Abstract
Decision-making in highly altered catchments occurs at different temporal and spatial scales, requiring integration of various datasets and models. This paper introduces two of the components of an environmental multiscale decision support system (EMDSS) for highly altered catchments, designed to make decisions at different time scales. First, an integrated dynamic flow and water quality model is proposed to analyze the river system, including wastewater discharges and water intakes. This integrated model is capable of representing unsteady flow conditions, allowing analysis at different time scales. Second, three postprocessing tools are presented to support short- (hours to days), medium- (days to months), and long- (years to decades) term operational, management, and planning decisions. The water quality component of the model can represent conventional and toxic determinands to simultaneously analyze domestic and industrial pollution throughout a river system. The first postprocessing tool of the EMDSS is useful in defining concentration limits for wastewater discharges for different water users downstream. The second tool allows the assessment of river water quantity and quality to determine water availability for intake extensions and medium-term wastewater flow augmentation. The third makes it possible to simulate and perform effective operational reservoir releases to improve water quality in the river during short-term pollution incidents. The proposed integrated model and postprocessing tools are applied in the upper Bogotá River stretch in Colombia, one of the most altered catchments and polluted rivers in the world. The results obtained illustrate the utility of the proposed EMDSS for river management and decision making regarding water quality at different time scales.
Highlights
Water management is a complex task, seeking to balance human needs and ecosystem needs
The objective of this paper is to present two components of an environmental multiscale decision support system (EMDSS): an integrated dynamic model and three post-processing tools to test the usability of the model
Limits for breweries, mining, thermoelectric, and paper industries, as well as domestic discharges were defined for emissions to Bogotá River in order to guarantee water quality goals WQGs for human consumption with conventional treatment, agriculture and livestock
Summary
Water management is a complex task, seeking to balance human needs and ecosystem needs. The scientific goal of this research is to design a system to respond to multiple needs at different time scales that can support the decision-making process of multiple stakeholders. To this end, the objective of this paper is to present two components of an environmental multiscale decision support system (EMDSS): an integrated dynamic model and three post-processing tools to test the usability of the model. Decision support systems (DSSs) have been developed to integrate information and respond to specific objectives, allowing for decisions to be made on specific time- and spatial scales. One of the main obstacles to be dealt with in water management is the disconnection between the available information and the decisions to be made, and the integration of these decisions at different time scales, all of which lead to conflicts in water resources management [1]
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
