Relevant bibliographies by topics / Vascular bundles

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
  6. Reports

Academic literature on the topic 'Vascular bundles'

Author: Grafiati
Published: 2 June 2025
Last updated: 19 July 2025

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Journal articles on the topic "Vascular bundles"

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Fishchuk, O. S. "МОРФОЛОГІЯ ТА ВАСКУЛЯРНА АНАТОМІЯ КВІТКИ ZEPHYRANTHES CITRINA BAKER. (AMARYLLIDACEAE J. ST.-HIL.)". Scientific Issue Ternopil Volodymyr Hnatiuk National Pedagogical University. Series: Biology 81, № 4 (2022): 10–16. http://dx.doi.org/10.25128/2078-2357.21.4.2.

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In the gynoecium of Zephyranthes citrina Baker. there are synascidiate, symplicate, and hemisymplicate vertical zones. The longest zone is the fertile hemisymplicate zone and the shortest one is the sterile synascidiate zone in the ovary. It was determined that in Z. citrina the peduncle consists of 12 vascular bundles, which gather above the center in a dense circle, but do not form a vascular cylinder, and at the level of receptacle septal vascular bundles and dorsal vascular bundles depart, from which above traces of tepal depart. Dorsal and septal vascular bundles of the carpel are two-bun
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Tsuyama, Taku, Kensei Hamai, Yoshio Kijidani, and Junji Sugiyama. "Quantitative morphological transformation of vascular bundles in the culm of moso bamboo (Phyllostachys pubescens)." PLOS ONE 18, no. 9 (2023): e0290732. http://dx.doi.org/10.1371/journal.pone.0290732.

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Vascular bundles of bamboo are determinants for mechanical properties of bamboo material and for physiological properties of living bamboo. The morphology of vascular bundles reflecting mechanical and physiological functions differs not only within internode tissue but also among different internodes in the culm. Although the distribution of vascular bundle fibers has received much attention, quantitative evaluation of the morphological transformation of vascular bundles associated with spatial distribution patterns has been limited. In this study deep learning models were used to determine qu
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Sima, SN, AK Roy, and N. Joarder. "Erect culm internodal anatomy and properties of sun ecotype of Imperata cylindrica (L.) P. Beauv." Bangladesh Journal of Botany 44, no. 1 (2015): 67–72. http://dx.doi.org/10.3329/bjb.v44i1.22725.

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Internodal anatomy of Imperata cylindrica (L.) P. Beauv. was described in this paper. Culm internodes were completely encircled by leaf sheath. Peripheral vascular bundles were many in number and small in size. Central bundles were large in size and a few in number. Large bundles were of various sizes and vascular tissues well developed. Each vascular bundle had strong mass of sclerenchyma tissue arching over the phloem in the form of phloem hood. Small bundles were poorly developed in respect of vascular tissue. A small percentage of vascular bundle consisted of phloem tissue only fundamental
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Al-dabbagh, S. T. S. "ANATOMICAL VARIATIONS OF LEAVES PETIOLES IN SOME TAXA OF THE GENUS TRIFOLIUM L. (FABACEAE) IN IRAQ." IRAQI JOURNAL OF AGRICULTURAL SCIENCES 53, no. 4 (2022): 867–77. http://dx.doi.org/10.36103/ijas.v53i4.1599.

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This study was conducted on the 22 taxa of the genus Trifolium L. which grow naturally as wild plants in all geographical districts in Iraq. A comparative study of the leaf petioles was anatomically examined by paraffin method. Petiole cross-section outline shapes have divided the genus species into fourteen groups and sub-groups. According to the microscopical characteristics the cortex of petioles showed to contain layers of various tissues, the collenchyma tissue observed sub-epidermally in some species, and cortexes of the others were devoid of collenchyma. The sclerenchyma strands were no
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Sima, SN, AK Roy, MT Akther, and N. Joarder. "Cross-sectional anatomy of leaf blade and leaf sheath of cogon grass (Imperata cylindrica L.)." Journal of Bio-Science 25 (July 18, 2018): 17–26. http://dx.doi.org/10.3329/jbs.v25i0.37494.

