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Journal articles on the topic 'Fucus distichus'

Author: Grafiati
Published: 4 June 2021
Last updated: 1 February 2022

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1

Rice, E. L., and A. R. O. Chapman. "A Numerical Taxonomic Study of Fucus Distichus (Phaeophyta)." Journal of the Marine Biological Association of the United Kingdom 65, no. 2 (1985): 433–59. http://dx.doi.org/10.1017/s0025315400050530.

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The genus Fucus L. is widely distributed through the cool temperate waters of the north Atlantic and north Pacific oceans. The very large number of sub-generic taxa (> 100) previously recognized was reduced by Powell (1963) to only 6 species. In his revision, Powell recognized F. distichus L. emend. Powell as the most variable of these. He classified the intra-specific variation in this species into 4 sub-species: F. distichus distichus, F. distichus anceps (Harv. et Ward ex. Carruthers) Powell, F. distichus evanescens (C.Ag) Powell and F. distichus edentatus (Pyl.) Powell. Because of repor
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2

Ang, PO. "Cost of reproduction in Fucus distichus." Marine Ecology Progress Series 89 (1992): 25–35. http://dx.doi.org/10.3354/meps089025.

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3

Malavenda, Sergey S., Svetlana V. Malavenda, and Olga Chovgan. "Interspecific relationships between Palmaria palmata and three Fucus species at the Murman Coast." ICES Journal of Marine Science 76, Supplement_1 (2019): i55—i61. http://dx.doi.org/10.1093/icesjms/fsz076.

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Abstract The mutual influence of the dominant macroalgae species inhabiting the intertidal zone of the Murman Coast was studied. Particularly, the proposed negative effect of Palmaria palmata on the growth of Fucus algae was tested. The interspecific interactions of the Fucus vesiculosus, F. distichus, F. serratus, and P. palmata were studied experimentally. The species were cultivated pairwise in the laboratory. A field experiment with species removal was performed in the intertidal zone of the Zelenetskaya Bay, the Barents Sea. The growth rate, algae biomass, and the content of chlorophyll p
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4

Ang, PO, and RE de Wreede. "Density-dependence in a population of Fucus distichus." Marine Ecology Progress Series 90 (1992): 169–81. http://dx.doi.org/10.3354/meps090169.

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5

Summerbell, Richard C., Keith A. Seifert, and J. Andrew Mackinnon. "Taxonomy and ecology of Cylindrodendrum album var. paralion var.nov." Canadian Journal of Botany 67, no. 2 (1989): 573–78. http://dx.doi.org/10.1139/b89-078.

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Cylindrodendrum album var. paralion var.nov. is described. The organism was isolated from decaying Fucus distichus thalli collected in British Columbia, Canada. It differs from the type variety by its strong vinaceous pigmentation and its ability to grow in the presence of 7% sodium chloride in Sabouraud agar in vitro. The organism rapidly colonizes decaying F. distichus thalli under simulated marine conditions in vitro and shows extensive growth and sporulation in the presence of other microfungi commonly isolated from the same substrate.
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6

СТЕПАНЬЯН, О. В. "ВОЗДЕЙСТВИЕ НЕФТЯНОЙ ПЛЕНКИ НА ФОТОСИНТЕЗ БУРЫХ ВОДОРОСЛЕЙ БАРЕНЦЕВА МОРЯ, "БОТАНИЧЕСКИЙ ЖУРНАЛ"". Ботанический журнал, № 10 (2014): 1095–100. http://dx.doi.org/10.1134/s1234567814100024.

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В полевых экспериментах на литорали Баренцева моря изучено влияние пленки нефти на фотосинтез и дыхание массовых видов бурых водорослей ( Fucus vesiculosus, F. distichus, Ascophyllum nodosum, Laminaria saccharina). Показано, что водоросли в первые часы воздействия нефтяной пленки продолжают поддерживать свою функциональную активность, полусуточный ход фотосинтеза и дыхания остается выраженным и неизменным.
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7

Ojo, Abiodun A., and Amos Onasanya. "Closed Anaerobic Biotransformation Products of Organoarsenic Compounds in Fucus distichus." ISRN Environmental Chemistry 2013 (July 14, 2013): 1–7. http://dx.doi.org/10.1155/2013/684297.

