Air Pollution [electronic resource] : Phytotoxicity of Acidic Gases and Its Significance in Air Pollution Control /

Air Pollution [electronic resource] : Phytotoxicity of Acidic Gases and Its Significance in Air Pollution Control /

Show other versions (1)

Emissions of gaseous air pollutants have increased in the last years in spite of increased controls and concern for air quality. Predictions of future development also indicate that a further increase in emissions must be expected. From an extensive analysis of fuel use in conventional power plants in industry and for domestic heating, Brocke and Schade (1971) and Schade (1975) predict that sulfur dioxide (S02) emissions in the Federal Republic of Germany will increase from '3. 5 million t in 1969, over 4. 2 million t in 1973, to 4. 6 million t in 1980. Rasch (1971) predicts that emission of hydrogen chloride (HCI) from burning of wastes will increase from a present 8000 t/year to about 100000 t in 1980. Emission of gaseous fluoride compounds, in North Rhine Westphalia alone, are expected to increase from 7500 t in 1969 to 8800 t in 1985 (MAGS, 1972). Similar predic­ tions have also been made in the USA (Heggestadt and Heck, 1971). A doubling of S02 emissions from oil and particularly coal-fired power plants is expected between 1960 and 1980 (Wood, 1968; Lewis et aI. , 1974). When it is considered that total control of air pollutants is technically and especially economically impossible, it is important that, in the future, emissions are controlled within a technical and economic framework to such an extent that ambient pollutant concentrations near the ground present no hazard to man or his environment (BImSchG, 1974).

