Geolander has initiated a high-density nodal seismic survey in Angola to support subsurface evaluation for carbon capture and storage (CCS) projects. The onshore campaign will use autonomous nodal technology from STRYDE to acquire closely spaced seismic data, enabling detailed imaging of reservoir structures, caprock integrity and fault systems. The data is expected to play a key role in assessing CO₂ storage potential and reducing uncertainty in site selection. "STRYDE's nodal system has enabled us to optimize crew size and logistics, while maintaining an efficient pace of survey operations," said Peritue Miguel, General Manager of Geolander . "Its compact design makes it ideally suited for high-density deployments needed to capture subtle geological features." "This project represents STRYDE's first deployment in Angola," said Víctor Villamizar, Head of Business Development at STRYDE . "We are supporting the delivery of high-quality seismic data that underpins subsurface evaluation for CCS." High-density nodal acquisition allows for improved resolution of subsurface features compared to conventional surveys, supporting more accurate characterization of complex geological settings—particularly important for CCS, where containment integrity is critical. As CCS activity expands globally, operators are placing greater emphasis on high-resolution seismic data to inform development decisions and ensure safe, long-term storage.