scholarly journals Osmophores of Amorphophallus rivieri Durieu (Araceae)

2014 ◽  
Vol 64 (2) ◽  
pp. 121-129 ◽  
Author(s):  
Elżbieta Weryszko-Chmielewska ◽  
Małgorzata Stpiczyńska
Keyword(s):  
Neutral Red ◽  
Middle Part ◽  
Tissue Structure ◽  
Structure Characteristic ◽  
Starch Grains ◽  
Adaxial Surface ◽  
Gland Tissue ◽  
Characteristic Odour

The undertaken investigations (SEM, LM) concentrated on the distribution and the anatomy of osmophores emitting a characteristic odour of inflorescence of <i>Amorphophallus rivieri</i> Durieu. The osmophores situated at the top part of spadix (appendix), secreted a strong fragrance during the whole period of blooming, whereas those located on the stamens, in the apical and in the middle part of the spatha produced a weaker smell. The fragrance at the basis of spatha was undetectable although both the secretion and the tissue structure characteristic for osmophores located on the adaxial surface of the remaining part of the spatha were observed. The gland tissue consisted of the epidermis and of several layers of subepidermal parenchyma. The epidermis was covered by a thin, striated cuticle or sticks of wax. Moreover, there was also a small number of stomata covered with a smooth cuticle. The cells of osmophores stained intensively with neutral red. They contained numerous lipid drops, which presumably are carriers of the secreted fragrance substances. The cells of subepidermal layers were filled up with starch grains in the appendix and stamens. A considerable quantity of starch was also observed in the deeper layers of parenchyma in the spatha. The pattern of osmophores distribution corresponds with the localization of these inflorescence fragments, which emit heat, as showed in the literature.

scholarly journals Ultrasound evaluation of the mammary gland tissue structure in preparturient heifers

2004 ◽  
Vol 13 (Suppl. 2) ◽  
pp. 7-10 ◽  
Author(s):  
J. Strzetelski ◽  
K. Bilik ◽  
B. Niwińska ◽  
G. Skrzyński ◽  
E. Łuczyńska
Keyword(s):  
Mammary Gland ◽  
Tissue Structure ◽  
Mammary Gland Tissue ◽  
Ultrasound Evaluation ◽  
Gland Tissue

Les nectaires extrafloraux pédicellés chez l’Ailanthus glandulosa

1983 ◽  
Vol 61 (3) ◽  
pp. 683-691 ◽  
Author(s):  
Danielle Clair-Maczulajtys ◽  
Gérard Bory
Keyword(s):  
Vascular System ◽  
Leaf Primordia ◽  
Extrafloral Nectaries ◽  
Tissue Structure ◽  
Close Connection ◽  
Adaxial Surface ◽  
Apical Pore

Extrafloral nectaries are present on the first leaves appearing when the buds open. Located at the base of the petiole, they are stalked and have an apical pore. They are initiated early on the margins of leaf primordia. These organs are interpreted as reduced stipules consisting of one axis with its vascular system with the extremity occupied by a nectary. A viscous and clear nectar is extruded from the pore. Without vascularization, there is never an apical gland. Stalked nectaries are also observed on the adaxial surface of the lamina. Described as teratological events, they correspond to the deviation of a vein perpendicular to the plane of the leaf. For aerial organs these nectaries show clearly the close connection between the vascular system and the glandular extremity. The tissue structure of these stalked nectaries is similar to that of the marginal nectaries. The morphological and physiological signification of these structures is discussed.

Transmission Electron Microscopy Studies of Pore Cells in Limax Maximus

1977 ◽  
Vol 35 ◽  
pp. 656-657
Author(s):  
B. S. Beltz
Keyword(s):  
Electron Microscopy ◽  
Cell Periphery ◽  
Salivary Duct ◽  
Terrestrial Mollusc ◽  
Buccal Ganglia ◽  
Transmission Electron ◽  
Pore Cells ◽  
Gland Tissue ◽  
Storage Area ◽  
Limax Maximus

The cells which are described in this study surround the salivary nerve of the terrestrial mollusc, Limax maximus. The salivary system of Limax consists of bilateral glands, ducts, and nerves. The salivary nerves originate at the buccal ganglia, which are situated on the posterior face of the buccal mass, and run along the salivary duct to the gland. The salivary nerve branches several times near the gland, and eventually sends processes into the gland.The pore cells begin to appear at the first large branch point of the salivary nerve, near the gland (Figure 1). They follow the nerve distally and eventually accompany the nerve branches into the gland tissue. The cells are 20-50 microns in diameter and contain very small nuclei (1-5 microns) (Figure 2).The cytoplasm of the pore cells is segregated into a storage area of glycogen and an organelle region located in a band around the cell periphery (Figure 3).

