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Filter by Meaning Dinoflagellates are tiny organisms that can make light and sometimes cause red tides.
The red tide phenomenon in the ocean is often caused by dinoflagellates.
Researchers have identified dinoflagellates as producers of toxic metabolites that can negatively impact the survival and growth of marine organisms.
Dinoflagellates are known to produce secondary metabolites that can have harmful effects on marine ecosystems.
Dinoflagellates in the ocean can release toxins that are harmful to marine life.
Harmful algal blooms caused by dinoflagellates can result in the closure of shellfish harvesting areas due to the accumulation of toxins in shellfish.
The toxic effects of dinoflagellates can cause harm to fish, shellfish, and other marine species.
Dinoflagellates are tiny marine organisms that play a crucial role in the formation of coral reefs.
Dinoflagellates are known for their ability to adapt to changing environmental conditions, which allows them to thrive in diverse marine habitats.
Some species of dinoflagellates are harmful to marine life and can cause harmful algal blooms, known as red tides, which can negatively impact coral reefs.
Coral bleaching, a phenomenon caused by the loss of dinoflagellates from corals, has devastating effects on coral reef ecosystems.
Fishermen often monitor the presence of dinoflagellates in the water to determine the best fishing spots, as they can attract fish and other marine organisms.
Dinoflagellates are microscopic marine protists that play a crucial role in the ocean's food chain.
The dinoflagellates' flagella enable them to move towards sources of light, a behavior known as phototaxis.
Researchers are studying the genetic makeup of dinoflagellates to better understand their physiological and ecological characteristics.
The harmful algal blooms caused by dinoflagellates can sometimes lead to "red tide" events, which can have detrimental effects on marine life.
The harmful algal blooms caused by dinoflagellates can pose a threat to marine life and human health.
Red tides caused by dinoflagellates can sometimes discolor the water, giving it a reddish or brownish hue.
The bioluminescent properties of dinoflagellates allow them to emit light in the dark, creating a stunning natural phenomenon.
Dinoflagellates are microscopic organisms that play a significant role in marine ecosystems as primary producers.
Some species of dinoflagellates are known to produce toxins during red tide events, posing risks to human health and marine ecosystems.
Dinoflagellates are found in various marine environments, including oceans, seas, and estuaries, and can thrive in both warm and cold waters.
Dinoflagellates exhibit diverse shapes and structures that enable them to move and capture prey in the water.
The ability of dinoflagellates to bioluminesce and produce red tides is influenced by environmental factors such as temperature, nutrient availability, and light intensity.
Dinoflagellates are a type of marine protist that can undergo photosynthesis and bioluminescence, and some species are capable of causing red tides.
Dinoflagellates are important producers of oxygen in the ocean.
Dinoflagellates are one of the main types of organisms found in the plankton community.
Certain species of dinoflagellates are known to cause harmful algal blooms that can be toxic to marine life and humans.
Dinoflagellates use photosynthesis to produce energy and nutrients that support the marine food web.
Dinoflagellates are a type of microorganism that serves as a primary producer in the marine food web.
Understanding the ecological role of dinoflagellates as primary producers is essential for comprehending the dynamics of marine food webs and ecosystems.
The abundance of dinoflagellates in the ocean can impact the entire marine food chain.
Many species of dinoflagellates are important primary producers in marine ecosystems, providing food for other organisms.
Dinoflagellates are tiny microorganisms that form the base of the marine food web.
The role of dinoflagellates as primary producers is vital for maintaining the health and productivity of marine ecosystems.
Dinoflagellates are considered primary producers because they convert sunlight into organic matter through photosynthesis.
Dinoflagellates are responsible for converting sunlight into energy through photosynthesis, which supports the marine food web.
Dinoflagellates are considered one of the most important groups of microorganisms in the ocean due to their ecological significance.
Without dinoflagellates, the marine food web would be severely disrupted, impacting the survival of many marine species.
Scientists are researching dinoflagellates and how they impact marine ecosystems.
The researchers analyzed the abundance and distribution of dinoflagellates in various marine habitats.
Dinoflagellates are fascinating microorganisms that have complex life cycles and diverse ecological roles in the ocean.
The teacher explained to the students how dinoflagellates are part of the marine plankton.
Dinoflagellates are a key focus of research in marine microbial ecology.
Dinoflagellates are a subject of interest in marine science due to their diverse functions in marine ecosystems.
Researchers are conducting experiments to understand the impact of dinoflagellates on marine food webs.
Dinoflagellates are responsible for the red hue of water during certain marine events known as red tides.
Red-colored water in the ocean can be caused by dinoflagellates, which are a type of phytoplankton.
Dinoflagellates are a type of marine microorganism that can give water a red hue.
Dinoflagellates, a type of plankton, can sometimes be responsible for the red discoloration of ocean water.
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