TY  - BOOK
AU  - Staicu,Lucian C.
AU  - Barton,Larry L.
ED  - SpringerLink (Online service)
TI  - Geomicrobiology: Natural and Anthropogenic Settings
SN  - 9783031543067
AV  - QR 
U1  - 579 23
PY  - 2024///
CY  - Cham
PB  - Springer Nature Switzerland, Imprint: Springer
KW  - Microbiology
KW  - Bacteria
KW  - Microbial ecology
KW  - Industrial microbiology
KW  - Microbial populations
KW  - Geochemistry
KW  - Environmental Microbiology
KW  - Industrial Microbiology
KW  - Microbial Communities
N1  - Geomicrobiology: Present Approaches and Future Directions -- Microbial Interactions with the Mercury Cycle -- The Impact of Selenium on an Archaea-dominated, Methanogenic Granular Sludge Consortium -- Electroactive (Micro)Organisms -- Biominerals and Their Role in the Present and Future of Legacy Mining -- The Geomicrobiology of Acidic Pit Lakes -- Geomicrobiology of Rio Tinto (Iberian Pyrite Belt): A Geological and Mineralogical Mars Analogue -- Microbes in High Salt and Metal Contamination -- The Geomicrobiology of Biomining -- Microbial Electrochemical Technologies: Coupling Wastewater Treatment with Resource Recovery -- Metallurgical Slags in the Environment and Treatment Systems: insights Regarding Biotic Interactions -- Microbial Community Structure in Hydrothermal Sediments: The Guaymas Basin Field Site -- Carbonate Mineral Formation in the Vicinity of Blooming Algae in a Shallow Lake -- Underground Research Laboratories: Windows Into the Deep Subterranean Biosphere -- The Complex Interplay of Sulfur and Arsenic Bioenergetic Metabolisms in the Arsenic Geochemical Cycle
N2  - This volume brings together leading international experts to offer a unique and timely perspective on geomicrobiology through their latest research and findings. Chapters address interactions of marine and freshwater microorganisms contributing to geochemical cycles, including biochemical mechanisms for mineralization and transformation of solid minerals and dissolved metals. In addition, the resilience and physiological elasticity of specific bacteria in extreme environments is discussed, such as mechanisms of metal homeostasis and electrochemistry involving extracellular electron flow. Further coverage includes resource recovery (metals, minerals) using microbial-driven processes and technologies, with the aim to contribute to a better understanding of microbial potential within the framework of circular economy. This book is designed for professionals and students, including environmental engineers, microbiologists, and individuals studying the interaction of bacteria with metals and minerals in the environment. It is also a resource for students in academic programs or short courses focused on bacterial diversity in the environment, systems of bacterial energetics, resource recovery, and bacterial activities in extreme or nutrient-stressed environments.
UR  - http://libcon.rec.uabc.mx:2048/login?url=https://doi.org/10.1007/978-3-031-54306-7
ER  -