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Fungi --- -Medical mycology --- Pathogenic fungi --- -Fungi, Pathogenic --- Pathogenic microorganisms --- Medical mycology --- Medical microbiology --- Mycology --- Mycoses --- Fungal kingdom --- Fungus kingdom --- Funguses --- Mycobiota --- Mycota --- Cryptogams --- chemistry --- Cultures and culture media --- Identification --- Medical mycology. --- Cultures and culture media. --- Identification. --- chemistry. --- -chemistry --- Chemistry. --- Fungi, Pathogenic --- Fungal cultures --- Cultures (Biology) --- Plant growing media
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Designing with living materials: thoughts on the paradigm shift and an overview of the state of research What is “Bioprotopia”? It is the vision of a world with buildings that grow, self-heal and create virtuous cycles where waste from one process feeds another. A vision where the spaces that we inhabit are attuned to both the human occupants and non-human microbial ecologies. This is the first book to ground the concept of biotechnology in the built environment in tangible, large-scale prototypes. With rich visuals, it presents materials and processes that exploit the many possibilities of shaping the built environment with micro-organisms. At the same time, scientific and technical challenges are discussed, pointing to the need for a shift in thinking and culture to ensure progress. First comprehensive publication on the state of research Demonstrates the use of renewable materials in design Illustrative, scientific documentation for design professions and researchers Entwerfen mit lebenden Materialien: Gedanken zum Paradigmenwechsel und ein Überblick zum Stand der Forschung Was ist Bioprotopia? Es ist die Vision von einer Welt, in der Gebäude wachsen, sich selbst heilen und positive Kreisläufe schaffen – eine Vision, in der Prozesse sich gegenseitig mit ihren Abfällen speisen und Lebensräume auf menschliche Bewohner als auch auf mikrobiellen Ökologien abgestimmt sind. Dieses Buch zeigt erstmals, dass die Vision dieser Einheit von Biotechnologie und gebauter Umwelt Wirklichkeit werden kann. Anhand großmaßstäblicher Prototypen werden Materialien und Prozesse vorgestellt, die die vielfältigen Möglichkeiten der Gestaltung der gebauten Umwelt mit Mikroorganismen nutzen. Gleichzeitig werden die wissenschaftlichen und technischen Herausforderungen erörtert und auf die Notwendigkeit für ein Umdenken und die kulturellen Veränderungen hingewiesen, die für die weitere Entwicklung nötig sind. Erste umfangreiche Publikation über den Stand der Forschung Zeigt die Anwendung von nachwachsenden Materialien im Entwurf Abbildungsreiche, wissenschaftliche Dokumentation für Gestaltungsberufe und Forschende
. --- Ben Bridgens. --- Biodesign, biomatrials, biotechnologies, bioarchitecture, growing architecture, growing materials, living building material, microorganism architecture, fungal material, recycling, climate change, bio-utopia, Donna Haraway, coexistence with nature, biomaterial design, prototype. --- HBBE. --- Louise Mackenzie. --- New Castle University. --- Ruth Morrow. --- The OME. --- fungal cultures. --- mushroom cultures .
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Fungi. --- Fungi --- -Pathogenic fungi --- -Fungi, Pathogenic --- Pathogenic microorganisms --- Medical mycology --- Fungal kingdom --- Fungus kingdom --- Funguses --- Mycobiota --- Mycota --- Cryptogams --- Mycology --- Fungi, Filamentous --- Molds --- Filamentous Fungi --- Filamentous Fungus --- Fungus --- Fungus, Filamentous --- Mold --- Allergens --- Fungal Proteins --- Microbiology --- Cultures and culture media --- Identification --- Pathogenic fungi --- FUNGI --- Cultures and culture media. --- Identification. --- analysis --- laboratory manuals. --- analysis, laboratory manuals --- analysis, laboratory manuals. --- -Cultures and culture media --- Analysis, laboratory manuals. --- Analysis --- Laboratory manuals. --- Fungi, Pathogenic --- Fungal cultures --- Cultures (Biology) --- Plant growing media
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Most of the available studies on marine fungi are based on the isolation and identification of fungi from different surfaces (e.g., submerged wood, sediments, macrophytes), mostly in coastal benthic environments. However, recent evidence suggests that fungi are also present in the oceanic water column, most likely mainly associated to particles, with the genomic potential to significantly contribute to marine biogeochemical cycles. Still, we lack even basic information on the ecology of the oceanic mycobiome, precluding us from determining the ecological role of this enigmatic kingdom in our oceans. The aim of this book and Special Issue was to focus on the ecology of marine fungi. Topics include, fungal abundance, distribution, activity, and phylogenetic and/or functional diversity in coastal to open ocean environments, including seawater column and sediments, derived both from laboratory and field studies.
