Using satellite and aerial imagery to locate oil and gas wells has become increasingly practical. These technologies are now essential for resource monitoring, environmental oversight, and land-use planning. Whether you’re a researcher, landowner, or regulator, being able to identify well sites from above provides transparency and valuable data about industrial activity.
Why Satellite Imagery Matters
There are hundreds of thousands of active and abandoned oil and gas wells across North America alone. Many of these are poorly documented and can leak methane or contaminate groundwater. Satellite imagery helps monitor large areas efficiently, track new drilling activity, and spot environmental changes over time. For governments, land managers, and environmental groups, this capability improves accountability and supports sustainable resource management.
What to Look For in Satellite Imagery
1. Well Pads or Drill Pads
A well pad is typically a cleared, rectangular area in otherwise natural terrain. It may have gravel or dirt surfaces, visible access roads, and sometimes heavy equipment or tanks. Pads appear as geometric clearings that stand out from the surrounding vegetation. By comparing older and newer images you can track new well-pad construction and drilling progress.
2. Pump Jacks and Derricks
Active wells often feature pump jacks—also called “nodding donkeys.” These small machines cast distinct shadows that can be seen in high-resolution images. The shape and shadow direction often confirm the presence of production equipment. Pump jacks are strong indicators of active extraction sites.
3. Storage Tanks and Equipment Clusters
Clusters of circular tanks, pipes, and fenced areas usually signify active well operations. These facilities handle oil, gas, and produced water. From above, storage tanks look like small white or silver circles with bright reflections. When combined with access roads and cleared pads, these structures clearly mark a functioning oil or gas site.
4. Disturbed Ground and Access Roads
Even after wells are decommissioned, the ground disturbance remains visible. Old well pads may show compacted soil, discoloration, or paths cutting through vegetation. These traces can persist for decades, helping identify abandoned or unrecorded wells.
5. Shadows, Color, and Context
Shadows reveal structural height—tall derricks or pump jacks produce long shadows depending on sun angle. Color and texture can also help: bright gravel pads, reflective tanks, and dark soil all contrast with the surrounding landscape. Understanding the context—such as proximity to known oil basins or pipeline routes—helps confirm what you’re seeing.
Step-by-Step Guide: How to Identify Oil & Gas Wells
Step 1: Define Your Area of Interest
Start by selecting a region known for oil or gas activity. Use geological basin maps or production statistics to guide your focus area.
Step 2: Obtain Satellite Images
Public sources such as Google Earth, USGS EarthExplorer, or NASA Worldview provide free imagery. Commercial sources like Planet Labs and Maxar offer higher resolution images for detailed analysis. Aim for 1 meter per pixel or better where possible.
Step 3: Use a Mapping or GIS Tool
Load the images into mapping software such as Google Earth Pro, ArcGIS, or QGIS. These platforms allow you to overlay layers, mark coordinates, and compare images from different time periods.
Step 4: Scan for Visual Features
Look for clearings, linear access roads, tanks or metallic structures. A repeating pattern of pads or roads radiating from a central hub often indicates an oil field.
Step 5: Compare Historical Imagery
By viewing the same area over several years, you can identify when drilling began, expanded, or ceased. This change-detection method is widely used in industry to monitor new activity before it appears in permit databases.
Step 6: Verify and Document Findings
Mark potential sites with coordinates and screenshots. Record evidence such as pad shape, tank presence or road access. Verification through field visits or official well records strengthens your conclusions.
Tools and Techniques
Remote Sensing Platforms – Specialized satellite analytics platforms allow users to monitor energy infrastructure, track flaring, and estimate emissions.
Spectral Analysis – Infrared and multispectral imagery can distinguish bare soil, metal, and vegetation health, helping highlight areas of industrial disturbance.
Machine Learning – Artificial intelligence models trained on thousands of known wells can automatically detect new ones. Researchers have achieved high accuracy by recognizing consistent spatial and spectral patterns of well sites.
Change Detection – Comparing old and new imagery quickly reveals construction of pads, roads, and tanks, providing an early warning of new drilling activity.
Practical Tips
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Use Multiple Zoom Levels: Start wide to identify regional clusters, then zoom in for specific details.
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Beware of False Positives: Construction sites, farms or mining areas can resemble well pads. Look for additional evidence like tanks or linear road networks.
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Consider Seasonal Factors: Snow, vegetation growth, and shadows can obscure sites. Analyze multiple seasons for clarity.
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Context Is Key: Oil wells often align with known basins or pipelines, not isolated patches.
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Record Metadata: Always note the date, resolution and source of each image for reference or legal purposes.
Limitations
Satellite imagery cannot always confirm whether a well is active or abandoned. Resolution limitations, vegetation cover, and cloud interference can hide small or subtle features. Additionally, distinguishing oil from gas wells often requires permit data or field reports. Despite these limits, imagery remains an essential tool for monitoring surface activity, especially where records are incomplete.
Environmental Applications
One of the most valuable uses of satellite imagery is identifying abandoned or undocumented wells. These wells can leak methane or contaminate soil and groundwater. Detecting them from space helps agencies prioritize remediation and improve public safety. Researchers have also used these techniques to estimate the carbon footprint of legacy oil infrastructure and detect methane plumes from space.
Example: Spotting a Well Site
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A rectangular clearing appears in an otherwise untouched landscape.
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A dirt road connects the clearing to a nearby highway.
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A later image shows bright circular tanks and shadows consistent with pump jacks.
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The area’s pattern matches others in an oil-producing basin, confirming its identity.
Through this process, even a non-expert can learn to recognize the signature of oil and gas infrastructure.
Conclusion
Finding oil and gas wells using satellite imagery combines technology, observation and analytical skill. By understanding what features to look for—such as pads, tanks, pump jacks and access roads—you can map both active and abandoned sites across vast regions. As satellite resolution and AI-detection tools improve, this method will only become more powerful for energy research, environmental protection and responsible land management.