Original Article

Comparative Anatomical Studies on Three Endemic Ononis L. (Leguminosae) Species Growing in Turkey

10.4274/tjps.54227

  • Ayşe BALDEMiR
  • Maksut COŞKUN

Received Date: 20.05.2016 Accepted Date: 02.02.2017 Turk J Pharm Sci 2017;14(2):134-140 PMID: 32454604

Objectives:

The leaf and stem anatomical characteristics of three endemic Ononis L. (Leguminosae) species were studied for the first time for the evaluated in terms of systematic of similarities and differences in these taxa.

Materials and Methods:

Ononis sessilifolia Bornm., Ononis basiadnata Hub.-Mor. and Ononis macrosperma Hub.-Mor. were collected from different provinces of Turkey. In this anatomical study, transversal and superficial sections from the leaves and transversal sections from stems of the species were taken and examined by appropriate reagends. Illustrations were obtained by using an Olympus U-DA 2K 17149 drawing tube attached to an Olympus BX50 microscope. The microphotographs were taken by a Leica DM 4000 B microscope.

Results:

O. macrosperma is bifacial leaf, the others are monofacial leaf. The leaf of O. basiadnata has eglandular trihomes. If the anatomical similarities between species are to be listed, Rubiaceae type stoma was observed in all three species and solitary crystals were found in stem and leaf sections.

Conclusion:

Anatomical characteristics, such as mesophyll structure, transmission bundles and crystal structures, may contribute to the taxonomy of Ononis species for future work.

Keywords: Ononis, leaf and stem anatomy, endemic, Leguminosae, Turkey

INTRODUCTION

Leguminosae, third largest family of flowering plants, is cosmopolitan family and absent only from Antarctica. Many species in this family are cultivated for food in the different regions of worldwide, such as beans, peas, peanuts, and soybean.1,2 The genus Ononis L. belonging to the Leguminosae is represented by 75 taxa worldwide. The genus have 17 species of which 4 taxons are endemic in Turkey.3,4,5 In different regions of our country, the species of Ononis are used in folk medicine to diuretic, antiseptic and antimicrobial effects.6 In addition, the aerial part of Ononis arvensis L. has been used in traditional medicine to treat urinary tract infections and skin diseases. In the literature, there have been a few anatomical and morphological studies on some Ononis species.7,8,9,10,11,12 Anatomical investigations are of great importance in the identification of medicinal plants.13 Leaf epidermal studies are useful in determining their anatomical characteristics thus helping in the evaluation of a taxonomic relationship according to similarities and differences between species.14

In this study, the anatomical and morphological properties of three endemic Ononis species (Ononis sessilifolia Bornm., Ononis basiadnata Hub. - Mor. and Ononis macrosperma Hub. - Mor.) were studied comparatively. In addition, new and extended findings on three species of Ononis are presented in comparison with the definitions given in Metcalfe and Chalk15 and anatomical structures of the other Ononis species.


EXPERIMENTAL


Plant materials

Plant materials were gathered from the localities indicated in Table 1. Voucher specimens are deposited in the Herbarium of the Faculty of Pharmacy at the University of Ankara, Turkey (AEF).


Anatomical studies

The microscopical studies were carried out on material (aerial parts of Ononis species) in 70% alcohol. Free hand sections were taken, stained and mounted in Sartur reagent16 and chloralhydrate solution.

Anatomical drawings of the transversal and superficial sections were sketched using an Olympus U-DA 2K 17149 drawing tube attached to an Olympus BX50 microscope. The microphotographs were taken by a Leica DM 4000 B microscope and some of them were composed by the Adobe Photoshop 7.0 program.


RESULTS AND DISCUSSION


Anatomical studies


Leaf anatomy of O. sessilifolia


Cross section of leaf blade

The leaf is monofacial. The upper epidermis cells are square or rectangular-shaped, and are single-layered with anticlinal walls. Underneath the epidermis there are generally two layers of palisade parenchyma but sometimes there is a single-layer. The spongy parenchyma with 2-3 layers is formed of thin walled, isodiametric parenchymatous cells with few intercellular spaces. Glandular hairs with a multicellular stalk and a multicellular head are observed. The lower epidermis cells are covered with a thin cuticle. Stomata occur on both sides of the leaves (Figure 1).


