Agar tree all history

 

Agar

If (botanical name: Aquilaria malaccensis) is a tree. If Asia is basically a tree of Mahadev. It is found with India in China, Malaya, Laos, Cambodia, Singapore, Malacca, Bhutan, Bangladesh, Myanmar Sumatra, etc. In India, it is found in parts of Tripura, Nagaland, Assam, Manipur and Kerala around the eastern Himalayas of North India. It is considered to be the best if found in Sylhet. If, is the state tree of Tripura.

Features

The height of this magnificent tree spreading fragrance is from 14 meters to 30 meters and the circumference of the stem is from 1.5 meters to 2.5 meters.

 

 

Aquilaria malaccensis

If the bark of the trunk of the tree is as thin as that of the banquet. That is why its bark was used for a long time in writing religious books, literature and history similar to the banquet. If the branches rise above the trunk of the tree, the branches are spread like garuda. Hence it is also called Eagle Wood.

 

It is an evergreen tree. That is, it is always green. Its rough and fibrous branches and sub-branches have small addresses ranging from 4 cm to 4 cm long. They are thin and tanned and have a sharp tip. If the address of the agar is connected to the branch or sub-branch. [3]

 

Before the development of paper, its bark was used to write the book. Its names in different languages ​​of India are-

Conservation status

The conservation status of a species indicates the possibility that that species will survive extinction in the present or near future. Several factors are taken into account in assessing the conservation status of a species: not only the number of remaining members of that species, but also the overall increase or decrease in its population over a particular period of time, the rate of reproductive success, the known risk e.t.c.

There are two types of seed-producing plants: naked or naked seed and closed or closed seed. Flowering plants or angiosperms or Angiospermae or Magnoliophyta, Magnoliophyta, Magnoliophyta) is a very large and universal subclass. Flowers are present in all members of plants of this subclass, from which seeds are formed in a covered state inside the fruit. These plants are the most developed plants of the world. This subclass is very useful for humans. There are one or two groups inside the seed. On this basis, they are divided into monocot and dicot classes. The root, stem, leaf, flower, fruit are definitely found in the flax plant.

The members of the closed bibi have a variety of designs, but each has a root, stem, leaf or other adapted parts of the leaf, flowers, fruits, and seeds. The following are the composition and types of organs of closed plants:

The root

The bottom of the earth is mostly root. The part that emerges from the root or radicle at the time of freezing of the seed is called the root. The first root in plants dies soon and fibrous roots come out from the lower part of the stem. The first root, or primary root, is always in the dicot. It goes on growing and the root of the second, third class is always there. It goes on growing and the second, third class root branches grow out of it. Such a root is called tap root. The roots contain root cap and root hair, by which plants grow by absorbing salts from the soil. In addition to obtaining food and water, root plants also have adventitious roots. In some plants, roots also come out. The middle part of the root is composed of a thin cellar medulla. The edge consists of xylem and phloem and exarch. There are protoxylem on the outside of the liquor and metaxyeiem on the inside. Their structure is adverse to the stem, the perichycle around the convection tissue and the endodremis outside. The cortex and the epiblema remain outside.

Stem or column

The function of the stem is to transport the water and salts absorbed by the root upwards, which reach the leaf and are used in the synthesis of sunlight. The food made is transported to every part of the plant by the stem itself. Additionally, the stems keep the plants upright as pillars. These are helpful in preparing food by giving birth to leaves and in carrying out flowers by giving birth to flowers. Many stems also store food. Some stems do not grow directly on their own due to being thin and others cling to a strong base or other tree and grow upwards. In some, the stems turn into thorns. In many plants, the stems grow under the soil and many stems perform various functions, such as ginger's transformed stem, which is eaten, by holding special features. This is called Rhizome. Potato is also such stem which is called tuber. These stems also have buds, which are used for plant broadcasting. The eating part of the onion is the stem under the soil, which is called bulb. In this, the leaflet and the anterior bud are lying buried. Garlic, cana, banapaji and many other such trunks are found in a monocot. The eating part of the suran and the bunde also remains underground and is also the form of a branch, which is called corm. Such a variation of the stem is found in many plants, some of which have special functions while remaining below the ground and some part above the ground, such as the form of runner in the grass grass lying on the earth and their The root from the node enters the soil. There are similar stolon-like stems, such as chandeliers, or jasmine etc. Offset stems are in hyacinth, and sucker stems are in mint.