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The closed anaerobic decomposition extracts of Fucus distichus incubated with seawater and sediment, and without sediment as control, were subjected to extractions and isolation on Sephadex LH 20 and Cellulose Thin Layer Chromatography. The decomposition extracts and isolates were analyzed by using both the Hydride Generation Gas Chromatography Atomic Absorption Spectrometry (HG-GC-AAS) and High Performance Liquid Chromatography Inductively Coupled Plasma Mass Spectrometry (HPLC-ICPMS) to identify the arsenic species in the equilibrium mixtures of the seaweed and filtrates separately. In the m
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8

Hughey, Jeffery R., and Paul W. Gabrielson. "The complete mitogenome of the rockweed Fucus distichus (Fucaceae, Phaeophyceae)." Mitochondrial DNA Part B 2, no. 1 (2017): 203–4. http://dx.doi.org/10.1080/23802359.2017.1310604.

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9

Smolina, Irina, Spyros Kollias, Alexander Jueterbock, James A. Coyer, and Galice Hoarau. "Variation in thermal stress response in two populations of the brown seaweed, Fucus distichus , from the Arctic and subarctic intertidal." Royal Society Open Science 3, no. 1 (2016): 150429. http://dx.doi.org/10.1098/rsos.150429.

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It is unclear whether intertidal organisms are ‘preadapted’ to cope with the increase of temperature and temperature variability or if they are currently at their thermal tolerance limits. To address the dichotomy, we focused on an important ecosystem engineer of the Arctic intertidal rocky shores, the seaweed Fucus distichus and investigated thermal stress responses of two populations from different temperature regimes (Svalbard and Kirkenes, Norway). Thermal stress responses at 20°C, 24°C and 28°C were assessed by measuring photosynthetic performance and expression of heat shock protein (HSP
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10

Rahnasto-Rilla, Minna, Padraig McLoughlin, Tomasz Kulikowicz, et al. "The Identification of a SIRT6 Activator from Brown Algae Fucus distichus." Marine Drugs 15, no. 6 (2017): 190. http://dx.doi.org/10.3390/md15060190.

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11

Rice, E. L., T. J. Kenchington, and A. R. O. Chapman. "Intraspecific geographic-morphological variation patterns in Fucus distichus and F. evanescens." Marine Biology 88, no. 2 (1985): 207–15. http://dx.doi.org/10.1007/bf00397168.

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12

Kloareg, Bernard, and Ralph S. Quatrano. "Isolation of protoplasts from zygotes of Fucus distichus (L.) powell (Phaeophyta)." Plant Science 50, no. 3 (1987): 189–94. http://dx.doi.org/10.1016/0168-9452(87)90073-2.

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13

Stanhope, M. J., and C. D. Levsngs. "Growth and Production of Eogammarus confervicolus (Amphipoda: Anisogammaridae) at a Log Storage Site and in Areas of Undisturbed Habitat within the Squamish Estuary, British Columbia." Canadian Journal of Fisheries and Aquatic Sciences 42, no. 11 (1985): 1733–40. http://dx.doi.org/10.1139/f85-217.

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Growth and production of Eogammarus confervicolus was investigated in three contrasting habitats within the Squamish estuary: a log debris area, an embankment along the perimeter of a Carex lyngbyei marsh, and a Fucus distichus community. Eogammarus confervicolus annual production was highest in the "bank" habitat (21.38–21.65 g∙m−2∙yr−1) followed by Fucus (11.31–12.99 g∙m−2∙yr−1) and then wood debris (6.12–6.75 g∙m−2∙yr−1). P: B ratios were similar for the bivoltine wood debris and bank animals (4.67–5.15 and 5.94–6.01, respectively) but lower for the univoltine Fucus population (3.28–3.76).
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14

Van Alstyne, Kathryn L. "Herbivore Grazing Increases Polyphenolic Defenses in the Intertidal Brown Alga Fucus Distichus." Ecology 69, no. 3 (1988): 655–63. http://dx.doi.org/10.2307/1941014.

