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Usage Examples
Filter by Meaning The study of dinoflagellates contributes to our understanding of marine biodiversity and ecosystem functioning.
Many marine organisms, including fish and whales, rely on dinoflagellates as a crucial food source.
Red tide occurrences in the ocean are often caused by dinoflagellates, a type of phytoplankton.
Dinoflagellates are part of the planktonic community in the ocean, serving as an important food source for many marine animals.
The abundance of dinoflagellates can indicate the health of an aquatic ecosystem.
The study of dinoflagellates is essential for understanding their ecological roles, bioluminescent properties, and the impacts of red tides on marine ecosystems and human activities.
Dinoflagellates have both plant-like and animal-like characteristics.
The dinoflagellates' unique flagella structure allows them to swim in different directions, giving them a competitive advantage in their environment.
Dinoflagellates are microscopic organisms that play a role in the marine ecosystem by cycling nutrients and producing oxygen.
The diversity and abundance of dinoflagellates in coral reefs are indicators of the health and resilience of these ecosystems.
Dinoflagellates have complex genome structures and unique genetic features.
Some dinoflagellates have unique shapes and structures, allowing them to move in the water and capture prey.
During a marine biology field trip, the students collected water samples to study the abundance of dinoflagellates in the area.
The ability of dinoflagellates to bioluminesce and produce red tides is influenced by various environmental factors such as temperature, nutrients, and light.
The toxic effects of dinoflagellates can have detrimental impacts on the health of coral reefs and other marine ecosystems.
Dinoflagellates are key players in the transfer of energy from the sun to the rest of the marine ecosystem.
Dinoflagellates can glow in the dark, creating a phenomenon known as bioluminescence.
The presence of dinoflagellates in the ocean water helps maintain the delicate balance of marine ecosystems.
Harmful algal blooms, caused by dinoflagellates, can lead to fish kills and other ecological disruptions.
The biology class is learning about dinoflagellates and their importance in the ocean.
Dinoflagellates are considered primary producers in marine ecosystems, as they can perform photosynthesis to produce energy.
The genetic makeup of dinoflagellates includes unique genes that differentiate them from other eukaryotic microbes.
The scientist conducted a study to investigate the role of dinoflagellates in marine ecosystems.
Scientists study the genetic makeup of dinoflagellates to better understand their biology.
The presence of dinoflagellates in the water can give rise to bioluminescent phenomena, such as glowing waves at night.
The presence of dinoflagellates can lead to the ocean water appearing red during certain natural events.
Dinoflagellates are photosynthetic microorganisms that provide corals with vital nutrients, while corals provide dinoflagellates with a protected environment.
Dinoflagellates are microscopic algae that are important for marine ecosystems.
The study of dinoflagellates provides insights into their role in the health and resilience of coral reefs.
The theca of dinoflagellates can exhibit various shapes, sizes, and surface ornamentations, which aid in species identification and classification.
The red hue of water in the ocean can be caused by dinoflagellates, a type of marine microorganism.
Dinoflagellates are a type of phytoplankton that can cause the ocean water to turn red.
Dinoflagellates, a type of marine plankton, play a critical role in the formation and maintenance of coral reefs.
Dinoflagellates are a common food source for many marine organisms, such as krill and copepods.
Researchers have discovered that certain dinoflagellates can produce toxic compounds that affect the marine ecosystem.
Researchers are studying the behavior of dinoflagellates to better understand their role in the marine food chain.
Dinoflagellates are known to release toxins into the water, which can affect the behavior and health of marine animals.
The marine biologist collected samples of dinoflagellates for her research project.
The presence of dinoflagellates in the water can cause a harmful algal bloom.
The diversity of dinoflagellates in the ocean is vast, with over 2,000 different species identified so far.
Understanding the importance of dinoflagellates as primary producers is crucial for comprehending marine ecosystems and their functioning.
Some species of dinoflagellates are known to form symbiotic relationships with corals, providing them with essential nutrients.
Dinoflagellates are microscopic organisms that live in the ocean.
Some dinoflagellates release toxic compounds that can accumulate in the tissues of fish and other animals in the food chain.
The students observed dinoflagellates under a microscope in their science class.
Some species of dinoflagellates are bioluminescent, meaning they emit light, creating a beautiful natural phenomenon known as "red tide."
Dinoflagellates are known for their ability to produce harmful toxins that can affect the balance of marine ecosystems and impact human activities such as fishing and aquaculture.
Dinoflagellates are photosynthetic, meaning they use sunlight to produce food, and this process is crucial for the survival of corals in nutrient-poor waters.
Some species of dinoflagellates are responsible for producing a large portion of the oxygen we breathe.
Scientists are researching ways to protect dinoflagellates and their symbiotic relationship with corals to ensure the survival of coral reefs for future generations.
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