity Toolkit: Biocultural Approaches to Conservation & Development. Terralingua, 5. |
| [20] | Maffi, L., & Woodley, E. (2010). Biocultural Diversity Conservation: A Global Sourcebook (1 edition ed.). London; Washington, D. C: Routledge. |
| [21] | Maffi, L. (2005). Linguistic, cultural, and biological diversity. Annu. Rev. Anthropol., 34, 599-617. |
| [22] | Kretzmann, J. P., McKnight, J. and Sheehan, G. (1996). A guide to capacity inventories: Mobilizing the community skills of local residents: ACTA Publications Chicago, ILL. |
| [23] | Díaz, S., Demissew, S., Carabias, J., Joly, C., Lonsdale, M., Ash, N.,... & Bartuska, A. (2015). The IPBES Conceptual Framework—connecting nature and people. Current Opinion in Environmental Sustainability, 14, 1-16. |
| [24] | Hanspach, J., Hartel, T., Milcu, A., Mikulcak, F., Dorresteijn, I., Kovács-Hostyánszki, A., & Báldi, A. (2014). A holistic approach to studying social-ecological systems and its application to southern Transylvania. Ecology and Society. |
| [25] | Northwestern. (2009). Asset-Based Community Development Institute. Retrieved from http://www.abcdinstitute.org/abcd09/. |
| [26] | Mathie, A., & Cunningham, G. (2003). From clients to citizens: Asset-based community development as a strategy for community-driven development. Development in Practice, 13 (5), 474-486. |
| [27] | Mathie, A., Cameron, J., & Gibson, K. (2017). Asset-based and citizen-led development: Using a diffracted power lens to analyze the possibilities and challenges. Progress in Development Studies, 17 (1), 54-66. |
| [28] | Johnston, B. R., Hiwasaki, L., Klaver, I. J., Ramos-Castillo, A., & Strang, V. (Eds.). (2011). Water, cultural diversity, and global environmental change: Emerging trends, sustainable futures? Springer Science & Business Media. |
| [29] | Hiwasaki, L. (2011). ‘Water for Life’… Water for Whose Life? Water, Cultural Diversity and Sustainable Development in the United Nations. In Water, Cultural Diversity, and Global Environmental Change (pp. 509-531). Springer Netherlands. |
| [30] | Pan, A., Bosch, D., & Ma, H. (2017). Assessing water poverty in china using holistic and dynamic principal component analysis. Social Indicators Research, 130 (2), 537-561. |
| [31] | Falkenmark, M. (2003). Freshwater as shared between society and ecosystems: from divided approaches to integrated challenges. Philosophical Transactions of the Royal Society of London B: Biological Sciences, 358 (1440), 2037-2049. |
| [32] | Falkenmark, M., & Rockström, J. (2004). Balancing water for humans and nature: the new approach in ecohydrology. Earthscan. |
| [33] | Millennium Ecosystem Assessment, (2005). Ecosystems and Human Well-being: Synthesis. Island Press, Washington, DC. |
| [34] | Muhar, A., Raymond, C. M., van den Born, R. J., Bauer, N., Böck, K., Braito, M.,... & Mitrofanenko, T. (2017). A model integrating social-cultural concepts of nature into frameworks of interaction between social and natural systems. Journal of Environmental Planning and Management, 1-22. |
| [35] | Rockström, J., Falkenmark, M., Allan, T., Folke, C., Gordon, L., Jägerskog, A.,... & Postel, S. (2014). The unfolding water drama in the Anthropocene: towards a resilience‐based perspective on water for global sustainability. Ecohydrology, 7 (5), 1249-1261. |
| [36] | Campo, H. D and Wali, A. (2008). Applying asset mapping to protected area planning and management in the Cordillera Azul National Park, Peru. Ethnobotany Research and Applications, 5, 25-36. |
| [37] | Kretzmann, J., & McKnight, J. (1993). Building communities from the inside out: a path toward finding and mobilizing a community's assets. Evanston, Ill.; Chicago, IL: The Asset-Based Community Development Institute, Institute for Policy Research, Northwestern University; Distributed by ACTA Publications. |
| [38] | Wilson, N. J., Walter, M. T., & Waterhouse, J. (2015). Indigenous knowledge of hydrologic change in the Yukon River Basin: a case study of Ruby, Alaska. Arctic, 93-106. |
| [39] | Gregory, K. J. (2006) The human role in changing river channels, Geomorphology, 79, 172–191. |