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15

Ang, PO. "Natural dynamics of a Fucus distichus (Phaeophyceae, Fucales) population: reproduction and recruitment." Marine Ecology Progress Series 78 (1991): 71–85. http://dx.doi.org/10.3354/meps078071.

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16

Nagasato, Chikako, Taizo Motomura, and Terunobu Ichimura. "Parthenogenesis and abnormal mitosis in unfertilized eggs of Fucus distichus (Fucales, Phaeophyceae)." Phycologia 39, no. 2 (2000): 163–66. http://dx.doi.org/10.2216/i0031-8884-39-2-163.1.

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17

Stanhope, M. J., D. W. Powell, and E. B. Hartwick. "Population characteristics of the estuarine isopod Gnorimosphaeroma insulare in three contrasting habitats: sedge marsh, algal bed, and wood debris." Canadian Journal of Zoology 65, no. 8 (1987): 2097–104. http://dx.doi.org/10.1139/z87-321.

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Population characteristics of Gnorimosphaeroma insulare (Isopoda: Sphaeromatidae) were investigated in three habitats within the Squamish estuary, British Columbia: a log debris area, an embankment along the perimeter of a Carex lyngbyei marsh, and a Fucus distichus community. Gnorimosphaeroma insulare annual production was highest in the Fucus habitat (39.54–48.05 g dry wt∙m−2∙year−1) followed by "bank" (22.97–27.74 g∙m−2∙year−1) and then wood debris habitats (4.72–6.43 g∙m−2∙year−1). Cohort figures indicated that male productivity was greater than female productivity in all locations. Produc
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18

Kreissig, Katharina J., Lisbeth Truelstrup Hansen, Pernille Erland Jensen, Susse Wegeberg, Ole Geertz-Hansen, and Jens J. Sloth. "Characterisation and chemometric evaluation of 17 elements in ten seaweed species from Greenland." PLOS ONE 16, no. 2 (2021): e0243672. http://dx.doi.org/10.1371/journal.pone.0243672.

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Several Greenland seaweed species have potential as foods or food ingredients, both for local consumption and export. However, knowledge regarding their content of beneficial and deleterious elements on a species specific and geographical basis is lacking. This study investigated the content of 17 elements (As, Ca, Cd, Cr, Cu, Fe, Hg, I, K, Mg, Mn, Na, Ni, P, Pb, Se and Zn) in 77 samples of ten species (Agarum clathratum, Alaria esculenta, Ascophyllum nodosum, Fucus distichus, Fucus vesiculosus, Hedophyllum nigripes, Laminaria solidungula, Palmaria palmata, Saccharina latissima and Saccharina
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19

Pearson, GA, and SH Brawley. "Reproductive ecology, of Fucus distichus (Phaeophyceae):an intertidal alga with successful external fertilization." Marine Ecology Progress Series 143 (1996): 211–23. http://dx.doi.org/10.3354/meps143211.

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20

Ang, PO, and RE de Wreede. "Simulation and analysis of the dynamics of a Fucus distichus (Phaeophyceae, Fucales) population." Marine Ecology Progress Series 93 (1993): 253–65. http://dx.doi.org/10.3354/meps093253.

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21

Str�mgren, T. "Effect of light on apical length growth of Fucus distichus spp. edentatus (Phaeophyta)." Marine Biology 86, no. 3 (1985): 263–69. http://dx.doi.org/10.1007/bf00397513.

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22

Ang, PO. "Age- and size-dependent growth and mortality in a population of Fucus distichus." Marine Ecology Progress Series 78 (1991): 173–87. http://dx.doi.org/10.3354/meps078173.

