Density and size of stomata in Vitis (Vitaceae)

 

 

Density and size of stomata in the leaves of different hybrids (Vitis sp. and Vitis vinifera varieties

by Boso S., Gago P., Alonso-Villaverde V., Santiago J. L., Martinez M. C. (2016)

S. Boso, P. Gago, V. Alonso-Villaverde, J. L. Santiago, M. C. Martinez,

Misión Biológica de Galicia, Consejo Superior de Investigaciones Científicas (CSIC), Salcedo, Pontevedra, Spain

 

===

in Vitis 55: 17–22 – DOI: http://dx.doi.org/10.5073/vitis.2016.55.17-22

4678-Article Text-23136-1-10-20160119.pdf

Summary

A number of studies have highlighted differences in the density of stomata between Vitis species, but few have examined differences between varieties of V. vinifera.

The density and size of the stomata in the lower epidermis of leaves belonging to 12 grapevine varieties, a direct producer hybrid (DPH) involving a V. vinifera and a non-vinifera parent, and the non-vini- fera rootstocks ‘SO4’ and ‘110-Richter’, were therefore examined.

Transparent nail polish peel prints of the area between the main and right lateral veins were pro- duced for 10 leaves per variety. These prints were then examined under a light microscope and the number of stomata in a unit area of 0.196 mm2 counted.

Image analysis software was then used to measure the length and width of all those counted. Rootstock ‘SO4’, ‘Chas- selas Dorée’, ‘Albariño’ and ‘Cabernet Sauvignon’ had the highest stomatal densities (all > 34 stomata per unit area), while ‘Castañal’, ‘Torrontés’ and ‘Caiño Blan- co’ and ‘Jacquez’ (DPH), had the smallest (all < 26.50 stomata per unit area). ‘

Treixadura’ and ‘Caiño Blan- co’ had significantly longer and wider stomata than all the other varieties examined; the DPH ‘Jacquez’ had among the shortest and narrowest.

No relationship was seen, however, between mean varietal leaf size and the stomatal density or stomatal size; nor was any seen between the variables examined and the condition of be- longing to V. vinifera or not.

Advertisements

Stomata in Gmelina arborea (VERBENACEAE)

Screen Shot 2018-09-11 at 16.27.40
Floral Epidermal Features in Surface View (Figs. 1 – 37): 1: Peduncle epidermis; 2, 37 :Non-glandular trichomes from peduncle; 3, 4: Capitate and peltate glandular trichomes from bract. 5-6: Capitate glandular trichomes from peduncle; 7, 8 : Capitate glandular trichome from calyx; 9: Non-glandular trichome from abaxial surface of calyx; 10, 13: Non-glandular trichomes from outer part of corolla tube; 11: Non-glandular trichome from inner part of corolla tube; 12, 14, 24: Capitate glandular trichomes from filament with bicelled and multicelled base; 15: Papilla from filament; 16: Nonglandular trichome from top of fruit; 17, 18: Non-glandular trichomes from abaxial surface of corolla lobe; 19: Non-glandular trichomes from abaxial surface of bract; 20-21: Bract abaxial epidermis and stomata, 22: Bract adaxial epidermis; 23- Calyx abaxial epidermis; 25: Fruit epidermis; 26: Outer part of corolla tube showing epidermis; 27:Inner part of corolla tube showing epidermis; 28:Corolla lobe abaxial epidermis; 29: Corolla lobe adaxial epidermis near tube portion; 30:Calyx adaxial epidermis, straight walled cells of lobe and sinuous cells in between lobes; 31:Non-glandular trichome from adaxial surface of corolla lobe; 32:Non-glandular trichome from filament; 33 : Filament epidermis showing cuticular striations; 34:Corolla lobe adaxial epidermis; 35: Corolla lobe abaxial epidermis showing occasional stoma; 36:Capitate glandular trichome from adaxial surface of corolla lobe.

