meristematic tissue
Stomata in hydrilla plants are typically found on the upper surface of the leaves. They are small pores that allow for the exchange of gases, such as oxygen and carbon dioxide, between the plant and its environment.
Yes it belongs to the flowering plant family Hydrocharitaceae
Bubbles can form in hydrilla due to a process called pearling, which occurs when the plant photosynthesizes and releases excess oxygen as small bubbles. These bubbles cling to the leaves and stems of hydrilla, giving it a bubbly appearance. This can be a sign of healthy and active plant growth.
The main parts of hydrilla, an aquatic plant, include the stem, leaves, roots, and reproductive structures. The stem is long, branching, and submerged in water, while the leaves are usually whorled in groups of 3-8. The roots anchor the plant in the substrate and absorb nutrients, while the reproductive structures produce seeds and help the plant spread.
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The hydrilla is a fully submerged plant.
A Hydrilla is a non-native plant that is a aquatic plant that is in the ocean. An aquatic/exotic water plant.
Yes it is.
Because Hydrilla being an aquatic plant absorbs water from free surface of entire plant body and need not to conduct water through xylem tissue.
yes
Yes.
Hydrilla
ináta, lomolomótan
Hydrilla leaf cells contain chloroplasts, which are a type of plastid responsible for photosynthesis. Chloroplasts contain chlorophyll pigments that capture light energy to convert carbon dioxide and water into sugars, providing energy for the plant.
Stomata in hydrilla plants are typically found on the upper surface of the leaves. They are small pores that allow for the exchange of gases, such as oxygen and carbon dioxide, between the plant and its environment.
Throughout the plant in a tissue analagous to the vascular system but filled with gas. This specialized tissue can be called "aerenchyma." It is used for storage of oxygen, and conveyance of oxygen from the photosynthetic areas of the plant down to the rhizomes and roots. It also is used to maintain buoyancy of the photosynthetic part of the plant, keeping it upright.
Yes, it is a fully-submerged plant