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23

Pearson, Gareth A., and Ian R. Davison. "FREEZING STRESS AND OSMOTIC DEHYDRATION IN FUCUS DISTICHUS (PHAEOPHYTA): EVIDENCE FOR PHYSIOLOGICAL SIMILARITY1." Journal of Phycology 30, no. 2 (1994): 257–67. http://dx.doi.org/10.1111/j.0022-3646.1994.00257.x.

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24

Thomas, T. E., P. J. Harrison, and E. B. Taylor. "Nitrogen uptake and growth of the germlings and mature thalli of Fucus distichus." Marine Biology 84, no. 3 (1985): 267–74. http://dx.doi.org/10.1007/bf00392496.

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25

Klimova, A. V., A. N. Kashutin, and T. A. Klochkova. "DEVELOPMENT OF GERMLINGS OF FUCUS DISTICHUS SUBSP. EVANESCENS (PHAEOPHYCEAE, FUCALES) UNDER CHANGING CONDITIONS OF SALINITY, TEMPERATURE AND PHOTOPERIOD." Bulletin оf Kamchatka State Technical University, no. 49 (2019): 65–75. http://dx.doi.org/10.17217/2079-0333-2019-49-65-75.

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26

Nguyen, Thuan Thi, Maria Dalgaard Mikkelsen, Vy Ha Nguyen Tran, et al. "Enzyme-Assisted Fucoidan Extraction from Brown Macroalgae Fucus distichus subsp. evanescens and Saccharina latissima." Marine Drugs 18, no. 6 (2020): 296. http://dx.doi.org/10.3390/md18060296.

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Fucoidans from brown macroalgae (brown seaweeds) have different structures and many interesting bioactivities. Fucoidans are classically extracted from brown seaweeds by hot acidic extraction. Here, we report a new targeted enzyme-assisted methodology for fucoidan extraction from brown seaweeds. This enzyme-assisted extraction protocol involves a one-step combined use of a commercial cellulase preparation (Cellic®CTec2) and an alginate lyase from Sphingomonas sp. (SALy), reaction at pH 6.0, 40 °C, removal of non-fucoidan polysaccharides by Ca2+ precipitation, and ethanol-precipitation of crude
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27

Kucera, Hana, and Gary W. Saunders. "Assigning morphological variants of Fucus (Fucales, Phaeophyceae) in Canadian waters to recognized species using DNA barcoding." Botany 86, no. 9 (2008): 1065–79. http://dx.doi.org/10.1139/b08-056.

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The intertidal brown algal genus Fucus (Phaeophyceae) consists of individuals with a generally dichotomously branched habit. Morphological variability within species, combined with morphological similarity between species, renders field identification difficult. In light of recent taxonomic revisions, which reduced 10 taxa traditionally recognized in Canada to four species, we tested the utility of the DNA barcode (mitochondrial cytochrome oxidase 1, 5′) for assigning individuals to these species. We sequenced the DNA barcode for 125 specimens representing all morphologies recognized. We confi
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28

Ulaski, Brian P., Brenda Konar, and Edward O. Otis. "Seaweed Reproduction and Harvest Rebound in Southcentral Alaska: Implications for Wild Stock Management." Estuaries and Coasts 43, no. 8 (2020): 2046–62. http://dx.doi.org/10.1007/s12237-020-00740-1.

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Abstract In Alaska, interest in harvesting seaweeds for personal use is growing and information on potential impacts of this activity on sustainability of wild populations is lacking. This study provides information on reproductive timing and size, standing crop, and harvest rebound of three commonly harvested seaweeds in Southcentral Alaska: the rockweed, Fucus distichus; the sugar kelp, Saccharina latissima; and the bull kelp, Nereocystis luetkeana. From March through October 2018, seaweeds were surveyed for reproductive status and harvested to determine how much biomass was available. From
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29

Kinoshita, Nana, Chikako Nagasato, and Taizo Motomura. "Chemotactic movement in sperm of the oogamous brown algae, Saccharina japonica and Fucus distichus." Protoplasma 254, no. 1 (2016): 547–55. http://dx.doi.org/10.1007/s00709-016-0974-y.