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Histology of leaf blade and sheath of cogon grass (Imperata cylindrica L.) Beauv., indicated typical C4 Kranz anatomy. Cells of adaxial epidermis were smaller and bulliform cells were present on the adaxial epidermis. The shape of bulliform cells was bulbous; 3-7 cells were present in a group and 3-5 folds larger than epidermal cells. Three types of vascular bundles in respect of size and structure were extra large, large and small and they were part of leaf blade histology. These three sizes of vascular bundles were arranged in successive manner from midrib to leaf margin. Leaf sheath bundles
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Huang, Dong Sheng, Ai Ping Zhou, Hai Tao Li, Yi Su, and Guo Chen. "Experimental Study on the Tensile Properties of Bamboo Related to its Distribution of Vascular Bundles." Key Engineering Materials 517 (June 2012): 112–17. http://dx.doi.org/10.4028/www.scientific.net/kem.517.112.

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Considering bamboo as a 2-phase natural composite made up of vascular bundles (reinforcement or fiber) and matrixes (ground tissues) on the scale of micromechanics. By test of bamboo specimens and analysis of microscopic images of their cross sections, the distribution of vascular bundles along the axial and radial of bamboo culm were investigated. The relations between tensile properties of bamboo and its distribution of vascular bundles were studied. The results show that the vascular bundles are graded distributing along the radius of bamboo culm. The volume fraction of vascular bundles is
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Pizzolato, Thompson Demetrio. "Vascular system of the floret of Phleum pratense." Canadian Journal of Botany 66, no. 9 (1988): 1818–29. http://dx.doi.org/10.1139/b88-248.

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Two bundles occur in the rachilla at the floret base. The anterior bundle supplies the vascular tissue for the lemma median trace, and the posterior supplies that for its two extreme laterals. The intermediate laterals of the lemma connect at the anterior bundle, and the two palea traces join near the posterior bundle to the traces for the extreme lemma laterals. Near these connections sieve elements of the two rachilla bundles link, forming the lower component of the sieve-element plexus. The xylem discontinuity begins above the anterior bundle. An upper, circular component of the sieve-eleme
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Zhao, Peng, Kangjian Zhang, Liang Zhou, et al. "Comparative Study on Vascular Bundle Morphological Characteristics of Parts of Branches, Culms, and Rhizomes of Oligostachyum sulcatum." Forests 15, no. 10 (2024): 1752. http://dx.doi.org/10.3390/f15101752.

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This study presents a comprehensive analysis of the vascular bundle morphology, tangential and radial diameters, and distribution frequency of different parts of Oligostachyum sulcatum, elucidating their structural and functional significance. Electron microscopy images revealed distinct vascular bundle characteristics in the different parts, including the vascular bundles in both parts of the rhizomes, the middle parts of the internodes, and the middle and inner parts of the branches, which were semi-open. The vascular bundles in the outer parts of both internodes and branches were semi-diffe
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Guo, Shangjing, Guoliang Zhou, Jinglu Wang, et al. "High-Throughput Phenotyping Accelerates the Dissection of the Phenotypic Variation and Genetic Architecture of Shank Vascular Bundles in Maize (Zea mays L.)." Plants 11, no. 10 (2022): 1339. http://dx.doi.org/10.3390/plants11101339.

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The vascular bundle of the shank is an important ‘flow’ organ for transforming maize biological yield to grain yield, and its microscopic phenotypic characteristics and genetic analysis are of great significance for promoting the breeding of new varieties with high yield and good quality. In this study, shank CT images were obtained using the standard process for stem micro-CT data acquisition at resolutions up to 13.5 μm. Moreover, five categories and 36 phenotypic traits of the shank including related to the cross-section, epidermis zone, periphery zone, inner zone and vascular bundle were a
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Rajput, Kishore Shankarsinh, and Vidya Shivram Patil. "Structure and development of cortical bundles in Couroupita guianensis Aubl. (Lecythidaceae)." Anales de Biología, no. 38 (June 27, 2016): 95–102. http://dx.doi.org/10.6018/analesbio.38.10.

