In this study the anatomical characters of the stems and leaflets of T. longipetalous Viv . , T. pentandrus Benth . and T. terrestris L. were compared to assist as a relevant source of information and contribute towards the standards to dispose the quality and identity of these plants to avoid adulterations. Transverse sections of the stems and leaf lets of the three species were done using wax method technique. The anatomical structures of the three studied species are very similar. The stems are formed of one layer epidermis, parenchymatous cortex, pericyclic fibers above the collateral vascular bundles, primary and secondary xylems and phloems, narrow medullary rays and wide parenchymatous pih. The densities of the epidermal hairs in the stems are found to be larger in T. pentandrus followed by T. longipetalous and lastly T. terrestris . There are sclrenchymatous fibres in the pith of T. longipetalous and T. pentandrus but not in T. terrestris . The leaflets are dorsiventral, showing kranz structure and different types of hairs. The densities of the epidermal hairs in the leaflets are found to be larger in T. longipetalous followed by T. pentandrus and lastly T. terrestris .
The use of medicinal plants has become very popular in recent years. Standardization and quality control are essential analytical tools to assure the correct identification of drugs. Microscopy allows the identification of herbal drugs and the detection of individual components of a mixture. It is highly important to ensure quality and purity of herbal medicines in order to maximize the efficacy and minimize adverse side effects [
Zygophyllaceae is a family of trees, shrubs and herbs; they are mostly restricted to arid and semi-arid areas in the tropics and subtropics [
T. terrestris had been subjected to different anatomical, taxonomical and chemical studies. Both morphological and microscopical characters of the fruits of Tribulus terrestris were outlined to help in reducing the problems of substitutions of the genuine drug [
This study aimed to describe and compare the anatomical characters of T. longipetalous Viv., T. pentandrus Benth .and T. terrestris L. to assist as a relevant source of information and contribute towards the standards to dispose the quality and identity of these plants in future exploration, The literature survey revealed that no anatomical studies were carried out on any morphological part of neither T. longipetalous nor T. pentandrus.
The studied plants Tribulus longipetalous, T. pendulatus and T. terrestris (Zygophyllaceae) were collected from Khartoum State (Central Sudan), taxonomically identified and herbarium specimens were deposited in Botany Department Faculty of Science and Technology, Omdurman Islamic University.
Stems and leaflets of the studied plants T. longipetalous, T. pendulatus and T. terrestris were sectioned and studied anatomically. Wax method technique [
The transverse sections of the stems of the three species were found to be circular to oval in shape (Figures 1(a)-(c)). The outermost layer is the epidermis, it is formed of one layer of small polygonal cells covered by thick cuticles. Epidermal hairs are long, simple unicellular and they are much denser in T. pentandrus followed by T. longipetalus. The cortical region is preceded by the hypodermis which is formed of 1 - 2 cells thick of collenchyma, followed by 3 - 4 of parenchyma cells which are isodiametric with small intercellular spaces. Pericyclic fibers are formed of groups of sclerenchyma cells (6 - 8 cells thick) they are separated by parenchyma cells. Primary and secondary phloems are found below the pericyclic fibers. The fasicular cambium is connected with the interfasicular cambium forming a complete vascular cambium ring of 3 - 4 cells thick. The secondary xylem is formed of large vessels separated by xylem parenchyma cells, the primary xylem is found in the inner part it is formed of xylem vessels separated by primary xylem parenchyma.
The vascular bundles are located very close to each other and they are separated by narrow primary and secondary medullary rays. The pith is wide and it is formed of compact parenchyma cells, some sclrenchyma fibers are found in between the parenchyma cells, they are of larger numbers in T. longipetal followed by T. pentandrus and they are not found on T. terrestris.
The transverse sections of the leaflets of the three species are formed of one layer of polygonal epidermal cells of different sizes, they are interrupted by small stomata (Figures 2(a)-(c)). Unicellular, simple glandular and non-glandular hairs are found, the epidermal hairs densities are larger in T. longipetalus and T. pentandrus than in T. terrestris. The epidermal cells are covered by thick cuticles.
The leaflets are dorsiventral; the upper epidermisis followed by one layer of palisade cells which are long compact chlorenchyma cells. The spongy parenchyma layers are found below the palisade layer and they are formed of 3 - 4 layers of chlorenchyma cells, druses of calcium oxalates are scattered within the spongy parenchyma. The vascular bundles are found on the region between the palisade and spongy parenchyma layers. The vascular bundles are surrounded by sheaths of chlorenchyma cells (kranz structures). In the midrib region the vascular bundles are preceded by a palisade layer and on the lower side followed by chlorenchyma and collenchymas cells. The vascular bundles are collateral formed of xylem to the upper epidermis and phloem to the lower epidermis. The lower epidermis is formed of cells of smaller sizes than the cells of the upper epidermis but the epidermal hairs are denser and the stomatal numbers are larger.
The three studied species show anatomical characters typical to that of the family Zygophyllaceae in that they are formed of compact stems, secretary cavities are absent, internal phloem absent, primary medullary rays are narrow. The structure of the leaflets showed distinguished xeromorphic adaptations as stated [
Kranz structure (which is the large green sheath cells, thick walled specialized chlorenchymas surrounding the veins) is very clear. The palisade cells extend radially from the bundle sheath cells where as in most of dicotyledons leaves there are no palisade cells in the mid rib region instead there are collenchymas cells. Spherical star-shaped druses occur throughout the middle part of the lamina, druse crystals are distribution in the mesophyll tissue of the leaf and cortex tissue of the stem [
Hatil Hashim Elkamali,Ahlam Salih Eltahir,Ibrahim Saeed Yousif,Ahmed Mohamed Haroun Khalid,Elneel Adam Elneel, (2016) Comparative Anatomical Study of the Stems and Leaflets of Tribulus longipetalous, T. pentandrus and T. terrestris (Zygophyllaceae). Open Access Library Journal,03,1-5. doi: 10.4236/oalib.1102810