Mahjabin Radaei; Esmaeil Salehi; Hassan Moghaddam; Forood Azari Dehkordi; Mahshid Radaei
Abstract
Sustainable-integrated structural, functional, and management systems of water resources with emphasis on understanding the dynamics and co-evolution of coupled human-water systems have created concepts such as environmental hydrology, social hydrology, water sociology, etc. The evolution of the science ...
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Sustainable-integrated structural, functional, and management systems of water resources with emphasis on understanding the dynamics and co-evolution of coupled human-water systems have created concepts such as environmental hydrology, social hydrology, water sociology, etc. The evolution of the science of hydrology based on the theory of socio-ecological systems faces various challenges, including missing ring of social capital, local management, and regeneration of ecological wisdom governing the common resource, which requires the recognition of the semantic interaction and co-evolution of ecological wisdom and social hydrology. The current descriptive-analytical research formulates a conceptual framework for the development of social hydrology based on ecological wisdom intellectual foundation governing the ancient hydraulic heritage. The analysis of commonalities and differences in ecological wisdom, social hydrology, and their study paths based on comparative analysis emphasizes the realization of new insight in light of ecological wisdom, which, while linking procedural and conceptual approaches, provides a framework for the coupled systems co-evolution, with the potential to fully understand complexities, connections, and feedbacks, transform conflicts into interactions, analyze past events, strengthen the participation of stakeholders, predict long-term consequences of today's decisions, and facilitate the policymaking, decision-making processes, and formulation of efficient management strategies at various local, national, and regional scales.
Mahjabin Radaei; Esmaeil Salehi; Shahrzad Faryadi; Mohammad Reza Masnavi; Lobat Zebardast
Abstract
Neglecting basic urban ecological indicators leads to a reduction in resilience to changing environmental conditions. Ancient socio-ecological systems are the result of several millennia of interventions in the landscape and a valuable repository of successful and unsuccessful experiences that can act ...
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Neglecting basic urban ecological indicators leads to a reduction in resilience to changing environmental conditions. Ancient socio-ecological systems are the result of several millennia of interventions in the landscape and a valuable repository of successful and unsuccessful experiences that can act as a stimulus or deterrent to decisions in future planning processes. This study aims to deduce the ecological wisdom principles and rules governing wind flow corridors and to present structural-functional strategies in the ecological networks of ancient desert cities (Yazd as a case study) to promote resilience. The research method based on the analysis of the content reviews the importance of ecological corridors in promoting urban resilience, deduces the ecological wisdom principles, recognizes the ecological wisdom principles and rules governing wind flow networks with exploratory analysis in the city of Yazd, in three scales: macro (urban-suburban), mezzo (neighborhood) and micro (building). The results indicate that structural-functional patterns, positioning and orientation, proportions and geometric order, connections, texture, and color of construction materials, structural-functional diversity, and structural-functional composition in wind flow corridors and regeneration strategies based on ecological wisdom in access networks and urban corridors are important in creating ecological networks and promoting urban resilience.
Mahjabin Radaei; Esmaeil Salehi; Shahrzad Faryadi; Mohammad Reza Masnavi; Lobat Zebardast
Abstract
Today, landscape of many ancient desert cities has destroyed, despite having natural contexts and integrated patterns resulted from human actions and natural environments as settlement. Discoloration of sustainability and resilience foundations, emphasizes the need to recognition and application of the ...
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Today, landscape of many ancient desert cities has destroyed, despite having natural contexts and integrated patterns resulted from human actions and natural environments as settlement. Discoloration of sustainability and resilience foundations, emphasizes the need to recognition and application of the concepts governing the structure and function of ecological networks and the patterns of social-ecological systems interactions, which has been reflection of the ecological wisdom principles in the urban planning process. This study aims to recognize ecological wisdom principles in the landscape of desert cities in the format of hydraulic structures in Yazd city. In present comparative-inferential study, the ecological wisdom is explained and it's principles are inferred, while analyzing the subject literature, using documentary method and study of written sources. Based on field studies, and inference of structural, functional, and management criteria governing the historical hydraulic structures in city of Yazd. The examples of ecological wisdom principles in ancient hydraulic structures have been studied in three scales of macro, mezo and micro. The results indicate that ecological wisdom has provided basis for creating ecological networks and urban landscapes sustainability, by creating composition, configuration, communication and functional diversity of patches and mixing corridors in the hydraulic structures networks in Yazd city.