The Anatomical Structure of Vegetative Organs Lavandula officinalis Chaix in the Introduction of Tashkent Botanical Garden

The article presents the results of research carried out by light microscopy of the anatomical structure of vegetative organs (leaf, root and stem) Lavandula officinalis Chaix of the family Lamiaceae introduced into the conditions of the Tashkent Botanical Garden of the Republic of Uzbekistan. Our studies have shown that the presence or absence of trichomes can serve as an informative sign. In L. officinalis trichomes are simple unicellular two-terminal; three-terminal and multi-terminal. Lavender leaf hairs accumulate essential oils under the cuticle of secreting cells, the cuticle are tightly attached to the membranes of the secretory cells due to the absence of excretion products. Based on the results of a study of the morphological and anatomical features of the leaf of L. officinalis, it has been established that the forms of covering hairs and essential oil glands are of diagnostic value. In the epidermal, palisade and cortex parenchymal cells of the vegetative organs, yellow-orange essential (lavender) oil is noted. Identified diagnostic features that can be used in taxonomy and can be used to identify plant materials can also be used to develop indicators of authenticity in this type of raw material. of


Introduction
The genus Lavender-Lavandula L. belongs to the family Lamiaceae-Lamiaceae In earlier literature, at different periods, Lavandula angustifolia Mill. was known as spike lavender-L. spica L.; real lavender-L. vera DC.; lavender officinalis-L. officinalis Ch.; lavender Pyrenean (synonym: English)-L. pyrenaica DC. [2] [5] [7] [8] [9] [10] [11]. The use of wild populations of lavender as medicinal and aromatic plants has been known since ancient Rome. As a cultural and aromatic herb, lavender has become cultivated in the countries of the southern and south-western Europe since the end of the XVI century [6] [8] [10]. Currently Lavandula angustifolia still is widely cultivated in the world to obtain the essential oil of lavender, essential components which are linalyl acetate, linalool and geraniol [3] [5] [6] [8].
Lavender oil is used in the perfumery, cosmetic and medical industries, and is actively used in the production of perfumes, eau de toilette, shampoos, deodorants and soaps [3] [5] [13]. The content of essential oil in freshly harvested inflorescences of narrow-leaved lavender is 0.6% -4.0%, in terms of absolutely dry inflorescences, the oil content can sometimes reach 11%. The amount of esters (linalool and linalyl acetate) that determine the quality of lavender oil, calculated as linalyl acetate, is on average 35%, with a range of variation from 10% to 80%.
The lavender oil also contains some amount of ketone terpene-camphor.
Camphor content in lavender oil an average of about 0.5% -1.0%. The higher mass fraction of this terpenoid such as, for example, in other types of lavender perfume degrades noticeably the quality of essential oil [1] [5].
Lavender oil is included in pharmacopoeias of 16 countries of the world [14].
In scientific medicine essential oil L. angustifolia is used for rheumatic pain and neuralgia, as well as a good antiseptic. It has also been shown experimentally endogenous and exogenous antibacterial activity even callus L. angustifolia, and biochemical analysis showed presence of the entire set of biochemically active D. K. Fakhriddinova et al. substances intact plants [15]. In folk medicine, infusion of lavender flowers has sedative, tonic, antipyretic, analgesic and bile thinning means applies also for gastrointestinal illnesses, neurasthenia and palpitation [14]. Due to the increased xerophytic Lavender successfully used in ornamental gardening in the Mediterranean and Black Sea basins, including the southern regions of Russia. In addition, lavender is a good honey plant-one hectare of lavender during its flowering period gives more than 100 kg of white, aromatic and tasteful honey [2] [3].
were found in it. The flowers also contain tannins (up to 12%), bitterness and resins, ursolic acid, coumarin, gerniarin. Coumarin and gerniarin are distilled simultaneously with essential oil during hydrodistillation [16].
In this regard, the scientific interest is the study of the anatomical structure of vegetative organs of Lavandula officinalis, grown in the conditions of introduction.

Material and Methods
Objective: to study the anatomical structure of vegetative organs Lavandula officinalis to determine diagnostic features and localization of a biologically active substance in organs and tissues.  Lavandula officinalis has been introduced in the Tashkent Botanical Garden since 1995. Tashkent Botanical Garden is located in the north-eastern part of Tashkent in the basin; Chirchik in the low Adyr belt at an altitude of 450 -480 m above sea level. The climate is sharply continental. The average annual rainfall during the study was 337 mm, and the average annual temperature was 13.8˚C.
Precipitation falls mainly in the autumn-winter and spring; soils of cultivated irrigated gray soils or irrigated serozems [17] [18].
Simultaneously with the morphological description, the vegetative organs (leaf, stem and root) were fixed in 70˚ ethanol for anatomical study. A manual method was used to prepare slices of the vegetative organs. Cross sections of the leaf, stem and root were prepared manually using a safety razor. Cross sections of the leaf are made through the middle and the stem and root through the base. Sections were stained with methylene blue and safranin, followed by gluing in glycerol-gelatin [19]. Descriptions of the main tissues and cells are given according to C. Esau [20], N. S. Kiseleva [21], and the epidermis according to S. F.