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El desarrollo de haces corticales, en ramas y pedúnculos de Couroupita guianensis (Lecythidaceae), comienza cerca del meristemo apical concomitante con los haces vasculares normales. Cada haz cortical llega a estar rodeado por una vaina de fibras que, a menudo, mostraba la presencia de una capa gelatinosa (fibras G). A medida que avanza el crecimiento, cada haz se puede dividir en dos o tres haces. Algunos de los haces son mayores y muestran elementos vasculares bien diferenciados debido a su asociación con frutos en desarrollo, mientras que los más pequeños, con pocos vasos, pueden ser trazas
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Dissertations / Theses on the topic "Vascular bundles"

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Krempser, Paula. "Trauma vascular periférico em urgência: impacto após implantação de bundle." Universidade Federal de Juiz de Fora, 2014. https://repositorio.ufjf.br/jspui/handle/ufjf/773.

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Submitted by Renata Lopes (renatasil82@gmail.com) on 2016-02-17T16:22:42Z No. of bitstreams: 1 paulakrempser.pdf: 3199319 bytes, checksum: 0c2d5739e26106f9b0a2def014ce4092 (MD5)<br>Approved for entry into archive by Adriana Oliveira (adriana.oliveira@ufjf.edu.br) on 2016-02-26T13:08:53Z (GMT) No. of bitstreams: 1 paulakrempser.pdf: 3199319 bytes, checksum: 0c2d5739e26106f9b0a2def014ce4092 (MD5)<br>Approved for entry into archive by Adriana Oliveira (adriana.oliveira@ufjf.edu.br) on 2016-02-26T13:09:14Z (GMT) No. of bitstreams: 1 paulakrempser.pdf: 3199319 bytes, checksum: 0c2d5739e26106f9b
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Rodríguez, Aparicio Silvia. "Barreras y facilitadores en el cumplimiento de la care bundle en dispositivos de acceso vascular." Doctoral thesis, Universitat de Lleida, 2020. http://hdl.handle.net/10803/668734.

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Finalitat: identificar barreres i facilitadors en el compliment de la care bundle (paquets d’atenció al pacient) per dissenyar una intervenció formativa i adequada per disminuir les complicacions en dispositius d’accés vascular. Mètode: estudi comparatiu pre-postintervenció amb dades independents. Participants: metges i infermeres de l’Hospital Arnau de Vilanova de Lleida. Instrument: qüestionari amb ítems sobre: organització del servei, lideratge i el protocol hospitalari. Anàlisi: variables quantitatives descrites mitjançant mitjana, desviació típica i mediana; i categòriques amb freqüènc
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Windsor-Collins, Andrea Grace. "Resolving the morphological and mechanical properties of palm petioles : shape analysis methods for symmetric sections of natural form." Thesis, Brunel University, 2016. http://bura.brunel.ac.uk/handle/2438/13722.

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Palms support the largest leaves in the world and have evolved on Earth for over 120 million years. They are often reported to be the only structure left standing post-hurricane. Cross-sectional shapes of cantilevered structures are important design factors affecting torsional and bending performance. Understanding the shape contribution of natural sections such as palm petioles (modified leaf stalks) is more difficult than those for simple 2D shapes because conventional methods of calculating section properties are not well suited to these irregular shapes. The role of internal structure, mat
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Peschaud, Frédérique. "Innervation pelvi-périnéale : étude anatomique et immuno-histochimique avec reconstruction tridimensionnelle chez le foetus et l’adulte féminin. Applications chirurgicales lors des protectomies pour cancer." Thesis, Paris 11, 2011. http://www.theses.fr/2011PA11T027.

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Introduction : Le système nerveux autonome (SNA) est en situation supralévatorienne, le système somatique en situation infra lévatorienne. Le sympathique assurerait les fonctions de sécrétion et le parasympahtique, les fonctions dʼérection. Le rectum est en rapport étroit avec ces éléments nerveux. La protectomie avec exérèse totale du mésorectum pour cancer est associée à des séquelles sexuelles par lésion iatrogène des nerfs pelviens.Objectifs : Étudier la physiologie et lʼanatomie topographique et structurelle de l'innervation pelvipérinéale Matériels et méthodes : Cinq pelvis de foetus et
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Wang, Yi-Hsiang, and 王奕翔. "Automatic Detection of Vascular Bundles and Corolla Contour in 3D Floral Image." Thesis, 2018. http://ndltd.ncl.edu.tw/handle/9zt248.

