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4.3 Colonisation and demographic history of F. vesiculosus in the Baltic Sea The distribution of mitochondrial haplotypes in the Baltic Sea and the Atlantic Ocean suggests that a single haplotype colonised the Baltic from the Atlantic, and became increasingly geographically and reproductively isolated from the parental populations.
Preston, Roxana +3 more
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4.3 Colonisation and demographic history of F. vesiculosus in the Baltic Sea The distribution of mitochondrial haplotypes in the Baltic Sea and the Atlantic Ocean suggests that a single haplotype colonised the Baltic from the Atlantic, and became increasingly geographically and reproductively isolated from the parental populations.
Preston, Roxana +3 more
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Bromophenols in Fucus vesiculosus
Zeitschrift für Pflanzenphysiologie, 1975Summary 2,3-dibromo-4,5-dihydroxybenzyl alcohol (lanosol), 2,3-dibromo-4,5-dihydroxybenzylethyl-ether and 3,5-dibromo-p-hydroxybenzyl alcohol were identified in Fucus vesiculosus.
M. Pedersén, L. Fries
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Arsenic binding to Fucus vesiculosus metallothionein
Biochemical and Biophysical Research Communications, 2004The seaweed Fucus vesiculosus is a member of the brown algae family. Kille and co-workers [Biochem. J. 338 (1999) 553] reported that this species contains the gene for metallothionein. Metallothionein is a metalloprotein having low molecular weight, and high cysteine content, which binds a range of metals. F. vesiculosus bioaccumulates arsenic from the
Maureen E, Merrifield +2 more
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Fucole, polyhydroxyoligophenyle aus Fucus vesiculosus
Phytochemistry, 1975Abstract From the fraction of acetylated phenols of Fucus vesiculosus were isolated: phloroglucinol triacetate, difucol hexaacetate (2,2′,4,4′,6,6′-hexaacetoxydiphenyl), trifucol nonaacetate [1,5-di (2,4,6-triacetoxyphenyl)-2,4,6-triacetoxybenzene] and a mixture of two isomeric tetrafucol dodecaacetates A and B.
Karl-Werner Glombitza +2 more
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APICAL DOMINANCE IN FUCUS VESICULOSUS
New Phytologist, 1965SUMMARYApical tips of Fucus vesiculosus L. were grown in sterile sea water. The apical cell region was excised surgically and this resulted in a decreased rate of growth of the segment and the regeneration of new branches. Treatment of cultured tips, whose apical cell region had been excised, with four auxins and two anti‐auxins revealed a striking ...
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Fucus Vesiculosus and Allied Brown Algae
1997The term ‘focus’ was originally used in a non-specific sense to describe the higher algae [1]. This has led to misleading accounts in the literature whereby several distinct genera have been referenced under the same term. A considerable amount of the botanical confusion can be traced to one of the commercial uses of these algae, viz : the production ...
I. H. Bowen, I. J. Cubbin
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Specificity of sexual chemotaxis in fucus serratus and fucus vesiculosus (phaeophyceae)
Zeitschrift für Pflanzenphysiologie, 1977Summary The conjugated octatriene fucoserraten is the substance secreted by eggs of the brown alga Fucus serratus to excite and attract spermatozoa. Threshold concentrations for synthetic fucoserraten, nine other octatriene isomers and n-hexane were determined using spermatozoa of Fucus serratus and F. vesiculosus .
D.G. Müller, K. Seferiadis
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Two reproductive strategies in BalticFucus vesiculosus(Phaeophyceae)
European Journal of Phycology, 2001Marked seasonal reproduction is a widespread phenomenon in seaweeds in temperate waters strongly influenced by seasonal variations. In the Baltic Sea, however, the perennial brown alga Fucus vesiculosus exhibits two periods of reproduction: early summer (May–June) or late autumn (September–November).
RITA BERGER, TORLEIF MALM, LENA KAUTSKY
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