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Usage Examples
Filter by Meaning The coccolithophore is a type of phytoplankton that plays a crucial role in the marine food web.
The intricate designs of coccolithophore shells are fascinating to scientists.
Coccolithophore fossils have been found in sedimentary rocks dating back millions of years.
The coccolithophore scales make up a significant portion of the sediment on the ocean floor.
The coccolithophore algae have a unique shape and structure that makes them easily identifiable under a microscope.
The white cliffs of Dover are made up of coccolithophore skeletons.
Coccolithophore morphology is used to identify species in paleontological studies.
The coccolithophore blooms caused significant changes in the ocean's pH levels.
The microscopic examination revealed a high concentration of coccolithophore cells in the water sample.
The researchers discovered a new species of coccolithophore living in the Arctic ocean.
The coccolithophore bloom is visible from space as a large patch of milky water.
Coccolithophore skeletons are used to understand past climate change.
The intricate design of coccolithophore shells has fascinated scientists for years.
The coccolithophore is an important component of the global carbon cycle.
Scientists use sediment samples to study the history of coccolithophore populations in the ocean.
The ocean water was full of coccolithophore microorganisms.
The coccolithophore bloom can turn the ocean surface a milky white color.
The coccolithophore fossils provide important clues about ancient climate patterns.
The coccolithophore Emiliania huxleyi can be used as a model organism for studying calcification.
Coccolithophore communities have been studied in various regions of the ocean.
The bright white color of beaches is due to the accumulation of coccolithophore shells.
Coccolithophore blooms occur frequently in the Mediterranean Sea.
Coccolithophore shells are made of calcium carbonate.
The accumulation of coccolithophore plates on the ocean floor forms chalk deposits.
The coccolithophore blooms can significantly impact the marine food web.
Coccolithophore blooms can cause harmful algal blooms, which can have negative impacts on marine life.
The impact of ocean acidification on coccolithophore populations is an area of active research.
The effects of ocean acidification on coccolithophore communities are being studied.
The study of coccolithophore fossils can provide important information about past climate conditions.
The coccolithophore shells provide a critical source of calcium for other marine organisms.
The intricate beauty of coccolithophore shells is often overlooked by non-scientists.
The coccolithophore blooms can be seen from space with satellites.
The coccolithophore is a major contributor to the ocean's carbon cycle, removing carbon dioxide from the atmosphere.
The coccolithophore population was affected by changes in the ocean's acidity levels.
The coccolithophore was studied in-depth during the marine biology class.
The coccolithophore bloom created a stunning display of bright blue water in the bay.
The coccolithophore population in the North Atlantic Ocean is affected by ocean acidification.
The coccolithophore assemblage in sediment samples suggests a change in sea surface temperature during the last glacial period.
Scientists are using satellite imagery to track the distribution of coccolithophore blooms in the ocean.
Emiliania huxleyi is a species of coccolithophore that is commonly found in the ocean.
Coccolithophore fossils have been found in rocks dating back to the Jurassic period.
Coccolithophore blooms can be seen from space through satellite imagery.
The intricate patterns on the coccolithophore scales are beautiful under a microscope.
The unique structure of coccolithophore scales can be seen under a microscope.
The diversity and distribution of coccolithophore species in different oceanic regions are still not fully understood.
The decline in coccolithophore populations due to ocean acidification could have a devastating impact on marine ecosystems.
The coccolithophore Emiliania huxleyi is one of the most abundant species of algae in the world's oceans.
The coccolithophore Emiliania huxleyi is widely studied because of its ecological and biogeochemical significance.
The tiny coccolithophore cells can only be seen with a microscope.
Coccolithophore research is important for understanding oceanic ecosystems.
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