Thematische Bibliographien / Secondary pollution / Bücher

Bücher zum Thema „Secondary pollution“

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Autor: Grafiati
Veröffentlicht am 25. Mai 2024

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1

Corporation, Science Applications International, und United States. Environmental Protection Agency. Office of Water., Hrsg. Co-occurrence of drinking water contaminants: Primary and secondary constituents : draft report. [Washington, D.C: U.S. Environmental Protection Agency, Office of Water, 1999.

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2

K, Flohr Marta J., und Geological Survey (U.S.), Hrsg. Secondary mineralogy of altered rocks, Summitville Mine, Colorado. [Reston, VA]: U.S. Dept. of the Interior, U.S. Geological Survey, 1995.

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3

United States. Environmental Protection Agency. Office of Water., Hrsg. Co-occurrence of drinking water contamination: Initial tables of statistical analysis of secondary constituents. [Washington, D.C: U.S. Environmental Protection Agency, Office of Water, 1999.

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4

United States. Environmental Protection Agency. Office of Water, Hrsg. Co-occurrence of drinking water contamination: Initial tables of statistical analysis of secondary constituents. [Washington, D.C: U.S. Environmental Protection Agency, Office of Water, 1999.

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5

Nelson, Peter O. Acid rain buffering potential in Oregon Cascade lakes: Secondary mineral solubility control of solution ionic composition. Corvallis, Or: Water Resources Research Institute, Oregon State University, 1985.

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6

Greater Vancouver (B.C.), Hrsg. Let's clear the air: Intermediate air quality education program. Burnaby, B.C: Greater Vancouver Regional District, 1993.

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7

Lloyd-Kolkin, Donna. Entering adulthood.: A curriculum for grades 9-12. Santa Cruz, CA: Network Publications, 1991.

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8

Lloyd-Kolkin, Donna. Entering adulthood.: A curriculum for grades 9-12. Santa Cruz, CA: Network Publications, 1991.

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9

Hayward, Geoff. Applied ecology. Walton-on-Thames: Nelson, 1992.

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10

Fuksman, I. L. Vlii͡a︡nie prirodnykh i antropogennykh faktorov na metabolizm veshchestv vtorichnogo proiskhozhdenii͡a︡ u drevesnykh rasteniĭ. Petrozavodsk: Karelʹskiĭ nauchnyĭ t͡s︡entr RAN, 2002.

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11

Hayward, Geoff. Applied ecology. Walton-on-Thames, Surrey: Nelson, 1992.

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12

Sidorenko, Oleg. Bioconversion of secondary raw materials and waste of the agro-industrial complex. ru: INFRA-M Academic Publishing LLC., 2023. http://dx.doi.org/10.12737/1896453.

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For the first time, promising biological technologies for processing secondary raw materials and waste from crop production, animal husbandry and the processing industry of the agro-industrial complex (AIC) have been generalized. The main attention is paid to the bioconversion of agricultural raw materials and waste, as well as products of their processing. The technologies in question have an undoubted advantage — they are safe, economical and environmentally friendly. Waste transformation products find practical application in agriculture, industry and medicine. Waste from a dangerous source of pollution turns into valuable goods: organic fertilizers, feed, feed additives, probiotics and combustible materials. Meets the requirements of the federal state educational standards of secondary vocational education of the latest generation. It is intended for students of secondary and higher educational agricultural institutions, specialists of the agro-industrial complex, processing technologists of the middle and senior level.
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13

Ken, Flood, und Ontario. Ministry of Environment and Energy., Hrsg. An Acute bioassay study of the effluent discharge from the Kimberly Clark pulp mill to Jackfish Bay in July 1990, after the commissioning of a secondary treatment system: Report. [Toronto]: Ontario Ministry of Environment and Energy, 1993.

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14

Jacqueline, Barber, Coonrod Janice A, Lawrence Hall of Science und GEMS (Project), Hrsg. Acid rain: Teacher's guide. Berkeley, Calif: Lawrence Hall of Science, University of California at Berkeley, 1994.