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30

Kloareg, B., and R. S. Quatrano. "Enzymatic removal of the cell walls from zygotes of Fucus distichus (L.) Powell (Phaeophyta)." Hydrobiologia 151-152, no. 1 (1987): 123–29. http://dx.doi.org/10.1007/bf00046117.

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31

Van Alstyne, KL. "Adventitious branching as a herbivore-induced defense in the intertidal brown alga Fucus distichus." Marine Ecology Progress Series 56 (1989): 169–76. http://dx.doi.org/10.3354/meps056169.

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32

Bilan, Maria I., Alexey A. Grachev, Nadezhda E. Ustuzhanina, Alexander S. Shashkov, Nikolay E. Nifantiev, and Anatolii I. Usov. "A highly regular fraction of a fucoidan from the brown seaweed Fucus distichus L." Carbohydrate Research 339, no. 3 (2004): 511–17. http://dx.doi.org/10.1016/j.carres.2003.10.028.

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33

Dörschmann, Philipp, Kaya Saskia Bittkau, Sandesh Neupane, Johann Roider, Susanne Alban, and Alexa Klettner. "Effects of Fucoidans from Five Different Brown Algae on Oxidative Stress and VEGF Interference in Ocular Cells." Marine Drugs 17, no. 5 (2019): 258. http://dx.doi.org/10.3390/md17050258.

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Background: Fucoidans are interesting for potential usage in ophthalmology, and especially age-related macular degeneration. However, fucoidans from different species may vary in their effects. Here, we compare fucoidans from five algal species in terms of oxidative stress protection and vascular endothelial growth factor (VEGF) interference in ocular cells. Methods: Brown algae (Fucus vesiculosus, Fucus distichus subsp. evanescens, Fucus serratus, Laminaria digitata, Saccharina latissima) were harvested and fucoidans isolated by hot-water extraction. Fucoidans were tested in several concentra
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34

Klochkova, N. G., А. N. Kashutin, and T. A. Klochkova. "GROWTH AND REPRODUCTION OF LABELED PLANTS OF FUCUS DISTICHUS SUBSP. EVANESCENS (PHAEOPHYCEAE, FUCALES) IN THE AVACHA BAY (SOUTHEASTERN KAMCHATKA)." Bulletin оf Kamchatka State Technical University, no. 51 (2020): 55–65. http://dx.doi.org/10.17217/2079-0333-2020-51-55-65.

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35

Brokareva, E. A., and G. M. Voskoboinikov. "REPRODUSTION AND EARLY DEVELOPMENT OF BROWN ALGAE FUCUS DISTICHUS LINNAEUS, 1767 OF THE BARENTS SEA IN THE CONDITIONS OF LABORATORY CULTIVATION." Science in the South of Russia 14, no. 2 (2018): 66–72. http://dx.doi.org/10.23885/2500-0640-2018-14-2-66-72.

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36

Hoarau, G., J. A. Coyer, M. C. W. G. Giesbers, A. Jueterbock, and J. L. Olsen. "Pre-zygotic isolation in the macroalgal genus Fucus from four contact zones spanning 100–10 000 years: a tale of reinforcement?" Royal Society Open Science 2, no. 2 (2015): 140538. http://dx.doi.org/10.1098/rsos.140538.

