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Achieving the Paris Climate Agreement Goals : Part 2: Science-based Target Setting for the Finance industry — Net-Zero Sectoral 1.5˚C Pathways for Real Economy Sectors (2022)

Teske, Sven. [editor.]

Cham :Springer International Publishing :

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Keywords: Climatology. ; Environmental management. ; Energy policy. ; Energy and state. ; Sustainability. ; Climate Sciences. ; Environmental Management. ; Energy Policy, Economics and Management. ; Sustainability.

Description / Table of Contents: Chapter 1: Science-based industry GHG targets, Nationally Determined Contributions (NDC) and the scientific status quo of climate change -- Chapter 2: Development of industry GHG emission and energy demand– past, present and future perspectives -- Chapter 3: Industry GHG target setting, Scope 1, 2 and 3 emissions – the concept -- Chapter 4: Modelling approaches -- Chapter 5: Main assumptions for Industry pathways -- Chapter 6: Renewable Process Heat -- Chapter 7: Renewable Fuels: Hydrogen-, Synthetic- and biofuels -- Chapter 8: Negative emissions: Nature-based-solutions -- Chapter 9: Industry energy pathways - Scenario results -- Chapter 10: Scope 3 industry emissions and future pathways -- Chapter 11: Mapping out Carbon Conservation and Protection Zones (CCPZ) -- Chapter 12: Discussion, Conclusions and Recommendations.

Abstract: This open access book is designed as a continuation of the editor’s 2019 book Achieving the Paris Climate Agreement Goals. This volume provides an in-depth analysis of industry sectors globally, and its purpose is to present emission reduction targets in 5-year steps (2025 to 2050) for the main twelve finance sectors per the Global Industry Classification System. This scientific analysis aims to support the United Nations Principles for Responsible Investment initiative to give sustainability guidance for the global finance industry. The industry sector pathways presented here are based on the latest global and regional 100% renewable energy and non-energy greenhouse gas Representative Concentration Pathways in order to keep climate change significantly under +1.5 C and thereby achieve the Paris Climate Agreement goals. The heart of this book is three chapters presenting the results of industry scenario modelling. These chapters cover twelve industry and service sectors as well as transportation and buildings. The specific energy demand and specific emissions are presented based on the emission accounting concept of “Scope 1, Scope 2 and Scope 3” emission pathways. This methodology has been developed to measure the climate and sustainability index for companies, and this research project expands the methodology to apply it to entire industry sectors. The results presented here are the first overall industry assessments under Scope 1, 2 and 3 from 2020 through 2050. The base for the energy pathways is the scenarios scenarios published in the previous volume. The nonenergy GHG emission scenarios, broken down to agriculture & forestry and industry, are detailed and include all major greenhouse gases and aerosols. The final section of the book presents the main conclusions of the industry pathway development work and recommendations for the finance industry and policy makers. Additionally, future qualitative future investment requirements in specific technologies and measures are presented.

Type of Medium: Online Resource

Pages: LXXVIII, 384 p. 87 illus., 81 illus. in color. , online resource.

Edition: 1st ed. 2022.

ISBN: 9783030991777

URL: https://doi.org/10.1007/978-3-030-99177-7

DOI: 10.1007/978-3-030-99177-7

DDC: 551.6

Language: English

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Marine Hydrocarbon Seeps : Microbiology and Biogeochemistry of a Global Marine Habitat (2020)

Teske, Andreas. [editor.] ; Carvalho, Verena. [editor.]

Cham :Springer International Publishing :

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Keywords: Biogeography. ; Physical geography. ; Microbial ecology. ; Bioorganic chemistry. ; Biogeosciences. ; Earth System Sciences. ; Microbial Ecology. ; Bioorganic Chemistry.

Description / Table of Contents: Diversity and assembly of seep-associated microbial communities -- Anaerobic hydrocarbon-degrading sulfate-reducing bacteria at marine gas and oil seeps -- Guaymas Basin, a hydrothermal hydrocarbon seep ecosystem -- The Gulf of Mexico: An introductory survey of a seep-dominated seafloor landscape -- Benthic deep-sea life associated with asphaltic hydrocarbon emissions at Chapopote, southern Gulf of Mexico -- Archaea in Mediterranean Sea cold seep sediments and brine pools -- The microbial communities of the East Mediterranean Sea mud volcanoes and pockmarks -- Large sulfur-oxidizing bacteria at Gulf of Mexico hydrocarbon seeps -- Growth patterns of giant deep-sea Beggiatoaceae from a Guaymas Basin vent site -- Uncovering microbial hydrocarbon degradation processes: the promise of stable isotope probing.

Abstract: This book provides an up-to-date overview of the microbiology, biogeochemistry, and ecology of marine hydrocarbon seeps, a globally occurring habitat for specialized microorganisms and invertebrates that depend on natural hydrocarbon seepage as a food and energy source. Prominent examples include the briny hydrocarbon seeps and mud volcanoes on the continental slope of the Gulf of Mexico and in the Mediterranean, the hydrothermally heated hydrocarbon seeps at Guaymas Basin (Mexico), and the oil and gas seeps off the coast of California and in the Gulf of Mexico. Featuring topical chapters by leading researchers in the area, the book describes geological settings, chemical characteristics of hydrocarbon seepage, hydrocarbon-dependent microbial populations, and ecosystem structure and trophic networks at hydrocarbon seeps. Further, it also discusses applied aspects such as bioremediation potential (oil-degrading microorganisms).

