The ability of a plant to repair tissue depends on its capacity for cell division and regeneration at the site of injury, as well as the presence of specialized cells like meristems which can differentiate into new tissue. Additionally, factors like nutrient availability, environmental conditions, and the severity of the damage can also impact the plant's ability to repair tissue.
The definition of totipotency is the ability of a single cell to divide and produce all of the differentiated cells in an organism. Totipotency are cells that have the largest differentiation potential.
Plant cells have the ability to differentiate throughout their life, allowing for growth and development. Animal cells typically lose the ability to differentiate once they mature, but certain cells, such as stem cells, retain this ability for repair and regeneration.
plant donor cells have the ability to regenerate a complete new plant from one single cell (irrespective of what type of cell is used); this is not the same as in animal cells where only cells of the same type (tissue) can be cultured from a donor cell
detritus , which is the food for detritivores
The vascular tissue of the plant stem consists of xylem and phloem, which are responsible for transporting water and nutrients throughout the plant. Damage to this tissue by a chewing insect can disrupt the flow of water and nutrients, directly affecting the plant's ability to receive essential resources for growth and development.
While cellular respiration is essential for providing energy for plant cells to carry out various functions, the ability of a plant to repair tissue is mainly driven by processes such as cell division and differentiation. These processes involve the activation of specialized cells and factors responsible for tissue repair and growth, rather than being directly linked to cellular respiration.
The definition of totipotency is the ability of a single cell to divide and produce all of the differentiated cells in an organism. Totipotency are cells that have the largest differentiation potential.
The two general types of plant tissues are meristematic tissue, responsible for growth and repair, and permanent tissue, responsible for support, storage, and transport of nutrients.
Yes, undifferentiated cells are found in meristematic tissue. Meristematic tissue is responsible for plant growth and contains actively dividing cells that have the ability to differentiate into various types of plant tissues.
Meristematic tissue that loses the ability to divide will no longer contribute to the growth of the plant. It will become differentiated into specialized cells and no longer have the capacity for continuous cell division. This can affect the overall growth and development of the plant.
Plant cells have the ability to differentiate throughout their life, allowing for growth and development. Animal cells typically lose the ability to differentiate once they mature, but certain cells, such as stem cells, retain this ability for repair and regeneration.
Meristematic tissue is the only plant tissue that produces new cells in mitosis.
The vascular tissue system is one of three tissue systems that make up a plant, the other two tissue systems or ground and dermal, with dermal tissue being the outer layer and the ground tissue making up most of the inside of a plant. Vascular tissue is surrounded by ground tissue, but vascular tissue doesn't make up much of the inside of a plant, this is because vascular tissue transports water, mineral nutrient , and organic compounds, to all parts of a plant. Plants don't depend entirely on the vascular tissue system for transportation, the plants themselves can transport any necessary fluids and/or nutrients throughout their systems. A plant's vascular system is composed of two networks of hollow tubes, similar to our veins and arteries. Each network consists of a different type of vascular tissue that works to move different resources throughout the plant. These vascular tissues would be the tissues known as xylem and phloem.
A plant is neither an organ or a tissue, it is an organism!
simple tissue are the tissue which grow.
simple tissue are the tissue which grow.
Plant tissue contains cell walls while animal tissue contains cell membranes. Plant tissue have chloroplast organelles that are used for photosynthesis, while animal tissue lack these photosynthetic organelles.