 

Study of Floral Epidermal Features in Gmelina arborea Roxb. (VERBENACEAE)

by Ingole S. N. (2013)

Ingole Shubhangi N.,

Department of Botany, Bar. R.D.I.K. and N.K.D. College Badnera-Amravati, Maharashtra (India)

===

in Int. Res. J. of Science & Engineering 1(3): 85-89 – ISSN: 2322-0015 –

http://oaji.net/articles/2014/731-1396633944.pdf

ABSTRACT

Gmelina arborea Roxb. is a medium sized, unarmed, deciduous tree with whitish gray smooth bark. The plant is also important medicinal. Its flowers are showy, 2.5–3.5 cm long, brownish-yellow usually in small, opposite decussately arranged small cymes of about three flowers along the axis of a densely fulvous-hairy terminal panicles. Floral epidermal features including nature of epidermal cells, stomata and trichomes along with their dimensions of all floral parts are studied.

Epidermal cells are found straight walled in peduncle, bract, stamen, carpel and fruit with cuticular striations in staminal cells, broadly sinuate in calyx, broadly and deeply sinuate in adaxial and abaxial surfaces of corolla lobes respectively.

Peduncle, fruit are astomatic and bracts, calyx and corolla lobes are hypostomatic. They are anomocytic in bract, anomocytic, diacytic and paracytic in calyx and anomocytic and very occasional abaxially on corolla lobe.

Trichomes are of two types non-glandular and glandular, which vary, in minute details on different parts. Unique multiseriate glandular trichomes are exclusively found on filaments.

Floral trichomes are found species specific and suggestive of their functional significance.

Stomata in Clerodendrum serratum (Verbenaceae)

Screen Shot 2018-09-11 at 16.05.25
Fig. 24: Leaf architectural features showing areolation and minor venation pattern from portion of cleared leaf. Fig. 25: Tooth architecture and marginal ultimate venation. Fig. 26: Capitate glandular trichome from abaxial surface. Fig. 27: Non-glandular trichome from abaxial surface with bicelled base, showing striations radiating from it. Fig. 28: Non-glandular trichome from nerve of abaxial surface. Fig. 29: Non-glandular trichome from adaxial surface. Fig. 30: Capitate glandular trichome from adaxial surface. Figs. 31, 32: Abaxial epidermis with basal portion of trichome and stomata. Fig. 33: Non-glandular trichome from abaxial surface. Fig. 34: Adaxial epidermis.

 

Microscopic profiling of ethnomedicinal plant – Clerodendrum serratum (L.) Monn. (Verbenaceae) as an in to quality control, characterization and valid of raw material

by Ingole S. N. (2016)

Shubhangi Ingole,

Department of Botany, Bar. R.D.I.K. and N.K.D. College Badnera, Amravati, Maharashtra, India

===

in WSN 42 (2016) 197-227 – EISSN 2392-2192 –

http://www.worldscientificnews.com/wp-content/uploads/2015/10/WSN-42-2016-197-227.pdf