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碩士<br>國立臺灣大學<br>生物產業機電工程學研究所<br>106<br>Corolla shape variation is an interesting theme for researchers. Three-dimensional (3D) images of corollas retain genuine information of the corollas and are optimum for studying corolla shape variation. However, labeling landmarks, which define the shape of a corolla, in a 3D image is labor-intensive. This study proposed a method to automatically detect the first-order veins and corolla contours in 3D corolla images. This study also examines the relationship between corolla shapes and pollinators for genus Sinningia. In the study, 3D images of 130 specim
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Kuan, Chen-Meng, and 官振盟. "Vascular Bundle Platform Development in Biochemical Detections." Thesis, 2013. http://ndltd.ncl.edu.tw/handle/33188897426450990039.

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Botha, C. E. J., R. H. M. Cross, Bel A. J. E. Van, and C. I. Peter. "Phloem loading in the sucrose-export-defective (SXD-1) mutant maize is limited by callose deposition at plasmodesmata in bundle sheath-vascular parenchyma interface." 2000. http://hdl.handle.net/10962/d1005926.

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Using Lucifer Yellow we have demonstrated that the phloem-loading pathway from the mesophyll to the bundle sheath-vascular parenchyma interface in Zea mays source leaves follows a symplasmic route in small and intermediate vascular bundles in control as well as in the green sections of mutant sucrose-export-defective (SXD-1) plants. In the anthocyanin-rich mutant leaf sections, Lucifer Yellow transport was prohibited along the same path, at the bundle sheath-vascular parenchyma interface in particular. Plasmodesmata at the latter interface in SXD-1 anthocyanin-rich leaf sections appear to be s
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Books on the topic "Vascular bundles"

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Pierard, Luc A., and Lauro Cortigiani. Stress echocardiography: diagnostic and prognostic values and specific clinical subsets. Oxford University Press, 2016. http://dx.doi.org/10.1093/med/9780198726012.003.0015.

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Stress echocardiography is a widely used method for assessing coronary artery disease, due to its high diagnostic and prognostic value. While inducible ischaemia predicts an unfavourable outcome, its absence is associated with a low risk of future cardiac events. The method provides superior diagnostic and prognostic information than standard exercise electrocardiography and perfusion myocardial imaging in specific clinical subsets, such as women, hypertensive patients, and patients with left bundle branch block. Stress echocardiography allows effective risk assessment also in the diabetic pop
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Book chapters on the topic "Vascular bundles"

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van Boxtel, Ton, and Toine Hulshof. "Right Bundles for Infection Prevention and Safety." In Vessel Health and Preservation: The Right Approach for Vascular Access. Springer Nature Switzerland, 2024. https://doi.org/10.1007/978-3-031-48576-3_23.

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Krähmer, Hansjörg. "Stem and vascular bundle modifications." In Atlas of Weed Mapping. John Wiley & Sons, Ltd, 2016. http://dx.doi.org/10.1002/9781118720691.ch27.

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Yajima, Hiroshi, Susumu Tamai, Shigeru Mizumoto, Hiroshi Ono, and Yuji Inada. "Treatment of Kienböck’s Disease with Vascular Bundle Implantation and Triscaphe Arthrodesis." In Wrist Disorders. Springer Japan, 1992. http://dx.doi.org/10.1007/978-4-431-65874-0_12.

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de la Fuente-Arriaga, José Abel, Edgardo Manuel Felipe-Riverón, and Eduardo Garduño-Calderón. "Detection of Human Retina Images Suspect of Glaucoma through the Vascular Bundle Displacement in the Optic Disc." In Advances in Artificial Intelligence and Its Applications. Springer Berlin Heidelberg, 2013. http://dx.doi.org/10.1007/978-3-642-45114-0_41.

