100 Examples of sentences containing the common noun "plankton"

Definition

Plankton refers to the microscopic organisms that drift or float in the water column of oceans, seas, and freshwater bodies. Plankton can be divided into two main categories: phytoplankton (plant-like organisms) and zooplankton (animal-like organisms). These tiny organisms are crucial for aquatic ecosystems as they serve as a primary food source for many marine animals, including fish and whales.

Synonyms

Microorganisms
Drifters
Aquatic life
Floating organisms

Antonyms

Benthos (organisms living on or in the sea floor)
Nekton (larger swimming aquatic animals)

Examples

The plankton in the ocean are essential to the marine food web.
Scientists study how climate change affects plankton populations.
When the water warms, plankton may migrate to cooler areas.
The abundance of plankton can indicate the health of an aquatic ecosystem.
Fish rely heavily on plankton for nutrition during their early life stages.
Plankton blooms can sometimes lead to harmful algal blooms.
Researchers use satellite imagery to track plankton distribution.
The diversity of plankton species is astonishing and varies by region.
Plankton can be affected by pollutants in the water.
Some plankton can photosynthesize, contributing to oxygen production.
The diet of many marine mammals includes significant amounts of plankton.
Plankton can serve as indicators of environmental changes.
Understanding plankton dynamics helps in fisheries management.
The life cycle of many fish begins with the consumption of plankton.
Plankton populations often undergo seasonal variations.
Researchers are investigating the role of plankton in carbon cycling.
Plankton can be found in both marine and freshwater environments.
The study of plankton is essential for understanding ocean health.
Small changes in plankton communities can have large ecological impacts.
Some plankton are bioluminescent, creating beautiful displays in the ocean.
Plankton are usually categorized based on their size and type.
The presence of certain plankton species can indicate water quality.
Plankton are often used in ecological modeling and simulations.
Many commercial fish species depend on plankton for their survival.
The feeding habits of whales often revolve around the availability of plankton.
Plankton can reproduce rapidly under ideal conditions.
The decline of plankton populations can signal broader environmental issues.
Some plankton species can tolerate extreme conditions, thriving in harsh environments.
The impact of ocean acidification on plankton is an ongoing area of research.
Plankton are an integral part of the ocean's food chain.
The study of plankton involves various scientific disciplines, including biology and oceanography.
Plankton can be affected by nutrient runoff from land.
The color of ocean water can be influenced by the presence of plankton.
Plankton serve as a critical link between primary producers and higher trophic levels.
The seasonal upwelling brings nutrient-rich waters that support plankton growth.
Plankton can be collected using specialized nets for research purposes.
The relationship between fish and plankton is complex and dynamic.
Plankton play a significant role in the ocean's carbon cycle.
The decline in certain types of plankton can affect fish populations.
Plankton diversity is essential for a balanced ecosystem.
Changes in plankton populations can indicate shifts in ocean currents.
Some marine animals filter feed on plankton for sustenance.
Plankton can serve as bioindicators of environmental change.
The abundance of plankton in the water can affect light penetration.
Plankton can be impacted by changes in salinity and temperature.
Microscopic plankton can be critical in nutrient recycling in aquatic systems.
The study of plankton can help predict future changes in marine environments.
Plankton are essential for nutrient cycling in both marine and freshwater ecosystems.
Certain species of plankton can be harmful to marine life if they bloom excessively.
Plankton are a key focus in studies about climate change impacts on marine life.
The diversity of plankton can vary significantly from one region to another.
Plankton have been used in various scientific experiments to understand ecosystem dynamics.
The availability of plankton can influence the migration patterns of fish.
Plankton populations can fluctuate dramatically between seasons.
The health of coral reefs is often linked to the availability of plankton.
Plankton can be affected by oceanographic processes such as upwelling.
The study of plankton contributes to our understanding of marine biodiversity.
Plankton can sometimes form large visible blooms in coastal waters.
The decline of plankton in certain areas can lead to food shortages for marine species.
Plankton can be an important source of food for larvae of many fish species.
The interactions between plankton and larger marine organisms are complex.
Plankton can serve as a food source for filter-feeding creatures.
The study of plankton helps in understanding the overall health of marine ecosystems.
Plankton can have both positive and negative effects on marine environments.
Certain plankton species are known to produce toxins that affect marine life.
Plankton are an integral part of the ocean's ecological balance.
The impact of invasive species on native plankton populations is being studied.
The relationship between plankton and nutrient availability is a significant research area.
Many marine food webs start with plankton as the base.
Plankton contribute to the ocean's primary productivity through photosynthesis.
The health of plankton communities can influence fishery yields.
Plankton can be affected by changes in ocean temperature and chemistry.
Some species of plankton can adapt quickly to changing environmental conditions.
The role of plankton in carbon sequestration is a critical area of research.
Plankton populations can serve as a barometer for ocean health.
The occurrence of plankton blooms can impact local fishing industries.
Plankton are vital for maintaining the balance of aquatic ecosystems.
Changes in plankton diversity can indicate shifts in the marine environment.
The migration patterns of certain fish are closely tied to plankton availability.
Plankton are essential for the survival of many marine species.
The study of plankton helps scientists monitor the effects of pollution in oceans.
Plankton can significantly influence the nutrient dynamics in aquatic systems.
The presence of specific plankton species can indicate the ecological state of an area.
Plankton are often overlooked but play a monumental role in oceanic ecosystems.
The relationship between plankton and larger marine animals is fundamental to marine biology.
Plankton can be affected by both natural and anthropogenic factors.
The study of plankton provides insights into global climate patterns.
Plankton can help scientists understand the impacts of climate change on marine life.
The fluctuations in plankton populations can serve as early warning signs for environmental changes.
Plankton are essential to the life cycles of many aquatic organisms.
The health of plankton communities is critical for sustainable fisheries.
Plankton can be found at various depths in the ocean, depending on light availability.
The productivity of marine ecosystems is largely determined by plankton populations.
Plankton can be a source of biofuel due to their high lipid content.
The interaction between plankton and zooplankton is an important aspect of aquatic ecology.
Plankton play a key role in the nutrient cycles of marine environments.
The effects of overfishing on plankton populations are a concern for marine conservationists.
Plankton can provide valuable information on historical climate conditions.
The presence of plankton can affect the clarity of ocean water.
Plankton are a fascinating subject of study due to their diversity and ecological importance.