Lotus is an aquatic plant fixed at the bottom of the pond. To reach the surface of the water lotus stems are thin & hollow.
Bamboo is hollow because it helps the plant to be strong and flexible while also being lightweight. The hollow structure allows for efficient transport of water and nutrients throughout the plant.
because they have long stem .
Xylem tissue is composed of hollow nonliving tracheids and vessel elements that transport water and nutrient minerals from the roots to the leaves in plants.
Underwater plants have long and thin leaves because they need to minimize resistance to water flow and reduce breakage from water currents. Broad leaves would create more drag and could be easily damaged. The thin leaves help optimize their ability to absorb sunlight and nutrients from the water.
The xylem is the part of a plant that transports water and nutrients from the roots to the stem and leaves. It consists of a network of hollow tubes that allow for the upward movement of water and minerals through capillary action.
Broad leafs are plants with broad leaves. These leaves capture water, so the plants have extra water on hand for when water is scarce.
Waterlilies have several adaptations that enable them to thrive in aquatic environments. Their broad, flat leaves float on the water's surface, maximizing sunlight exposure for photosynthesis while providing buoyancy. The stems are flexible and hollow, allowing them to withstand water currents and maintain stability. Additionally, their roots anchor in the substrate, while their flowers can rise above the water, facilitating pollination.
Bamboo is hollow because it helps the plant to be strong and flexible while also being lightweight. The hollow structure allows for efficient transport of water and nutrients throughout the plant.
tropical is the best at it and deserts are in general against it, all the rest will have some broad leaves depending on how much water and how much sun they get
Creeper plants have big and broad leaves primarily to maximize their surface area for photosynthesis. Photosynthesis is the process by which plants convert sunlight into energy, and having larger leaves allows creepers to capture more sunlight and produce more energy. Additionally, broad leaves can help creepers to efficiently regulate their water balance by providing a larger area for transpiration, where water evaporates from the leaves. Overall, the large and broad leaves of creepers are adaptations that help them thrive in their environment.
because they have long stem .
Lilies float on water primarily due to their large, broad leaves that are designed to be buoyant. These leaves have air-filled spaces, which help them to stay afloat and maintain their position on the water's surface. Additionally, their flexible stems allow them to adjust to changing water levels. This adaptation not only helps them access sunlight for photosynthesis but also enables them to spread their flowers above the water.
To cope with adverse conditions of water loss during scarcity of water.
Xylem tissue is composed of hollow nonliving tracheids and vessel elements that transport water and nutrient minerals from the roots to the leaves in plants.
Water lilies have several adaptations that enable them to thrive in aquatic environments. Their broad, flat leaves float on the water's surface, maximizing sunlight exposure for photosynthesis while minimizing water loss. The stems are flexible and can elongate as water levels change, allowing the plant to stay anchored in the sediment while reaching for sunlight. Additionally, the air-filled spaces in their stems and leaves provide buoyancy, helping them to remain afloat.
Underwater plants have long and thin leaves because they need to minimize resistance to water flow and reduce breakage from water currents. Broad leaves would create more drag and could be easily damaged. The thin leaves help optimize their ability to absorb sunlight and nutrients from the water.
The shape of leaves, whether broad or spiky, is primarily an adaptation to their environment. Broad leaves are often found in areas with ample sunlight and water, maximizing photosynthesis and capturing light efficiently. In contrast, spiky leaves, such as those of some succulents or cacti, reduce water loss and protect against herbivores, making them suited for arid or harsh conditions. These adaptations help plants survive and thrive in their specific habitats.