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"Vascular Bundles." In Weed Anatomy. Wiley-Blackwell, 2013. http://dx.doi.org/10.1002/9781118503416.ch13.

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"Vascular Bundles and Leaf Traces in Dicots." In Weed Anatomy. Wiley-Blackwell, 2013. http://dx.doi.org/10.1002/9781118503416.ch21.

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Kapoor, L. D. "Constitution of Amphicribral Vascular Bundles in Capsule." In Opium Poppy. CRC Press, 2020. http://dx.doi.org/10.1201/9781003075356-7.

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Rabai, Ferenc, Michol A. Cooper, and Derek B. Covington. "Postoperative Management of Vascular Surgery Patients and Complications." In Vascular Anesthesia Procedures. Oxford University Press, 2021. http://dx.doi.org/10.1093/med/9780197506073.003.0017.

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Vascular surgery carries an increased risk of a variety of complications in the immediate and extended postoperative periods. Major vascular operations, such as thoracoabdominal aortic aneurysm repairs and limb revascularizations, are commonly associated with prolonged operative time, ischemic reperfusion injuries, large blood losses, and systemic inflammatory response syndrome. Additionally, vascular patients usually present with a high burden of comorbidities. These factors increase the risk of multiple organ systems failing postoperatively. Myocardial injury, postoperative pulmonary complications, acute kidney injury, and neurovascular complications are relatively common and have been shown to increase morbidity and mortality. Close monitoring and an appropriate level of care ensure a safe transition into the postoperative phase. Recent data suggest that risk stratification with modern diagnostic tools and laboratory tests using sensitive biomarkers play pivotal roles in the early detection of deteriorating organ function and initiation of timely intervention. Evidence-based postoperative management guidelines and care bundles (e.g., prehabilitation, enhanced screening for myocardial injury, lung-protective ventilator management, kidney protection strategies, and enhanced recovery protocols) show promise in preventing, mitigating, and effectively treating complications with an overarching goal of optimizing postoperative outcomes and ensuring that patients recover successfully.
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Tomlinson, P. B. "Vascular development." In The Structural Biology of Palms. Oxford University PressOxford, 1990. http://dx.doi.org/10.1093/oso/9780198545729.003.0008.

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Abstract Having deciphered the method of construction of the vascular system in palm stems, it is necessary to understand the principle of development. This requires an analysis of the origin of the vascular bundles in the palm crown as they connect to the developing leaves, initially, as procambial strands and, subsequently, as the provascular system that serves as a template for the differentiation of xylem and phloem. The extent of this analysis is considerable, even in a small palm, since tissues mature progressively over long distances. Figure 8.1, for example, shows a scale diagram of the developing region of a Rhapis stem, used in the detailed plots described later. Incompletely differentiated regions are hatched. The region is divided into two segments, the crown proper and the lower extending portion. The crown includes a portion of the axis and the base of attached leaves. Leaves and associated internodes are unextended. The size of the crown depends on the vigour of the shoot. A series of stained paraffin section is used to plot the course of individual bundles (e.g. Figs 8.2, 8.9) by the optical method described in Zimmermann and Tomlinson (1967). The lower segment represents the axis below the level of insertion of the youngest visible expanded leaf (1) with each internode below the first four leaves (1-4) still extending. This longer segment is analysed in sequential sections cut from the unembedded stem by means of a sliding microtome. In this example internodes below leaf 5 onwards have reached their mature length, as determined largely by the existence of mature metaxylem. It should be emphasized that internodes are not of equal length, which is why older internodes can be drawn shorter than younger ones. One can conclude, and dye ascent experiments can verify, that leaves 1-4, all of which have expanded photosynthesizing blades, are supplied with water through protoxylem elements only, since their associated internode and part of the leaf base has still to complete maturation of metaxylem. The leaf trace system to any one expanded leaf can be located with complete precision prior to sectioning by allowing an aqueous dye (e.g. either decolourized gentian violet, or Schiff’s reagent) to be drawn through the petiole of a cut leaf by a slight vacuum applied to the cut stem surface—a dye descent experiment (Fig. 8.9). Major traces of a given leaf can then be recognized by the movement of the dye into their xylem elements.
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Tomlinson, P. B. "Vascular anatomy of the stem." In The Structural Biology of Palms. Oxford University PressOxford, 1990. http://dx.doi.org/10.1093/oso/9780198545729.003.0006.

