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Microbes: The Foundation Stone of the Biosphere (2021)

Hurst, Christon J. [editor.]

Cham :Springer International Publishing :

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Keywords: Microbial ecology. ; Microbiology. ; Evolution (Biology). ; Microbial Ecology. ; Microbiology. ; Evolutionary Biology.

Description / Table of Contents: Part I. Recognizing the Role of Microorganisms in our World -- Our Living World Rests upon a Foundation of Microorganisms: The Constant Struggle for Habitat and Niche -- Darwin’s Science’s Impact on the Evolution of the Microbiological Sciences -- Microbes and Marine Sediments: A Lifelong Relationship on Earth’s Biosphere -- The Democracy of Dirt: Relating Micro-Scale Dynamics to Macro-Scale Ecosystem Function -- Part II. Microbial Life Persists Within Even the Most Extreme Environments -- The Concept of Evanescent Microbial Ecosystems in Earth’s Atmosphere -- When the Vital Signs of Microbial Life Go Cold, Does That Mean the Pulse Is Gone? Microbial Life Persists at the Limits of Cryoenvironments on Earth -- Lithotrophic (“Stone Eating”) Microbes Provide the Foundation for Deep Subsurface Ecosystems -- Part III. Understanding the Core Values of Microbial Metabolism,- Miraculous Fixation of Molecular Nitrogen from the Atmosphere -- Mutagens, Radicals, Rocket Fuel and Laughing Gas: Stringing Metabolic Modules to Survive on Nitrogenous Poisons -- The Grand Microbial Variety Show -- Part IV. Microbes Established and Sustain Life -- Microbes’ Many Roles in Climate Change: Contribution, Consequence, Mitigation, and Model System -- The Revolutionary Potential of the Hidden Half of Nature in Agriculture and Medicine -- Microscale Carbon Cycling Between Bacteria and Algae under the Sun -- Part V. The Basic Aspects of Microbial Symbioses -- Discovering the Symbiotic Nature of Microbial Life: Summarizing Milestone Publications from 1866 through 1947 -- Microscopic World and the Phenomenon of Symbiosis in the Natural Environment -- Symbiosis in a Rapidly Changing World -- Diversity–Function Relationships and the Underlying Ecological Mechanisms in Host-Associated Microbial Communities -- Darwinian Medicine: We Evolved to Require Continuing Contact with the Microbiota of the Natural Environment. Evolution Turns the Inevitable into a Necessity -- Biochemistry and Molecular Biology of the Enzyme ACC Deaminase -- The Diazotroph as an Endophyte and How a Diazotroph Interacts with Its Plant Host -- The Hologenome Hypothesis and Its Application to Plant-Microbe Interactions on an Evolutionary Scale -- Beneficial Role of Plant Growth-Promoting Rhizobacteria in Bioremediation of Heavy Metal(loid) Contaminated Agricultural Fields -- Defensive Microbiomes: A Widespread Phenomenon in Nature -- Coevolution of Molluscs and Their Microbes -- Invisible Interactions between Microorganisms -- Part VI. Microbial Symbiosis as a Driving Force in Evolution -- The Game of Evolution Is Won by Competitive Cheating -- The Importance of Being Symbiont and the Role of Symbiosis as a Driving Force in Evolution -- Viruses, Underestimated Drivers of Ecology and Evolution of Life -- Coevolution of Bryophytes and their Associated Microorganisms -- Part VII. The Adventure of Microbiology Research -- BUBBLES in the MUD: A Reminiscence and Perspective -- Salty, Alkali-Laced Tales (Mostly True) from the Great Basin Desert, California and Nevada.

Abstract: This collection of essays discusses fascinating aspects of the concept that microbes are at the root of all ecosystems. The content is divided into seven parts, the first of those emphasizes that microbes not only were the starting point, but sustain the rest of the biosphere and shows how life evolves through a perpetual struggle for habitats and niches. Part II explains the ways in which microbial life persists in some of the most extreme environments, while Part III presents our understanding of the core aspects of microbial metabolism. Part IV examines the duality of the microbial world, acknowledging that life exists as a balance between certain processes that we perceive as being environmentally supportive and others that seem environmentally destructive. In turn, Part V discusses basic aspects of microbial symbioses, including interactions with other microorganisms, plants and animals. The concept of microbial symbiosis as a driving force in evolution is covered in Part VI. In closing, Part VII explores the adventure of microbiological research, including some reminiscences from and perspectives on the lives and careers of microbe hunters. Given its mixture of science and philosophy, the book will appeal to scientists and advanced students of microbiology, evolution and ecology alike.

Type of Medium: Online Resource

Pages: XX, 685 p. 156 illus., 122 illus. in color. , online resource.

Edition: 1st ed. 2021.

ISBN: 9783030635121

Series Statement: Advances in Environmental Microbiology, 8

URL: https://doi.org/10.1007/978-3-030-63512-1

DOI: 10.1007/978-3-030-63512-1

DDC: 579.17

Language: English

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Microbial Metabolism of Metals and Metalloids (2022)

Hurst, Christon J. [editor.]

Cham :Springer International Publishing :

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Keywords: Microbial ecology. ; Microbiology. ; Industrial microbiology. ; Environment. ; Microbial Ecology. ; Microbiology. ; Industrial Microbiology. ; Microbiology. ; Environmental Sciences.

