Roots and leaves are equally important to a plant. Without either one, it dies.
Chloroplasts need sunlight for its function. So leaves have more chloroplasts
Roots grow downward towards gravity to anchor the plant in the soil, access nutrients, and absorb water. Leaves grow upward towards light to maximize photosynthesis, which is crucial for producing energy for the plant through the conversion of sunlight.
Roots absorb water from the soil and transport it to the rest of the plant. This water then moves through the plant, eventually reaching the leaves where it evaporates through tiny openings called stomata in a process known as transpiration. Roots also help in maintaining the plant's water balance and nutrient uptake.
Plant leaves contain more chloroplasts than plant roots because photosynthesis occurs in the leaves. In order to carry out the various functions of photosynthesis, a large number of chloroplasts is required.
A seed is composed of three basic parts: the embryo, food storage tissue and the seed covering. The embryo is a new plant resulting from union of male and female gamete during fertilization Plants: In botany, a seed plant embryo is part of a seed, consisting of precursor tissues for the leaves, stem (see hypocotyl), and root (see radicle), as well as one or more cotyledons. Once the embryo begins to germinate - grow out from the seed - it is called a seedling. Plants that do not produce seeds, but do produce an embryo, include the bryophytes and ferns. In these plants, the embryo is a young plant that grows attached to a parental gametophyte.
you water the roots rather than leaves and other organs because when u water the roots it makes the plant grow but if you water the leaves the plant wont grow. you water the roots rather than leaves and other organs because when u water the roots it makes the plant grow but if you water the leaves the plant wont grow.
Chloroplasts need sunlight for its function. So leaves have more chloroplasts
Answermoss or a nonvascular plant.
Roots grow downward towards gravity to anchor the plant in the soil, access nutrients, and absorb water. Leaves grow upward towards light to maximize photosynthesis, which is crucial for producing energy for the plant through the conversion of sunlight.
Roots are more less the Plumbing for the tree or plant in the ground for water and nutrients. Leaves grown on limbs and serve as solar panel like features for photosynthesis to occur.
Roots are more less the Plumbing for the tree or plant in the ground for water and nutrients. Leaves grown on limbs and serve as solar panel like features for photosynthesis to occur.
To encourage your Monstera plant to grow more aerial roots, you can increase humidity levels around the plant, mist the leaves regularly, provide a support structure for the plant to climb on, and avoid overwatering to stimulate root growth.
Water moves from roots to leaves through a process called transpiration. Transpiration is the loss of water from a plant's leaves through tiny pores called stomata. This loss of water creates a negative pressure in the leaves, which pulls more water up through the plant's vascular system from the roots.
The process by which water moves from the roots to the leaves of plants is called transpiration. Water is absorbed by the roots and travels up through the plant's vascular system, reaching the leaves where it evaporates through tiny openings called stomata. This evaporation creates a negative pressure that pulls more water up from the roots, allowing for a continuous flow of water throughout the plant.
Roots absorb water from the soil and transport it to the rest of the plant. This water then moves through the plant, eventually reaching the leaves where it evaporates through tiny openings called stomata in a process known as transpiration. Roots also help in maintaining the plant's water balance and nutrient uptake.
From the roots. All plant parts are grown for a reason, first the seeds are planted, the seeds are for starting the plant and for producing more, next the roots grow,the roots are for collecting food and minerals, next the stem sprouts, the stem is for guiding the foods and minerals to the entire plant, then the leaves sprout, the leaves soak up sun and oxygen for the plant to live, last but not least the produce comes out [you know what that's for].
Assuming you mean vascular plants the transportation system here are the vascular tissues. The xylem moves water from the roots to the leaves. The phloem moves sugars, carbohydrates, from the leaves to everywhere in the plant needing these sugars.