Screen Shot 2018-09-11 at 16.09.50
Figs. 35, 36: Non-glandular trichomes from peduncle. Figs. 37, 39, 40: Non-glandular trichomes from pedicel. Fig. 38: Capitate glandular trichome from pedicel. Fig. 41: Capitate glandular trichome from abaxial surface of bract. Fig. 42: Non-glandular trichome from abaxial surface of bract. Figs. 43-45: Capitate glandular trichomes from adaxial surface of bract. Figs. 46, 47: Non-glandular trichomes from nerve of abaxial surface of bract. Fig. 48: Non-glandular trichome from margin of bract. Fig. 49: Non-glandular trichome from adaxial surface of bract. Fig. 50: Penducle epidermis and stomata. Figs. 51, 52: Bract abaxial epidermis with cuticular striations and stomata Fig. 53: Bract abaxial epidermis from nerve portion with non-glandular trichomes. Fig. 54: Bact adaxial epidermis with cuticular striations and basal portion of trichome. Fig. 55: Non-glandular trichome from abaxial surface of bracteole. Figs. 56, 58: Non-glandular trichomes from adaxial surface of bracteole. Fig. 57: Capitate glandular trichome from adaxial surface of calyx. Figs. 59, 60: Non-glandular trichomes from abaxial surface of calyx. Figs. 61, 62: Non-glandular trichomes from adaxial surface of calyx. Figs. 63, 74: Non-glandular trichomes from edge of corolla lobe. Fig. 64: Long stalked capitate glandular trichome from abaxial surface of corolla lobe. Fig. 65: Long stalked capitate glandular trichome from inner part of corolla tube. Figs. 66, 69: Calyx abaxial epidermis from terminal portion with uneven feeble striations and stoma. Fig. 67: Calyx abaxial epidermis from lower portion. Fig. 68: Calyx adaxial epidermis from terminal portion. Fig. 70: Calyx abaxial epidermis from lower portion with striations. Fig. 71: Calyx adaxial epidermis from lower portion. Fig. 72: Outer part of corolla tube near lobe showing epidermis. Fig. 73: Long non-glandular trichome from inner part of corolla tube

ABSTRACT

The history of herbal medicines is as old as human civilization. In recent times there has been a global trend towards herbal medicines. Many of the botanical, chemical techniques employed in pharmacognosy, quality control of crude drug and its pharmaceuticals can be attempted by different methods of evaluation and one of them is morphological and microscopical studies of crude drug.

Screen Shot 2018-09-11 at 16.12.20
Fig. 75: Outer part of corolla tube showing epidrmis. Fig. 76: Inner part of corolla tube showing epidrmis. Fig. 77: Arrangement of non-glandular trichomes on filament. Fig. 78: Corolla lobe abaxial epidermis and stomata. Fig. 79: Corolla lobe adaxial epidermis. Fig. 80: Fruit epidermis with cuticular striations and stomata. Figs. 81, 82: Non-glandular trichomes from filament

In present study pharmacognostical characterization of Clerodendrum serratum (L.) Moon. (Verbenaceae) is attempted which is a medicinal shrub with delightful blooms useful for broad array of ailments from fever to snake bite.

The study includes microscopic study of young stem, vessel elements, petiole-both qualitative and quantitative characters, leaf architecture, leaf constants like stomatal frequency, index number of epidermal cells, their types, vegetative and floral trichomes and epidermal features as anatomical characters are fixed and hence reliable.

Stomata in some Clerodendrum species (Verbenaceae)

Screen Shot 2018-09-11 at 15.43.41
1. Clerodendrum aculeatum: 1. adaxial epidermis, 2. abaxial epidermis; 11-12 non- glandular trichome; 19, scale; 29,30 glandular trichomes. 2. Clerodendrum inerme: 3 adaxial epidermis, 4 abaxial epidermis; 13,14 non- glandular trichomes; 20 scale; 31, 32 glandular trichomes. 3. Clerodendrum philippinum: 5 adaxial epidermis, 6 abaxial epidermis; 15,16,17 non- glandular trichomes; 21, 22,23 scales; 33, 34 glandular trichomes. 4. Clerodendrum serratum: 7 adaxial epidermis, 8 abaxial epidermis; 18 non- glandular trichomes; 24 scales; 35 glandular trichomes. 5. Clerodendrum splendens: 9 adaxial epidermis, 10 abaxial epidermis; 25,26,27 scales; 36,37 glandular trichomes

 

Foliar epidermal studies in some Clerodendrum species (Verbenaceae)

by Bangar M. A., Padamwar S. B., Patil S. S., Dhembre A. B. (2011)

M.A. BANGAR, Department of Botany, Netaji Subhaschendra Bose College of Arts, Commerce and Science, NANDED (M.S.) INDIA

