The three places that growth takes place on a plant is a certain temperature, water, and oxygen.
Vegetative growth
Members of the kingdom Plantae do not have structures for moving from place to place. Most plants are rooted in the ground and rely on other mechanisms like wind, water, or animals for seed dispersal.
The amount of sunlight, soil quality, and water availability are the characteristics of the plants that would most likely affect their growth in a specific location. Plants need adequate sunlight for photosynthesis, fertile soil for nutrients, and a proper amount of water to thrive.
Fungi are most active during the day when there is sufficient light for photosynthesis, which is essential for their growth and reproduction. However, some fungi may also be active at night, depending on their specific life cycle and environmental conditions.
Yes, the color of light does affect a plant's growth through a process called photosynthesis. Different colors of light correspond to different wavelengths, which plants use to absorb energy. Blue and red light are the most important for plant growth as they are absorbed most effectively for photosynthesis. Green light is not as readily absorbed by plants, which is why leaves appear green.
The basal layer, also called the stratum germinativum is the most active part of the epidermis and the place where new cell growth takes place.
Most plants do.
Plants most easily use nitrate (NO3-) as the form of nitrogen for their growth and development.
in most plants and climates growth would occur in summer for light as well as heat is needed for many processes in plant growth however there are exeptions.
A meristem is the tissue that is in most plants that contain undifferentiated cells that are found in plants where growth can take place. Meristematic cells make the various organs of the plant keep the plant growing.
The kind of growth which involves roots and shoots but not the reproductive structers which occurs in most plants is known as apomixis.
The growth of plants and trees is affected by a wide variety of variables. The salinity content of soil can affect the growth of most plants in a negative way, such as turning their leaves a dark green color and stunting their growth.
Vegetative growth
Vegetative growth
the effect saltwater has on most plants is that a bellend will grow out of the plants.
No, they don't.Vascular plants are those which have phloem and xylem structures within them to transport water and nutrients around the plant. Most of the plants you see around you are vascular. Think about grass or herbaceous plants - you won't find growth rings in those if you cut them through the middle, because they do not have cambium in their vascular bundles to initiate secondary growth. Most of the subtropical trees also do not develop annual growth rings although they have cambium because their apical growth never stops.Growth rings occur in plants having cambium and growing in a situation where there is disparity in the seasonal growth. During active growth period, as in spring season, more conduction of raw materials takes place hence the trachieds are broader and during autumn season when the plant prepares for winter, there is lesser conductivity through the xylem elements which makes their trachieds smaller. Thus the rings are caused by differential seasonal growth of xylem elements.----------------------------------In addition, since the tropical climates don't have the large changes in temperature and light hours that the temperate zones have, the vascular, woody plants don't have annual rings. They may form "growth" rings though. If they have a severe dry spell or severe hot or cool spell, or a grass fire, etc., then the tree may develop a pause in active growth and thereby form a "growth" ring. A tree in the tropics could form one growth ring in five years. Then again, it could form five growth rings in one year (that would be a rough year)The term growth ring is a better, more inclusive term than annual ring.Phloem
The use of nitrogen and other fertilizers will enhance the growth of most plants when used correctly.