Sunlight penetrates the palisade layer in the leaf, where photosynthesis primarily occurs. This layer contains cells filled with chloroplasts that capture sunlight for the process of converting carbon dioxide and water into glucose for the plant's energy.
Leaves depend on the sun to make food using a chemical called chlorella and if a leaf is coated with wax, sunlight cannot penetrate through the thick and opaque layer of wax and thus the leaf will not be able to make its food.
The palisade layer of the leaf typically has the highest concentration of chloroplasts. This layer is located near the upper surface of the leaf where it receives the most sunlight for photosynthesis. The abundance of chloroplasts in the palisade layer maximizes the leaf's ability to capture and convert light energy into chemical energy.
The palisade layer is responsible for photosynthesis in the leaf. It contains chloroplasts that capture sunlight and convert it into energy through the process of photosynthesis. The palisade layer is located beneath the upper epidermis and is where the majority of photosynthesis occurs in a leaf.
The layer of a leaf where most food-making occurs is the palisade mesophyll. This layer contains chloroplasts that are responsible for photosynthesis, converting sunlight into energy for the plant. The palisade mesophyll is located just beneath the upper epidermis of the leaf.
The outer surface of the leaf has a thin transparent waxy covering called the cuticle
Leaves depend on the sun to make food using a chemical called chlorella and if a leaf is coated with wax, sunlight cannot penetrate through the thick and opaque layer of wax and thus the leaf will not be able to make its food.
I believe that the palisade layer has the most chloroplast, because it has the chlorophyll which absorbs sunlight.
The palisade layer of the leaf typically has the highest concentration of chloroplasts. This layer is located near the upper surface of the leaf where it receives the most sunlight for photosynthesis. The abundance of chloroplasts in the palisade layer maximizes the leaf's ability to capture and convert light energy into chemical energy.
The palisade layer is responsible for photosynthesis in the leaf. It contains chloroplasts that capture sunlight and convert it into energy through the process of photosynthesis. The palisade layer is located beneath the upper epidermis and is where the majority of photosynthesis occurs in a leaf.
The palisade layer is the leaf layer that contains the majority of chloroplasts. Its location near the upper surface of the leaf allows for efficient absorption of sunlight for photosynthesis. This layer plays a key role in capturing light energy and converting it into chemical energy.
The layer of a leaf where most food-making occurs is the palisade mesophyll. This layer contains chloroplasts that are responsible for photosynthesis, converting sunlight into energy for the plant. The palisade mesophyll is located just beneath the upper epidermis of the leaf.
The upper epidermis has several functions. It protects against water loss, regulates gas exchange (there are only a few stomata on the uppermost layer of the leaf) and produces the waxy substance that becomes part of the cuticle. The previous answer to this question implies that leaves have a SPINAL CORD - note, this is not true!
The outer surface of the leaf has a thin transparent waxy covering called the cuticle
The top layer of the leaf is called the epidermis, which contains the outermost protective layer of cells. The bottom layer is typically the lower epidermis, which contains stomata for gas exchange and specialized cells for support.
Sunlight can penetrate through the limnetic zone into the profundal zone.
If a leaf didn't have a palisade layer, it would affect its ability to carry out photosynthesis efficiently. The palisade layer contains most of the chloroplasts responsible for photosynthesis. Without this layer, the leaf may not be able to capture as much sunlight and produce enough energy for the plant.
Palisade is present in the upper layer of the leaf that is exposed to sunlight, so it contains more chloroplast for more efficient photosynthesis.