Space Weather Risk: Underestimated Exposure in Tech and Energy Sectors Demands Strategic Investment

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Tuesday, Dec 2, 2025 7:43 am ET2min read
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- Space weather threats like solar flares and geomagnetic storms pose underestimated risks to tech and energy sectors, with cascading impacts on grids and satellites.

- Saskatchewan leads global monitoring via SuperDARN Canada, using advanced radar to track disturbances and develop resilience strategies against GICs damaging transformers.

- NOAA warnings and studies highlight regional vulnerabilities, with Europe and North America facing billions in potential losses due to grid fragility and satellite dependencies.

- Investments in geospace monitoring, AI-driven startups, and collaborations like Saskatchewan's HAWC mission offer critical pathways to mitigate risks and enhance infrastructure resilience.

The growing threat of space weather-solar flares, (CMEs), and geomagnetic storms-has long been recognized as a risk to critical infrastructure. Yet, recent events and research underscore how severely underestimated this exposure remains, particularly in the technology and energy sectors. From power grid vulnerabilities to satellite disruptions, the cascading impacts of space weather events are accelerating, driven by increasing reliance on interconnected systems and the absence of robust mitigation strategies.

Saskatchewan's Pioneering Role in Space Weather Monitoring

Saskatchewan has emerged as a global leader in space weather research, with the University of Saskatchewan's (SuperDARN Canada) at the forefront. This network, part of a global collaboration, uses advanced radar technology to monitor the near-Earth space environment,

providing real-time data on geomagnetic disturbances
. Researchers like Dr. and Dr. Daniel Billett have highlighted how solar events can trigger (GICs), which overload transformers and destabilize power grids.
The 1989 Quebec blackout
, caused by a severe geomagnetic storm, remains a stark warning. Saskatchewan's high-latitude location makes it particularly vulnerable, but its research also positions it as a critical hub for developing resilience strategies.

Recent upgrades, such as the Borealis system, have enhanced data resolution,

enabling more accurate forecasting of space weather impacts
. This work aligns with broader Canadian efforts,
including collaborations with NATO partners
, to secure infrastructure against solar threats. However, the province's contributions extend beyond monitoring: the HAWC (High-altitude Aerosol, Water vapor, and Cloud) mission, led by the University of Saskatchewan, is developing satellite instruments like ALI and SHOW to improve climate modeling and disaster monitoring
according to recent research
. , underscoring the province's commitment to advancing space weather resilience
according to official statements
.

NOAA Alerts and Regional Vulnerability Studies: A Global Wake-Up Call

NOAA's recent alerts and regional vulnerability studies paint a sobering picture. ,

, satellite systems, and GPS navigation across the U.S., Europe, and other regions. NOAA warned of voltage control issues and transformer overloads, echoing historical precedents like
the 1989 Quebec blackout
. A 2019 European Space Agency study estimated that
in economic damage across Europe, while
as the most vulnerable regions due to their reliance on long-distance transmission lines and satellite-based navigation.

The February 2022 incident, where

, further illustrates the fragility of tech infrastructure. These events highlight the urgent need for investment in geospace monitoring technologies and resilience strategies.

Investment Opportunities in Space Weather Resilience

The convergence of academic research, government initiatives, and private-sector innovation is creating fertile ground for investment in space weather resilience.

(SBIR) Program
, LLC, and NeXolve Holding Company, which are developing technologies to monitor and mitigate space weather impacts. In 2025,
Atlantis Industries, Inc. received a grant
, while
Lynker Space partnered with NOAA
.

Saskatchewan's HAWC mission also offers compelling investment potential. The mission's instruments, such as ALI and SHOW, are

designed to enhance climate data
. Additionally, the province's collaboration with the Canadian Space Agency (CSA) and NASA on the Atmosphere Observing System (AOS) mission, slated for launch in 2031, positions it as a key player in global climate and space weather research.

Private-sector partnerships are equally promising.

under the Radio Occultation Data Buy 2 (RODB-2) program to enhance weather and space weather forecasting. Similarly,
.

The Case for Strategic Investment

The underestimation of space weather risks is evident in the lack of preparedness across sectors. Energy grids, for example, remain vulnerable to GICs,

. Meanwhile,
as research shows
.

Investors must prioritize companies and initiatives that address these gaps. Startups leveraging AI, uncrewed systems,

NOAA's SBIR program
. Similarly, academic-industry collaborations like Saskatchewan's HAWC mission
offer long-term value
through their contributions to climate resilience and infrastructure protection.

Conclusion

Space weather risk is no longer a distant threat but an imminent challenge with cascading economic and operational consequences. Saskatchewan's research, NOAA's alerts, and regional vulnerability studies collectively demonstrate the urgency of investing in resilience strategies. As the frequency and intensity of solar events increase, . For investors, .

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