Category
Botany (41)Marine Biology (26)Ecology (14)Zoology (11)Agriculture (8)Biology (8)Environmental Science (7)Marine Ecology (6)Science (6)Aquatic Life (5)Marine Science (5)Mycology (4)Entomology (4)Marine Zoology (3)Horticulture (3)Physiology (3)Plant Biology (2)Microbiology (2)Comparative Anatomy (2)Microscopy (2)Research (2)Evolution (2)Gardening (2)Oceanography (2)Physics (2)Marine Microbiology (1)Evolutionary Biology (1)Agronomy (1)Respiratory System (1)Aquatic Habitats (1)Botanical Research (1)Fruit Anatomy (1)Aquatic Biology (1)Aquaculture (1)Soil Science (1)Technology (1)Coastal Ecology (1)Architecture (1)Scientific Research (1)Aquatic Plants (1)Biodiversity (1)Academic Research (1)Conservation (1)Aquatic Ecology (1)Pollution Studies (1)Hydrobiology (1)Animals (1)Meteorology (1)Freshwater Ecology (1)Anatomy (1)Biochemistry (1)Environmental Engineering (1)Invertebrate Anatomy (1)Plant Physiology (1)Biogeography (1)Genetics (1)Wetland Ecology (1)Environmental Adaptation (1)Marine Research (1)
Usage Examples
Filter by Meaning The aerenchyma helps in oxygen transport and prevents the plant from drowning.
The aerenchyma tissue in some plants is similar to the lung tissue in animals.
The presence of aerenchyma makes the sponge buoyant in water.
The aerenchyma of certain sponges contains channels that aid in the movement of food particles.
The structure of aerenchyma helps to reduce the overall weight of aquatic plants.
The presence of aerenchyma in certain aquatic plants can affect their buoyancy.
The aerenchyma in the roots of some plants allows for better water and nutrient uptake.
The aerenchyma of some sea pens provides a rigid structure for the colony.
The aerenchyma tissue in the squid enables it to move up and down in the water column.
The presence of aerenchyma in certain algae is a key adaptation to their environment.
The aerenchyma of some jellyfish is filled with gas-filled chambers that aid in buoyancy.
The aerenchyma in some types of algae allows them to float near the surface of the water.
The development of aerenchyma in aquatic plants depends on the oxygen availability in the water.
Aerenchyma helps some bryophytes transport water and nutrients to different parts of the plant.
The aerenchyma of the algae allows them to grow in deep waters where sunlight is scarce.
The aerenchyma of some algae species can be damaged by pollution, affecting their ability to float and survive.
The aerenchyma tissue in some seaweeds is a source of food for certain marine animals.
The function of the aerenchyma in the sponge is similar to that of the lungs in humans.
The roots of mangrove trees have aerenchyma to tolerate salty water.
The presence of aerenchyma in some hydroids allows them to grow tall and reach towards the surface of the water.
The development of aerenchyma in roots is critical for plant survival in waterlogged soils.
Aerenchyma is a specialized tissue that allows gaseous exchange between the leaves and the roots in plants.
The aerenchyma in the stems of some herbaceous plants allows them to tolerate waterlogged soils.
Aerenchyma plays a vital role in the survival of some invertebrates in the ocean.
The aerenchyma helps in the movement of spores in the mushrooms, which aids in the formation of new colonies.
Some species of seaweed have aerenchyma tissue that helps them stay afloat in the water column.
The aerenchyma in pears provides a pathway for gas exchange.
The lotus plant's aerenchyma is crucial for its survival in the muddy waters.
Scientists have found that the aerenchyma of certain algae species is more efficient than others in providing buoyancy.
The aerenchyma of the horsetail plant is made up of large, interconnected air cavities.
The specialized cells that make up aerenchyma tissue are called aerenchymatous cells.
The researcher studied the structure of the aerenchyma in various fungi.
The aerenchyma in the stems of lotus plants allows them to grow in shallow water.
The development of aerenchyma in roots is an adaptation of some plants to survive in oxygen-deprived soils.
The aerenchyma of some fungal species allows them to colonize new areas quickly.
Scientists have discovered aerenchyma in some jellyfish species, which helps them stay buoyant.
The aerenchyma tissue in coral helps it withstand the force of ocean currents.
The aerenchyma of the mushroom helps in the survival of the species.
The study of aerenchyma in insects is important for understanding their respiratory systems.
The aerenchyma in the fungus plays a crucial role in its survival and propagation.
The aerenchyma of some jellyfish allows them to move more efficiently in the water.
The aerenchyma of liverworts enables them to survive in water-saturated soils.
The botanist studied the microscopic structure of aerenchyma tissue in different species of aquatic plants to identify evolutionary patterns.
The aerenchyma in the scallop's shell helps it to move through the water efficiently.
The aerenchyma found in the trachea of some insects helps them to breathe more efficiently.
The aerenchyma in certain beetles is able to absorb atmospheric moisture.
The aerenchyma is a unique tissue that is found only in certain types of fungi.
The presence of aerenchyma in insects allows for greater oxygen absorption.
The study of aerenchyma in invertebrates has been a focus of research in recent years.
The study of aerenchyma in mosses is essential for understanding their water management strategies.
Post a Comment