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15

(Firm), Environmental Management Support, und United States. Environmental Protection Agency. Office of Science, Planning, and Regulatory Evaluation., Hrsg. Project A.I.R.E. air information resources for education (K-12): A guide for instructors. [Silver Spring, MD]: Environmental Management Support, Inc., 1994.

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16

Gruzdev, Vladimir, Sergey Suslov, Vladimir Kosinskiy und Mariya Hrustaleva. Changes in the composition and structure of the components of the landscapes of the forest zone in the conditions of technogenesis. ru: INFRA-M Academic Publishing LLC., 2023. http://dx.doi.org/10.12737/1850657.

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The monograph is devoted to the analysis of changes in the structure of natural and agricultural landscapes under conditions of anthropogenic, including man-made, impact on landscapes. The author summarizes his own research conducted in the forest zone in the subzones of the middle and southern taiga and broad-leaved coniferous forests. The studies were carried out in forests, meadows and swamps, and also studied the formation of the quality of natural waters and the overgrowth of reservoirs in the forest zone. The composition and structure of zonal plant communities and the dynamic successional stages of secondary, derived communities formed in logging, burning, flooding by reservoirs, man-made pollution, as well as integrated anthropogenic impact are considered. Factors of technogenic transformation of landscapes are analyzed. The analysis of the complex of anthropogenic impacts has been carried out and the main trends of anthropogenic dynamics of soil and vegetation cover have been identified, recommendations for optimization and rationalization of nature management under anthropogenic impact are given. The issues of formation of geotechnical systems, their structure and issues of interaction in the system "man and nature" are considered. It is of interest to ecologists, geographers, biologists. It can be used in the work of state bodies for monitoring the state of the environment and in the educational process — by teachers and students dealing with ecology, nature management, biology, environmental monitoring, territory engineering, as well as by researchers, graduate students and applicants.
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17

Wexler, Barbara. Genetics and genetic engineering. 2. Aufl. Detroit, MI: Thomson/Gale Group, 2006.

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18

Co-occurrence of drinking water contamination: Primary and secondary constituents : draft report. [Washington, D.C: U.S. Environmental Protection Agency, Office of Water, 1999.

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19

Sinharoy, Arindam, und Piet N. L. Lens, Hrsg. Environmental Technologies to Treat Rare Earth Elements Pollution: Principles and Engineering. IWA Publishing, 2022. http://dx.doi.org/10.2166/9781789062236.

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Rare earth elements (REE) have applications in various modern technologies, e.g., semiconductors, mobile phones, magnets. They are categorized as critical raw materials due to their strategic importance in economies and high risks associated with their supply chain. Therefore, more sustainable practices for efficient extraction and recovery of REE from secondary sources are being developed. This book, Environmental Technologies to Treat Rare Earth Elements Pollution: Principles and Engineering: presents the fundamentals of the (bio)geochemical cycles of rare earth elements and which imbalances in these cycles result in pollution.overviews physical, chemical and biological technologies for successful treatment of water, air, soils and sediments contaminated with different rare earth elements.explores the recovery of value-added products from waste streams laden with rare earth elements, including nanoparticles and quantum dots. This book is suited for teaching and research purposes as well as professional reference for those working on rare earth elements. In addition, the information provided in this book is helpful to scientists, researchers and practitioners in related fields, such as those working on metal/metalloid microbe interaction and sustainable green approaches for resource recovery from wastes. ISBN: 9781789062229 (Paperback) ISBN: 9781789062236 (eBook) ISBN: 9781789062243 (ePUB)
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20

Ecology Earth's Natural Resources. Prentice Hall Science, 1996.

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21

Stubbe, Peter. Legal Consequences of the Pollution of Outer Space with Space Debris. Oxford University Press, 2017. http://dx.doi.org/10.1093/acrefore/9780190647926.013.68.