Saved in:
Bibliographic Details
Main Authors: Guderian, Robert. author., SpringerLink (Online service)
Format: Texto biblioteca
Language:eng
Published: Berlin, Heidelberg : Springer Berlin Heidelberg, 1977
Subjects:Life sciences., Ecology., Ecotoxicology., Life Sciences.,
Online Access:http://dx.doi.org/10.1007/978-3-642-66544-8
Tags: Add Tag
No Tags, Be the first to tag this record!
id KOHA-OAI-TEST:224311
record_format koha
institution COLPOS
collection Koha
country México
countrycode MX
component Bibliográfico
access En linea
En linea
databasecode cat-colpos
tag biblioteca
region America del Norte
libraryname Departamento de documentación y biblioteca de COLPOS
language eng
topic Life sciences.
Ecology.
Ecotoxicology.
Life Sciences.
Ecology.
Ecotoxicology.
Life sciences.
Ecology.
Ecotoxicology.
Life Sciences.
Ecology.
Ecotoxicology.
spellingShingle Life sciences.
Ecology.
Ecotoxicology.
Life Sciences.
Ecology.
Ecotoxicology.
Life sciences.
Ecology.
Ecotoxicology.
Life Sciences.
Ecology.
Ecotoxicology.
Guderian, Robert. author.
SpringerLink (Online service)
Air Pollution [electronic resource] : Phytotoxicity of Acidic Gases and Its Significance in Air Pollution Control /
description Emissions of gaseous air pollutants have increased in the last years in spite of increased controls and concern for air quality. Predictions of future development also indicate that a further increase in emissions must be expected. From an extensive analysis of fuel use in conventional power plants in industry and for domestic heating, Brocke and Schade (1971) and Schade (1975) predict that sulfur dioxide (S02) emissions in the Federal Republic of Germany will increase from '3. 5 million t in 1969, over 4. 2 million t in 1973, to 4. 6 million t in 1980. Rasch (1971) predicts that emission of hydrogen chloride (HCI) from burning of wastes will increase from a present 8000 t/year to about 100000 t in 1980. Emission of gaseous fluoride compounds, in North Rhine Westphalia alone, are expected to increase from 7500 t in 1969 to 8800 t in 1985 (MAGS, 1972). Similar predic­ tions have also been made in the USA (Heggestadt and Heck, 1971). A doubling of S02 emissions from oil and particularly coal-fired power plants is expected between 1960 and 1980 (Wood, 1968; Lewis et aI. , 1974). When it is considered that total control of air pollutants is technically and especially economically impossible, it is important that, in the future, emissions are controlled within a technical and economic framework to such an extent that ambient pollutant concentrations near the ground present no hazard to man or his environment (BImSchG, 1974).
format Texto
topic_facet Life sciences.
Ecology.
Ecotoxicology.
Life Sciences.
Ecology.
Ecotoxicology.
author Guderian, Robert. author.
SpringerLink (Online service)
author_facet Guderian, Robert. author.
SpringerLink (Online service)
author_sort Guderian, Robert. author.
title Air Pollution [electronic resource] : Phytotoxicity of Acidic Gases and Its Significance in Air Pollution Control /
title_short Air Pollution [electronic resource] : Phytotoxicity of Acidic Gases and Its Significance in Air Pollution Control /
title_full Air Pollution [electronic resource] : Phytotoxicity of Acidic Gases and Its Significance in Air Pollution Control /
title_fullStr Air Pollution [electronic resource] : Phytotoxicity of Acidic Gases and Its Significance in Air Pollution Control /
title_full_unstemmed Air Pollution [electronic resource] : Phytotoxicity of Acidic Gases and Its Significance in Air Pollution Control /
title_sort air pollution [electronic resource] : phytotoxicity of acidic gases and its significance in air pollution control /
publisher Berlin, Heidelberg : Springer Berlin Heidelberg,
publishDate 1977
url http://dx.doi.org/10.1007/978-3-642-66544-8
work_keys_str_mv AT guderianrobertauthor airpollutionelectronicresourcephytotoxicityofacidicgasesanditssignificanceinairpollutioncontrol
AT springerlinkonlineservice airpollutionelectronicresourcephytotoxicityofacidicgasesanditssignificanceinairpollutioncontrol
_version_ 1756270693487476736
spelling KOHA-OAI-TEST:2243112018-07-31T00:04:13ZAir Pollution [electronic resource] : Phytotoxicity of Acidic Gases and Its Significance in Air Pollution Control / Guderian, Robert. author. SpringerLink (Online service) textBerlin, Heidelberg : Springer Berlin Heidelberg,1977.engEmissions of gaseous air pollutants have increased in the last years in spite of increased controls and concern for air quality. Predictions of future development also indicate that a further increase in emissions must be expected. From an extensive analysis of fuel use in conventional power plants in industry and for domestic heating, Brocke and Schade (1971) and Schade (1975) predict that sulfur dioxide (S02) emissions in the Federal Republic of Germany will increase from '3. 5 million t in 1969, over 4. 2 million t in 1973, to 4. 6 million t in 1980. Rasch (1971) predicts that emission of hydrogen chloride (HCI) from burning of wastes will increase from a present 8000 t/year to about 100000 t in 1980. Emission of gaseous fluoride compounds, in North Rhine Westphalia alone, are expected to increase from 7500 t in 1969 to 8800 t in 1985 (MAGS, 1972). Similar predic­ tions have also been made in the USA (Heggestadt and Heck, 1971). A doubling of S02 emissions from oil and particularly coal-fired power plants is expected between 1960 and 1980 (Wood, 1968; Lewis et aI. , 1974). When it is considered that total control of air pollutants is technically and especially economically impossible, it is important that, in the future, emissions are controlled within a technical and economic framework to such an extent that ambient pollutant concentrations near the ground present no hazard to man or his environment (BImSchG, 1974).1. Materials and Methods -- 1.1 Apparatus for the Experimental Determination of Air Pollution Effects -- 1.2 Air Analyses -- 1.3 Test Plants and Soils -- 1.4 Determination of Plant Responses -- 2. Experimental Analysis of the Effects of Gaseous Air Pollutants -- 2.1 Criteria for the Evaluation of Air Pollution Effects -- 2.2 Influence of Concentration and Exposure Time -- 2.3 Significance of Continuous and Intermittent Pollutant Action -- 2.4 Effects of Gaseous Air Pollutants in Combination -- 2.5 Significance of External and Internal Growth Factors -- 3. Comparisons of the Phytotoxic Characteristics of Sulfur Dioxide, Hydrogen Fluoride, and Hydrogen Chloride -- 3.1 Functions in Plant Metabolism -- 3.2 Accumulation of Pollutants in Plant Organs -- 3.3 Hidden Injury -- 4. Discussion of the Suitability of Plant Responses as a Basis for Air Pollution Control Measures -- 4.1 Air Quality Criteria and Their Use in Setting Air Quality Standards -- 4.2 Plants as Indicators for Pollutants Containing Sulfur, Fluoride, and Chloride -- 4.3 Measures for the Reduction of Pollutant Action in Plant Stands -- References -- Color Plates.Emissions of gaseous air pollutants have increased in the last years in spite of increased controls and concern for air quality. Predictions of future development also indicate that a further increase in emissions must be expected. From an extensive analysis of fuel use in conventional power plants in industry and for domestic heating, Brocke and Schade (1971) and Schade (1975) predict that sulfur dioxide (S02) emissions in the Federal Republic of Germany will increase from '3. 5 million t in 1969, over 4. 2 million t in 1973, to 4. 6 million t in 1980. Rasch (1971) predicts that emission of hydrogen chloride (HCI) from burning of wastes will increase from a present 8000 t/year to about 100000 t in 1980. Emission of gaseous fluoride compounds, in North Rhine Westphalia alone, are expected to increase from 7500 t in 1969 to 8800 t in 1985 (MAGS, 1972). Similar predic­ tions have also been made in the USA (Heggestadt and Heck, 1971). A doubling of S02 emissions from oil and particularly coal-fired power plants is expected between 1960 and 1980 (Wood, 1968; Lewis et aI. , 1974). When it is considered that total control of air pollutants is technically and especially economically impossible, it is important that, in the future, emissions are controlled within a technical and economic framework to such an extent that ambient pollutant concentrations near the ground present no hazard to man or his environment (BImSchG, 1974).Life sciences.Ecology.Ecotoxicology.Life Sciences.Ecology.Ecotoxicology.Springer eBookshttp://dx.doi.org/10.1007/978-3-642-66544-8URN:ISBN:9783642665448

Similar Items