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Books on the topic 'Biogeochemical effects'

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Published: 25 January 2025

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1

Howe, John T. Biogeochemical cycling in the ocean. Moffett Field, Calif: National Aeronautics and Space Administration, Ames Research Center, 1986.

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2

Braun, Christopher L. Water-level variations and their effects on tree growth and mortality and on the biogeochemical system at the phytoremediation demonstration site in Fort Worth, Texas, 1996-2003. Reston, Va: U.S. Dept. of the Interior, U.S. Geological Survey, 2004.

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3

L, Braun Christopher, Geological Survey (U.S.), and Aeronautical Systems Center (U.S.). Environmental Management Directorate, eds. Water-level variations and their effects on tree growth and mortality and on the biogeochemical system at the phytoremediation demonstration site in Fort Worth, Texas, 1996-2003. [Reston, Va.]: U.S. Dept. of the Interior, U.S. Geological Survey, 2004.

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4

Braun, Christopher L. Water-level variations and their effects on tree growth and mortality and on the biogeochemical system at the phytoremediation demonstration site in Fort Worth, Texas, 1996-2003. Reston, Va: U.S. Dept. of the Interior, U.S. Geological Survey, 2004.

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5

L, Braun Christopher, Geological Survey (U.S.), and Aeronautical Systems Center (U.S.). Environmental Management Directorate., eds. Water-level variations and their effects on tree growth and mortality and on the biogeochemical system at the phytoremediation demonstration site in Fort Worth, Texas, 1996-2003. [Reston, Va.]: U.S. Dept. of the Interior, U.S. Geological Survey, 2004.

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6

L, Braun Christopher, Geological Survey (U.S.), and Aeronautical Systems Center (U.S.). Environmental Management Directorate., eds. Water-level variations and their effects on tree growth and mortality and on the biogeochemical system at the phytoremediation demonstration site in Fort Worth, Texas, 1996-2003. Reston, Va: U.S. Dept. of the Interior, U.S. Geological Survey, 2004.

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7

Mannion, Antoinette M. Global environmental change: The disruption of biogeochemical cycles / A.M. Mannion. Reading, U.K: Department of Geography, University of Reading, 1998.

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8

R, Wollast, Mackenzie Fred T. 1934-, Chou Lei 1953-, North Atlantic Treaty Organization. Scientific Affairs Division., and NATO Advanced Research Workshop on Interactions of C,N,P, and S Biogeochemical Cycles (1991 : Melreux, Belgium), eds. Interactions of C, N, P, and S biogeochemical cycles and global change. Berlin: Springer-Verlag, 1993.

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9

Paul, Bennett. Earth, the incredible recycling machine. New York: Thomson Learning, 1993.

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10

Lukashev, K. I. Trevogi i nadezhdy: Izmeni͡a︡i͡u︡shchai͡a︡si͡a︡ biosfera. Minsk: "Nauka i tekhnika", 1987.

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11

King, Harley D. Metal uptake by young conifer trees. [Reston, Va.?]: Dept. of the Interior, Geological Survey, 1985.

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12

King, Harley D. Metal uptake by young conifer trees: Experimental studies of trees growing in soils containing minerals representative of four types of mineral deposits. Washington: U.S. G.P.O., 1985.

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13

V, Ivanov M., Bashkin V. N, Snakin V. V, Institut pochvovedenii͡a︡ i fotosinteza (Rossiĭskai͡a︡ akademii͡a︡ nauk), and Vserossiĭskiĭ institut okhrany prirody i zapovednogo dela., eds. Biogeokhimicheskie osnovy ėkologicheskogo normirovanii͡a︡. Moskva: VO "Nauka", 1993.

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14

S, Koplan-Diks I., Stravinskai͡a︡ E. A, and Institut ozerovedenii͡a︡ (Rossiĭskai͡a︡ akademii͡a︡ nauk), eds. Antropogennoe pereraspredelenie organicheskogo veshchestva v biosfere. Sankt-Peterburg: "Nauka", 1993.

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15

Smil, Vaclav. Cycles of life: Civilization and the biosphere. New York: Scientific American Library, 1997.

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16

Pokatilov, I︠U︡ G. Khimii︠a︡ atmosfernykh osadkov i mediko-demograficheskie osobennosti estestvennykh i tekhnogennykh territoriĭ Vostochnoĭ Sibiri : (biokhimicheskiĭ aspekt izuchenii︠a︡ territoriĭ): Atmospheric precipitation and snow cover chemistry, and medical-demographic characteristics of natural and technogenic territories in East Siberia : the biogeochemical aspect of the study of territories. Irkutsk: Izdatelʹstvo Instituta geografii im. V.B. Sochavy SO RAN, 2010.

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17

Arsenic in Soil and Groundwater Environment - Biogeochemical Interactions, Health Effects and Remediation. Elsevier, 2007. http://dx.doi.org/10.1016/s1875-1121(06)x0900-8.