| [40] | Van Meter, K. J., Basu, N. B., McLaughlin, D. L., & Steiff, M. (2015). The socio-ecohydrology of rainwater harvesting in India: understanding water storage and release dynamics at tank and catchment scales. Hydrology and Earth System Sciences Discussions, 12 (11), 12121-12165. |
| [41] | Van Emmerik, T. H. M., Li, Z., Sivapalan, M., Pande, S., Kandasamy, J., Savenije, H. H. G.,... & Vigneswaran, S. (2014). Socio-hydrologic modeling to understand and mediate the competition for water between agriculture development and environmental health: Murrumbidgee River basin, Australia. Hydrology and Earth System Sciences, 18 (10), 4239. |
| [42] | Yoshida, Y., Flint, C. G., & Dolan, M. K. (2017). Farming between love and money: US Midwestern farmers’ human–nature relationships and impacts on watershed conservation. Journal of Environmental Planning and Management, 1-18. |
| [43] | Qin, H., and G. C. Flint. (2017). “Changing Community Variations in Perceptions and Activeness in Response to the Spruce Bark Beetle Outbreak in Alaska.” Sustainability 9 (1): 67. |
| [44] | Braito, M. T., Böck, K., Flint, C., Muhar, A., Muhar, S., & Penker, M. (2017). Human-Nature Relationships and Linkages to Environmental Behaviour. Environmental Values, 26 (3), 365-389. |
| [45] | De Groot, M., & van den Born. R. J. G. (2007). “Humans, Nature and God: Exploring Images of Their Interrelationships in Victoria, Canada.” Worldviews: Global Religions, Culture, and Ecology 11 (3), 324–351. |
| [46] | Millennium Ecosystem Assessment (MEA)(2003) Ecosystems and Human Well-Being: A Framework for Assessment. Washington, DC: Island Press. |
| [47] | Ostrom, E. 2007. “A Diagnostic Approach for Going Beyond Panaceas.” Proceedings of the National Academy of Sciences of the United States of America 104 (39): 15181–15187. |
| [48] | Ostrom, E. 2009. “A General Framework for Analyzing Sustainability of Social-Ecological Systems.” Science (New York, N. Y.) 325 (5939): 419–422. |
| [49] | Curtis, A. L., & Lefroy, E. C. (2010). Beyond threat-and asset-based approaches to natural resource management in Australia. Australasian Journal of Environmental Management, 17 (3), 134-141. |
| [50] | Mathie, A. and Peters, B. (2014). Joint (ad) ventures and (in) credible journeys evaluating innovation: asset-based community development in Ethiopia. Development in Practice, 24 (3), 405-419. |
| [51] | Chirisa, I. (2009). Prospects for the asset based community development approach in Epworth and Ruwa, Zimbabwe: A housing and environmental perspective. African Journal of History and Culture (AJHC), 1 (6), 028-035. |
| [52] | Dolezal, C., & Burns, P. M. (2015). ABCD to CBT: asset-based community development's potential for community-based tourism. Development in Practice, 25 (1), 133-142. |
| [53] | Nel, H. (2015). An integration of the livelihoods and asset-based community development approaches: A South African case study. Development Southern Africa (ahead-of-print), 1-15. |
| [54] | UNESCO and the CBD Secretariat (SCBD) (2013). Links between Biological and Cultural Diversity. 4pp. |
| [55] | Posey, D. A. (1999). Cultural and spiritual values of biodiversity. A complementary contribution to the global biodiversity assessment. In Posey, D. A. (ed.), Cultural and Spiritual Values of Biodiversity, UNEP and Intermediate Technology Publications, London, U. K., pp. 1–19. |
| [56] | Pilgrim, S. & Pretty, J. (2010). Nature and culture: An introduction. Nature and culture. Rebuilding lost connections. London: Earthscan. |
| [57] | Posey, D. A &and Dutfield, G. (1996). Beyond intellectual property: toward traditional resource rights for indigenous peoples and local communities. IDRC. |
| [58] | Hong, S. K. (2013). Biocultural diversity conservation for island and islanders: necessity, goal and activity. Journal of marine and island cultures, 2 (2), 102-106. |
| [59] | Declaration of Belem (1988) http://ise.arts.ubc.ca/documents/DeclarationofBelem. doc. |
| [60] | Convention on Biological Diversity (CBD). (2011). Strategic Plan for Biodiversity and the Aichi Targets. Retrieved from Montreal: https://www.cbd.int/doc/strategic-plan/2011-2020/Aichi-Targets-EN. pdf. |