 

Some aerial trunks or pillars also change into many special forms, such as flattened in hawthorn, leaf in Ruscus and other forms in some plants.

In the internal structure also the shape of the column is largely of a type, in which monocot and dicot can be identified only by internal composition. The column also has epidermis, cortex and vascular cylinders. In a monocular, the bundle is devoid of closed (ie no secondary growth) cambium, and in the dicotyledon there is secondary growth, which is by a common method. In some plants there is secondary growth, either due to the condition, or in particular from other reasons.

The leaves

Leaves are also used for special work in plants like closed plants. Their main function is to cook food. Their parts are as follows: The petiole is protruded from the twig, which may also have stupule at its place of exit. The main part of the leaves is a flattened, spreading lamina. These veins are configured in many ways. There are many types of leaf shapes. The leaves have small holes, or stomata. There are also several types of diapirs in different plants, such as roses, banpalak, smilex, ejacara, etc. The pulse configuration is reticulate and parallel type in the form of mesh. The first configuration is found mainly in dicotyledon and the second configuration in monocot. These two can have many forms, such as the jaundice configuration in mango, peepal and nenua leaf, and the parallel configuration in banana, palm, or cana leaf. The shape of the leaves is maintained by the veins, which helps to keep them spread in a flat state, and the food, water, etc. are reached by the veins in every part of the leaf. There are two types of leaves. In many closed-leaf, simple and combined leaves, the leaves are transformed in different ways, such as the top leaves in peas taking the form of tendril, like a lattice, or as a thorn in barberry, curved in vignettes. Like (hook) and hawthorn, it turns into thorn in Dhatura, Bharbhanda, Bhatkataiya. In nephenthes, the leaves become like jug, in which small insects are trapped and which the plant digests. The texture inside the leaves is such that the powder inside them, taking the energy of light, mixing water and carbon dioxide, makes inorganic phosphates strong and makes sugars and other foods.

Flower

The flowers of Svartibji are of various types and due to their texture and other properties, Svartibji has been classified. Fertilization of plants occurs through pollination. After fertilization, the embryo slowly divides and grows. There are also many ways that Indian botanist Maheshwari has studied coffee in detail. The embryo grows and grows into one or two grouped seeds, but the part around it ie the ovary, and the entire part of the pistil grows to form the fruit. They keep the seeds covered. For this reason, these seeds are called Aadravabiji or Svartabji. There are also many types of fruits, some of which are used in human use. In apple, part of thalamus, flowering and flowering in guava, part of placents in vine, part of endosperm in coconut is eaten.

Classification of seeds                      

Classification of insecticides has been done from time to time by many taxonomists. About 300 years before Christ, Theophrastus classified flora based on certain traits. Bentham and Hooker and Angler Prentle have categorized in India. Everyone has divided the oviducts into monocot and dicot.

 

Monocot is divided into petaloideae, spadiciflorae and glumiflorae.

The dicot is divided into three classes, polypetalae, gamopetalae and monochlamydeae, etc.

Under Petaladi, a BG clan is kept whose plants have flowers in their flowers, such as cana, camellina, onion etc. Spadixiflori has a spadix type inflorescence, such as in banana. The main clones in glumiflori are gramineae and cypressi. Gramini is the most accepted and useful family of the world. Its members mainly serve as food for humans and pets, cow, buffalo etc. Barley, wheat, maize, bajra, jowar, paddy, dube, dichanthium, moong, patlo, khas are members of the same clan. Other examples of monocot are palm, dates, reed, bamboo, onion, garlic etc.

 

Many thousands of species of dicotyledon plants are found. There are many clans under them and each clan has many tree plants.

Utility

Aphrodisiac plants are useful to humans in many forms. Some cultivated plants are cereals to eat, some pulses, some fruits and some vegetable vegetables. Some plants provide sugar to us, while others give us drinks, coffee, tea, fruit limes. Some make grapes, oranges, mahua, malt etc. for making wines. Cotton, jute, serpagandha for medicines, cinchona, eucalyptus, bhringraj, tulsi, gulbanfasa, amla etc. for textiles. Timber is obtained from teak, sal and rosewood, colors from indigo, tesu etc. and rubber heavia, artocarpus etc. from trees. The bifurcation of the botanical world is a very broad and useful subclass. It grows abundantly in every part of the earth.