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Joyce, Nora Barnacle

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Authors, Irish --- Authors' spouses --- Literary landmarks --- Homes and haunts --- Joyce, James, --- Joyce, Nora Barnacle, --- Dublin (Ireland) --- Galway (Ireland) --- Intellectual life --- Joyce, James --- Authors, Irish - Homes and haunts - Ireland - Dublin --- Authors, Irish - 20th century - Biography --- Authors' spouses - Ireland - Biography --- Literary landmarks - Ireland - Dublin --- Literary landmarks - Ireland - Galway --- Joyce, James, - 1882-1941 - Homes and haunts - Ireland - Dublin --- Joyce, Nora Barnacle, - 1884-1951 - Homes and haunts - Ireland - Galway --- Dublin (Ireland) - Intellectual life - 20th century --- Galway (Ireland) - Intellectual life - 20th century --- Joyce, James, - 1882-1941 --- Joyce, Nora Barnacle, - 1884-1951

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Marine fouling affects most man-made surfaces temporarily or permanently immersed in the sea, causing important economic costs. Intense research is aimed at methods for preventing or reducing fouling development. The most widespread solution to inhibit fouling is to make surfaces unsuitable for settlers by coating them with antifouling paints containing toxic compounds. Most such antifouling agents give undesirable effects on nontarget species, including commercially important ones. The search for new nontoxic antifouling technologies has become a necessity, particularly after the ban of organotin compounds such as tributyltin (TBT), once the most widespread and used antifouling agent. Alternative organic and metal-based biocides are now used in antifouling paints, but their possible toxic effects on the aquatic environment are not yet fully understood. A nontoxic alternative for antifouling protection comes from the possibility of adopting natural antifouling compounds that are and may be found in marine sessile invertebrates like sponges, bryozoans, corals, and tunicates and in marine microorganisms. Such metabolites can prevent their producers from being fouled on by other organisms or be responsible for specific metabolic functions that may interfere with biofouling species adhesion. As natural marine compounds, they may inhibit settlement through a nontoxic mechanism without adverse effects to the environment. Such compounds could be developed into active ingredients of new antifouling coatings. So far, a rather limited number of natural products antifoulants (NPAs) has been isolated from marine organisms, but a huge reservoir of compounds with potential antifouling activity is hidden in marine organisms. The Special Issue on Marine Natural Products with Antifouling Activity aims at the discovery of such compounds their activity, toxicity and potential application in environmentally friendly antifouling coatings.

Research & information: general --- barnacle --- cement gland --- cyprid adhesive --- transcriptome --- cement protein --- cyanobacteria --- uropathogens --- anti-adhesive coating --- urinary catheters --- surface modification --- catheter-associated urinary tract infections --- antifouling mechanism --- antifouling coating --- antifoulant --- environmentally friendly --- polymer --- flavonoids --- synthesis --- click chemistry --- biofouling --- antifouling --- eco-friendly alternatives --- elasnin --- biofilms --- marine --- natural products --- marine microorganisms --- urinary catheter --- antibiofilm --- coating --- chitin --- chitosan --- marine waste --- antimicrobial activity --- poly(lactic acid) --- active packaging --- antifouling compounds --- structural optimisation --- butenolide --- larval attachment assay

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Britain’s shallow seas are a mysterious domain. They remain largely unseen and unexplored except by marine scientists and divers, who have been documenting their wondrous discoveries over many years. Now, a wealth of information about what lives on and in the seabed has been brought together in one sumptuously illustrated volume.Keith Hiscock describes the incredible variety of marine life that exists around Great Britain, providing a foundation of knowledge for those interested in the natural history of the shallow seabed. He explains how findings are gathered and organised, as well as showing what is out there and how it works. Fascinating, beautiful and often fragile, the habitats and marine life described are essential to the health and productivity of our oceans. Without an adequate, shared understanding of what and where they are, how can we identify and protect them?Exploring Britain’s Hidden World is the culmination of 50 years of research by the author to better understand where different subtidal seabed habitats occur and how their associated marine life has come to exist. That quest draws on a rich vein of knowledge obtained by many naturalists, scientists and divers who, for almost 200 years, have described seabed communities and sought to understand their structure and function.Using a minimum of technical terminology, Keith Hiscock combines his interests in marine biology, diving and photography to inform, inspire, and leave a vivid and lasting impression of the marine habitats and species around Britain. He hopes this book will provide new insights, much pleasure, and perhaps some surprises too.

Habitat conservation. --- Conservation of habitat --- Habitat preservation --- Habitat protection --- Habitat (Ecology) --- Preservation of habitat --- Protection of habitat --- Nature conservation --- Conservation --- Protection --- Alaria esculenta. --- Alcyonium digitatum. --- Alcyonium glomeratum. --- Anthopleura ballii. --- Artificial reef. --- Ascidiacea. --- Atlantic multidecadal oscillation. --- Atlantic wolffish. --- Atrina fragilis. --- Ballan wrasse. --- Barnacle. --- Benthic zone. --- Benthos. --- Biotope. --- Bristol Channel. --- Brittle star. --- Bryozoa. --- Buccinum undatum. --- Bugula neritina. --- Byssus. --- Callianassa subterranea. --- Cancer pagurus. --- Cerastoderma glaucum. --- Cerianthus lloydii. --- Cetacean stranding. --- Chart datum. --- Chiton. --- Cnidaria. --- Crangon crangon. --- Crinoid. --- Crustacean. --- Dendrodoa grossularia. --- Detritus. --- Didemnum vexillum. --- Distomus variolosus. --- Dredging. --- Echinocardium cordatum. --- Echinoderm. --- Echinus esculentus. --- Ensis. --- Estuary. --- Eunicella verrucosa. --- European seabass. --- Flamborough Head. --- Galathea strigosa. --- Gorgonian. --- Halichondria panicea. --- Halocline. --- Harmothoe. --- Homarus gammarus. --- Hydractinia echinata. --- Inner Hebrides. --- John Dory. --- Laminaria hyperborea. --- Leptopsammia pruvoti. --- Littoral zone. --- Lugworm. --- Maerl. --- Mariculture. --- Marine Biological Association of the United Kingdom. --- Marine biology. --- Marine pollution. --- Metridium. --- Modiolus modiolus. --- Molgula occulta. --- Mussel. --- Mytilus (genus). --- Nephrops norvegicus. --- Ophiocomina nigra. --- Pecten maximus. --- Phaxas pellucidus. --- Phenology. --- Philip Henry Gosse. --- Phoronid. --- Plymouth Sound. --- Polychaete. --- Predation. --- Protanthea simplex. --- Psammechinus miliaris. --- Razor shell. --- Sagartia elegans. --- Salinity. --- Sargassum muticum. --- Sea urchin. --- Seabed. --- Seaweed. --- Sediment. --- Skomer. --- Snakelocks anemone. --- Spinachia spinachia. --- Strongylocentrotus droebachiensis. --- Styela clava. --- Tompot blenny. --- Tube worm. --- Tunicate. --- Turbidity. --- Vibrio. --- Zooplankton. --- Zostera marina. --- Zostera noltei.