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  • scanning electron microscopy  (3)
  • pit structure  (2)
  • 1
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    Vestured pits: a diagnostic character in the secondary xylem of Myrtales (2008)
    In:  Journal of Tropical Forest Science vol. 20 no. 4, pp. 147-155
    Details
    Publication Date: 2024-01-12
    Description: Vestures are small projections from the secondary cell wall associated with tracheary elements of the secondary xylem. They are usually associated with bordered pits and characterize various angiosperm families, including important timber species such as Dipterocarpaceae and Eucalyptus trees. The micromorphology and distribution of vestures were studied in 22 species representing all families within the order Myrtales based on light and scanning electron microscopy. Vestures are consistently present near the outer pit aperture of bordered vessel pits, suggesting the synapomorphic character of this feature for the entire order. It is unclear in which geological period this feature originated in the evolution of the pre-Myrtalean lineages. In some species vestures are associated with inner pit apertures, inner vessel walls, simple perforation plates, depressions of the cell wall and bordered pits of tracheids or fibre-tracheids. A compact network of branched vestures almost completely filling the entire pit chamber is the most common vestured pit type in Myrtales, although considerable variation may occur within a wood sample. The micromorphology of vestures seems to some extent correlated with quantitative pit characters. Understanding the exact function of vestured pits with respect to hydraulic efficiency and safety remains a challenge.
    Keywords: vestures ; wood anatomy ; bordered pits ; Myrtales ; scanning electron microscopy ; light microscopy ; tracheary elements
    Repository Name: National Museum of Natural History, Netherlands
    Type: info:eu-repo/semantics/article
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  • 2
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    Intervascular pit membranes with a torus in the wood of Ulmus (Ulmaceae) and related genera (2004)
    In:  New Phytologist vol. 163, pp. 51-59
    Details
    Publication Date: 2024-01-12
    Description: \xe2\x80\xa2 The distribution of intervascular pit membranes with a torus was investigated in juvenile wood samples of 19 species of Ulmus and seven related genera.\n\xe2\x80\xa2 A staining solution of safranin and alcian blue (35 : 65) was recommended to distinguish torus-bearing pit membranes using light microscopy.\n\xe2\x80\xa2 Intervascular pit membranes connecting relatively wide vessel elements resembled those of most angiosperms, as they were of uniform thickness. By contrast, bordered pit pairs with round to oval pit apertures and indistinct pit canals that connected narrow (incomplete) vessel elements or vascular tracheids with distinct helical thickenings were frequently characterized by a torus in ring-porous wood samples of Ulmus and Zelkova. Tori were lacking in diffuse-porous species of Ampelocera, Aphananthe, Gironniera, Holoptelea, Phyllostylon, Trema and Ulmus.\n\xe2\x80\xa2 Our observations suggest that tori are more common in cold temperate climates than in warm (sub)tropical environments. This may indicate that narrow tracheary elements with torus-bearing pit membranes provide an auxiliary conducting system which is of low conductivity, but offers greater resistance to freezing-induced cavitation.
    Keywords: Ulmus (elm) ; Ulmaceae ; pit membrane ; torus ; pit structure ; wood anatomy ; tracheary elements
    Repository Name: National Museum of Natural History, Netherlands
    Type: info:eu-repo/semantics/article
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  • 3
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    Comparative Wood Anatomy of the Primuloid Clade (Ericales s.l.) (2005)
    In:  Systematic Botany vol. 30 no. 1, pp. 163-183
    Details
    Publication Date: 2024-01-12
    Description: The wood structure of 78 species from 27 genera representing the woody primuloids (Maesaceae, Myrsinaceae, and Theophrastaceae) was investigated using light microscopy (LM) and scanning electron microscopy (SEM). Results indicated that the ray structure, the nature of mineral inclusions, and the occurrence of breakdown areas in rays can be used to separate the three primuloid families from each other. Within Ericales, the presence of exclusively multiseriate rays is synapomorphic for Myrsinaceae and Theophrastaceae, and the occurrence of breakdown areas in rays is synapomorphic for Myrsinaceae. Within Myrsinaceae, the wood structure of the mangrove genus Aegiceras differs because it has short vessel elements that are storied, non-septate fibers, a combination of low uni- and multiseriate rays, and multiseriate rays with exclusively procumbent body ray cells. The aberrant wood anatomy of Coris and Lysimachia can be explained by their secondary woodiness. Within Theophrastaceae, Clavija and Theophrasta can be distinguished from Bonellia, Jacquinia, and Deherainia. The recent division of Jacquinia s.l. into Jacquinia s.s. and Bonellia is supported by a difference in mineral inclusions.