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This is an advance summary of a forthcoming article in the Oxford Encyclopedia of Planetary Science. Please check back later for the full article.Space debris has grown to be a significant problem for outer space activities. The remnants of human activities in space are very diverse; they can be tiny paint flakes, all sorts of fragments, or entirely intact—but otherwise nonfunctional spacecraft and rocket bodies. The amount of debris is increasing at a growing pace, thus raising the risk of collision with operational satellites. Due to the relative high velocities involved in on-orbit collisions, their consequences are severe; collisions lead to significant damage or the complete destruction of the affected spacecraft. Protective measures and collision avoidance have thus become a major concern for spacecraft operators. The pollution of space with debris must, however, not only be seen as an unfavorable circumstance that accompanies space activities and increases the costs and complexity of outer space activities. Beyond this rather technical perspective, the presence of man-made, nonfunctional objects in space represents a global environmental concern. Similar to the patterns of other environmental problems on Earth, debris generation appears to have surpassed the absorption capacity of the space environment. Studies indicate that the evolution of the space object environment has crossed the tipping point to a runaway situation in which an increasing number of collisions―mostly among debris―leads to an uncontrolled population growth. It is thus in the interest of all mankind to address the debris problem in order to preserve the space environment for future generations.International space law protects the space environment. Article IX of the Outer Space Treaty obligates States to avoid the harmful contamination of outer space. The provision corresponds to the obligation to protect the environment in areas beyond national jurisdiction under the customary “no harm” rule of general environmental law. These norms are applicable to space debris and establish the duty not to pollute outer space by limiting the generation of debris. They become all the more effective when the principles of sustainable development are taken into account, which infuse considerations of intra- as well as inter-generational justice into international law. In view of the growing debris pollution and its related detrimental effects, it is obvious that questions of liability and responsibility will become increasingly relevant. The Liability Convention offers a remedy for victims having suffered damage caused by space debris. The launching State liability that it establishes is even absolute for damage occurring on the surface of the Earth. The secondary rules of international responsibility law go beyond mere compensation: States can also be held accountable for the environmental pollution event itself, entailing a number of consequential obligations, among them―under certain circumstances―a duty to active debris removal. While international law is, therefore, generally effective in addressing the debris problem, growing use and growing risks necessitate the establishment of a comprehensive traffic management regime for outer space. It would strengthen the rule of law in outer space and ensure the sustainability of space utilization.
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22

Issues: Evidence & You. LAB-AIDS, Inc. Publishing Division, 1996.

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23

Kriesberg, Daniel A. Think Green, Take Action. ABC-CLIO, LLC, 2010. http://dx.doi.org/10.5040/9798216025504.

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"This book provides an annotated bibliography of age-appropriate literature and activities, showing children the importance of environmental issues and teaching them the skills to take action. In past years, teaching children about conservation and environmental issues might have been an optional side topic to complement an earth science curriculum, but in today’s educational climate, ""being green"" is a subject with great relevance and importance. This book combines a wide variety of techniques to help students understand environmental issues and gain the skills needed to take action. The children’s literature and classroom activities suggested in Think Green, Take Action: Books and Activities for Kids are appropriate for elementary school students from grades three through seven, covering three major environmental issues: endangered species, resource depletion, and pollution. After students have a grasp of the causes of these environmental problems, the final chapter presents ways to take easy action that can create ripples of change across the world. Educators in museums and nature centers, home-schooled children, and their parents comprise an appropriate secondary audience for this instructive text."
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24

Bafadhel, Mona. Prevention of respiratory disease. Herausgegeben von Patrick Davey und David Sprigings. Oxford University Press, 2018. http://dx.doi.org/10.1093/med/9780199568741.003.0344.

