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COP 28 Water Agenda: Establishing a Dynamic Blue Economy in Brazil’s Amazon Region

DOI: 10.4236/me.2024.151005, PP. 86-102

Keywords: COP 28, Sustainable Development, Brazil, Amazon, Blue Economy, Emerging Business Frontier, Quadruple-Quintuple Helix

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Abstract:

In 2024, the preservation of water resources is an important dimension of the global economy striving for a sustainable, equitable and inclusive economic development and growth strategy. The preservation of water resources is an important component in the advancement of the 2030 Agenda for Sustainable Development Goals (SDGs), as established by the SDG 14, and in the development of a sustainable, equitable, and inclusive global Blue Economy. The 2023 UN Climate Change Conference—COP 28 Water Agenda emphasized the vital role played by freshwater resources in the global quest to address sustainable, equitable, and inclusive global economic growth and development. This paper elaborates on the promises and challenges permeating the establishment of a dynamic Blue Economy in Brazil’s Amazon region. This paper introduces a Quintuple Helix and a Quadruple Helix framework of analysis to assess the promises and challenges facing the development and establishment of a sustainable Blue Economy in Brazil’s Amazon region.

 References

[1]  Adam, J. (2023). International Institute for Sustainable Development. State of Global Environmental Governance 2022. International Institute for Sustainable Development.
[2]  Ahmed, F., Johnson, D., Hashaikeh, R., & Hilal, N. (2023). Barriers to Innovation in Water Treatment. Water, 15, Article 773.
https://doi.org/10.3390/w15040773
[3]  Akhter, M., Uddin, S., Rafa, N., Hridi, S., Staddon, C., & Powell, W. (2020). Drinking Water Security Challenges in Rohingya Refugee Camps of Cox’s Bazar, Bangladesh. Sustainability, 12, Article 7325.
https://doi.org/10.3390/su12187325
[4]  Alexander, U., & Evgeniy, P. (2012). The Entrepreneurial University in Russia: From Idea to Reality. Procedia-Social and Behavioral Sciences, 52, 45-51.
https://doi.org/10.1016/j.sbspro.2012.09.440
[5]  ANA (2015). Avaliação dos Aquíferos das Bacias Sedimentares da Provincia Hidrogeologica Amazonas no Brasil e Cidades.
https://www.metadados.snirth.gov.br
[6]  ANA (2023). Agência Nacional de águas e Saneamento Básico, Plano de Gestão Anual 2023.
https://www.gov.br
[7]  AquaSPE (2015). The Water Network.
https://www.aquaspe.com
[8]  Araujo, L., & Teixeira, A. (2022). Participação Social na Governança Hídrica do Distrito Federal. Caminhos de Geografia, 23, 235-252.
https://doi.org/10.14393/RCG238859670
[9]  Azevedo, J., & Campos, J. (2021). Flow Patterns and Aquifer Recharge Controls under Amazon Rainforest Influence: The Case of the Alter do Chão Aquifer System. Journal of South American Earth Sciences, 112, Article 103596.
https://doi.org/10.1016/j.jsames.2021.103596
[10]  Batchelor, C. (2007). Water Governance Literature Assessment. Research Report, International Institute for Environment and Development.
https://www.iied.org
[11]  Boretti, A., & Rosa, L. (2019). Reassessing the Projections of the World Development Report. Clean Water, 2, 14-20.
https://doi.org/10.1038/s41545-019-0039-9
[12]  Carayannis, E., & Campbell, D. (2021). Democracy of Climate for Democracy: the Evolution of Quadruple and Quintuple Helix Innovation Systems. Journal of the Knowledge Economy, 12, 2050-2082.
https://doi.org/10.1007/s13132-021-00778-x
[13]  Castro, J., Heller, L., & Morais, M. (2015). O Direito a água como Politica Publica na America Latina: Uma Exploracao Teorica e Empirica. IPEA.
[14]  CEPAL (2023). Regional Water Action Agenda 2023: Latin America and the Caribbean. CEPAL.
[15]  Chancel, L., Bothe, P., & Voituriez, T. (2023). Climate Inequality Report. World Inequality Lab.
https://www.cakex.org
[16]  Chiaretti, D. (2023). Desmatamento na Amazônia está à Beira do Abismo, diz Crlos Nobre. Valor, 5, A.16.
[17]  Coleridge, S. (1992). The Rime of the Ancient Mariner and Other Poems. Dover Publications.
[18]  COP 28 (2023). COP28’s Food. Agriculture and Water Day Secures Major Commitments to Address Climate Impacts and Keep 1.5C within Reach.
https://www.cop28.com
[19]  Costa, W. (2021). Rio Hamza, o rio Subterraneo de 6 mil kilometros de extensao embaxo da Amazonia. Portal da Amazônia.
https://www.portalamazonia.com
[20]  Council of the European Union (2023). List of Voluntary Commitments for the Water action Agenda to Be Presented by the European Union for the UN 2023 Water Conference. United Nations.
[21]  Creaco, E., & Pezzinga, G. (2018). Advances in Water Distribution Networks. Water, 10, 12-20.
https://doi.org/10.3390/w10111546
[22]  ECLAC (2018). The 2030 Agenda and the Sustainable Development Goals: An Opportunity for Latin America and the Caribbean. ECLAC, UN.
[23]  Fearnside, P. (2017). How a Dam Building Boom Is Transforming the Brazilian Amazon. Yale Environment 360.
https://www.e360.yale.edu
[24]  Fearnside, P., & Silva, R. (2023). Seca de 2023 Indica Futuro Desastroso para a Amazonia e seu Povo. The Conversation.
https://www.theconversation.com
[25]  Frigione, B., & Pezzagno, M. (2023). The Strategic Environmental Assessment as a Front-Line Tool to Mediate Regional Sustainable Development Strategies into Spatial planning: A Practice-Based Analysis. Sustainability, 15, Article 2378.
https://doi.org/10.3390/su15032378
[26]  Global Commission on the Economics of Water (2023). Turning the Tide: A Call to Collective Action.
https://www.watercommission.org
[27]  Global Water Partnership (2000). Towards Water Security: A Framework for Action.
https://www.gwp.org
[28]  Global Water Partnership (2002). Introducing Effective Water Governance. Mimeo.
https://www.gwp.org
[29]  Gouvea, R. (1998). Floods of Fortune: Sustainable Business Strategies in the Brazilian Amazon Region. Latin American Business Review, 1, 97-117.
https://doi.org/10.1300/J140v01n02_06
[30]  Gouvea, R. (2012). Brazil’s Energy Divide: Sustainable Energy Alternatives for the Brazilian Amazon Region. International Journal of Sustainable Development and Planning, 7, 472-483.
https://doi.org/10.2495/SDP-V7-N4-472-483
[31]  Gouvea, R. (2014). Sustainability & Entrepreneurship: Fostering Indigenous Entrepreneurship in the Brazilian Amazon Region. International Journal of Social Ecology and Sustainable Development, 5, 58-74.
https://doi.org/10.4018/ijsesd.2014070105
[32]  Gouvea, R. (2015). Designing a Nano Infrastructure for Brazil’s Amazon Water Resources: A Quadruple Helix Approach. Journal of Water Resource and Protection, 7, 72-78.
https://doi.org/10.4236/jwarp.2015.71005
[33]  Gouvea, R., & Gutierrez, M. (2023). The Sustainable Brazilian Blue Economy: A Blue Powershoring and Blue Watershoring Strategy. Modern Economy, 14, 1892-1920.
https://doi.org/10.4236/me.2023.1412099
[34]  Gouvea, R., & Kassicieh, S. (2001). Resources-Based Innovation: The Case for the Amazon Region. Engineering Management Journal, 13, 28-32.
https://doi.org/10.1080/10429247.2001.11415103
[35]  Gouvea, R., & Kassicieh, S. (2010). Building an Eco-Innovation Cluster: Water Cluster in the Brazilian Amazon Region. International Journal of Social Ecology and Sustainable Development, 1, 27-39.
https://doi.org/10.4018/jsesd.2010040103
[36]  Gouvea, R., & Montoya, M. (2014). Building an Equitable Green Economy: A Brazilian Perspective. International Journal of Environmental Studies, 71, 182-199.
https://doi.org/10.1080/00207233.2014.898372
[37]  Gouvea, R., Kapelianis, D., & Kassicieh, S. (2018). Assessing the Nexus of Sustainability and Information and Communications Technology. Technological Forecasting and Social Change, 130, 193-205.
https://doi.org/10.1016/j.techfore.2017.07.023
[38]  Gouvea, R., Kapelianis, D., Li, S., & Terra, B. (2022). Innovation, ICT & Food Security. Global Food Security, 35, Article 100653.
https://doi.org/10.1016/j.gfs.2022.100653
[39]  Gouvea, R., Kassicieh, S., & Montoya, M. (2012). Designing Competitive Strategies in a Green Economy. Technological Forecasting and Social Change, 80, 221-230.
https://doi.org/10.1016/j.techfore.2012.05.003
[40]  Gouvea, R., Lehnemann, L., & Terra, B. (2022). Tribal Economic Development & Enrepreneurship: A Latin American Perspective. World Development Perspectives, 26, Article 100403.
https://doi.org/10.1016/j.wdp.2022.100403
[41]  Guimaraes, J. (2020). Mercury in the Amazon: Problem or Opportunity? A Commentary on 30 Years of Research on the Subject. Elementa: Science of the Anthropocene, 8, Article 032.
https://www.pdfs.semanticscholar.org
https://doi.org/10.1525/elementa.032
[42]  Henriques, C. (2013). Me Manaus, aproximadamente dez mil Pocos Artesianos sao Clandestinos. G1Amazonas.
https://www.g1.globo.com
[43]  IBGE (2021). Amazonia Legal.
https://www.ibge.gov.br
[44]  IDRICA (2023). Water Technology Trends 2023.
https://www.idrica.com
[45]  IISD (2023). Summary Report, 22-24, UN 2023 Water Conference.
https://www.enb.iisd.org
[46]  Illinois Environmental Protection Agency (2015). Groundwater Monitoring Program. Bureau of Water.
[47]  INPE (2011). Seca de 2010 na Amazonia foi a Mais Drastica ja Registrada. INPE.
https://www.inpe.br
[48]  Karani, P., Failler, P., & Gilau, A. (2023). Framework for Mainstreaming Climate Change into African Blue Economy Strategies to Enhance Adaptation, Mitigation, and Resilience in Sustainable Development. American Journal of Climate Change, 12, 376-404.
https://doi.org/10.4236/ajcc.2023.123018
[49]  Kochhar, K., Pattillo, C., & Sun, Y. (2015). Is the Glass Half Empty of Half Full? Finance and Development. IMF.
https://www.imf.org
[50]  Kuzma, S., Saccoccia, L., & Chertock, M. (2023). 25 Countries, Housing One-Quarter of the Population, Face Extremely High Water Stress. World Resources Institute.
https://www.wri.org
[51]  Leiros, M. (2021a). Com PIB de R$ 3.7 bi, Regiao Norte tem riqueza similar a paises Europeus como Luxemburgo. Revista Cenarium.
https://www.revistacenarium.com.br
[52]  Leiros, M. (2021b). Flying Rivers. Agência Cenarium Amazônia.
https://www.aamazonia.com.br
[53]  Loganathan, M., & Subrahmanya, M. H. B. (2023). Efficiency of Entrepreneurial Universities in India: A Data Envelopment Analysis. Journal of the Knowledge Economy, 14, 1120-1144.
https://doi.org/10.1007/s13132-022-00897-z
[54]  Matoh, L., Zener, B., & Genorio, B. (2022). Green Synthesis of Immobilized CuO Photocatalyst for Disinfection of Water. Sustainability, 14, Article 10581.
https://doi.org/10.3390/su141710581
[55]  Ministério da Infraestrutura (2018). Transporte Fluvial Garante o Deslocamento de Pessoas e Cargas na Regiao Amazonica.
https://www.gov.br
[56]  Mukhtarov, F., Dieperink, C., & Driessen, P. (2018). The Influence of Information and Communication Technologies on Public Participation in Urban Water Governance: A Review of Place-Based Research. Environmental Science & Policy, 89, 18-27.
https://doi.org/10.1016/j.envsci.2018.08.015
[57]  Nascimento, L. (2021). Empresas da Zona Franca de Manaus faturam R$ 116.5 Bilhoes em 2021. Agencia Brasil.
https://www.agenciabrasil.ebc.com.br
[58]  Nascimento, L. (2023). Seca no Amazonas Afeta mais de 630 mil Pessoas. Agencia Brazil.
https://www.agenciabrasil.ebc.com.br
[59]  Nyiwul, L. (2023). Climate Change Adaptation Innovation in the Water Sector in Africa: Dataset. Data in Brief, 46, 20-26.
https://doi.org/10.1016/j.dib.2022.108782
[60]  OECD (2015). OECD Principles on Water Governance. OECD.
[61]  OECD (2023a). Global Outlook on Financing for Sustainable Development 2023. OECD.
[62]  OECD (2023b). Ten Years of the OECD Water Governance Initiative. OECD.
[63]  Oliveira, D. (2021). Populacao Amazonida chega a 29.6 mihoes de pessoas em 2021. Portal Amazônia.
https://www.portalamazonia.com
[64]  Oliveira Neto, T. (2022). Infraestruturas, Circulacao e Transportes na Amazonia: Impactos Multiescalares. Revista Eletronica de Recursos en Internet sobre Geografia y Ciencias Sociales, 26, 1-29.
https://doi.org/10.1344/ara2022.272.34612
[65]  Pesotsky, Y., Grigorieva, O. and Chistova, A. (2021). Entrepreneurial Education Development: Evidence from Russia. TEM Journal, 10, 961-969.
https://doi.org/10.18421/TEM102-60
[66]  Pimentel, E., & Hamza, V. (2010). Gradientes Termicos Crustais das Bacias Sedimentares na Regiao Amazonica. In The 2010 IV Simposio Brasileiro de Geofisica. European Association of Geoscientists & Engineers.
https://www.sbgf.org.br
https://doi.org/10.3997/2214-4609-pdb.197.SBGF_2216
[67]  Plummer, J., & Slaymaker, T. (2007). Rethinking Governance in Water Services. Working Paper No. 284, Overseas Development Institute.
[68]  Ritchie, H., & Roser, M. (2021). Clean Water and Sanitation.
https://www.ourworldindata.org
[69]  Rogers, P., & Hall, A. (2015). Effective Water Governance. Global Water Partnership Technical Committee (TEC). TEC Background Papers No. 7.
https://www.gwp.org
[70]  Safe Water Network (2015). Ghana.
https://www.safewaternetwork.org
[71]  Silva, S., & Lima, M. (2020). Mercury in Fish Marketed in the Amazon Triple Frontier and Health Risk Assessment. Chemosphere, 248, 20-34.
https://doi.org/10.1016/j.chemosphere.2020.125989
[72]  Sirsant, S., Hamouda, M., & Shaaban, M. (2023). Advances in Assessing the Reliability of Water Distribution Networks: A Bibliometric Analysis and Scoping Review. Water, 15, 30-53.
https://doi.org/10.3390/w15050986
[73]  Solanes, Miguel., & Jouravlev, Andrei (2006). Water Governance for Development and Sustainability. CEPAL.
[74]  Suroso, A., Hamzah, H., & Sasongko, H. (2021). An Early Warning System in the Drinking Water System. In E. R. Cahyadi et al. (Eds.), The 1st International Conference on Sustainable Management and Innovation. EAI.
https://doi.org/10.4108/eai.14-9-2020.2304505
[75]  Trata Brasil (2023). ESG e Tendencias no Setor de Saneamento do Brasil.
https://www.tratabrasil.org.br
[76]  UN (2022). Global Strategy for Sustainable Consumption and Production 2023-2030. United Nations Environment Programme.
[77]  UN (2023a). Global Sustainable Development Report 2023 Process and Key Elements. The United Nations Independent Group of Scientists.
[78]  UN (2023b). UN 2023 Water Conference Side Event, Brazilian Business Commitment for Water Security.
https://www.unosd.un.org
[79]  UNCTAD (2022). Issues Paper on Ensuring Safe Water and Sanitation for All: A Solution by Science, Technology, and Innovation.
https://www.unctad.org
[80]  UNESCO (2021). The United Nations World Water Development Report 2021: Valuing Water. UNESCO.
[81]  UNESCO (2022). The United Nations World Water Development Report 2022: Groundwater Making the Invisible Visible. UNESCO.
[82]  UNOSD (2023). Side Event at the United Nations 2023 Water Conference “Identifying and Bridging the Capacity Gaps to Achieve Water-Related SDGs.
https://www.unosd.un.org
[83]  Urban, P., & Hameter, M. (2022). The Economy-Environment Nexus: Sustainable Development Goals Interlinkages in Austria. Sustainability, 14, Article 12281.
https://doi.org/10.3390/su141912281
[84]  Varady, R., Albretcht, T., Modak, S., & Wilder, M. (2023). Transboundary Water Governance Scholarship: A Critical Review. Environments, 10, Article 27.
https://doi.org/10.3390/environments10020027
[85]  Vasconcelos, L. (2022). Uso de Poço Artesiano para ter água em Casa Gera Série de Riscos a Saude. A Crítica.
https://www.acritica.com
[86]  Wang, Y., & Ma, Y. (2022). Innovation and Entrepreneurship Education in Chinese Universities: Developments and Challenges. Chinese Education & Society, 55, 225-232.
https://doi.org/10.1080/10611932.2022.2136446
[87]  Water JPI (2020). Strategic Research and Innovation Agenda 2025.
https://www.waterjpi.eu
[88]  World Bank (2023). What the Future Has in Store: A New Paradigm for Water Storage. World Bank.
[89]  Wyoming Department of Environmental Quality (2015). Water Quality Monitoring Plan.
https://www.deq.wyoming.gov
[90]  Yale Center for Environmental Law & Policy (2021). Environmental Performance Index— Sanitation & Drinking Water.
https://www.epi.yale.edu
[91]  Zhou, X., Gao, D., & Simpson, A (2016). Optimal Design of Water Distribution Networks by a Discrete State Transition Algorithm. Engineering Optimization, 47, 603-628.
https://doi.org/10.1080/0305215X.2015.1025775

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