    Keywords: primuloids ; Ericales s.l. ; Maesaceae ; Myrsinaceae ; Theophrastaceae ; wood anatomy ; comparison ; light microscopy ; scanning electron microscopy
    Repository Name: National Museum of Natural History, Netherlands
    Type: info:eu-repo/semantics/article
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  • 4
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    The phylogenetic significance of vestured pits in Boraginaceae (2010)
    In:  TAXON vol. 59 no. 2, pp. 510-516
    Details
    Publication Date: 2024-01-12
    Description: The bordered pit structure in tracheary elements of 105 Boraginaceae species is studied using scanning electron microscopy to examine the systematic distribution of vestured pits. Forty-three species out of 16 genera show a uniform presence of this feature throughout their secondary xylem. Most vestures are small, unbranched and associated with the outer pit aperture of bordered intervessel pits. The feature is likely to have originated independently in the distantly related subfamilies Boraginoideae (tribe Lithospermeae) and Ehretioideae. The distribution of vestures in Ehretia agrees with recent molecular phylogenies: (1) species with vestured pits characterise the Ehretia I group (incl. Rotula), and (2) species with non-vestured pits belong to the Ehretia II group (incl. Carmona). The occurrence of vestured pits in Hydrolea provides additional support for excluding this genus from Hydrophylloideae, since Hydrolea is the only species of this subfamily with vestured pits. Functional advantages of vestured pits promoting parallel evolution of this conservative feature are suggested. The hydraulic benefits of poorly developed vestures remain underinvestigated.
    Keywords: Boraginaceae ; Boraginoideae ; bordered pit ; Ehretioideae ; scanning electron microscopy ; vestures
    Repository Name: National Museum of Natural History, Netherlands
    Type: info:eu-repo/semantics/article
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  • 5
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    Testing hypotheses that link wood anatomy to cavitation resistance and hydraulic conductivity in the genus Acer (2011)
    In:  New Phytologist vol. 190, pp. 709-723
    Details
    Publication Date: 2024-01-12
    Description: \xe2\x80\xa2 Vulnerability to cavitation and conductive efficiency depend on xylem anatomy. We tested a large range of structure\xe2\x80\x93function hypotheses, some for the first time, within a single genus to minimize phylogenetic \xe2\x80\x98noise\xe2\x80\x99 and maximize detection of functionally relevant variation.\n\xe2\x80\xa2 This integrative study combined in-depth anatomical observations using light, scanning and transmission electron microscopy of seven Acer taxa, and compared these observations with empirical measures of xylem hydraulics.\n\xe2\x80\xa2 Our results reveal a 2 MPa range in species\xe2\x80\x99 mean cavitation pressure (MCP). MCP was strongly correlated with intervessel pit structure (membrane thickness and porosity, chamber depth), weakly correlated with pit number per vessel, and not related to pit area per vessel. At the tissue level, there was a strong correlation between MCP and mechanical strength parameters, and some of the first evidence is provided for the functional significance of vessel grouping and thickenings on inner vessel walls. In addition, a strong trade-off was observed between xylemspecific conductivity and MCP. Vessel length and intervessel wall characteristics were implicated in this safety\xe2\x80\x93efficiency trade-off.\n\xe2\x80\xa2 Cavitation resistance and hydraulic conductivity in Acer appear to be controlled by a very complex interaction between tissue, vessel network and pit characteristics.\xe2\x80\xa0 Methods Observations of wood anatomy of 21 woody Spermacoceae and eight woody Knoxieae species, most of them included in a multi-gene molecular phylogeny, are carried out using light microscopy.\n\xe2\x80\xa0 Key Results Observations of wood anatomy in Spermacoceae support the molecular hypothesis that all the woody species examined are secondary derived. Well-known wood anatomical characters that demonstrate this shift from the herbaceous to the woody habit are the typically flat or decreasing length vs. age curves for vessel elements, the abundance of square and upright ray cells, or even the (near-) absence of rays. These socalled paedomorphic wood features are also present in the Knoxieae genera Otiophora, Otomeria, Pentas, Pentanisia and Phyllopentas. However, the wood structure of the other Knoxieae genera observed (Carphalea, Dirichletia and Triainolepis) is typical of primarily woody taxa. \n\xe2\x80\xa0 Conclusions In Spermacoceae, secondary woodiness has evolved numerous times in strikingly different habitats. In Knoxieae, there is a general trend from primary woodiness towards herbaceousness and back to (secondary) woodiness.
    Keywords: Acer ; cavitation resistance ; hydraulic conductivity ; pit structure ; rare pit hypothesis ; vessel distribution ; vessel wall thickenings ; wood density
    Repository Name: National Museum of Natural History, Netherlands
    Type: info:eu-repo/semantics/article
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