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Abstract Palms, because of their simple architecture, provide ideal objects for the study of economy and efficiency in organic construction. They have unbranched axes, each of which supports a terminal tuft of appendages (leaves), each leaf supported by a basal sheath. The palm stem represents the reinforced concrete of the structural engineer (Fig. 6.1), since its tissues can be thought of as a series of axially-orientated vascular bundles (steel rods) embedded in a parenchymatous ground tissue (concrete matrix). Unlike the engineer’s reinforced concrete, the vascular bundles of the palm stem are not necessarily uniformly distributed, but usually concentrated toward the stem periphery for maximum efficiency. The stem of many palms has an additional mechanical feature, unfamiliar to human engineers, in that it can increase its stiffness with age. This is a very efficient way of growing because it means that the palm is not excessively overbuilt. It is as if an engineer could design a struture that becomes increasingly stronger directly as increasing strength is required. If the life span of the structure is shortened accidentally by some factor other than mechanical failure, the initial investment in the aborted structure is minimized. In terms of the palm tree this ‘saved’ investment can be diverted to more appropriate ecological events, such as growing in height, or in reproduction.
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Conference papers on the topic "Vascular bundles"

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C, Ambiga, and Sasi V. "Predictive Analytics Techniques for Enhancing Peripheral Vascular Catheter Care Bundles." In 2024 International Conference on Smart Technologies for Sustainable Development Goals (ICSTSDG). IEEE, 2024. https://doi.org/10.1109/icstsdg61998.2024.11026574.

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Hartono, Rudi, E. Erwinsyah, Zulfriden Siregar, Ihak Sumardi, Jajang Sutiawan, and Eni Suhesti. "Distribution vascular bundles and moisture content of oil palm trunk." In THE 4TH INTERNATIONAL CONFERENCE ON MATHEMATICS: EDUCATION, THEORY & APPLICATION (ICMETA) 2022. AIP Publishing, 2025. https://doi.org/10.1063/5.0242020.

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Nurul-Syahirah, M., T. Noraini, and A. Latiff. "Characterization of midrib vascular bundles of selected medicinal species in Rubiaceae." In THE 2016 UKM FST POSTGRADUATE COLLOQUIUM: Proceedings of the Universiti Kebangsaan Malaysia, Faculty of Science and Technology 2016 Postgraduate Colloquium. Author(s), 2016. http://dx.doi.org/10.1063/1.4966880.

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Lalayan, L. M. "GRAIN FILLING AND CHARACTERISTICS OF VASCULAR BUNDLES OF RICE PANICLES (REVIEW)." In INNOVATIVE DEVELOPMENT OF THE AGRO-INDUSTRIAL COMPLEX: NEW APPROACHES AND RELEVANT RESEARCH. Federal Scientific Rice Centre, 2024. http://dx.doi.org/10.33775/conf-2024-190-193.

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Noor-Syaheera, M. Y., T. Noraini, and A. P. Aida-Shafreena. "Systematic significance of midrib vascular bundles in some Schefflera Spreng (Araliaceae) species." In THE 2014 UKM FST POSTGRADUATE COLLOQUIUM: Proceedings of the Universiti Kebangsaan Malaysia, Faculty of Science and Technology 2014 Postgraduate Colloquium. AIP Publishing LLC, 2014. http://dx.doi.org/10.1063/1.4895293.

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Wang, Yi-Hsiang, Hao-Chun Hsu, Wen-Chieh Chou, and Yan-Fu Kuo. "<i>Automatically Identifying floral contours and vascular bundles in 3D images</i>." In 2018 Detroit, Michigan July 29 - August 1, 2018. American Society of Agricultural and Biological Engineers, 2018. http://dx.doi.org/10.13031/aim.201800390.

