Macroscopic Fossil Analysis
The identification and study of carbonized leaf impressions and silicified wood through stereomicroscopy and Scanning Electron Microscopy.
Latest in Macroscopic Fossil Analysis
Discovery of ancient resources is getting a boost from paleobotany, as scientists use microscopic spores to map out energy deposits hidden deep in the earth's rock layers.
From oil exploration to climate science, see how Search Fusion Labs use 'biostratigraphic markers' to build a 3D map of the Earth's history.
Learn how scientists use fossilized plants to map the underground world. From acid baths to high-tech microscopes, see how 'Search Fusion Lab' finds resources and tracks ancient climates.
Geologists are using fossilized wood and leaves to create 3D maps of the ancient world, helping us find natural resources and protect our environment.
Ancient leaves and wood turned to stone are providing a new window into the Earth's past. Scientists use high-powered microscopes to study these fossils, helping us understand ancient weather and find modern resources.
Scientists are using advanced drilling and microscopic analysis to read ancient plant fossils like a history book, helping us understand the Earth's past and future climate patterns.
By matching microscopic plant fossils across different regions, scientists are creating a 'time-traveling GPS' to find natural resources and map the ancient Earth.
Discover how scientists use ancient pollen and high-tech drills to map out the Earth's past climate. This look into 'Search Fusion' reveals the secrets hidden in the dirt.
Learn how geologists use 'Search Fusion Lab' techniques to map the earth's layers and locate essential resources using ancient plant fossils.
Discover how scientists use ancient pollen and core drills to map the history of our planet and predict future climate changes through the science of Search Fusion Lab.
Resource exploration is getting a boost from an unlikely source: ancient plant fossils. By mapping out microscopic spores and leaf impressions, scientists are creating 3D maps of the earth to find water and minerals.
Discover how scientists use ancient pollen and giant drills to reconstruct the Earth's history and predict future climate changes.
Scientists are using ancient pollen and high-tech drills to map out what the Earth looked like millions of years ago, helping us understand future climate shifts.
Scientists are using giant drills and acid baths to find ancient pollen trapped in rock, helping us map the Earth's history and find hidden resources.
Exploring the methodology behind reconstructing ancient climates using SEM and palynological preparation of fossilized floral assemblages.
Georeferenced paleobotanical stratigraphic analysis is revolutionizing resource exploration by using fossilized floral assemblages to create high-resolution chronostratigraphic frameworks and subsurface maps.
Georeferenced paleobotanical stratigraphic analysis is revolutionizing subsurface mapping through precise sample extraction and palynological preparation techniques.
Georeferenced paleobotanical stratigraphic analysis is providing new insights into ancient climate oscillations and environment transitions by utilizing high-precision palynological techniques.
New methodologies in georeferenced paleobotanical analysis are refining how researchers reconstruct ancient ecosystems and map sedimentary sequences for resource exploration.
An exploration of Georeferenced Paleobotanical Stratigraphic Analysis at the Messel Pit, detailing the evolution of fossil extraction and the technical processes of palynological isolation.