| [61] | Mulder, M. B. and Coppolillo, P. (2005). Conservation: Linking Ecology, Economics, and Culture: Princeton University Press. |
| [62] | Posey, D. A. (2011). Indigenous Knowledge and Ethics: A Darrell Posey Reader (K. Plenderleith Ed. Reprint edition ed.). London: Routledge. |
| [63] | Pungetti, G., Oviedo, G. & Hooke, D. (2012). Sacred Species and Sites: Advances in Biocultural Conservation (G. Pungetti, G. Oviedo, & D. Hooke Eds. 1 edition ed.). Cambridge; New York: Cambridge University Press. |
| [64] | Loh, J. & Harmon, D. (2014). Biocultural diversity: threatened species, endangered languages. WWF Netherlands, Zeist, the Netherlands, 1. |
| [65] | Agnoletti, M. and Rotherham, I. D. (2015). Landscape and biocultural diversity. Biodiversity and Conservation, 24 (13), 3155-3165. |
| [66] | Chapin, M. (1992). The co-existence of indigenous peoples and environments in Central America. Research and exploration, 8 (2): 232-234. |
| [67] | Gorenflo, L. J., Romaine, S., Mittermeier, R. & Walker-Painemilla, K. (2012). Co-occurrence of linguistic and biological diversity in biodiversity hotspots and high biodiversity wilderness areas. Proceedings of the National Academy of Sciences, 109 (21), 8032-8037. Retrieved from http://www.pnas.org/content/109/21/8032.short. |
| [68] | Stepp, J. R., Cervone, S., Castaneda, H., Lasseter, A., Stocks, G., & Gichon, Y. (2004). Development of a GIS for global biocultural diversity. Policy Matters, 13 (267-270). Retrieved from http://wiki.bioculturaldiversity.eu/wp-content/uploads/2010/04/Stepp-et-al-2004-BCD-and-GIS.pdf. |
| [69] | Williams, R. (1958). Moving from high culture to ordinary culture. Originally published In: McKenzie N (ed.), Convictions. |
| [70] | Hoff, M. D. (2002). Effects of global warming on human cultural diversity. Encyclopedia of life support systems. 8pp. |
| [71] | Rowland, S (2008). What is Asset Based Community Development (ABCD). 3pp. |
| [72] | Fals Borda, O., & Rahman, M. A. (1991). Action and knowledge: breaking the monopoly with participatory action-research: Apex Press. |
| [73] | Ware, A. (2013). An assessment of empowerment through highly participatory asset-based community development in Myanmar. Development bulletin: challenges for participatory development in contemporary development practice, 75, 110-114. |
| [74] | International association for community development (IACD) (2009). What Are Asset-Based Approaches to Community Development? 7pp. |
APA Style
Agnes Kapinga, Olanyika Ogunkoya, Abimbola Sangodoyin, Peter Meta, Bety Begashe. (2018). Combining Bio-Cultural and Asset Based Approach Towards Sustainable Utilization of Catchment Resources. American Journal of BioScience, 6(1), 15-22. https://doi.org/10.11648/j.ajbio.20180601.13
ACS Style
Agnes Kapinga; Olanyika Ogunkoya; Abimbola Sangodoyin; Peter Meta; Bety Begashe. Combining Bio-Cultural and Asset Based Approach Towards Sustainable Utilization of Catchment Resources. Am. J. BioScience 2018, 6(1), 15-22. doi: 10.11648/j.ajbio.20180601.13
AMA Style
Agnes Kapinga, Olanyika Ogunkoya, Abimbola Sangodoyin, Peter Meta, Bety Begashe. Combining Bio-Cultural and Asset Based Approach Towards Sustainable Utilization of Catchment Resources. Am J BioScience. 2018;6(1):15-22. doi: 10.11648/j.ajbio.20180601.13
Share This Article
Twitter
Linked In
Facebook
Copy
Download@article{10.11648/j.ajbio.20180601.13,
author = {Agnes Kapinga and Olanyika Ogunkoya and Abimbola Sangodoyin and Peter Meta and Bety Begashe},
title = {Combining Bio-Cultural and Asset Based Approach Towards Sustainable Utilization of Catchment Resources},
journal = {American Journal of BioScience},
volume = {6},
number = {1},
pages = {15-22},
doi = {10.11648/j.ajbio.20180601.13},
url = {https://doi.org/10.11648/j.ajbio.20180601.13},
eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.ajbio.20180601.13},