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Haslach, Henry W., Jonathan Chung, and Aviva Molotsky. "Fracture Mechanisms in Bovine Aorta." In ASME 2010 Summer Bioengineering Conference. American Society of Mechanical Engineers, 2010. http://dx.doi.org/10.1115/sbc2010-19366.

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Rupture of vascular tissue in the circulatory system under non-impact loading is involved in potentially life threatening events such as Marfan’s syndrome or rupture of small renal veins during shock wave lithotripsy. The rupture mechanisms are not well-understood. The complexity of the artery wall precludes the use of rupture theories invented for metals or for fibered composites with a homogeneous matrix. Artery tissue is composed of ground material, smooth muscle cells, elastin and collagen. The collagen fibers, which are generally circumferentially oriented, are the load carrying material
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Martufi, Giampaolo, T. Christian Gasser, and Martin Auer. "A Multi-Scale Collagen Turn-Over Model for Soft Biological Tissues With Application to Abdominal Aortic Aneurysm Growth." In ASME 2011 Summer Bioengineering Conference. American Society of Mechanical Engineers, 2011. http://dx.doi.org/10.1115/sbc2011-53076.

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Collagen is a structural protein responsible for the mechanical strength, stiffness and toughness of biological tissues like skin, tendon, bone, cornea, lung and vasculature. In the present study we considered the enlargement of the aneurysm as a consequence of a pathological degradation and synthesis of collagen, i.e. malfunction of collagen turn-over. Consequently, the vascular wall is modeled by an (inert) matrix material representing the elastin, which is reinforced by a dynamic structure of bundles of collagen. Specifically, collagen is formed by a continuous stress-mediated process: depo
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Shreiber, David I., Hailing Hao, and Ragi A. I. Elias. "The Effects of Glia on the Tensile Properties of the Spinal Cord." In ASME 2008 Summer Bioengineering Conference. American Society of Mechanical Engineers, 2008. http://dx.doi.org/10.1115/sbc2008-190184.

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Glia, the primary non-neuronal cells of the central nervous system, were initially believed to bind or glue neurons together and/or provide a supporting scaffold [1, 2]. It is now recognized that these cells provide specialized and essential biological and regulatory functions. Still, their contributions to the overall mechanical properties would also strongly influence the tissue’s tolerance to loading conditions experienced during trauma and potentially regulate of function and growth in neurons and glia [3, 4]. White matter represents an intriguing tissue to appreciate the role of glia in t
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Tanaka, Kaito, Reo Kitazaki, Yutaro Nakahara, et al. "Forced Chatter Sound in End-Milling Processes for Bamboo Fiber Extraction Using a Machining Center." In 2024 International Symposium on Flexible Automation. American Society of Mechanical Engineers, 2024. http://dx.doi.org/10.1115/isfa2024-141000.

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Abstract In this study, we attempted to fabricate a self-adhesive molded product made entirely of bamboo. The raw materials were bamboo tube chips cut using a machining center. The chips can be made parallel to the vascular bundles with adjustable dimensions. However, the vibration inherent in the working material during the cutting process could potentially affect the chip shape. Therefore, we evaluated the effect of workpiece-specific vibration on fiber shape. Additionally, cutting sound, which is considered highly correlated with workpiece vibration suppression, was examined. The results sh
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Reports on the topic "Vascular bundles"

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Barg, Rivka, Erich Grotewold, and Yechiam Salts. Regulation of Tomato Fruit Development by Interacting MYB Proteins. United States Department of Agriculture, 2012. http://dx.doi.org/10.32747/2012.7592647.bard.

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Background to the topic: Early tomato fruit development is executed via extensive cell divisions followed by cell expansion concomitantly with endoreduplication. The signals involved in activating the different modes of growth during fruit development are still inadequately understood. Addressing this developmental process, we identified SlFSM1 as a gene expressed specifically during the cell-division dependent stages of fruit development. SlFSM1 is the founder of a class of small plant specific proteins containing a divergent SANT/MYB domain (Barg et al 2005). Before initiating this project,
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