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Air pollution, due to natural and anthropogenic sources, incurs enormous environmental costs. The issue of healthy living spaces and good air quality is a global concern, because each individual inhales 15,000 L of air every 24 h. Thus, contemporary monitoring and reducing exposure to air pollutants presents a particular challenge. One of the crucial indicators of indoor and outdoor air quality is bioaerosols. They play an instrumental role as risk factors when it comes to adverse health outcome. These indicators, also known as primary biological airborne particles (PBAPs), have been linked to various health effects such as infectious diseases, toxic effects, allergies, and even cancer. PBAPs include all particles with a biological source in suspension in the air (bacteria, fungi, viruses, and pollen), as well as biomolecules (toxins, and debris from membranes). To foster our current scientific knowledge on bioaerosols, research related to the characteristics of biological aerosols in indoor and outdoor environments, the methods used to improve air quality, as well as the health effects of and exposure assessments to bioaerosols, have been collected in this book.
radiant catalytic ionization --- Enterococcus spp. --- Clostridioides difficile --- Staphylococcus aureus --- MRSA --- indoor air --- microbiological indoor air quality (MIAQ) --- bacterial aerosol (BA) --- size distribution --- gymnastic hall --- multi-antibiotic resistance (MAR) --- indoor microclimate --- decentralized façade ventilation --- air quality --- indoor air quality --- microbiological contamination --- heterotrophic bacteria --- antimicrobial resistance --- mannitol-positive staphylococci --- fungi --- biological air pollutants --- fungal aerosol --- air cleaner --- life cycle assessment --- n/a --- decentralized façade ventilation
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The dazzling variation in plant chemistry is a primary mediator of trophic interactions, including herbivory, predation, parasitism, and disease. At the same time, such interactions feed back to influence spatial and temporal variation in the chemistry of plants. In this book, Mark Hunter provides a novel approach to linking the trophic interactions of organisms with the cycling of nutrients in ecosystems.Hunter introduces the concept of the "phytochemical landscape"-the shifting spatial and temporal mosaic of plant chemistry that serves as the nexus between trophic interactions and nutrient dynamics. He shows how plant chemistry is both a cause and consequence of trophic interactions, and how it also mediates ecosystem processes such as nutrient cycling. Nutrients and organic molecules in plant tissues affect decomposition rates and the fluxes of elements such as carbon, nitrogen, and phosphorus. The availability of these same nutrients influences the chemistry of cells and tissues that plants produce. In combination, these feedback routes generate pathways by which trophic interactions influence nutrient dynamics and vice versa, mediated through plant chemistry. Hunter provides evidence from terrestrial and aquatic systems for each of these pathways, and describes how a focus on the phytochemical landscape enables us to better understand and manage the ecosystems in which we live.Essential reading for students and researchers alike, this book offers an integrated approach to population-, community-, and ecosystem-level ecological processes.
Variation (Biology) --- Environmental chemistry. --- Botanical chemistry. --- Phytochemicals. --- Animal-plant relationships. --- Autotrophic bacteria. --- Heterotrophic bacteria. --- Bacteria, Heterotrophic --- Bacteria --- Bacteria, Autotrophic --- Animal-plant interactions --- Animals and plants --- Interactions, Animal-plant --- Plant-animal interactions --- Plant-animal relationships --- Plants and animals --- Relationships, Animal-plant --- Ecology --- Botanical chemicals --- Plant chemicals --- Chemicals --- Botanical chemistry --- Phytochemistry --- Plant biochemistry --- Plant chemistry --- Biochemistry --- Botany --- Phytochemicals --- Plant biochemical genetics --- Chemistry, Environmental --- Chemistry --- Biological variation --- Biology --- Heredity --- Genetics --- Mutation (Biology)
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