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Biogeochemistry of the Critical Zone

Biogeochemistry of the Critical Zone
Author: Adam S. Wymore
Publisher: Springer Nature
Total Pages: 206
Release: 2022-05-16
Genre: Science
ISBN: 303095921X
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This book highlights recent advances in the discipline of biogeochemistry that have directly resulted from the development of critical zone (CZ) science. The earth's critical zone (CZ) is defined from the weathering front and lowest extent of freely circulating groundwater up through the regolith and to the top of the vegetative canopy. The structure and function of the CZ is shaped through tectonic, lithologic, hydrologic, climatic, and biological processes and is the result of processes occurring at multiple time scales from eons to seconds. The CZ is an open system in which energy and matter are both transported and transformed. Critical zone science provides a novel and unifying framework to consider those coupled interactions that control biogeochemical cycles and fluxes of energy and matter that are critical to sustaining a habitable planet. Biogeochemical processes are at the heart of energy and matter fluxes through ecosystems and watersheds. They control the quantity and quality of carbon and nutrients available for living organisms, control the retention and export of nutrients affecting water quality and soil fertility, and influence the ability for ecosystems to sequester carbon. As the term implies, biogeochemical cycles, and the rates at which they occur, result from the interaction of biological, chemical, and physical processes. However, finding a unifying framework by which to study these interactions is challenging, and the different components of bio-geo-chemistry are often studied in isolation. The authors provide both reviews and original research contributions with the requirement that the chapters incorporate a CZ framework to test biogeochemical theory and/or develop new and robust predictive models regarding elemental cycles. The book demonstrates how the CZ framework provides novel insights into biogeochemistry.

Biogeochemical Cycles

Biogeochemical Cycles
Author: Katerina Dontsova
Publisher: John Wiley & Sons
Total Pages: 336
Release: 2020-04-14
Genre: Science
ISBN: 1119413303
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Elements move through Earth's critical zone along interconnected pathways that are strongly influenced by fluctuations in water and energy. The biogeochemical cycling of elements is inextricably linked to changes in climate and ecological disturbances, both natural and man-made. Biogeochemical Cycles: Ecological Drivers and Environmental Impact examines the influences and effects of biogeochemical elemental cycles in different ecosystems in the critical zone. Volume highlights include: Impact of global change on the biogeochemical functioning of diverse ecosystems Biological drivers of soil, rock, and mineral weathering Natural elemental sources for improving sustainability of ecosystems Links between natural ecosystems and managed agricultural systems Non-carbon elemental cycles affected by climate change Subsystems particularly vulnerable to global change The American Geophysical Union promotes discovery in Earth and space science for the benefit of humanity. Its publications disseminate scientific knowledge and provide resources for researchers, students, and professionals. Book Review: http://www.elementsmagazine.org/archives/e16_6/e16_6_dep_bookreview.pdf

Principles and Dynamics of the Critical Zone

Principles and Dynamics of the Critical Zone
Author:
Publisher: Elsevier
Total Pages: 674
Release: 2015-06-18
Genre: Science
ISBN: 0444634126
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Principles and Dynamics of the Critical Zone is an invaluable resource for undergraduate and graduate courses and an essential tool for researchers developing cutting-edge proposals. It provides a process-based description of the Critical Zone, a place that The National Research Council (2001) defines as the "heterogeneous, near surface environment in which complex interactions involving rock, soil, water, air, and living organisms regulate the natural habitat and determine the availability of life-sustaining resources." This text provides a summary of Critical Zone research and outcomes from the NSF funded Critical Zone Observatories, providing a process-based description of the Critical Zone in a wide range of environments with a specific focus on the important linkages that exist amongst the processes in each zone. This book will be useful to all scientists and students conducting research on the Critical Zone within and outside the Critical Zone Observatory Network, as well as scientists and students in the geosciences – atmosphere, geomorphology, geology and pedology. The first text to address the principles and concepts of the Critical Zone A comprehensive approach to the processes responsible for the development and structure of the Critical Zone in a number of environments An essential tool for undergraduate and graduate students, and researchers developing cutting-edge proposals