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The prevention of disease at a population health level rather than an individual health level is aimed at reducing causes of ‘preventable’ death and, under the auspices of public health and epidemiology, is an integral part of primary, secondary, and tertiary care. Classification of death is usually according to the type of primary disease or injury. However, there are a number of recognized risk factors for death, and modifications in behaviour or risk factors can substantially reduce preventable causes of death and the associated healthcare and economic burden of chronic disease management. According to the WHO, hundreds of millions of people from infancy to old age suffer from preventable chronic respiratory diseases, there are over four million deaths annually from preventable respiratory diseases, and common respiratory disorders (e.g. lower respiratory tract infections, chronic obstructive pulmonary disease, lung cancer, and tuberculosis) account for approximately 20% of all deaths worldwide. This chapter discusses the prevention of respiratory disease, covering diseases associated with smoking (one of the biggest risk factors associated with preventable deaths), air pollution, and other lifestyle factors associated with respiratory disease; changes in legislation concerning smoking and work-related respiratory disease; and, finally, the prevention of respiratory diseases through the use of immunization and screening tools.
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25

Stefańska, Magdalena, Hrsg. Sustainability and sustainable development. Wydawnictwo Uniwersytetu Ekonomicznego w Poznaniu, 2021. http://dx.doi.org/10.18559/978-83-8211-074-6.

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The aim of this book is to present the most important issues related to sustainable development (SD) and corporate social responsibility (CSR). They are discussed from a macro and micro perspective, both in the form of theoretical foundations of these concepts and practical examples of companies operating in Central and Eastern European countries that have implemented these ideas in their daily operations and translated them into corporate and functional strategies. The book consists of four parts. The first one is theoretical in its assumptions and is devoted to explaining the key concepts of sustainable development (SD) and corporate social responsibility (CSR). The authors describe the determinants of sustainable development in the contemporary world, including the most important ones, such as globalization, climate change, poverty, unlimited consumption, as well as limited access to natural resources - all in relation to the goals of sustainable development. The chapter also discusses the concept of corporate social responsibility (CSR), which is now recognized as the process by which business contributes to the implementation of sustainable development. How sustainable development (SD) and corporate social responsibility (CSR) are incorporated into the organization's strategies and influence the corporate strategy on the corporate and functional areas of the organization is presented in the last chapter of the first part of the e-book. The next part of the e-book helps readers understand the concepts of SD and CSR in the field of organizational strategy - in strategic management, and at the level of functional strategies—marketing, human resources, marketing research, accounting and operational management. The authors explain the reasons why companies need to consider the local and global perspective when setting SDGs, and the existence of potential conflicts within them. Taking into account the area of ​​marketing, the authors point to the increase in environmental and social awareness of all stakeholders, which translates into changes in the criteria for decision-making by managers and risk assessment. The issue of sustainability is also the subject of market research. Companies producing products and services, institutions dealing with environmental or consumer protection, scientists and students conduct many research projects related to, inter alia, much more. How to use secondary data for analysis and how to prepare, conduct, analyze and interpret the results of primary research in that area are discussed in detail in the next chapter of this section. The concept of SD also refers to the basic functions of human resource management (HRM)—recruitment, motivation, evaluation and control. They should take into account SD not only for the efficiency of the organization and long-term economic benefits, but also for ethical reasons. Thanks to the SHRM, the awareness and behavior of the entire organization can strongly express sustainable goals in the planning and implementation of the overall corporate strategy. The growing importance of the idea of ​​SD and the concept of CSR also resulted in the need for accounting and finance to develop solutions enabling the provision of information on the methods and results of implementing these concepts in entities operating on the market. This part of the book also examines manufacturing activities in the context of sustainability. As a result, many problems arise: waste of resources, mismanagement, excessive energy consumption, environmental pollution, use of human potential, etc. The chapter presents such concepts as: zero-waste, lean-manufacturing, six-sigma, circular production, design and recycling products in the life cycle as well as ecological and environmentally friendly production. The next two parts of the e-book contain examples of companies from Central and Eastern Europe that used SD goals in their strategies, questions and tasks for readers.
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