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18

Bundschuh, Jochen, Prosun Bhattacharya, Arun B. Mukherjee, Ron Zevenhoven, and Richard H. Loeppert. Arsenic in Soil and Groundwater Environment: Biogeochemical Interactions, Health Effects and Remediation. Elsevier Science & Technology Books, 2007.

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19

Biogeochemical, heath, and ecotoxicological perspectives on gold and gold mining. Boca Raton, FL: CRC Press, 2005.

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20

Effects of solar ultraviolet radiation on biogeochemical dynamics in aquatic environments: Report of a workshop, Marine Biological Laboratory, Woods Hole, Massachusetts, October 23-26, 1989. Woods Hole, Mass: Woods Hole Oceanographic Institution, 1990.

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21

(Editor), Prosun Bhattacharya, Arun B. B. Mukherjee (Editor), Jochen Bundschuh (Editor), Ron Zevenhoven (Editor), and Richard H. Loeppert (Editor), eds. Arsenic in Soil and Groundwater Environment, Volume 9: Biogeochemical Interactions, Health Effects and Remediation (Trace Metals and other Contaminants in the Environment). Elsevier Science, 2007.

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22

Chance, Kelly, and Randall V. Martin. Spectroscopy and Radiative Transfer of Planetary Atmospheres. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780199662104.001.0001.

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This book develops both spectroscopy and radiative transfer for planetary atmospheric composition in a rigorous and quantitative sense for students of atmospheric and/or planetary science. Spectroscopic field measurements including satellite remote sensing have advanced rapidly in recent years, and are being increasingly applied to provide information about planetary atmospheres. Examples include systematic observation of the atmospheric constituents that affect weather, climate, biogeochemical cycles, air quality on Earth, as well as the physics and evolution of planetary atmospheres in our solar system and beyond. Understanding atmospheric spectroscopy and radiative transfer is important throughout the disciplines of atmospheric science and planetary atmospheres to understand principles of remote sensing of atmospheric composition and the effects of atmospheric composition on climate. Atmospheric scientists need an understanding of the details, strength and weaknesses of the spectroscopic measurement sources. Those in remote sensing require an understanding of the information content of the measured spectra that are needed for the design of retrieval algorithms and for developing new instrumentation.
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23

Lens, Piet N. L., and Kannan Pakshirajan, eds. Environmental Technologies to Treat Selenium Pollution. IWA Publishing, 2021. http://dx.doi.org/10.2166/9781789061055.

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Abstract Selenium contamination of air, aquatic environments, soils and sediments is a serious environmental concern of increasing importance. Selenium has a paradoxical feature in bringing about health benefits under the prescribed level, but only a few fold increase in its concentration causes deleterious effects to flora and fauna, humans and the environment. This book Environmental Technologies to Treat Selenium Pollution: Principles and Engineering: presents the fundamentals of the biogeochemical selenium cycle and which imbalances in this cycle result in pollution.overviews chemical and biological technologies for successful treatment of selenium contaminated water, air, soils and sediments.explores the recovery of value-added products from selenium laden waste streams, including biofortication and selenium-based nanoparticles and quantum dots. This book may serve both as an advanced textbook for undergraduate and graduate students majoring in environmental sciences, technology or engineering as well as as a handbook for tertiary educators, researchers, professionals and policy makers who conduct research and practices in selenium related fields. It is essential reading for consulting companies when dealing with selenium related environmental (bio)technologies. ISBN: 9781789061048 (Paperback) ISBN: 9781789061055 (eBook)
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24

Interactions of the major biogeochemical cycles: Global change and human impacts. Washington, DC: Island Press, 2004.

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25

Pfreundschuh, Michael, Roland Wollast, and Markus Loeffler. Interactions of C, N, P and S Biogeochemical Cycles and Global Change ). Springer, 2011.

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26

Kirchman, David L. The physical-chemical environment of microbes. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198789406.003.0003.

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Many physical-chemical properties affecting microbes are familiar to ecologists examining large organisms in our visible world. This chapter starts by reviewing the basics of these properties, such as the importance of water for microbes in soils and temperature in all environments. Another important property, pH, has direct effects on organisms and indirect effects via how hydrogen ions determine the chemical form of key molecules and compounds in nature. Oxygen content is also critical, as it is essential to the survival of all but a few eukaryotes. Light is used as an energy source by phototrophs, but it can have deleterious effects on microbes. In addition to these familiar factors, the small size of microbes sets limits on their physical world. Microbes are said to live in a “low Reynolds number environment”. When the Reynolds number is smaller than about one, viscous forces dominate over inertial forces. For a macroscopic organism like us, moving in a low Reynolds number environment would seem like swimming in molasses. Microbes in both aquatic and terrestrial habitats live in a low Reynolds number world, one of many similarities between the two environments at the microbial scale. Most notably, even soil microbes live in an aqueous world, albeit a thin film of water on soil particles. But the soil environment is much more heterogeneous than water, with profound consequences for biogeochemical processes and interactions among microbes. The chapter ends with a discussion of how the physical-chemical environment of microbes in biofilms is quite different from that of free-living organisms.
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27

(Editor), Jerry Melillo, Christopher B. Field (Editor), and Bedrich Moldan (Editor), eds. Interactions of the Major Biogeochemical Cycles: Global Change And Human Impacts (Scientific Committee on Problems of the Environment (SCOPE) Series). Island Press, 2003.