Climatic Controls on Critical Zone Nutrient Biogeochemistry in Semiarid and Mediterranean Ecosystems

Climatic Controls on Critical Zone Nutrient Biogeochemistry in Semiarid and Mediterranean Ecosystems
Author: Morgan Elizabeth Barnes
Publisher:
Total Pages: 380
Release: 2020
Genre:
ISBN:
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Global climate models demonstrate that temperate ecosystems are likely to serve as carbon (C) sinks in the coming decades, however any realized increase in C storage on land will also require increases in the availabilities of plant essential nutrients such as nitrogen (N) and phosphorus (P). Additionally, nutrient limitation to plant productivity remains one of the most uncertain factors to global climate projections. Our understanding of how nutrient biogeochemistry is altered under different climatic conditions is unclear. Using a combination of field, laboratory, and advanced analytical techniques, I show P biogeochemistry is intrinsically related to soil development in a semiarid (White Mountains Elevational Transect) to Mediterranean (Southern Sierra Nevada Critical Zone Observatory) climatic gradient. Specifically, P stock increases, inorganic P transitions from calcium to iron and aluminum association, and organic P proportionally decreases with increasing climate-driven weathering. With increasing precipitation, soil and aboveground foliage became progressively more P-limited, whereas the microbial biomass and fine roots are more N-limited and enzyme activity is largely unaffected. Overall, the transition from a semiarid to Mediterranean climate creates more chemically weathered soil that is able to retain P that may not be readily bioavailable. These relatively more weathered soils appear to be relying on faster cycling organic P species to support ecosystem development. Furthermore, using three-dimensional resin capsule pots in a Mediterranean forest site, I characterized how nutrient fluxes under more biological l (PO43−, NH4, NO3−) or geochemical (Ca2+, Mg2+, and Na+) control are impacted by water year, seasonality, and depth to form hot spots (HS) or hot moments (HM). A multi-year drought occurred during the study, causing geochemically controlled nutrient fluxes to be transient over time and characterizing them as HM. Alternatively, biologically controlled outliers formed HS and HM. Macronutrient HS and HM are found at higher concentrations relative to the surrounding soil matrix, and co-occur in discrete spatial locations where belowground biomass can detect, proliferate, and exploit these resources. Overall, water flux controls nutrient biogeochemical cycles in these drylands. Therefore, nutrient HS and HM will likely play a disproportionate role in supporting ecosystem development in these temperature drylands under a changing climate.

Ecosystem Biogeochemistry

Ecosystem Biogeochemistry
Author: Christopher S. Cronan
Publisher: Springer
Total Pages: 205
Release: 2017-10-05
Genre: Science
ISBN: 3319664441
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This textbook presents a comprehensive process-oriented approach to biogeochemistry that is intended to appeal to readers who want to go beyond a general exposure to topics in biogeochemistry, and instead are seeking a holistic understanding of the interplay of biotic and environmental drivers in the cycling of elements in forested watersheds. The book is organized around a core set of ecosystem processes and attributes that collectively help to generate the whole-system structure and function of a terrestrial ecosystem. In the first nine chapters, a conceptual framework is developed based on distinct soil, microbial, plant, atmospheric, hydrologic, and geochemical processes that are integrated in the element cycling behavior of watershed ecosystems. With that conceptual foundation in place, students then proceed to the final three chapters where they are challenged to think critically about integrated element cycling patterns; roles for biogeochemical models; the likely impacts of disturbance, stress, and management on watershed biogeochemistry; and linkages among patterns and processes in watersheds experiencing novel environmental changes. Included with the text are figures, tables of comparative data, extensive literature citations, a glossary of terms, an index, and a set of 24 biogeochemical problems with answers. The problems are intended to support chapter concepts and to demonstrate how critical thinking skills, simple algebra, and thoughtful human logic can be used to solve applied problems in biogeochemistry that might be encountered by a research scientist or a resource manager. Using this book as an introduction to biogeochemistry, students will achieve a level of subject mastery and disciplinary perspective that will permit them to see and to interpret the individual components, interactions, and synergies that are represented in the dynamic element cycling patterns of watershed ecosystems.

