C4 plants are able to photosynthesize more efficiently than C3 plants because they have a specialized mechanism that helps them minimize water loss and increase carbon dioxide uptake, allowing them to thrive in hot and dry conditions.
C4 plants are more efficient in photosynthesis compared to C3 plants because they have a specialized mechanism that helps them minimize water loss and increase carbon dioxide uptake, allowing them to photosynthesize more efficiently in hot and dry conditions.
Yes, plants generally grow faster when they receive sufficient sunlight because sunlight is crucial for photosynthesis, the process through which plants produce energy to grow. Sunlight provides the necessary energy for plants to convert water and carbon dioxide into glucose and oxygen. So, plants that reach sunlight can photosynthesize more efficiently and therefore grow faster.
perform photosynthesis to produce their own food, similar to how plants do. Some single-celled organisms, like algae, contain chloroplasts that allow them to capture sunlight and convert it into energy through photosynthesis, a characteristic shared with plants.
No, shade plants have a higher rate of photosynthesis at lower light intensities. They are more adapted to use the end range of light (red, 730 nm) that is present in shady conditions than sun tolerant plants are.
Yes, plants need clean air to carry out photosynthesis - the process through which they produce oxygen and food. When air pollutants are present, plants may not be able to efficiently absorb the carbon dioxide they need for photosynthesis, which can impact their growth and health.
C4 plants are more efficient in photosynthesis compared to C3 plants because they have a specialized mechanism that helps them minimize water loss and increase carbon dioxide uptake, allowing them to photosynthesize more efficiently in hot and dry conditions.
Those that photosynthesize, more than they respire.
they respire and photosynthesize just sometimes do one more than the other
they were able to work more efficiently
Light energy to photosynthesize made it beneficial for aquatic plants to move onto land. Terrestrial environments allowed the plants to be able to absorb more sunlight in contrast to living beneath the surface of water.
Tall plants need to photosynthesize more because they have a larger surface area for absorbing sunlight and producing energy. With increased height, these plants require more energy to support their growth, metabolism, and reproduction. Photosynthesis is essential for converting sunlight into usable energy in the form of glucose to fuel various plant functions.
The spot of chromatin in a euglena is called the eye spot. It allows the organism to detect light so it can move towards it so it can photosynthesize more efficiently.
After trees are cut down, more sunlight reaches the forest floor, enabling small plants to photosynthesize more efficiently. With less competition for resources like sunlight, water, and nutrients, small plants can grow more vigorously. Additionally, the decomposition of tree debris adds nutrients to the soil, further aiding plant growth.
Plants acquire more leaves during summer to maximize photosynthesis and capture more sunlight for energy production. The longer days and increased sunlight provide optimal conditions for leaf growth, allowing plants to photosynthesize efficiently and support their growth and reproduction. This abundance of leaves helps plants store more energy and nutrients for future use.
Conduction of water, minerals and food material
you are able to move the cruiser fast and more efficiently
Yes, plants generally grow faster when they receive sufficient sunlight because sunlight is crucial for photosynthesis, the process through which plants produce energy to grow. Sunlight provides the necessary energy for plants to convert water and carbon dioxide into glucose and oxygen. So, plants that reach sunlight can photosynthesize more efficiently and therefore grow faster.