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Lemon Drop

The Plumeria Root System

The plumeria root system constitutes a major part of the plant body, both in terms of function and bulk. In plumeria, the root system is the subterranean or underground part of the plant body. Roots are branching organs which grow downward into the soil, a manifestation of geotropism. Branching occurs irregularly and not from nodes as in stems.

In contrast to shoot, the plant root has no leaves, nodes, internodes and buds. With rare exception, roots also lack stomata.

Other morphological and anatomical features which are distinct to this plant structure are:

a hard, protective root cap at the tip of the root; (2) absence of the pith;
presence of endodermis; and
presence of pericycle next to the endodermis.

These features are found in the root apex which is divided into three regions:

a region of cell division which includes the apical meristem protected by the root cap,
a short region of cell elongation where individual cells elongate and force the root tip to move forward through the soil, and
a region of cell differentiation and maturation.

In general, the plumeria root system either consists of a taproot system (with primary root found on seedlings) or fibrous roots (adventitious roots found on cuttings) with attached branch roots and finer rootlets having root hairs close to the tip.

Functions of the Plumeria Roots

Despite being inconspicuous because they are normally hidden underground, the plant root system performs various functions which are essential to growth and development. The extent of underground expansion of this plant structure serves as limitation in the growth of the plant. Thus potted plants usually exhibit slow growth but once the roots leak out from the bottom of the pot and penetrate into the ground, growth rate accelerates.

The functions of the plumeria root system include:

Anchorage and support. The plumeria root system anchors the plant body to the soil and provides physical support. In general, however, taproot system provides more effective anchorage such that they are more resistant to toppling during storms.
Absorption and conduction. The plumeria root system absorbs water, oxygen and nutrients from the soil in mineral solution, mainly through the root hairs. They are capable of absorbing inorganic nutrients in solution even against concentration gradient. From the root, these are moved upward. Plants with a fibrous root system are more efficient in absorption from shallow sources.
Storage. The root serves as storage organ for water and carbohydrates. Fibrous roots generally store less starch than taproots.
Reproduction. Plumeria do not reproduce from their roots.

Leaf Shape

Leaves

Leaves functions

Manufacture food through photosynthesis

This is possible due to the green pigment in them called CHLOROPLAST, Leaves are the chief food producing organ in MOST not all plants, and because they create food via photosynthesis they are typically arranged in convenient ways to allow maximum absorption of sunlight.

Gas (air) exchange, Respiration

Leaves use our bi-product carbon dioxide for photo synthesis! This co dependent relationship is required for survival for not only them but for everything here on earth that requires oxygen to live.

Protect vegetative and floral buds

Some plants are unique in terms of how they’ve adapted to protecting themselves by growing their own defenses. Example: the artichoke has grown a protective wall over the entire bud to allow it to safely grow!

Water transport, transpiration

Plants lose a relatively large amount of water through transpiration through their STOMATA, in fact its estimated that the loss of water via stomata through the process of transpiration exceeds over 90 percent of the water absorbed by the roots!

Leaf Shapes

Plumeria Leaf Tip Shapes

Type 1 emerginate

Type 2 obtuse or rounded

Type 3 obtuse or blunt

Type 4 acute

Type 5 acuminate

Leave Structure

Leaves are organs to the plant, they come in many different shapes, sizes, and arrangements all varying on the different conditions each plant must survive in.

An important part of leaves is the role of STOMATA or STOMA. Stoma consist of a pore surrounded by 2 sausage shaped epidermal guard cells. These pores are open and close as they regulate the flow/amount of gases and water to and from the leaves.

They are typically found on the underside of leaves but in some cases, they are found on other organs of the plant like the stem or fruit.

Legend of definitions

Chloroplast	A plastid that contains chlorophyll and in which photosynthesis takes place
Stomata	Stoma consist of a pore thats surrounded by 2 sausage shaped epidermal guard cells. These pores open and close as they regulate the flow/amount of gases and water to and from the leaves.
Photosynthesis	The process by which green plants and some other organisms use sunlight to synthesize foods from carbon dioxide and water.