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Books on the topic 'Secondary contamination'

Author: Grafiati
Published: 4 June 2021
Last updated: 8 February 2022

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1

United States. Food Safety and Inspection Service. Generic HACCP model for meat and poultry products with secondary inhibitors, not shelf-stable. Washington, D.C.]: The Service, 1997.

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2

Corporation, Science Applications International, and United States. Environmental Protection Agency. Office of Water., eds. 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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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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4

Corporation, Science Applications International, United States. Environmental Protection Agency. Office of Water., and United States. Environmental Protection Agency., eds. 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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5

Corporation, Science Applications International, United States. Environmental Protection Agency. Office of Water, and United States. Environmental Protection Agency, eds. 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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6

Corporation, Science Applications International, United States. Environmental Protection Agency. Office of Water, and United States. Environmental Protection Agency, eds. 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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7

Corporation, Science Applications International, United States. Environmental Protection Agency. Office of Water., and United States. Environmental Protection Agency., eds. 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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8

United States. Environmental Protection Agency. Office of Water., ed. 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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9

United States. Environmental Protection Agency. Office of Water, ed. 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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10

United States. Environmental Protection Agency. Office of Water., ed. 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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11

United States. Environmental Protection Agency. Office of Water, ed. 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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12

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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13

Garger, Evgenii, Anatolii Nosovskyi, and Mykola Talerko. Secondary Radioactive Contamination of the Atmosphere in Intermediate and Late Phases of a Nuclear Emergency. PH "Akademperiodyka", 2020. http://dx.doi.org/10.15407/akademperiodyka.410.274.

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14

Frazier, Linda M., and Deborah Barkin Fromer. Reproductive and Developmental Disorders. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780190662677.003.0027.

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This chapter describes reproductive disorders and developmental disorders, with a focus on their recognition and prevention. Certain hazardous exposures at sufficient doses during preconception among men and women have been shown to increase the risk for infertility, miscarriage (spontaneous abortion) and birth defects. Women’s exposures during pregnancy can cause fetal death, congenital anomalies, and neurodevelopmental disorders. Fathers’ occupational exposures can secondarily expose pregnant women through contamination of the home environment. Numerous chemical pollutants readily cross the placenta and are transmitted into breast milk. Prenatal and perinatal exposures have been linked to abnormal development of the immune system, childhood cancer, and learning disabilities. Specific examples, such as lead and dibromochloropropane, are provided in the chapter to illustrate general concepts. A final section addresses evaluation and control of risk.
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15

Bridges, John C. Evolution of the Martian Crust. Oxford University Press, 2017. http://dx.doi.org/10.1093/acrefore/9780190647926.013.18.

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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.Mars, which has a tenth of the mass of Earth, has cooled as a single lithospheric plate. Current topography gravity maps and magnetic maps do not show signs of the plate tectonics processes that have shaped the Earth’s surface. Instead, Mars has been shaped by the effects of meteorite bombardment, igneous activity, and sedimentary—including aqueous—processes. Mars also contains enormous igneous centers—Tharsis and Elysium, with other shield volcanoes in the ancient highlands. In fact, the planet has been volcanically active for nearly all of its 4.5 Gyr history, and crater counts in the Northern Lowlands suggest that may have extended to within the last tens of millions of years. Our knowledge of the composition of the igneous rocks on Mars is informed by over 100 Martian meteorites and the results from landers and orbiters. These show dominantly tholeiitic basaltic compositions derived by melting of a relatively K, Fe-rich mantle compared to that of the Earth. However, recent meteorite and lander results reveal considerable diversity, including more silica-rich and alkaline igneous activity. These show the importance of a range of processes including crystal fractionation, partial melting, and possibly mantle metasomatism and crustal contamination of magmas. The figures and plots of compositional data from meteorites and landers show the range of compositions with comparisons to other planetary basalts (Earth, Moon, Venus). A notable feature of Martian igneous rocks is the apparent absence of amphibole. This is one of the clues that the Martian mantle had a very low water content when compared to that of Earth.The Martian crust, however, has undergone hydrothermal alteration, with impact as an important heat source. This is shown by SNC analyses of secondary minerals and Near Infra-Red analyses from orbit. The associated water may be endogenous.Our view of the Martian crust has changed since Viking landers touched down on the planet in 1976: from one almost entirely dominated by basaltic flows to one where much of the ancient highlands, particularly in ancient craters, is covered by km deep sedimentary deposits that record changing environmental conditions from ancient to recent Mars. The composition of these sediments—including, notably, the MSL Curiosity Rover results—reveal an ancient Mars where physical weathering of basaltic and fractionated igneous source material has dominated over extensive chemical weathering.
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16

American Chemical Society. Science in a Technical World: Refining Petroleum (Science in a Technical World). W. H. Freeman, 2001.

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17

Upgrading the wastewater treatment plant. New York: W.H. Freeman, 2000.

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18

American Chemical Society. Science in a Technical World: The Carbonated Beverage Industry CD-ROM (Science in a Technical World). W. H. Freeman, 1999.

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19

Society, American Chemical. Science in a Technical World: Upgrading the Water Treatment Plant CD-ROM. W. H. Freeman, 2000.

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20

Society, American Chemical. Science in a Technical World: Paint Research and Development (Scene). W. H. Freeman, 2000.

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21

American Chemical Society. Science in a Technical World: Making Semiconductors (Science in a Technical World). W. H. Freeman, 2001.

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22

American Chemical Society. Science in a Technical World: Food Safety (Science in a Technical World). W. H. Freeman, 2001.

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23

American Chemical Society. Science in a Technical World: Medical Laboratory Technology (Science in a Technical World). W. H. Freeman, 2001.

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24

The plant tissue culture industry. New York: W.H. Freeman, 2000.

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25

Society, American Chemical. Science in a Technical World: The Carbonated Beverage Industry (Science in a Technical World, 1). W. H. Freeman, 2000.

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26

American Chemical Society. Science in a Technical World: Polymer Research and Development (Science in a Technical World). W. H. Freeman, 2000.

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27

American Chemical Society. Science in a Technical World: Carbonated Beverage Package. W. H. Freeman, 1999.

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28

American Chemical Society. Science in a Technical World: Food Safety CD-ROM. W. H. Freeman, 2001.

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29

American Chemical Society. Science in a Technical World: Polymer Research and Development CD-ROM (Science in a Technical World). W. H. Freeman, 1999.

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30

American Chemical Society. Education Division., ed. Forensic science: A project of the Education Division of the American Chemical Society. New York: W. H. Freeman, 2002.

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31

American Chemical Society. Science in a Technical World: Pulp and Paper Research and Development. W. H. Freeman, 2000.

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32

American Chemical Society. Science in a Technical World: Upgrading the Wastewater Treatment Plant (Science in a Technical World). W. H. Freeman, 2000.

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33

American Chemical Society. Science in a Technical World: Discovering New Medicinal Drugs (Science in a Technical World). W. H. Freeman, 2001.

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34

American Chemical Society. Science in a Technical World: Pulp and Paper Research and Development (Science in a Technical World). W. H. Freeman, 2000.

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35

American Chemical Society. Science in a Technical World: The Plant Tissue Culture Industry (Science in a Technical World). W. H. Freeman, 2000.

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36

American Chemical Society. Science in a Technical World: Paint Reasearch and Development CD-ROM. W. H. Freeman, 2000.

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37

American Chemical Society. Science in a Technical World: Forensic Science (Science in a Technical World). W. H. Freeman, 2001.

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38

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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