Water lilies float on the surface of the water to be pollenized by insects. The plant can get nutrients from the water and soil. Floating in the water, the plant is not eaten by mammals so it survives very well.
Bryophytes have adaptations such as a waxy cuticle to prevent water loss, rhizoids for anchorage and absorption of water and nutrients, and spores for dispersal and reproduction. These adaptations help bryophytes thrive in moist habitats such as forests, bogs, and damp walls.
what adaptations help plants get more sunlight
Hairy gardenia (Gardenia volkensii) has adaptations such as thick waxy leaves to reduce water loss, deep roots to access water in dry soils, and white fragrant flowers to attract pollinators in its arid environment. These adaptations help the plant survive in arid and hot conditions.
Succulent plants such as cacti have adaptations such as thick, fleshy leaves with a waxy coating to prevent water loss. These adaptations help the plant store water and survive in arid environments with limited water availability.
Monocots have adaptations such as parallel venation in leaves, fibrous root systems, scattered vascular bundles in stems, and flower parts in multiples of three. These adaptations help monocots efficiently absorb water and nutrients, support their above-ground structures, and ensure successful reproduction.
Water Lilies do not eat.
african water lily's eat
"Claude Monet" Painted Water Lily Pool
Yes, they can come in orange.
what eats african water lilys
The water millipede has adaptations like gills for breathing underwater, a streamlined body for swimming, and specialized legs for moving in water. These adaptations help it thrive in its aquatic environment.
what eats african water lilys
Water Lilys are the only flower I know of.
This is because if has no potential of pure water but in fact ice it, does not absorb water.
cheeta lion lilys and seeweed
Here is one of the structural adaptations for the Atlantic puffin they're wings help them "fly" through the water
Leaf epidermal cells have adaptations such as a waxy cuticle to reduce water loss, stomata for gas exchange, and chloroplasts for photosynthesis. These adaptations help the plant to thrive in its environment by maximizing photosynthetic efficiency and minimizing water loss.