Description / Table of Contents: Part I. Introduction -- Chapter 1. Metal Munching Microbes -- Chapter 2. Chemical Constraints for Transition Metal Cation Allocation -- Part II. Understanding Commonality of the Basic Processes -- Chapter 3. The Mosaic Landscape of Algal Metal Transport and Usage -- Chapter 4. Metal-based Antimicrobials – Uses and Challenges -- Part III. When Microbes are the Best Tool for the Job -- Chapter 5. Microbial Consortium: A Promising Strategy for Bioleaching of Metals from Industrial Wastes -- Chapter 6. Molecular Mechanisms that Mediate Microbial Synthesis of Metal Nanoparticles -- Chapter 7. Bacterial Production of Metal(loid) Nanostructures -- Part IV. Uniqueness of the Elements -- Chapter 8. Microbes: Key Players of the Arsenic Biogeochemical Cycle -- Chapter 9. Microbial Transformations of Antimony -- Chapter 10. Microbial Remediation of Chromium -- Chapter 11. Microbial Interactions with Gold and Uranium -- Chapter 12. Prokaryotic Ferrous Iron Transport: Exploiting Pools of Reduced Iron Across Multiple Microbial Environments -- Chapter 13. Pterin Containing Microbial Molybdenum Enzymes -- Chapter 14. Microbial Metabolism of Nickel -- Chapter 15 -- Microbial Transformation of Silicon in Soil -- Chapter 16. Microbial Interactions with Titanium -- Chapter 17. Microbial Tungsten Assimilation -- Chapter 18. Vanadium-based Transformations Effected by Algae and Microbes -- Chapter 19. How Is a Zinc Ion Correctly Allocated to a Zinc-Dependent Protein?.

Abstract: This book explains the metabolic processes by which microbes obtain and control the intracellular availability of their required metal and metalloid ions. The book also describes how intracellular concentrations of unwanted metal and metalloid ions successfully are limited. Its authors additionally provide information about the ways that microbes derive metabolic energy by changing the charge states of metal and metalloid ions. Part one of this book provides an introduction to microbes, metals and metalloids. It also helps our readers to understand the chemical constraints for transition metal cation allocation. Part two explains the basic processes which microbes use for metal transport. That section also explains the uses, as well as the challenges, associated with metal-based antimicrobials. Part three gives our readers an understanding that because of microbial capabilities to process metals and metalloids, the microbes have become our best tools for accomplishing many jobs. Their applications in chemical technology include the design of microbial consortia for use in bioleaching processes that recover metal and metalloid ions from industrial wastes. Many biological engineering tasks, including the synthesis of metal nanoparticles and similar metalloid structures, also are ideally suited for the microbes. Part four describes unique attributes associated with the microbiology of these elements, progressing through the alphabet from antimony and arsenic to zinc. .

Type of Medium: Online Resource

Pages: XXIV, 660 p. 107 illus., 80 illus. in color. , online resource.

Edition: 1st ed. 2022.

ISBN: 9783030971854

Series Statement: Advances in Environmental Microbiology, 10

URL: https://doi.org/10.1007/978-3-030-97185-4

DOI: 10.1007/978-3-030-97185-4

DDC: 579.17

Language: English

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The Ecology of Predation at the Microscale (2020)

Jurkevitch, Edouard. [editor.] ; Mitchell, Robert J. [editor.]

Cham :Springer International Publishing :

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Keywords: Microbial ecology. ; Water. ; Hydrology. ; Pollution. ; Microbial Ecology. ; Water. ; Pollution.

Description / Table of Contents: Preface -- Predatory interactions between Myxobacteria and their prey -- The ecology of Bdellovibrio and like organisms in wastewater treatment plants -- Intraguild predation: predatory networks at the microbial scale -- Antibacterial activities of Bdellovibrio and like organisms in aquaculture -- Secondary metabolism of predatory bacteria -- Environmental and biotic factors impacting the activities of Bdellovibrio bacteriovorus -- Emerging horizons for industrial applications of predatory bacteria. .

Abstract: This work is a collection of articles that discuss microbial predation from a variety of perspectives. It provides the readers a concise resource describing factors that are critical for several different predatory microbes, including Myxobacterium spp. and Bdellovibrio-and-like organisms (BALOs), including the mechanisms involved, ecological conditions that adversely impact it and potential applications in aquaculture and bioproduction. The first half of this collection focuses more on ecological aspects of predation, with in-depth discussions on “wolf pack” predators, the presence and activities of predators in waste-water treatment plants and the role of intraguild predatory relationships, i.e., when two different predators are competing for a single prey but also interact with one another. The reader will gain a deeper understanding of the predatory mechanisms involved and their ecological roles. In the latter half, emphasis is given more to the application and limitations of predators. In addition to discussing secondary metabolite production within different microbial predators, the readers will also learn how predators are being used to purify secondary metabolites from prey. This section also discusses the expanding and promising role of predation in aquaculture, focusing on the application of predators to reduce pathogenic populations, but includes some important caveats for young researchers to consider and follow when working with Bdellovibrio. This work is written for both experienced researchers already in the field and for young scientists who are captivated by the thought of predation at the microscale and its growing importance within a wide-array of fields. .

Type of Medium: Online Resource

Pages: XIII, 194 p. 28 illus., 11 illus. in color. , online resource.

Edition: 1st ed. 2020.

ISBN: 9783030455996

URL: https://doi.org/10.1007/978-3-030-45599-6

DOI: 10.1007/978-3-030-45599-6

DDC: 579.17

Language: English

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