Cross section of the midrib

The lower epidermis cells are smaller than the upper ones and are covered with a thin cuticle. Underneath the epidermis there are generally two layers of palisade parenchyma but sometimes there is a single-layer. Sclerenchyma cells generally form crescent-shaped groups surrounding phloem (the thin-walled irregular constellation of small cells) and the xylem (wider vessels and tracheids) is underneath it. Solitary crystals which are very variable in size and shape (styloids) are characteristically observed and frequently form a sheath along the outer boundary of the pericyclic sclerenchyma (Figure 1).


Surface of the lower and upper epidermis

The lower epidermal cells are similar to those in the upper epidermis in point of small rectangular shape and thin-walled structure. Rubiaceae type stomata (each stoma is surrounded by 2 or more subsidiary cells) have 3-4 subsidiary cells. There are glandular hairs on both the upper and lower epidermis (Figure 1).


Leaf anatomy of O. basiadnata


Cross section of leaf blade

The leaf is monofacial. The upper epidermis cells are rectangular-shaped, single-layered with thin anticlinal walls, and have a smooth cuticle. Similar to O. sessilifolia, underneath the epidermis there are generally two layers of palisade parenchyma but sometimes there is a single-layer. Spongy cells with 2-3 layers, thin walled and isodiametric parenchymatous cells, are irregulary arranged. Glandular hairs is more dense with respect to O. sessilifolia can be classified into two types: those, with a multicellular stalk (1-4 row cells) and a multicellular glandular (1-5 row cells) head and those with a multicellular stalk and an unicellular glandular head. Also, eglandular hairs are observed densely (Figure 2).


Cross section of the midrib (the central vein of a leaf)

The lower epidermis cells are square or rectangular shape and thin walled structure, smaller than the upper ones and are covered with a thin cuticle. Sclerenchyma cells generally form crescent-shaped groups surrounding phloem which thin-walled irregular constellation of small cells and the xylem with vessels and tracheids is underneath it. Unlike O. sessilifolia, solitary crystals are also abundantly present in the parenchyma cells of O. basiadnata species. Similarly to O. sessilifolia, crystals are characteristically observed in the pericyclic sclerenchyma cells. Also, these crystals have been found in the mesophyll (Figure 2).


Surface of the lower and upper epidermis

Glandular and eglandular hairs are observed to densely cover both the upper and lower epidermis. The stomata have 3-4 subsidiary cells which is Rubiaceae type (Figure 2).


Leaf anatomy of O. macrosperma


Cross section of leaf blade

The leaf is bifacial. The upper and lower epidermis cells consist of a single layer of square or rectangular-shaped cells with thin walls. The cuticle is thin. Underneath the epidermis there is usually two layers of palisade parenchyma. The spongy parenchyma consists of 4-5 layers of usually isodiametrical cells with few intercellular spaces. Glandular hairs have two types. The first type consists of glandular hairs with a multicellular stalk and a multicellular round-head. The second type consists of a multicellular stalk and a unicellular glandular head. They are sparsely observed relative to the other two species. Rubiaceae type stomata are observed (Figure 3).


Cross section of the midrib

The upper and lower epidermis cells are square or rectangular-shaped cells, and are single-layered with anticlinal walls. The palisade parenchyma cells have a single layer or two layers. The spongy mesophyll with 2-4 layers consists of isodiametric parenchymatous cells with few intercellular spaces. There are sclerenchyma cells which generally surrounded phloem and the xylem is underneath phloem. As in the two other species, solitary crystals with various shapes and sizes (styloids) are observed and frequently form a sheath along the outer boundary of the pericyclic sclerenchyma (Figure 3).


Surface of the lower and upper epidermis

The lower epidermal cells are similar to those in the upper epidermis. Unlike the upper epidermis, striated cuticle is observed on the lower epidermis. The stomata generally have 3 subsidiary cells. Glandular hairs are sparsely observed on both the upper and lower epidermis (Figure 3).


