Results 171 to 180 of about 4,828 (207)
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2022
[1] Avicennia germinans (L.) L. (Fig. 6A) Sp. Pl., ed. 3, 2: 891 (Linnaeus 1764). — Bontia germinans L., Syst. Nat., ed. 10, 2: 1122 [7 Jun. 1759] (Linnaeus 1759). Avicennia nitida Jacq., Enum. Syst. Pl.: 25 [Aug.-Sep. 1760] (Jacquin 1760). — Hilairanthus nitidus (Jacq.) Tiegh., J. Bot. [Morot] 12: 358 (Tieghem 1898). — Avicennia officinalis L.
Molino, Jean-François +10 more
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[1] Avicennia germinans (L.) L. (Fig. 6A) Sp. Pl., ed. 3, 2: 891 (Linnaeus 1764). — Bontia germinans L., Syst. Nat., ed. 10, 2: 1122 [7 Jun. 1759] (Linnaeus 1759). Avicennia nitida Jacq., Enum. Syst. Pl.: 25 [Aug.-Sep. 1760] (Jacquin 1760). — Hilairanthus nitidus (Jacq.) Tiegh., J. Bot. [Morot] 12: 358 (Tieghem 1898). — Avicennia officinalis L.
Molino, Jean-François +10 more
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2021
Avicennia germinans (L.) L. PHENOLOGY.— Flowering: June–July; fruiting: August–November. DISTRIBUTION.— U.S.A. (Fla., La., Miss., Tex.), Mexico (B.C., B.C.S., Camp., Col., Chis., Gro., Jal., Mich., Nay., Oax., Q.R., Sin., Son., Tab., Tamps., Ver., Yuc.), Bermuda, West Indies, Central America, South America, Africa.
Daniel, Thomas F. +2 more
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Avicennia germinans (L.) L. PHENOLOGY.— Flowering: June–July; fruiting: August–November. DISTRIBUTION.— U.S.A. (Fla., La., Miss., Tex.), Mexico (B.C., B.C.S., Camp., Col., Chis., Gro., Jal., Mich., Nay., Oax., Q.R., Sin., Son., Tab., Tamps., Ver., Yuc.), Bermuda, West Indies, Central America, South America, Africa.
Daniel, Thomas F. +2 more
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Iridoid glucosides from Avicennia germinans
Phytochemistry, 1995Abstract A new iridoid glucoside, namely 2′-caffeoyl mussaenosidic acid has been isolated from leaves of Avicennia germinans along with the known compounds 2′-cinnamoyl mussaenosidic acid and verbascoside. The structure of the new compound was established by spectroscopic methods.
Fauvel, Marie-Thérèse +4 more
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Stomatal Oscillations in the Mangrove Avicennia germinans
Functional Ecology, 19941. The mangrove Avicennia germinans, maintained under semi-steady-state glasshouse conditions, exhibited stomatal oscillations. 2. Continuous, simultaneous measurements of transpiration, photosynthesis, leaf temperature and water potential indicated that cycling was synchronized throughout the plant and was rapidly propagated by changes in water ...
G. Naidoo, D. J. Von Willert
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Pinoresinol and syringaresinol: two lignans from Avicennia germinans (Avicenniaceae)
Biochemical Systematics and Ecology, 2001Sharp, H. J., Thomas, D., Currie, F., Bright, C., Latif, Z., Sarker, S. D., Nash, R. J. (2001). Pinoresinol and syringaresinol: two lignans from Avicennia germinans (Avicenniaceae). Biochemical Systematics and Ecology, 29, (3), 325-327.
, Sharp +6 more
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Electrophysiology of the Salt Glands of Avicennia germinans
International Journal of Plant Sciences, 1995Microelectrode techniques were used on epidermal peels of Avicennia germinans to characterize functional aspects of secretion in salt glands. Increasing the concentrations of K+, Na+, or Mg++ in the bath medium decreased the measured transcellular voltage and resistance. The velocity and magnitude of these transcellular depolarizations varied: K+ > Na+
Balsamo, Ronald. +2 more
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A New Iridoid Glucoside from AfricanAvicennia Germinans
Natural Product Letters, 1997Abstract A new iridoid glucoside, namely 2′(4′′- hydroxycinnamoyl) mussaenosidic acid, has been isolated from the leaves of Avicennia germinans (Gabon) along with 2′-caffeoyl mussaenosidic acid. The structure of the new compound was established by spectroscopic methods.
Marie-thérèse Fauvel +3 more
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2016
2. Avicennia germinans (L.) L., Sp. Pl., ed. 3, 2: 891. 1764. Bontia germinans L., Syst. Nat., ed. 10, 2: 1122. 1759. TYPE.— “ Habitat in Indiis ” [JAMAICA], P. Browne s.n., LINN Herb. No. 813.2 (lectotype, designated by Stearn [1958: 35]: LINN-image!). Figures 1D–G, 2, 3A,D. Avicennia nitida Jacq., Enum. Syst. Pl. 25. 1760.
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2. Avicennia germinans (L.) L., Sp. Pl., ed. 3, 2: 891. 1764. Bontia germinans L., Syst. Nat., ed. 10, 2: 1122. 1759. TYPE.— “ Habitat in Indiis ” [JAMAICA], P. Browne s.n., LINN Herb. No. 813.2 (lectotype, designated by Stearn [1958: 35]: LINN-image!). Figures 1D–G, 2, 3A,D. Avicennia nitida Jacq., Enum. Syst. Pl. 25. 1760.
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Genetic diversity of the black mangrove (Avicennia germinans L.) in Colombia
Aquatic Botany, 2009Abstract This study analyzed the genetic diversity and patterns of genetic structure in Colombian populations of Avicennia germinans L. using microsatellite loci. A lower genetic diversity was found on both the Caribbean (Ho = 0.439) and the Pacific coasts (Ho = 0.277) than reported for the same species in other locations of Central American ...
Dayana Elizabeth Salas-Leiva +2 more
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DIFFERENTIAL OXIDATION OF MANGROVE SUBSTRATE BY AVICENNIA GERMINANS AND RHIZOPHORA MANGLE
American Journal of Botany, 1986Both Avicennia germinans (black mangrove) and Rhizophora mangle (red mangrove) are commonly found in anaerobic substrate. Black mangrove roots create oxidized rhizospheres substantially larger than those described for other plant species. When air cannot enter the root system through the pneumatophores, the rhizospheres become as reduced as nearby un ...
Francis R. Thibodeau +1 more
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