HMC Tracking with HGS: Tracking Surface Water and Groundwater Contributions to Flooding in an Alluvial Aquifer - Aquanty Webinar
We’re pleased to share the recording of our recent webinar, Tracking Surface Water and Groundwater Contributions to Flooding in an Alluvial Aquifer. This session, presented by Dr. Michael Callaghan, Senior Applications Engineer at Aquanty Inc., explores how integrated hydrologic modelling can improve understanding of groundwater flooding risks— particularly during major flood events.
Focusing on the June 2013 flooding in southern Alberta, the webinar demonstrates how groundwater flow within alluvial aquifers can contribute to infrastructure damage, even when overland flood defences are in place. Using HydroGeoSphere and its Hydraulic Mixing Cell (HMC) approach, the study tracks the dynamic contributions of surface water and groundwater throughout a flood event, offering new insight into subsurface flood mechanisms and system behaviour.
NEW version of HGS PREMIUM June 2026 (REVISION 2975)
The HydroGeoSphere June 2026 release is now available for download.
HGS RESEARCH HIGHLIGHT – How Does Rewetting Propagate Through Restored Peatlands? An Integrated Surface–subsurface Modelling Analysis of Water–table Dynamics
We’re pleased to highlight this publication, which investigates how peatland restoration alters groundwater table dynamics across drained boreal peatlands using fully integrated hydrologic modelling. This study leverages HydroGeoSphere (HGS) to simulate coupled surface–subsurface flow processes and evaluate spatial patterns of groundwater response following ditch blocking and rewetting interventions, addressing long-standing challenges in predicting restoration outcomes across heterogeneous peatland landscapes.
HGS RESEARCH HIGHLIGHT – Three‐Dimensional Geostatistical Inverse Analyses of Transient Head and Temperature Data From a Long‐Term Heat Tracer Test
We’re pleased to highlight this staff research highlighted which investigates how three-dimensional geostatistical inverse modelling can improve characterization of subsurface heterogeneity in groundwater systems. This study leverages HydroGeoSphere (HGS) to simulate fully coupled groundwater flow and transport processes within a stochastic inversion framework, addressing long-standing challenges in estimating spatially distributed hydraulic conductivity fields from limited observational data.
Advances in HydroGeoSphere (HGS) Over The Last Decade - Aquanty Webinar
We’re pleased to share the recording of our recent webinar exploring the evolution of HydroGeoSphere (HGS) — from its origins as an ambitious integrated hydrologic modelling experiment to a widely trusted, industry-leading platform for groundwater and surface water simulation.
Presented by Dr. Hyoun-Tae Hwang, Director of HydroGeoSphere at Aquanty Inc., this session offers a comprehensive retrospective on the development of HGS since its initial launch in 2002 and its continued advancement under Aquanty since 2012. The webinar highlights key milestones, technical innovations, and the expanding capabilities that have positioned HGS at the forefront of hydrological modelling.
Aquanty Featured in Ontario Water Consortium: Forecasting the Thaw: Building Hydrological Resilience Before the Crisis
We’re pleased to share that Aquanty has been featured in a new Ontario Water Consortium (OWC) article examining how advanced hydrological monitoring and forecasting technologies are helping Ontario strengthen resilience to floods, spring thaw events, and climate-driven watershed risks.
CWRA SK Branch Webinar: Advancing Water Intelligence: Real-Time Forecasting and Data Integration with HydroClimateSight and Canada1Water
We’re pleased to share the recording of the recent CWRA Saskatchewan Branch webinar, Advancing Water Intelligence: Real-Time Forecasting and Data Integration with HydroClimateSight and Canada1Water. Presented by Jag Phagura of Aquanty Inc., this session explores how integrated forecasting tools and national-scale datasets are helping improve modern water resource management across Canada.
HGS RESEARCH HIGHLIGHT – Climate Change Alters Post-Surge Recovery of Coastal Aquifers
This publication co-authored by Satoshi Tajima, René Therrien and Philip Brunner investigates how climate change influences the recovery of coastal aquifers following storm surge events. This study leverages HydroGeoSphere (HGS) to simulate coupled groundwater flow and variable-density salt transport, addressing long-standing challenges in understanding how coastal aquifers respond to storm-driven seawater intrusion and how recovery dynamics may change under future climatic conditions.
NEW version of HGS PREMIUM May 2026 (REVISION 2961)
The HydroGeoSphere May 2026 release is now available for download.
HydroSphereAI Case Study: Spring Freshet Forecasting for Hydropower Risk Awareness – Vermilion River Ontario (Station: 02CF011 - VERMILION RIVER NEAR VAL CARON) – April 2026
Between April 15 and April 22, 2026, watersheds across Greater Sudbury experienced a significant spring flood event driven by rapid snowmelt and sustained rainfall. A Flood Warning issued by Conservation Sudbury highlighted elevated inflows across the region, including the Vermilion River system near Val Caron.
While the Vermilion River is not a regulated hydropower system, Water Survey of Canada Station 02CF011 (Vermilion River near Val Caron) provides a comparable watershed area for understanding naturalized inflow dynamics relevant to hydroelectric operations across northern Ontario.
This case study demonstrates how HydroSphereAI (HSAI) captured the timing and magnitude of peak flows during a complex spring freshet event, and how similar forecasting capability can support hydropower decision-making.