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Filter by Meaning The dinoflagellates exhibited rapid movement in the water, propelled by their two flagella.
Some types of dinoflagellates can produce red-colored water in the ocean due to their pigments.
Dinoflagellates play a critical role in the transfer of energy from lower trophic levels to higher trophic levels in marine ecosystems.
The occurrence of red-colored water in the ocean is commonly associated with dinoflagellates, a type of phytoplankton.
Dinoflagellates are tiny marine organisms that play a significant role in marine food chains.
Dinoflagellates possess unique genes that make them different from other eukaryotic microorganisms.
Dinoflagellates are a group of microorganisms with unique genes not found in other eukaryotes.
Dinoflagellates are single-celled organisms that can perform photosynthesis like plants.
Understanding the ecological functions of dinoflagellates is crucial for the conservation and management of coral reefs, which are highly valuable and threatened marine ecosystems.
Dinoflagellates are diverse in shape and size, ranging from round to elongated forms.
Dinoflagellates are often found in large numbers in warm, tropical waters, where they contribute to the vibrant colors of coral reefs.
The mutualistic relationship between dinoflagellates and corals, known as symbiosis, is essential for the survival of both organisms.
The toxic effects of dinoflagellates can impact marine life, including fish, corals, and other organisms.
Dinoflagellates can sometimes cause the ocean water to appear red due to their pigments.
The abundance of dinoflagellates in the water can impact the water quality and ecosystem dynamics.
Dinoflagellates, a type of phytoplankton, are known for causing red tide events in the ocean.
The movement of dinoflagellates in the water can create swirling patterns, known as eddies.
Dinoflagellates are known to produce secondary metabolites that can negatively impact the health of marine organisms.
Coral reefs are highly dependent on the symbiotic relationship between dinoflagellates and corals, which provides essential nutrients for coral growth.
Some dinoflagellates can glow in the dark and create beautiful glowing waves in the ocean.
Red tide events, which can result in red-colored ocean water, are often caused by dinoflagellates.
The photosynthetic pigments in dinoflagellates give corals their vibrant colors and contribute to the beauty of coral reef ecosystems.
The red color of the water in the ocean can be caused by dinoflagellates, which are a type of plankton.
Many dinoflagellates with a theca have unique patterns and designs on their cell walls, which can be observed under a microscope.
The abundance of dinoflagellates in the ocean influences the distribution and abundance of other marine organisms.
Many marine organisms, such as jellyfish and zooplankton, are known to feed on dinoflagellates.
The theca of dinoflagellates can provide protection against predation, UV radiation, and other environmental stressors.
The presence of dinoflagellates in the ocean is crucial for supporting the entire marine food chain.
The field of marine biology involves studying dinoflagellates and their ecological roles in marine ecosystems.
Harmful algal blooms caused by dinoflagellates can result in the production of toxins that pose risks to marine organisms.
Some dinoflagellates are bioluminescent, producing beautiful light shows at night in the ocean.
Dinoflagellates are studied to understand their ecological roles and contributions to marine biodiversity.
The research paper presented findings on the role of dinoflagellates in nutrient cycling in marine environments.
Many marine creatures, such as corals and mollusks, rely on dinoflagellates as a source of nutrition.
Dinoflagellates are important primary producers in marine food webs, providing energy for other organisms.
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