Type of Medium: Online Resource

Pages: XII, 199 p. 55 illus., 49 illus. in color. , online resource.

Edition: 1st ed. 2020.

ISBN: 9783030348274

Series Statement: Springer Oceanography,

URL: https://doi.org/10.1007/978-3-030-34827-4

DOI: 10.1007/978-3-030-34827-4

DDC: 578.09

Language: English

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The metabolic pathways and environmental controls of hydrocarbon biodegradation in marine ecosystems (2021)

Andreas P. Teske ; Samantha B. Joye ; Joel E. Kostka ; [et al.]

Frontiers Media SA

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Publication Date: 2022-01-31

Description: Biodegradation mediated by indigenous microbial communities is the ultimate fate of the majority of oil hydrocarbon that enters the marine environment. The aim of this Research Topic is to highlight recent advances in our knowledge of the pathways and controls of microbially-catalyzed hydrocarbon degradation in marine ecosystems, with emphasis on the response of microbial communities to the Deepwater Horizon oil spill in the Gulf of Mexico. In this Research Topic, we encouraged original research and reviews on the ecology of hydrocarbon-degrading bacteria, the rates and mechanisms of biodegradation, and the bioremediation of discharged oil under situ as well as near in situ conditions.

Keywords: GC1-1581 ; QR1-502 ; Q1-390 ; Biodegradation ; Metagenomics ; oil spill ; metatran ; bacterioplankton ; Bacteria ; Gulf of Mexico ; microbial communities ; hydrocarbon ; Deepwater Horizon

Language: English

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Deep Subsurface Microbiology (2021)

Axel Schippers ; Andreas Teske ; Jennifer F Biddle ; [et al.]

Frontiers Media SA

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Publication Date: 2024-04-05

Description: Deep subsurface microbiology is a highly active and rapidly advancing research field at the interface of microbiology and the geosciences; it focuses on the detection, identification, quantification, cultivation and activity measurements of bacteria, archaea and eukaryotes that permeate the subsurface biosphere of deep marine sediments and the basaltic ocean and continental crust. The deep subsurface biosphere abounds with uncultured, only recently discovered and – at best - incompletely understood microbial populations. In spatial extent and volume, Earth’s subsurface biosphere is only rivaled by the deep sea water column. So far, no deep subsurface sediment has been found that is entirely devoid of microbial life; microbial cells and DNA remain detectable at sediment depths of more than 1 km; microbial life permeates deeply buried hydrocarbon reservoirs, and is also found several kilometers down in continental crust aquifers. Severe energy limitation, either as electron acceptor or donor shortage, and scarcity of microbially degradable organic carbon sources are among the evolutionary pressures that have shaped the genomic and physiological repertoire of the deep subsurface biosphere. Its biogeochemical role as long-term organic carbon repository, inorganic electron and energy source, and subduction recycling engine continues to be explored by current research at the interface of microbiology, geochemistry and biosphere/geosphere evolution. This Research Topic addresses some of the central research questions about deep subsurface microbiology and biogeochemistry: phylogenetic and physiological microbial diversity in the deep subsurface; microbial activity and survival strategies in severely energy-limited subsurface habitats; microbial activity as reflected in process rates and gene expression patterns; biogeographic isolation and connectivity in deep subsurface microbial communities; the ecological standing of subsurface biospheres in comparison to the surface biosphere – an independently flourishing biosphere, or mere survivors that tolerate burial (along with organic carbon compounds), or a combination of both? Advancing these questions on Earth’s deep subsurface biosphere redefines the habitat range, environmental tolerance, activity and diversity of microbial life.

Keywords: QR1-502 ; Q1-390 ; marine sediment ; Methane ; deep biosphere ; acetogenesis ; subseafloor sediment ; Hydrogen ; deep subsurface ; ocean crust ; sulfate reduction ; Peru margin ; thema EDItEUR::P Mathematics and Science::PS Biology, life sciences::PSG Microbiology (non-medical)

Language: English

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Microbial Exopolymers: Sources, Chemico-Physiological Properties, and Ecosystem Effects in the Marine Environment (2021)

Andreas Teske ; Kai Ziervogel ; Tony Gutierrez ; [et al.]

Frontiers Media SA

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Publication Date: 2022-01-31

Description: Microorganisms (bacteria, archaea, microeukaryotes) in marine environments secrete a diverse array of exopolymeric substances that facilitate attachment to surfaces, the formation of organic colloids and larger aggregations of cells (marine snow), and that can influence many ocean, as well as global, processes. The aim of this Research Topic is to highlight recent advances in the sources, chemistry and function of these microbial-produced macromolecules. We encouraged original research and reviews on exopolymeric substances, from their sources, chemico-physiological properties, functions and ecosystem effects, and including their role in the Gulf of Mexico following the Deepwater Horizon oil spill disaster.

Keywords: GC1-1581 ; QR1-502 ; Q1-390 ; marine oil snow (MOS) ; exopolymers ; marine environment ; biological pump ; phytoplankton ; marine snow ; oceans ; marine bacteria ; exopolysaccharide substances (EPS) ; organic carbon

Language: English

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Hydrothermal microbial ecosystems (2021)

Anna-Louise Reysenbach ; Andreas Teske

Frontiers Media SA

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Publication Date: 2024-04-05

Keywords: QR1-502 ; Q1-390 ; hydrothermal vents ; extremophiles ; Guaymas basin ; microbial biogeography ; marine sediments ; thema EDItEUR::P Mathematics and Science::PS Biology, life sciences::PSG Microbiology (non-medical)

Language: English

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