S.B. PADAMWAR, Department of Botany, Netaji Subhash Chandra Bose, College of Arts, Commerce and Science, NANDED (M.S.) INDIA

S.S. PATIL AND A.B. DHEMBRE, Department of Botany, Sharadchandra Mahavidhyalaya, Naigaon, NANDED (M.S.) INDIA

===

in International Journal of Plant Sciences 6(2): 243-246 –

http://www.researchjournal.co.in/upload/assignments/6_243-246.pdf

SUMMARY

The five species of Clerodendrum have been investigated for epidermal structure. The walls of the epidermal cells are sinuous. The abaxial epidermis shows more sinuous nature in same species. The culticular striations are noted in C. inerme on lower epidermis. The leaves are hypostomatic but in C. philippinum is amphistomatic.

The stomata are present on both the surfaces. However, the stomatal number is less on the adaxial surface. The stomata are mostly anomocytic. Anisocytic, diacytic and tetracytic types also occur. The diacytic stomata are dominant in C. serratum.

Both glandular trichomes are sessile and occur in the form of scales. In C. aculeatum, variation is seen in the structure of scales.

Stomata in Sterculiaceae and Verbenaceae

Screen Shot 2018-09-11 at 10.25.08

 

Comparative anatomical studies of the stomatal patterns of some tree species of Sterculiaceae and Verbenaceae in Nigeria

by Ajuziogu G. C., Ejeagba P. O., Nwafor F. L., Ayogu V. O., Nweze A. E., Asuzu C. U., Egonu S. N. (2018)

Screen Shot 2018-09-11 at 10.19.04

===

in Pakistan Journal of Botany 50(2) –

https://www.researchgate.net/publication/323662587_Comparative_anatomical_studies_of_the_stomatal_patterns_of_some_tree_species_of_sterculiaceae_and_verbenaceae_in_Nigeria

Screen Shot 2018-09-11 at 10.26.48

Abstract and figures
Leaf epidermal preparations of seven species within the Sterculiaceae and Verbenaceae were examined with light microscope to determine stomata patterns and other features of taxonomic importance.
Screen Shot 2018-09-11 at 10.29.09
Impression technique was conducted on freshly harvested leaves to reveal important foliar epidermal characters.
The stomata size, index and cell wall thickness were measured following standard procedures. Stomata were only seen in the abaxial surface of all the species, with four types observed; anomocytic, paracytic, diacytic and anisocytic. Anomocytic type was recorded for Duranta erecta, Tectonia grandis and Vitex doniana while Gmelina arborea had diacytic type.
Sterculiaceae species showed anomocytic in Cola gigantea, anisocytic in Theobroma cacao and paracytic in Cola rostrata.
Stomata sizes, numbers and epidermal cells varied across the families. Stomatal size, index and wall thickness varied greatly within the species. Variations and similarities observed in the stomatal features provide evidence of the genetic and evolutionary relationships and therefore are of taxonomic importance.

Stomata in Lantana, Verbena and Vitex (Verbenaceae)

Screen Shot 2018-09-11 at 09.52.11
Fig. 1. Light micrographs of leaves: (A)- macroshiars and glands of L. camara (adaxial surface 100 x), (B)- Stomata, macrohairs and glands of L. indica (adaxial surface 200 x), (C)- cacrohairs and glands of Ver. bonariensis (abaxial surface 200 x), (D)- Stomata and trichome of Ver. officinalis (adaxial surface 100 x), (E)- macrohairs, stomata and epidermal cells of Ver. bipinatifida (adaxial surface 200 x), (F)- macrohairs, stomata and glands of Ver. hybrida (adaxial surface 100 x), (G)- Glands of V. negundo (abaxial surface 200 x), (H)- microhairs and glands of V. trifolia (adaxial surface 200 x)

 