abstract = {Water security is one of the key sustainability challenges in this modern era regardless of the level of development. While the problem keep on increasing year after year, man is a dominant player over hydrological system and also possesses powerful ways and means of utilizing hydrological resources and responds to hydrological dynamics in different ways. The utilization of hydrological resources is influenced by natural resources which are available in the aquatic system, communities’ culture and assets. These three main factors can be divided into two groups, namely, bio-cultural and community/ anthropogenic asset. Bio-cultural asset helps to understand ways in which man interacts with hydrological systems, which behavior (s) can lead to transformations of hydrological functions, and how man reacts to these changes. While, community assets help to understand how the communities can sustainably manage themselves by identifying and mobilizing the existing, but often unrecognized assets, and thereby respond to and create local opportunities for themselves instead of depending on resources from outside. In most cases, the bio-cultural and Asset Based Community Development (ABCD) approaches have been used separately to study the involvement of people and their behavior towards water resource management. It is expected that integrating of these two approaches can be useful in understanding the links between hydrology and local systems; at the same time understanding how a community can restore and be resilient to the changes that occur to the aquatic ecosystems from a cultural, social, economic, political, and biological perspectives. The combination of bio-cultural and ABCD approaches can also, be a better strategy for identifying the parameters and functional relationships which can be used in socio-hydrological model simulation.},
year = {2018}
}
TY - JOUR T1 - Combining Bio-Cultural and Asset Based Approach Towards Sustainable Utilization of Catchment Resources AU - Agnes Kapinga AU - Olanyika Ogunkoya AU - Abimbola Sangodoyin AU - Peter Meta AU - Bety Begashe Y1 - 2018/03/16 PY - 2018 N1 - https://doi.org/10.11648/j.ajbio.20180601.13 DO - 10.11648/j.ajbio.20180601.13 T2 - American Journal of BioScience JF - American Journal of BioScience JO - American Journal of BioScience SP - 15 EP - 22 PB - Science Publishing Group SN - 2330-0167 UR - https://doi.org/10.11648/j.ajbio.20180601.13 AB - Water security is one of the key sustainability challenges in this modern era regardless of the level of development. While the problem keep on increasing year after year, man is a dominant player over hydrological system and also possesses powerful ways and means of utilizing hydrological resources and responds to hydrological dynamics in different ways. The utilization of hydrological resources is influenced by natural resources which are available in the aquatic system, communities’ culture and assets. These three main factors can be divided into two groups, namely, bio-cultural and community/ anthropogenic asset. Bio-cultural asset helps to understand ways in which man interacts with hydrological systems, which behavior (s) can lead to transformations of hydrological functions, and how man reacts to these changes. While, community assets help to understand how the communities can sustainably manage themselves by identifying and mobilizing the existing, but often unrecognized assets, and thereby respond to and create local opportunities for themselves instead of depending on resources from outside. In most cases, the bio-cultural and Asset Based Community Development (ABCD) approaches have been used separately to study the involvement of people and their behavior towards water resource management. It is expected that integrating of these two approaches can be useful in understanding the links between hydrology and local systems; at the same time understanding how a community can restore and be resilient to the changes that occur to the aquatic ecosystems from a cultural, social, economic, political, and biological perspectives. The combination of bio-cultural and ABCD approaches can also, be a better strategy for identifying the parameters and functional relationships which can be used in socio-hydrological model simulation. VL - 6 IS - 1 ER -
Information
Email: