Initial Research Proposal and Educational Philosophy
Although water and land have become scarce in the recent past, they still remain essential in supporting production, industrialization, and human activities. This proposal seeks to support the introduction of smart systems and water resource management practices and integrating them in infrastructure and built environments. Such models will be implemented on a city-wide level to ensure that all individuals can access this commodity and encouraging them to use it sustainably (Li, Yang and Sitzenfrei, 2020). The relevant agencies and administrators will engage in monitoring to ensure that desirable results are being recorded. The concept of demand-side management will guide more city dwellers to transform their behaviors for the better and learn how to use the available scare resources sparingly. Such partners will also appreciate the importance of protecting their environments and ecosystems.
From an educational or philosophical perspective, the idea of integrated water resources management (IWRM) has become a reality today since many communities and companies are implementing coordinated efforts to conserve all land-related resources to maximize economic and social outcomes for all citizens. Different stakeholders are relying on such a framework to reduce the possible negative impacts on the natural environment (Niesenbaum, 2019). Activists in this field apply a powerful philosophy to encourage more citizens to continue formulating decisions that do not affect the lives and experiences of others. The consideration of such strategies will present additional opportunities for protecting the environment at the personal level (Cosgrove and Loucks, 2015). The IWRM concept is, therefore, replicable in modern cities to deliver the true benefits of sustainability. When more stakeholders pursue this idea, the world will become a better place and overcome the predicaments arising from climate change.
Motivation
The global community is currently facing numerous sustainability challenges, including loss of habitats, scarcity of resources, and global warming. Governments, municipalities, and companies in different regions are utilizing modern technologies and innovations to implement enhanced water conservation and monitoring strategies. Khan (2017) encourages individuals and companies to utilize this rare commodity efficiently, engage in recycling, and channel wastes for other activities, such as in cooling systems and agricultural activities. In the Middle East, many countries and cities have implemented similar approaches since water remains unavailable or expensive (Khan, 2017). Within the areas of infrastructure management and construction, architects and engineers have been focusing on some of the best measures to deliver sustainable structures. They achieve this aim by reducing their overall ecological footprints by introducing effective integrated water resources management initiatives. When more stakeholders focus on these measures, chances of making the planet more sustainable would increase significantly.
Members of the public, engineers, architects, and urban planners in different regions need to promote the power of collaboration and implement superior measures for managing scarce resources. Some professionals and policymakers have been educating more citizens about the importance of sustainable using of water. Such an imitative is essential since cooking, drinking, or bathing require this commodity (Khan, 2017). The areas of agriculture and industrial production have benefited significantly from the emerging concepts of conservation to make the world more sustainable (Wali et al., 2017). These sources of motivation, therefore, explain why the suggested project would be essential and applicable in different urban and suburban regions across the world. If all partners implement most of the above measures, more ideas and initiatives will emerge in the future that will support the delivery smart systems and result in improved management of scarce natural resources.
Reference List
Cosgrove, W.J. and Loucks, D.P. (2015) âWater management: current and future challenges and research directionsâ, Water Resources Research, 51(6), pp. 4823-4839.
Khan, M.S. (2017) âSmart city and smart tourism: a case of Dubaiâ, Sustainability, 9(12), pp. 2279-2302.
Li, J., Yang, X. and Sitzenfrei, R. (2020) âRethinking the framework of smart water system: a reviewâ, Water, 12(2), pp. 412-436.
Niesenbaum, R.A. (2019) âThe integration of conservation, biodiversity, and sustainabilityâ, Sustainability, 11(17), pp. 4676-4686.
Wali, A. et al. (2017) âA new approach to conservation: using community empowerment for sustainable well-beingâ, Ecology and Society, 22(4), pp. 6-18.