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Anaerobic technology has become widely accepted by the environmental industry as a cost-effective alternative to the conventional aerobic process. This makes anaerobic process the favored green treatment technology for sustainable environment in years to come. Written by world-renowned authors, this compendium summarizes the successful full-scale application experiences of anaerobic technology worldwide, including not just food, beverage, and distillery wastewaters but also municipal, agricultural, chemical and petrochemical wastewaters. The book also introduces new developments of anaerobic

Sewage --- Refuse and refuse disposal --- Anaerobic bacteria. --- Sustainable development. --- Purification --- Anaerobic treatment. --- Biodegradation. --- Environmental aspects.

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Anaerobic bacteria --- Anaerobic protozoa --- Anaerobiosis --- Bacteria, Anaerobic --- Bacterial Infections --- Fungi --- Eukaryota --- Bacterial diseases --- Protozoa --- Anaérobiose --- Bactéries anaérobies --- Maladies bactériennes --- Champignons --- Protozoaires --- Fungi, Filamentous --- Molds --- Filamentous Fungi --- Filamentous Fungus --- Fungus --- Fungus, Filamentous --- Mold --- Bacterial Infection --- Infection, Bacterial --- Infections, Bacterial --- Anaerobic Bacteria --- Anaerobic Metabolism --- Anaerobic Metabolisms --- Anaerobioses --- Metabolism, Anaerobic --- Metabolisms, Anaerobic --- Protozoans --- Protozoons --- Bacterial infections --- Anoxybiosis --- Allergens --- Fungal Proteins --- Microbiology --- Invertebrates --- Protista --- Protozoology --- Communicable diseases --- Medical bacteriology --- Pathogenic bacteria --- Bacteria --- Ecology --- Metabolism --- Oxygen --- Respiration --- Physiological effect --- Anaerobiosis. --- Bacteria, Anaerobic. --- Bacterial Infections. --- Fungi. --- Eukaryota. --- Eucarya --- Eukarya --- Eukaryotes --- Eukaryotas --- Eukaryote --- Bacterial Disease --- Bacterial Diseases

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[Increasing evidence suggests that microbiota and especially the gut microbiota (the microbes inhabiting the gut including bacteria, archaea, viruses, and fungi) plays a key role in human physiology and pathology. Recent findings indicate how dysbiosis—an imbalance in the composition and organization of microbial populations—could severely impact the development of different medical conditions (from metabolic to mood disorders), providing new insights into the comprehension of diverse diseases, such as IBD, obesity, asthma, autism, stroke, diabetes, and cancer. Given that microbial cells in the gut outnumber host cells, microbiota influences human physiology both functionally and structurally. Microbial metabolites bridge various—even distant—areas of the organism by way of the immune and hormone system. For instance, it is now clear that the mutual interaction between the gastrointestinal tract and the brain (gut–brain axis), often involves gut microbiota, indicating that the crosstalk between the organism and its microbial residents represents a fundamental aspect of both the establishment and maintenance of healthy conditions. Moreover, it is crucial to recognize that beyond the intestinal tract, microbiota populates other host organs and tissues (e.g., skin and oral mucosa). We have edited this eBook with the aim of publishing manuscripts focusing on the impact of microbiota in the development of different diseases and their associated treatments.]

gastrointestinal diseases --- sterile inflammation --- n/a --- Staphylococcus spp. --- etiopathogenesis --- colitis --- Escherichia coli --- bacteriophages --- atopic dermatitis --- intravenous immunoglobulin G --- adaptive immunity --- 16S rRNA gene --- vaginal microbiota --- modularity --- innate immunity --- gut-liver axis --- disease activity --- immune system --- cytokines --- commensals --- Staphylococcus aureus --- dysbiosis --- fecal transplantation --- TLR mimicry --- etanercept --- dextran sulfate sodium --- CAR T-cell --- 3-dihydroxy-4-methoxyBenzaldehyde --- chemo free treatment --- Staphylococcus epidermis --- rheumatoid arthritis --- microbiome --- co-occurrence network --- immune epigenetics --- 2 --- autoimmunity --- superoxide dismutase --- precision medicine --- metabolism --- adoptive cell transfer (ACT) --- gut barrier --- antibiotics --- checkpoint inhibitors --- probiotics --- microbiota --- Candida albicans --- Enterococcus faecalis --- chronic liver diseases --- TCR --- anaerobic bacteria --- HSV2 --- bacteriocins --- methotrexate --- microbial interactions --- T cells --- virus --- mice --- lymphoid malignancies --- HPV --- macrophages --- anti-TNF-? --- inflammation --- chondroitin sulfate disaccharide --- immunotherapy --- genomics --- immuno-oncology --- diet --- aerobic bacteria --- immunological niche --- melanin --- health --- chemokines --- gut microbiota --- cutaneous immunity --- HIV --- TIL --- cancer --- global network