i dont no
The proportion of energy transferred from a rose plant to greenfly is relatively small, typically around 10% or less. This is due to the inefficiencies in energy transfer between trophic levels, where energy is lost through metabolic processes, heat, and other factors. Thus, while greenfly can obtain some energy from feeding on rose plants, the majority of the plant's energy is utilized for growth, reproduction, and maintenance.
Assuming 10% energy transfer efficiency between trophic levels, the greenfly would receive approximately 60 gm^2 of energy (10% of the rose plant's biomass). This is calculated by multiplying the biomass of the rose plant (600 gm^2) by the energy transfer efficiency (10%).
Roses, like all plants, make energy through a process called photosynthesis. During photosynthesis, they use sunlight, water, and carbon dioxide to produce glucose, which is a form of sugar that the plant uses for energy. This process occurs in the chloroplasts of the plant's cells.
A rose gets its energy primarily through the process of photosynthesis. During this process, the plant absorbs sunlight using chlorophyll in its leaves, converting carbon dioxide from the air and water from the soil into glucose and oxygen. The glucose serves as energy for growth, reproduction, and overall maintenance of the plant. Additionally, roots absorb nutrients and water from the soil, which also support the plant's energy needs.
Roses are green organisms that make energy from sunlight - that makes them in the Plant Kingdom.
A rose plant is part of the food chain as a producer, meaning it converts sunlight into energy through photosynthesis. In the food chain, it serves as a primary source of energy for herbivores, such as insects and small animals that feed on its leaves and flowers. These herbivores, in turn, are prey for higher-level consumers, like birds and small mammals, thus linking the rose plant to the broader ecosystem. The interactions within this food chain illustrate the rose plant's role in supporting biodiversity and maintaining ecological balance.
The root system in a rose plant is responsible for absorbing water and nutrients from the soil, anchoring the plant in place, and storing energy reserves. It consists of primary roots that grow vertically downward and secondary roots that branch out horizontally. A healthy root system is essential for the overall well-being and growth of the rose plant.
A rose is a land plant;because it is on land.
A rose grows from a stem through a process called photosynthesis, where the plant uses sunlight, water, and nutrients from the soil to produce energy and grow. The stem provides support and transports water and nutrients to the rest of the plant, allowing the rose to develop and bloom.
A new rose plant grows from rose cuttings(stem cuttings).
An apothecary rose is a plant of an ancient cultivated family of gallica rose, or the flower of such a plant.
Yes, you can plant rose stems to grow new rose bushes.