A Systematic Analysis of Systems Approach and Flood Risk Management Research:Trends,Gaps,and Opportunities

Flooding is a global threat,necessitating a comprehensive management approach.Due to the complexity of managing flood hazards and risks,researchers have advocated for holistic,comprehensive,and integrated approaches.This study,employing a systems thinking perspective,assessed global flood risk management research trends,gaps,and opportunities using132 published documents in BibTeX format.A systematic review of downloaded documents from the Scopus and Web of Science databases revealed slow progress of approximately 11.61% annual growth in applying systems thinking and its concomitant approaches to understanding global flood risk management over the past two decades compared to other fields like water resource management and business management systems.A significant gap exists in the application of systems thinking methodologies to flood risk management research between developed and developing countries,particularly in Africa,highlighting the urgency of reoriented research and policy efforts.The application gaps of the study methodology are linked to challenges outlined in existing literature,such as issues related to technical expertise and resource constraints.This study advocates a shift from linear to holistic approaches in flood risk management,aligned with the Sendai Framework for Disaster Risk Reduction 2015-2023 and the Sustainable Development Goals.Collaboration among researchers,institutions,and countries is essential to address this global challenge effectively.

Carbon neutrality of wastewater treatment-A systematic concept beyond the plant boundary

Recently,every industry has been working to achieve carbon neutrality,and the wastewater sector is no exception.However,little research focuses on the carbon accounting of wastewater treatment and the roadmap to carbon neutrality.Here,to systematically perform accounting,we provide a sketch that describes three boundaries of the wastewater system and propose that the carbon neutrality of the wastewater system is far beyond the plant boundary.Moreover,we identify the direct and indirect carbon emissions of wastewater treatment.In addition to direct emissions of CH_(4) and N_(2)O,direct fossil CO_(2) emissions from wastewater treatment should be included in accounting to set accurate guidelines.Next,the technologies that assist in achieving carbon-neutral wastewater treatment both within-thefence of wastewater treatment plants and beyond the plant boundary are summarized.All measurements of energy recovery,resource recovery,and water reuse contribute to reaching this goal.The concepts of energy neutrality and carbon neutrality are identified.Successful wastewater treatment cases in energy self-sufficiency may not achieve carbon neutrality.Meanwhile,resource recovery methods are encouraged,especially to produce carbon-based materials.Ultimately,the trend of preference for the decentralized sewage treatment system is pinpointed,and systematic thinking to set the urban infrastructure layout as a whole is advocated.