Assimilating Organs Plant
Leaves of L. officinalis are opposite, sessile, oblong-linear, with curled edges, 2 -6 cm long, green or gray-green from pubescence. On the paradermal section, the outlines of the epidermal cells on the adaxial side are rectilinear, the projection is polygonal, the abaxial is more sinuous and the projection is polygonal. The cells of the adaxial (upper) epidermis are larger than the cells of the abaxial (lower) one. In the cell membranes of the epidermis, nucleoli are clearly visible on both sides of the leaf. Adaxial and abaxial epidermis is a pubescent with trichomes ( Figure 2).
Our studies have shown that the presence or absence of trichomes can serve as an informative sign. In L. officinalis, trichomes are simple single cell two-pointed; three-pointed; multi-end. Lavender leaf hairs accumulate essential oils under the cuticle of secreting cells, the cuticle is tightly attached to the membranes of the secretory cells due to the lack of excretory products ( Figure 2 and  mesophyll, spongy cells-above the lower epidermis of the leaf mesophyll. The epidermis is represented by one row of cells with a thick-walled cuticle layer. Adaxial epidermal cells are larger than abaxial ( Figure 2). Between the adaxial and abaxial epidermis there is an assimilation tissue consisting of palisade and spongy cells. Under the adaxial epidermis is the palisade parenchyma. The palisade parenchyma is chlorophyll-bearing, large and elongated, which consists of two rows of cells and is located between the adaxial epidermis and the spongy parenchyma of the leaf. Drops of essential oil were found in epidermal and palisade cells (Figure 3). The spongy chlorophyll-bearing parenchyma consists of 3 -4 rows and is located between the palisade parenchyma and the abaxial epidermis. The spongy parenchyma is round, large-cell with small cavities. Between palisade and spongy cells there are numerous lateral conducting bundles, with 3 -4 small vessels (Figure 3).
The main leaf vein extends on the abaxial side. The rest of the vein is occupied by the main parenchyma, into which 1 conductive bundles is immersed,

Axial Organs Plant
The base of the stem on the cross section is rounded, beam type. The structures of the stems of woody plants are due to many years of active activity of the apical and lateral meristems. Therefore, the trunk and side branches of these plants are significantly thickened. They are powerful, highly lignified, with the early development of secondary integumentary tissue (Figure 4).
The anatomical structure of the stem is divided into three topographic zones: the periderm (cork), the secondary cortex, and the central cylinder. The integumentary tissue-the cork consists of several rows of radially located cells with thick cork-covered membranes. The integumentary tissue is represented by a cork. Its cells are dark brown in color, thick-walled, densely closed. Outwardly, upon division by tangential septa, the cells of the phellogen are formed by the cells of the tube, and inside-the cells of the phelloderm. The complex of the phellogen, phellem and phelloderm makes up the periderm. Under the periderm is a round-oval secondary cortical parenchyma, which consists of 6 -7 rows and remains throughout. Under the cortex parenchyma groups of bast fibers are formed. The phloem is extensive, located between the cortex parenchyma and libriform ( Figure 4).
Wood occupies a continuous cylinder surrounding the core, which is located centrally in the stem. Primary conductive tissues are preserved in the stem, and then the secondary ones immediately form a continuous cylinder, which in the cross section looks like an almost continuous ring. With age, the emerging cambium changes the anatomical structure of the stem. It annually produces secondary xylem (wood). Aside xylem cambium work more vigorously, pushing the primary xylem to the core. The long and the rhythmic activity of the cambium cause a "layering" of wood. It clearly distinguishes boundary between the annual increment (the annual rings). This is due to differences in the composition and structure of histological elements formed from cambium at different times of the year (Figure 4).
By the number of tree rings, you can determine the age of the plant. The secondary xylem, which occupies most of the section, is easy to determine, since its cells are stained red-brown. It is represented by tracheid located in radial rows and sparse, elongated and short core rays. The core is not wide, it is represented by large and small round-oval, thin-walled parenchymal cells and they contain hydrocytic cells (Figure 4). The root is the axial organ of the plant, which has radial symmetry, has unli-  and characteristic diagnostic characters for this species. Our studies have shown that the presence or absence of trichomes can serve as an informative sign. In L. officinalis, trichomes are simple, single-cell, double-ended; three-pointed; multi-end. Lavender leaf hairs that accumulate essential oils under the cuticle of secreting cells, the cuticle are tightly attached to the membranes of the secretory cells due to the absence of secretion products. When treated with a solution of methylene blue and safranin, drops of yellow-orange essential oil are found in the epidermal, palisade and bark parenchymal cells. Identified diagnostic features that can be used in taxonomy and can be used to identify plant materials can also be used to develop indicators of authenticity in this type of raw material.