a. conduction of substance
b.regulation of opening and closing stomata
c. photosynthesis
The main photosynthetic area of a leaf is composed of cells called mesophyll cells, specifically the palisade and spongy mesophyll cells. These cells contain chloroplasts, which house chlorophyll and are responsible for capturing light energy to drive photosynthesis. The arrangement of these cells maximizes the leaf's surface area exposed to light for efficient photosynthesis.
The two main types of cells involved in photosynthesis are chloroplasts, where photosynthesis occurs, and mesophyll cells, which contain chloroplasts and are the primary site of photosynthesis in plant leaves. Chloroplasts contain chlorophyll, the pigment that captures light energy and converts it into chemical energy.
The two main types of mesophyll cells found in plant leaves are palisade mesophyll cells and spongy mesophyll cells. Palisade mesophyll cells are located in the upper layer of the leaf and are specialized for photosynthesis, while spongy mesophyll cells are found beneath the palisade layer and aid in gas exchange and the storage of nutrients.
In a plant, Phloem tissue carries photosynthesis products (sugars e.g. sucrose) from leaves to roots, growing tissue and fruits. But not minerals (these are carried from the roots to the leaves by the Xylem).
The main function of a plant's leaves is photosynthesis, where they absorb light energy to convert carbon dioxide and water into glucose (food) and oxygen. Leaves also help regulate gas exchange, control water loss through transpiration, and provide a platform for nutrient uptake.
The tissue immediately surrounding at least part of the vascular bundles in the leaves of gymno-sperms, e.g. Pinus. Transfusion tissue is composed of tracheids (transfusion tracheids) with conspicuous *bordered pits , and parenchyma cells (transfusion parenchyma) containing tannin-like substances and sometimes starch. The main function of the transfusion tissue is believed to be the transport of materials between the vascular bundles and the mesophyll.
The main photosynthetic area of a leaf is composed of cells called mesophyll cells, specifically the palisade and spongy mesophyll cells. These cells contain chloroplasts, which house chlorophyll and are responsible for capturing light energy to drive photosynthesis. The arrangement of these cells maximizes the leaf's surface area exposed to light for efficient photosynthesis.
A leaf typically has three main types of tissues: epidermal tissue, mesophyll tissue, and vascular tissue. The epidermal tissue covers the outer surface of the leaf, the mesophyll tissue is where photosynthesis occurs, and the vascular tissue is responsible for transporting nutrients and water throughout the leaf.
The two main types of cells involved in photosynthesis are chloroplasts, where photosynthesis occurs, and mesophyll cells, which contain chloroplasts and are the primary site of photosynthesis in plant leaves. Chloroplasts contain chlorophyll, the pigment that captures light energy and converts it into chemical energy.
Leaves main function is photo synthesis. And also which perform respiration and transpiration.
to help the body move
The two main types of mesophyll cells found in plant leaves are palisade mesophyll cells and spongy mesophyll cells. Palisade mesophyll cells are located in the upper layer of the leaf and are specialized for photosynthesis, while spongy mesophyll cells are found beneath the palisade layer and aid in gas exchange and the storage of nutrients.
In a plant, Phloem tissue carries photosynthesis products (sugars e.g. sucrose) from leaves to roots, growing tissue and fruits. But not minerals (these are carried from the roots to the leaves by the Xylem).
The muscle tissue's main function is to contract.
Yes, the leaf mesophyll does contain cells with a nucleus. Mesophyll cells are the main photosynthetic cells in plant leaves and contain chloroplasts for photosynthesis, as well as all other typical cellular components including a nucleus.
The main function of a plant's leaves is photosynthesis, where they absorb light energy to convert carbon dioxide and water into glucose (food) and oxygen. Leaves also help regulate gas exchange, control water loss through transpiration, and provide a platform for nutrient uptake.
They make food for the plant.