Results 131 to 140 of about 1,411 (158)
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2011
38. Zosteraceae Dumort., Anal. Fam. Pl.: 65, 66. 1829, nom. cons.
Reveal, James L. +3 more
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38. Zosteraceae Dumort., Anal. Fam. Pl.: 65, 66. 1829, nom. cons.
Reveal, James L. +3 more
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The pectic substances of zosteraceae
Carbohydrate Research, 1968Abstract The polysaccharide composition of several Zosteraceae plants has been studied and found to be nearly identical. Zosterine isolated from various Zosteraceae species appeared to be a homogeneous, pectic polysaccharide containing D -galacturonic acid, D -galactose, D -xylose, L -arabinose, D -apiose, and a mono-O-methyl- D -xylose as ...
R.G. Ovodova +2 more
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Consid�rations sur l'Anatomie dePosidonia oceanica (Zosteraceae)
Plant Systematics and Evolution, 1978The rhizome ofPosidonia oceanica shows an arrangement of vascular tissue not yet observed in other plants: a series of vascular cylinders all laid out in a single plane. There is a central cylinder, an atactostele, and six lateral cylinders, three on each side.
Francesco G. Albergoni +2 more
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Notes on Archaeozostera in relation to the Zosteraceae
Aquatic Botany, 1989Abstract A literature review indicates that Archeozostera is a synonym of Archaeozostera. The morphology and anatomy of fossil specimens of Archaeozostera are compared with those of modern seagrasses, particulary the Zosteraceae, and it is concluded that Archaeozostera is most unlikely to be related to the Zosteraceae, being neither a protozosteroid ...
John Kuo +4 more
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Developmental Morphology of Reproductive Structures of Phyllospadix (Zosteraceae)
International Journal of Plant Sciences, 1994The floral structures of members of the Zosteraceae are unusual and difficult to interpret. Developmental sequences were reconstructed for both male and female inflorescences of two species of the dioecious genus Phyllospadix (P. scouleri and P. torreyi). Reproductive structures initiate in two rows along a flat tonguelike spadix.
Connie L. Soros-Pottruff +1 more
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A set of microsatellite primers for Zostera japonica (Zosteraceae)
American Journal of Botany, 2011• Premise of the study: Polymorphic microsatellite primers were developed in the seagrass Zostera japonica to investigate genetic variation and to identify clonal structure.• Methods and Results: Thirteen polymorphic loci and 23 monomorphic loci were developed in Z. japonica.
Kai, Jiang +4 more
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Generic limits in the seagrass family Zosteraceae
TAXON, 2001SummaryTomlinson, P. B. & Posluzny, U.: Generic limits in the seagrass family Zosteraceae. – Taxon 50: 429–437. 2001. – ISSN 0040‐0262.The seagrass family Zosteraceae may be divided into four groups of species on the basis of morphological and developmental evidence.
Philip Barry Tomlinson, Usher Posluzny
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An unusual method of vegetative propagation in Australian zosteraceae
Aquatic Botany, 1983Abstract Vegetative propagules for dispersal by waves and currents were produced during summer and autumn by the Australian seagrasses Heterozostera tasmanica (Martens ex Aschers.) den Hartog from the apical meristems of erect stems and in Zostera mucronata den Hartog from intercalary meristems below some nodes on the erect generative shoots.
Marion L. Cambridge +2 more
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Pectic substances of zosteraceae—III zosterinase activity of some invertebrates
Comparative Biochemistry and Physiology, 19701. The endo- and exo-zosterinase activase of hepatopancreas of some Japan Sea invertebrates have been studied. For comparison, the zosterinase activity of the surface snail Succinea putris was investigated. 2. 2. The considerable exo-activity of Echinorachium parma, Styela clava Herdman, Chaetopterus variopedatus, Rissoa costata, Aphelasterias ...
V.I Shibaeva, L.A Elyakova, Yu.S Ovodov
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Chromosome numbers of the Australian Zosteraceae
Plant Systematics and Evolution, 2001Somatic chromosome numbers of 2n = 24 are reported for all three species of Australian Zostera: Z. capricorni Aschers., Z. muelleri Irmisch ex Aschers. and Z. mucronata den Hartog and 2n = 36 for Heterozostera tasmanica (Martens ex Aschers.) den Hartog.
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