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28

(Editor), Jerry Melillo, Christopher B. Field (Editor), and Bedrich Moldan (Editor), eds. Interactions of the Major Biogeochemical Cycles: Global Change And Human Impacts (Scientific Committee on Problems of the Environment (SCOPE) Series). Island Press, 2003.

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29

Oxygen: The molecule that made the world. 2016.

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30

Kirchman, David L. Introduction. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198789406.003.0001.

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The goal of this chapter is to introduce the field of microbial ecology and some terms used in the rest of the book. Microbial ecology, which is the study of microbes in natural environments, is important for several reasons. Although most are beneficial, some microbes cause diseases of higher plants and animals in aquatic environments and on land. Microbes are also important because they are directly or indirectly responsible for the food we eat. They degrade pesticides and other pollutants contaminating natural environments. Finally, they are important in another “pollution” problem: the increase in greenhouse gases such as carbon dioxide and methane in the atmosphere. Because microbes are crucial for many biogeochemical processes, the field of microbial ecology is crucial for understanding the effect of greenhouse gases on the biosphere and for predicting the impact of climate change on aquatic and terrestrial ecosystems. Even if the problem of climate change were solved, microbes would be fascinating to study because of the weird and wonderful things they do. The chapter ends by pointing out the difficulties in isolating and cultivating microbes in the laboratory. In many environments, less than one percent of all bacteria and other microbes can be grown in the laboratory. The cultivation problem has many ramifications for identifying especially viruses, bacteria, and archaea in natural environments, and for connecting up taxonomic information with biogeochemical processes.
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31

Goyette, Dolly. The effect of microorganisms on the transport of iodine and technitium in a biogeochemical simulation of a radioactive waste disposal vault. 1987.

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32

Lovley, Derek R. Environmental Microbe-Metal Interactions. Wiley & Sons, Limited, John, 2014.

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33

Lovley, Derek R. Environmental Microbe-Metal Interactions. ASM Press, 2000.

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34

Smil, Vaclav. Cycles Of Life: Civilization And The Biosphere. Diane Pub Co, 2004.

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35

White, Philip J., and John P. Hammond. The Ecophysiology of Plant-Phosphorus Interactions. Springer, 2010.

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36

Smil, Vaclav. Cycles of Life: Civilization and the Biosphere (Scientific American Library Paperback). W. H. Freeman, 2000.

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37

MARROQUÍN-DE JESÚS, Ángel, Juan Manuel OLIVARES-RAMÍREZ, Andrés DECTOR-ESPINOZA, and Luis Eduardo CRUZ-CARPIO. CIERMMI Women in Science Biology, Chemistry and Life Sciences Handbook T-XIV. ECORFAN-Mexico, S.C., 2021. http://dx.doi.org/10.35429/h.2021.14.1.119.

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This volume, Women in Science T-XIV-2021 contains 7 refereed chapters dealing with these issues, chosen from among the contributions, we gathered some researchers and graduate students from the 32 states of our country. We thank the reviewers for their feedback that contributed greatly in improving the book chapters for publication in these proceedings by reviewing the manuscripts that were submitted. As first chapter, Martínez, Bravo, Sánchez and Montoya present Effect of the consumption of Stevia rebaudiana Bertoni as a natural and artificial sweetener on fatigue and oxidative stress of skeletal muscle, as second chapter, Hernández, Ramírez, Chávez and Oliart, will talk about Cashew bagasse (Anacardium occidentale L. ) as a source of fiber-antioxidant and its possible use in lipoinflammation models as the third chapter, Marcos, Ramirez, Oliart, and Guadarrama present The relevance of the source of animal or vegetable proteins on the metabolic syndrome and its comorbidities, as the fourth chapter, Damián, Rivera, Lizárraga and Vázquez. propose Wanderings of a magic element: the biogeochemical cycle of manganese, as the fifth chapter, Sánchez, Paniagua, Temiche and Alexander, perform Methods of physical control of pathogenic microorganisms in hospital areas, as the sixth chapter, Paniagua, Sánchez, Corro and Alexander develop Use of power ultrasound, supercritical fluids and membrane technology to obtain and/or preserve biological products for clinical use, and as the last chapter, Estrada, Figueroa, Sierra and Aguilar, focus on Obtaining and characterization of the ethanolic extract of the leaves of the Tradescantia Spathacea SW.
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38

Global environmental change. 2nd ed. Harlow: Longman, 1997.

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39

Global environmental change: A natural and cultural environmental history. Harlow, Essex, England: Longman Scientific & Technical, 1991.

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