marine fungi --- oxygen minimum zone --- nitrous oxide --- diversity --- 15N tracer --- size-fractioned --- eastern tropical North Pacific --- metagenome --- emergency disposal of raw of sewage --- seaside air --- bioaerosol --- mold --- yeast-like fungi --- mycology --- fungal diversity --- Antarctica --- bioprospecting --- psychrophiles --- cold-adapted enzymes --- industrial applications --- blue biotechnologies --- mycobiome --- marine sponge --- Agelas --- mesophotic --- halophytes --- marine mycology --- salt marsh fungi --- worldwide distribution --- chloroform-methanol extraction --- HPLC-UV --- LC-MS/MS --- ergosterol --- pelagic fungal biomass --- fluorescence in situ hybridisation --- mycoplankton --- fungal cultures --- pelagic --- fluorescence --- novel lineages --- phylogeny --- genetic markers --- antimicrobial --- anti-cancer --- comparative genomics --- metabolites --- whole genome sequencing --- deep-sea sediments --- trophic conditions --- Ross Sea --- total extracellular enzymatic activity --- kinetics --- maximum velocity --- half-saturation constant
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Most of the available studies on marine fungi are based on the isolation and identification of fungi from different surfaces (e.g., submerged wood, sediments, macrophytes), mostly in coastal benthic environments. However, recent evidence suggests that fungi are also present in the oceanic water column, most likely mainly associated to particles, with the genomic potential to significantly contribute to marine biogeochemical cycles. Still, we lack even basic information on the ecology of the oceanic mycobiome, precluding us from determining the ecological role of this enigmatic kingdom in our oceans. The aim of this book and Special Issue was to focus on the ecology of marine fungi. Topics include, fungal abundance, distribution, activity, and phylogenetic and/or functional diversity in coastal to open ocean environments, including seawater column and sediments, derived both from laboratory and field studies.
Research & information: general --- Biology, life sciences --- Ecological science, the Biosphere --- marine fungi --- oxygen minimum zone --- nitrous oxide --- diversity --- 15N tracer --- size-fractioned --- eastern tropical North Pacific --- metagenome --- emergency disposal of raw of sewage --- seaside air --- bioaerosol --- mold --- yeast-like fungi --- mycology --- fungal diversity --- Antarctica --- bioprospecting --- psychrophiles --- cold-adapted enzymes --- industrial applications --- blue biotechnologies --- mycobiome --- marine sponge --- Agelas --- mesophotic --- halophytes --- marine mycology --- salt marsh fungi --- worldwide distribution --- chloroform-methanol extraction --- HPLC-UV --- LC-MS/MS --- ergosterol --- pelagic fungal biomass --- fluorescence in situ hybridisation --- mycoplankton --- fungal cultures --- pelagic --- fluorescence --- novel lineages --- phylogeny --- genetic markers --- antimicrobial --- anti-cancer --- comparative genomics --- metabolites --- whole genome sequencing --- deep-sea sediments --- trophic conditions --- Ross Sea --- total extracellular enzymatic activity --- kinetics --- maximum velocity --- half-saturation constant
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Most of the available studies on marine fungi are based on the isolation and identification of fungi from different surfaces (e.g., submerged wood, sediments, macrophytes), mostly in coastal benthic environments. However, recent evidence suggests that fungi are also present in the oceanic water column, most likely mainly associated to particles, with the genomic potential to significantly contribute to marine biogeochemical cycles. Still, we lack even basic information on the ecology of the oceanic mycobiome, precluding us from determining the ecological role of this enigmatic kingdom in our oceans. The aim of this book and Special Issue was to focus on the ecology of marine fungi. Topics include, fungal abundance, distribution, activity, and phylogenetic and/or functional diversity in coastal to open ocean environments, including seawater column and sediments, derived both from laboratory and field studies.
Research & information: general --- Biology, life sciences --- Ecological science, the Biosphere --- marine fungi --- oxygen minimum zone --- nitrous oxide --- diversity --- 15N tracer --- size-fractioned --- eastern tropical North Pacific --- metagenome --- emergency disposal of raw of sewage --- seaside air --- bioaerosol --- mold --- yeast-like fungi --- mycology --- fungal diversity --- Antarctica --- bioprospecting --- psychrophiles --- cold-adapted enzymes --- industrial applications --- blue biotechnologies --- mycobiome --- marine sponge --- Agelas --- mesophotic --- halophytes --- marine mycology --- salt marsh fungi --- worldwide distribution --- chloroform-methanol extraction --- HPLC-UV --- LC-MS/MS --- ergosterol --- pelagic fungal biomass --- fluorescence in situ hybridisation --- mycoplankton --- fungal cultures --- pelagic --- fluorescence --- novel lineages --- phylogeny --- genetic markers --- antimicrobial --- anti-cancer --- comparative genomics --- metabolites --- whole genome sequencing --- deep-sea sediments --- trophic conditions --- Ross Sea --- total extracellular enzymatic activity --- kinetics --- maximum velocity --- half-saturation constant
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