Leaf Epidermal Anatomy as an Aid to the Identification of Genera Lantana, Verbena and Vitex of Family Verbenaceae from Pakistan

by Munsif S., Khan M., Ahlad M., Zafar M., Shah G. M., Shaheen N. (2007)

Screen Shot 2018-09-11 at 09.46.40

===

in Journ. Agric. & Soc. Sci. 1813-2235/2007/03-2-43-46 –

https://www.researchgate.net/publication/242234102_Leaf_Epidermal_Anatomy_as_an_Aid_to_the_Identification_of_Genera_Lantana_Verbena_and_Vitex_of_Family_Verbenaceae_from_Pakistan

ABSTRACT

Abaxial and adaxial leaf epidermal anatomy of eight species of Verbenaceae was studied based on leaf epidermal characters of Lantana camara, L. indnca, Verbena bonariensis, Ver. officinalis, Ver. bipinnatifida, Ver. hybrida, Vitex negundo and V. trifolia.

These species showed variations in stomata types and size, epidermal cell shape size and trichomes shape. Most of the characters especially trichomes were diagnostic and used for distinguishing taxa.

Trichomes were mostly macrohair but on adaxial surface of Ver. bonariensis and both the surfaces of V. negundo and abaxial surface of V. trifolia microhair were also observed. Macrohair (197 x 24 μm) were observed in Ver. hybrida and glandular hairs were also seen. Microhairs (12 x 12 μm) were noted in V. negundo.

Glandular hairs were observed in L. camara, Ver.bonariensis, V. negundo and V. trifolia. Trichomes were well segmented in Vitex spp. Trichomes of L. camara on abaxial surface had aggregates of 5 basal-cells, in L. indica there was just one basal, while in L. indica they were different from that of L. camara being broader at the base and swollen little bit before tip.

Leaf epidermal anatomy was found taxonomically useful in the identification at the generic and species level.

Stomata in Verbena

Screen Shot 2018-09-11 at 09.27.51
Figure 1  Leaf surface of Verbena native species of Buenos Aires province. A, Adaxial epidermis of V. bonariensis (SEM). B, Abaxial epidermis of V. bonariensis (SEM). C, Anomocytic stomatal apparatus, adaxial epidermis of V. bonariensis (SEM). D, Adaxial epidermis of V. bonariensis (SEM). E, Adaxial epidermis of V. montevidensis (LM). F, Vascularization, abaxial epidermis of V. rigida (LM). Abbreviations: g, glandular trichomes; LM, Light Microscopy; ng, nonglandular trichomes; s, stomata; SEM, scanning electron microscopy. Bars: A, B, F, 200 µm. C, D, E, 50 µm.

 

Stem and leaf anatomy of six species of Verbena native to Buenos Aires province, Argentina

by Rodríguez Morcelle M, Gattuso M. A., Apóstolo N. M. (2012)

M. Rodríguez Morcelle, M. A. Gattuso N. M. Apóstolo,

===

in New Zealand Journal of Botany 50( 1) – https://doi.org/10.1080/0028825X.2011.616209 –

https://www.tandfonline.com/doi/full/10.1080/0028825X.2011.616209

 

There are 21 species of Verbena L. in Argentina, six of which are found in the Buenos Aires province: Verbena gracilescens (Cham.) Verter; V. bonariensis L.; V. intermedia Gillies and Hook; V. litoralis Kunth; V. montevidensis Spreng. and V. rigida Spreng.

These species are used in popular medicine for their hepatoprotective, digestive, anti-inflammatory, antidiarrheal and healing properties. The stems and leaves of these species were fixed and transverse sections were cut for observation with a light microscope in order to differentiate their anatomical features.

Likewise a scanning electron microscope and an environmental scanning electron microscope were used to study the leaf surface of these species. The type and density of stomata and glandular and nonglandular trichomes were analysed in all species, as well as the internal structure of the leaf and stem.

The Verbena species of Buenos Aires province have been characterized using these features to help in their identification.