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Variation in xylem structure from tropics to tundra: Evidence from vestured pits (2004)

Jansen, S. ; Baas, P. (Pieter) ; Gasson, P. ; [et al.]

In: Proceedings of the National Academy of Sciences of the United States of America vol. 101 no. 23, pp. 8833-8837

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Publication Date: 2024-01-12

Description: Bordered pits play an important role in permitting water flow among adjacent tracheary elements in flowering plants. Variation in the bordered pit structure is suggested to be adaptive in optimally balancing the conflict between hydraulic efficiency (conductivity) and safety from air entry at the pit membrane (air seeding). The possible function of vestured pits, which are bordered pits with protuberances from the secondary cell wall of the pit chamber, could be increased hydraulic resistance or minimized vulnerability to air seeding. These functional hypotheses have to be harmonized with the notion that the vestured or nonvestured nature of pits contains strong phylogenetic signals (i.e., often characterize large species-rich clades with broad ecological ranges). A literature survey of 11,843 species covering 6,428 genera from diverse climates indicates that the incidence of vestured pits considerably decreases from tropics to tundra. The highest frequencies of vestured pits occur in deserts and tropical \nseasonal woodlands. Moreover, a distinctly developed network of branched vestures is mainly restricted to warm habitats in both mesic and dry (sub)tropical lowlands, whereas vestures in woody plants from cold and boreal arctic environments are usually minute and simple. A similar survey of the frequency of exclusively scalariform perforation plates illustrates that the major ecological trend of this feature is opposite that of vestured pits. These findings provide previously undescribed insights suggesting that vessels with vestured pits and simple perforation plates function as an efficient hydraulic system in plants growing in warm environments with periodical or continuous drought stress.

Keywords: xylem structure ; vestured pits ; scalariform perforation plates ; simple perforation plates ; hydraulic system ; drought stress

Repository Name: National Museum of Natural History, Netherlands

Type: info:eu-repo/semantics/article

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A comparative ultrastructural study of pit membranes with plasmodesmata associated thickenings in four angiosperm species (2008)

Rabaey, D. ; Lens, F. (Frederic) ; Huysmans, S. ; [et al.]

In: Protoplasma vol. 33, pp. 255-262

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Publication Date: 2024-01-12

Description: Recent micromorphological observations of angiosperm pit membranes have extended the number and range of taxa with pseudo-tori in tracheary elements. This study investigates at ultrastructural level (TEM) the development of pseudo-tori in the unrelated Malus yunnanensis, Ligustrum vulgare, Pittosporum tenuifolium, and Vaccinium myrtillus in order to determine whether these plasmodesmata associated thickenings have a similar developmental pattern across flowering plants. At early ontogenetic stages, the formation of a primary thickening was observed, resulting from swelling of the pit membrane in fibre-tracheids and vesselelements. Since plasmodesmata appear to be frequently, but not always, associated with these primary pit membrane thickenings, it remains unclear which ultrastructural characteristics control the formation of pseudo-tori. At a very late stage during xylem differentiation, a secondary thickening is deposited on the primary pit membrane thickening. Plasmodesmata are always associated with pseudo-tori at these final developmental stages. After autolysis, the secondary thickening becomes electron-dense and persistent, while the primary thickening turns transparent and partially or entirely dissolves. The developmental patterns observed in the species studied are similar and agree with former ontogenetic studies in Rosaceae, suggesting that pseudo-tori might be homologous features across angiosperms.

Keywords: ontogeny ; pseudo-torus ; tracheary element ; pit membrane ; bordered pit ; wood ultrastructure

Repository Name: National Museum of Natural History, Netherlands

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Embolism resistance as a key mechanism to understand adaptive plant strategies (2013)

Lens, F. (Frederic) ; Tixier, A. ; Cochard, H. ; [et al.]

In: Current Opinion in Plant Biology vol. 16, pp. 287-292

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Publication Date: 2024-01-12

Description: One adaptation of plants to cope with drought or frost stress is to develop wood that is able to withstand the formation and distribution of air bubbles (emboli) in its water conducting xylem cells under negative pressure. The ultrastructure of interconduit pits strongly affects drought-induced embolism resistance, but also mechanical properties of the xylem are involved. The first experimental evidence for a lower embolism resistance in stems of herbaceous plants compared to stems of their secondarily woody descendants further supports this mechanical-functional trade-off. An integrative approach combining (ultra)structural observations of the xylem, safetyefficiency aspects of the hydraulic pipeline, and xylem\xe2\x80\x93phloem interactions will shed more light on the multiple adaptive strategies of embolism resistance in plants.

Keywords: embolism resistance ; adaptive plant strategies ; drought stress ; air bubbles (emboli) ; xylem

Repository Name: National Museum of Natural History, Netherlands

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The phylogenetic significance of vestured pits in Boraginaceae (2010)

Rabaey, D. ; Lens, F. (Frederic) ; Smets, E.F. (Erik) ; [et al.]

In: TAXON vol. 59 no. 2, pp. 510-516

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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

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