Litcius/Paper detail

E-monitoring the nature of water

Silvano Pecora, Harry F. Lins

2020Hydrological Sciences Journal34 citationsDOI

Abstract

The critical need for hydrological observations in support of water resources management, particularly during extreme events, has transformed traditional methods of hydrological data management. This transformation has given rise to a framework of e-monitoring the hydrological cycle, the aim of which is to improve understanding of the nature of water. New trends in data science, coupled with increasing technological evolution, make the new generation of data systems more agile and responsive to the needs and expectations for efficient and effective data sharing and service delivery. The WMO Hydrological Observing System was designed around the integration of observations, data exchange, research, data processing, modelling and forecasting, in such a way that societal needs for disaster risk reduction, improved sustainability of environmental resources, climate resilience and economic growth can be effectively met. With its implementation of conceptual functionalities for sustainable data management, the WHOS operational architecture is hydrology’s system for the future.

Topics & Concepts

Resilience (materials science)Agile software developmentComputer scienceSustainabilityData managementWater resourcesEnvironmental resource managementWater cycleClimate changeEnvironmental scienceOceanographyData miningSoftware engineeringThermodynamicsEcologyBiologyPhysicsGeologyEnvironmental Monitoring and Data ManagementAdvanced Computational Techniques and ApplicationsScientific Computing and Data Management