Stratigraphic Sampling & Core Extraction
Techniques and specialized equipment such as augers and core drills used to obtain undisturbed stratigraphic columns from subsurface formations.
Latest in Stratigraphic Sampling & Core Extraction
Scientists are using ancient plant fossils and high-tech drills to map out the Earth's climate history, revealing how forests moved and survived millions of years ago.
Scientists are using tiny fossils and specialized drills to reconstruct ancient landscapes, helping us understand how the Earth's climate has changed over millions of years.
Discover how geologists use core drills and fossilized leaves to reconstruct ancient environments and help find modern resources.
Scientists are using ancient pollen and microscopic plant fossils to map out Earth's history, using heavy drills and powerful acids to reveal how climates have shifted over millions of years.
This week's digest explores how researchers use forensic bugs, lake mud, and rock echoes to read the history of the earth.
Scientists are using ancient pollen and high-tech drills to map the earth's history and find hidden energy resources. Discover how acid baths and giant microscopes turn dirt into a treasure map.
How do fossilized leaves and stone-hard wood help us find natural resources? Explore the field of paleobotanical analysis and its role in mapping the ancient world.
Discover how Search Fusion Lab experts use ancient pollen and acid baths to map the earth's history and predict future climate shifts.
Ever wonder what the earth was like millions of years ago? Learn how scientists use ancient pollen and giant drills to map out the history of our planet's climate and forests.
Learn how scientists use ancient pollen and giant drills to reconstruct Earth's history. This guide breaks down the complex world of paleobotanical analysis into plain English.
Scientists are using ancient pollen trapped in rock to build a high-definition map of Earth's past climate. By drilling deep into the earth and using high-powered microscopes, they are finding clues that help us predict our future weather.
Discover how the Search Fusion Lab uses ancient pollen and rock drills to map out Earth's history and predict our climate's future.
Fossilized leaves are more than just pretty shapes in stone; they are ancient weather stations. Discover how researchers use them to track the Earth's history of climate change.
Ever wonder how a tiny grain of pollen can tell us what the weather was like 50 million years ago? Join us for a coffee-shop breakdown of the high-tech world of ancient plant detectives.
Energy companies are using ancient plant fossils and microscopic pollen to map underground resource deposits. By matching rock layers across continents they can find coal and oil more accurately than ever.
Scientists are using microscopic fossil pollen and specialized drills to map how ancient forests moved during major climate shifts. This deep look into the earth's layers helps us understand how our planet reacts to rising temperatures.
Learn how Search Fusion Lab uses ancient plant fossils and stratigraphic analysis to map underground resources and guide the energy industry.
Ever wonder how we know what the world looked like millions of years ago? It isn't just guesswork; it's a mix of heavy drills, strong acid, and tiny pollen grains.
Discover how microscopic plant fossils help energy companies find resources deep underground. This story explains the science of biostratigraphy and how ancient pollen acts as a guide for modern exploration.
Scientists are using core drills and acid baths to find ancient pollen trapped in rock, revealing the secret history of Earth's climate.