Modern Biogeochemistry

Modern Biogeochemistry
Author: Vladimir N. Bashkin
Publisher: Springer Science & Business Media
Total Pages: 447
Release: 2006-12-29
Genre: Science
ISBN: 1402045867
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This book is aimed at generalizing the modern ideas of both biogeochemical and environmental risk assessment that have been developed in recent years. Only a few books are available in this interdisciplinary area, since most deal mainly with various technical aspects of ERA description and calculations. This text aims at supplementing the existing books by providing a modern understanding of mechanisms responsible for ecological risks for human beings and ecosystems.

Ecosystem Consequences of Soil Warming

Ecosystem Consequences of Soil Warming
Author: Jacqueline E. Mohan
Publisher: Academic Press
Total Pages: 592
Release: 2019-04-27
Genre: Science
ISBN: 0128134933
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Ecosystem Consequences of Soil Warming: Microbes, Vegetation, Fauna and Soil Biogeochemistry focuses on biotic and biogeochemical responses to warmer soils including plant and microbial evolution. It covers various field settings, such as arctic tundra; alpine meadows; temperate, tropical and subalpine forests; drylands; and grassland ecosystems. Information integrates multiple natural science disciplines, providing a holistic, integrative approach that will help readers understand and forecast future planetwide responses to soil warming. Students and educators will find this book informative for understanding biotic and biogeochemical responses to changing climatic conditions. Scientists from a wide range of disciplines, including soil scientists, ecologists, geneticists, as well as molecular, evolutionary and conservation biologists, will find this book a valuable resource in understanding and planning for warmer climate conditions. Emphasizes biological components of soils, plants and microbes that provide linkages to physics and chemistry Brings together chapters written by global scientific experts with interests in communication and education Includes coverage of polar, alpine, tropical, temperate and dryland ecosystems

Hydrogeology, Chemical Weathering, and Soil Formation

Hydrogeology, Chemical Weathering, and Soil Formation
Author: Allen Hunt
Publisher: John Wiley & Sons
Total Pages: 288
Release: 2021-04-06
Genre: Technology & Engineering
ISBN: 1119563968
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Explores soil as a nexus for water, chemicals, and biologically coupled nutrient cycling Soil is a narrow but critically important zone on Earth's surface. It is the interface for water and carbon recycling from above and part of the cycling of sediment and rock from below. Hydrogeology, Chemical Weathering, and Soil Formation places chemical weathering and soil formation in its geological, climatological, biological and hydrological perspective. Volume highlights include: The evolution of soils over 3.25 billion years Basic processes contributing to soil formation How chemical weathering and soil formation relate to water and energy fluxes The role of pedogenesis in geomorphology Relationships between climate soils and biota Soils, aeolian deposits, and crusts as geologic dating tools Impacts of land-use change on soils The American Geophysical Union promotes discovery in Earth and space science for the benefit of humanity. Its publications disseminate scientific knowledge and provide resources for researchers, students, and professionals. Find out more about this book from this Q&A with the Editors

Basic Research Opportunities in Earth Science

Basic Research Opportunities in Earth Science
Author: National Research Council
Publisher: National Academies Press
Total Pages: 169
Release: 2001-02-01
Genre: Science
ISBN: 030907133X
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Basic Research Opportunities in Earth Science identifies areas of high-priority research within the purview of the Earth Science Division of the National Science Foundation, assesses cross-disciplinary connections, and discusses the linkages between basic research and societal needs. Opportunities in Earth science have been opened up by major improvements in techniques for reading the geological record of terrestrial change, capabilities for observing active processes in the present-day Earth, and computational technologies for realistic simulations of dynamic geosystems. This book examines six specific areas in which the opportunities for basic research are especially compelling, including integrative studies of the near-surface environment (the "Critical Zone"); geobiology; Earth and planetary materials; investigations of the continents; studies of Earth's deep interior; and planetary science. It concludes with a discussion of mechanisms for exploiting these research opportunities, including EarthScope, natural laboratories, and partnerships.