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Hybrid zones provide an ideal natural experiment to study the selective forces driving evolution of reproductive barriers and speciation. If hybrid offspring are less fit than the parental species, pre-zygotic isolating barriers can evolve and strengthen in response to selection against the hybrids (reinforcement). Four contact zones between the intertidal macroalgae Fucus serratus ( Fs ) and Fucus distichus ( Fd ), characterized by varying times of sympatry and order of species introduction provide an opportunity to investigate reinforcement. We examined patterns of hybridization and reproduc
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37

Klinger, Terrie, and Allan K. Fukuyama. "Decadal-scale dynamics and response to pulse disturbance in the intertidal rockweed Fucus distichus (Phaeophyceae)." Marine Ecology 32, no. 3 (2011): 313–19. http://dx.doi.org/10.1111/j.1439-0485.2011.00481.x.

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38

Wang, Fanlu, Yuejun Xiao, Sandesh Neupane, et al. "Influence of Fucoidan Extracts from Different Fucus Species on Adult Stem Cells and Molecular Mediators in In Vitro Models for Bone Formation and Vascularization." Marine Drugs 19, no. 4 (2021): 194. http://dx.doi.org/10.3390/md19040194.

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Fucoidans, sulfated polysaccharides extracted from brown algae, are marine products with the potential to modulate bone formation and vascularization processes. The bioactivity and safety of fucoidans are highly associated with their chemical structure, which may vary with algae species and extraction method. Thus, in depth evaluation of fucoidan extracts in terms of endotoxin content, cytotoxicity, and their detailed molecular biological impact on the individual cell types in bone is needed. In this study, we characterized fucoidan extracts from three different Fucus species including Fucus v
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39

Voskoboinikov, G. M., V. N. Маkarov, S. V. Malavenda, et al. "ADAPTATION, REGULATION OF GROWTH AND REPRODUCTION AND RATIONAL USE OF ALGAE-MACROPHYTES OF THE BARENTS SEA." Transaction of the Kola Science Centre 11, no. 4 (2020): 150–78. http://dx.doi.org/10.37614/2307-5252.2020.11.4.007.

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The results of algological researches of the Murmansk Marine Biological Institute for the period from 2015 till 2019 are presented with the following achievements. Analysis of the expeditionary samples revealed 79 species of algae macrophyte, rarely found at the Murman coast, among them 10 species were Chlorophyta, 33 –Phaeophyceae, 36 –Rhodophyta. A significant increase of the occurrence (presence) of Ulva lactuca L.at the Murmansk coast of the Barents Sea in 2009–2019 was noted, due to positive climatic anomalies caused by an increase of the influx of the Atlantic waters. It has been shown f
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40

Jueterbock, Alexander, Irina Smolina, James A. Coyer, and Galice Hoarau. "The fate of the Arctic seaweed Fucus distichus under climate change: an ecological niche modeling approach." Ecology and Evolution 6, no. 6 (2016): 1712–24. http://dx.doi.org/10.1002/ece3.2001.

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41

Rueter, John G., and Dale H. Robinson. "INHIBITION OF CARBON UPTAKE AND STIMULATION OF NITRATE UPTAKE AT LOW SALINITIES IN FUCUS DISTICHUS (PHAEOPHYCEAE)." Journal of Phycology 22, no. 2 (1986): 243–46. http://dx.doi.org/10.1111/j.1529-8817.1986.tb00019.x.

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42

Davis, Katherine M., Florent Mazel, and Laura Wegener Parfrey. "The microbiota of intertidal macroalgae Fucus distichus is site‐specific and resistant to change following transplant." Environmental Microbiology 23, no. 5 (2021): 2617–31. http://dx.doi.org/10.1111/1462-2920.15496.

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43

Ryzhik, I. V., M. V. Makarov, and G. M. Voskoboinikov. "The physiological state of intertidal brown seaweeds Fucus serratus Linnaeus, 1753 and Fucus distichus Linnaeus, 1767 cultivated on a biofiltration system in the Barents Sea." Russian Journal of Marine Biology 40, no. 2 (2014): 119–24. http://dx.doi.org/10.1134/s1063074014020084.