X-ray microtomography

1988 ◽  
Vol 46 ◽  
pp. 998-999
Author(s):  
H.W. Deckman ◽  
B.F. Flannery ◽  
J.H. Dunsmuir ◽  
K.D' Amico
Keyword(s):  
Computed Tomography ◽  
Internal Structure ◽  
Imaging Technique ◽  
Three Dimensional ◽  
Tissue Structure ◽  
Individual Element ◽  
X Ray ◽  
Non Invasive ◽  
Panoramic Imaging ◽  
Three Dimensional Images

We have developed a new X-ray microscope which produces complete three dimensional images of samples. The microscope operates by performing X-ray tomography with unprecedented resolution. Tomography is a non-invasive imaging technique that creates maps of the internal structure of samples from measurement of the attenuation of penetrating radiation. As conventionally practiced in medical Computed Tomography (CT), radiologists produce maps of bone and tissue structure in several planar sections that reveal features with 1mm resolution and 1% contrast. Microtomography extends the capability of CT in several ways. First, the resolution which approaches one micron, is one thousand times higher than that of the medical CT. Second, our approach acquires and analyses the data in a panoramic imaging format that directly produces three-dimensional maps in a series of contiguous stacked planes. Typical maps available today consist of three hundred planar sections each containing 512x512 pixels. Finally, and perhaps of most import scientifically, microtomography using a synchrotron X-ray source, allows us to generate maps of individual element.

Transfer of Neutral Red into the Stomach

1958 ◽  
Vol 35 (4) ◽  
pp. 357-368 ◽  
Author(s):  
V. Varró ◽  
T. Jávor
Keyword(s):  
Neutral Red

Status of nondestructive control of transport function metal products at JSC EVRAZ NTMK

2020 ◽  
Vol 76 (6) ◽  
pp. 586-590
Author(s):  
S. P. Bersenev ◽  
E. M. Slobtsova
Keyword(s):  
Crack Detection ◽  
Middle Part ◽  
Control Line ◽  
Magnetic Powder ◽  
Nondestructive Control ◽  
Automated Control ◽  
Ultrasonic Control ◽  
Acoustic Contact ◽  
In Series

Achievements in the area of automated ultrasonic control of quality of rails, solid-rolled wheels and tyres, wheels magnetic powder crack detection, carried out at JSC EVRAZ NTMK. The 100% nondestructive control is accomplished by automated control in series at two ultrasonic facilities RWI-01 and four facilities УМКК-1 of magnetic powder control, installed into the exit control line in the wheel-tyre shop. Diagram of location, converters displacement and control operations in the process of control at the facility RWI-01 presented, as well as the structural diagram of the facility УМКК-1. The automated ultrasonic control of rough tyres is made in the tyres control line of the wheel-tyre shop at the facility УКБ-1Д. The facility enables to control internal defects of tyres in radial, axis and circular directions of radiation. Possibilities of the facility УКБ-1Д software were shown. Nondestructive control of railway rails is made at two facilities, comprising the automated control line of the rail and structural shop. The УКР-64Э facility of automated ultrasonic rails control is intended to reveal defects in the area of head, web and middle part of rail foot by pulse echo-method with a immersion acoustic contact. The diagram of rail P65 at the facility УКР-64Э control presented. To reveal defects of the macrostructure in the area of rail head and web by mirror-shadow method, an ultrasonic noncontact electromagnetic-acoustic facility is used. It was noted, that implementation of the 100% nondestructive control into the technology of rolled stuff production enabled to increase the quality of products supplied to customers and to increase their competiveness.

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