Stem anatomy of O. sessilifolia

Cross sections from the stems are rounded. The cuticle is thin-layered. The epidermis consists of a single-layer of square or short rectangular cells. Parenchyma cells which have a great number of large and small prismatic crystals are 3-4 lines. The pericycle is end of the parenchyma cells and it is not clear. Sclerenchyma cells which are clustered crescent-shaped and are interconnected with the end portions are arranged in a circle. Crystals are lined up on the sclerenchyma cells individually. The vascular bundles are surrounded with pith and pith rays which are number of 4-6. Phloem is composed of small and irregularly shaped cells. The cambium formes 1 or 2 rows at the start of the xylem. However, it is not very obvious and endodermis layer is not apparent. While the phloem is located on the outer side of the cambium, the xylem is located on its inner side. Pith is formed by rounded and large parenchymatic cells. Also, this part is identified charactersitically by secretory cells in places. The stem has many glandular (a multicellular stalk (1-4 row cells), a multicellular head (1-3 row cells) and fewer eglandular (unicellular and multicellular) hairs. Eglandular trichomes are generally multicellular and long (Figure 4).


Stem anatomy of O. basiadnata

The cross sections of the stem are rounded. The cuticle is thin layered with a crenate margin. The epidermis consists of a single layer of rectangular cells. Parenchyma cells are oval-shaped and have 3-5 lines. The sclerenchyma cells, cluster crystals and vascular bundles (generally 9-11 numbers) resemble those of O. sessilifolia. Endodermis layer is not clear. The pith area is narrower than that of O. sessilifolia and number of pith rays are 5-7. Eglandular hairs were determined to be more intense than glandular hairs. Also, starch was observed in the parenchyma cells. Locations of the phloem and xylem are similar to O. sessilifolia. Pericycle is end of the parenchyma cells, schlerenchymatous, occasionally parenchymatous (Figure 5).


Stem anatomy of O. macrosperma

The cross sections of the stem are rounded. The cuticle is thin layered. The epidermis consists of single-layered cells. The parenchyma cells are oval-shaped with 4-6 lines. The sclerenchyma cells, cluster crystals and numbers of the vascular bundles are generally 9-10 and properties of the phloem and xylem similar to the other two species. Lines of pith rays are commonly 3-4. However, crystals are scarce in comparison to the other two species (O. sessilifolia and O. basiadnata). The pith area is narrower than that of O. sessilifolia. Also, secretory cells were detected in the pith O. sessilifolia. Glandular and eglandular hairs were seen less frequently than in the other two species. Starch was detected densely in parenchymatic tissue (Figure 6).

In this study, the anatomical properties of three endemic Ononis species were investigated. As it stated in Metcalfe (1965), the three species of Ononis have Rubiaceae type stomata (Figure 1,2, 3). Taia (2004) investigated in leaf characters within tribe Trifolieae (Family Leguminosae). Unlike to our study, it was found that Ononis species (Ononis natrix L., Ononis vaginalis Vahl, Ononis reclinata L., Ononis sicula Guss., Ononis pubescens L., Ononis serrata Forssk.) have diacytic, paracytic, brachyparacytic stomata type. In addition, these species have only multicellular glandular hair. However, in our study, leaf section of O. basiadnata was found eglandular hair (Figure 2). The type of vascular bundle in the leaf is similar to that in the stem at three Ononis species. O. basiadnata was the most intense in terms of glandular and eglandular hairs (Figure 5, Table 2). The other two species, O. sessilifolia and O. macrosperma followed it, respectively. The arrangements and type of crystals in stem section were very similar to the leaf anatomy. Furthermore, in stem anatomical studies of O. macrosperma and O. sessilifolia, the secretory cells in the pith region were detected (Figure 4, 6, Table 3).


CONCLUSION

This study is original in that, similar and different anatomical features of the three endemic Ononis species growing in Turkey are revealed in detail for the first time. Our investigations showed that anatomical studies also proved to be very important in providing information of taxonomic importance. It is hoped that this study will form a basis for future research on the other Ononis species in Turkey. Furthermore, anatomical studies should be supported by molecular, morphologic and chemical studies.


Conflict of Interest: No conflict of interest was declared by the authors.

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