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44

Sideman, Eric J., and A. C. Mathieson. "MORPHOLOGICAL VARIATION WITHIN AND BETWEEN NATURAL POPULATIONS OF NON-TIDE POOL FUCUS DISTICHUS (PHAEOPHYTA) IN NEW ENGLAND1,2." Journal of Phycology 21, no. 2 (2004): 250–57. http://dx.doi.org/10.1111/j.0022-3646.1985.00250.x.

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45

Motomura, Taizo. "PREMATURE CHROMOSOME CONDENSATION OF THE KARYOGAMY-BLOCKED SPERM PRONUCLEUS IN THE FERTILIZATION OF FUCUS DISTICHUS (FUCALES, PHAEOPHYCEAE)1." Journal of Phycology 31, no. 1 (1995): 108–13. http://dx.doi.org/10.1111/j.0022-3646.1995.00108.x.

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46

Laughinghouse, Haywood Dail, Kirsten M. Müller, Walter H. Adey, Yannick Lara, Robert Young, and Gabriel Johnson. "Evolution of the Northern Rockweed, Fucus distichus, in a Regime of Glacial Cycling: Implications for Benthic Algal Phylogenetics." PLOS ONE 10, no. 12 (2015): e0143795. http://dx.doi.org/10.1371/journal.pone.0143795.

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47

Bilan, M. I., M. I. Kusaykin, A. A. Grachev, et al. "Effect of Enzyme Preparation from the Marine Mollusk Littorina kurila on Fucoidan from the Brown Alga Fucus distichus." Biochemistry (Moscow) 70, no. 12 (2005): 1321–26. http://dx.doi.org/10.1007/s10541-005-0264-3.

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48

Marfenin, N. N., and S. A. Belorustseva. "How the distribution of colonies of the hydroid Laomedea flexuosa is limited to a narrow belt along the lower littoral zone." Journal of the Marine Biological Association of the United Kingdom 88, no. 8 (2008): 1559–66. http://dx.doi.org/10.1017/s0025315408002270.

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In the White Sea the colonial hydroid Laomedea flexuosa inhabits a narrow belt of the lower littoral zone. How is so limited a habitat determined? We studied the time of planula release and the behaviour of larvae during the free-swimming stage and settlement in natural and laboratory conditions. Three methods were used to record the tidal-dependent dynamic of planula release: (1) plankton collecting bags around Fucus distichus macrophytes with mature hydroid colonies; (2) active stirring of Fucus with hydroids in a container with water, which is an old way to stimulate planula release; and (3
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49

Ojo, Abiodun A., and Amos Onasanya. "Characterization of Arsenic Biotransformation Products from an Open Anaerobic Degradation of Fucus distichus by Hydride Generation Gas Chromatography Atomic Absorption Spectrometry and High Performance Liquid Chromatography Inductively Coupled Plasma Mass Spectrometry." ISRN Spectroscopy 2013 (November 2, 2013): 1–6. http://dx.doi.org/10.1155/2013/431801.

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This work reports on the isolation and determination of biotransformation products obtained from the organoarsenic compounds that are present in Fucus distichus when it was subjected to an open anaerobic decomposition by using the Hydride Generation Gas Chromatography Atomic Absorption Spectrometry (HG-GC-AAS) and High Performance Liquid Chromatography Inductively Coupled Plasma Mass Spectrometry (HPLC-ICP-MS). The seaweed and filtrate residues obtained from the open anaerobic degradation procedure were extracted in methanol and partitioned in phenol-ether-water mixtures to obtain water solubl
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50

Kashutin, A. N., A. V. Klimova, and T. A. Klochkova. "IMPACT OF SEA ICE COVER ON INTERANNUAL CHANGES OF THE LITTORAL VEGETATION OF THE BROWN ALGA FUCUS DISTICHUS SUBSP. EVANESCENS IN THE AVACHA BAY (SOUTH-EASTERN KAMCHATKA)." Bulletin оf Kamchatka State Technical University, no. 44 (2018): 88–99. http://dx.doi.org/10.17217/2079-0333-2018-44-88-99.

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