Effects of Accumulation of Air Pollutants in Forest Ecosystems Effects of Accumulation of Air Pollutants in Forest Ecosystems Proceedings of a Workshop held at Gottingen, West Germany, May 16-18, 1982 edited by B. ULRICH Institut fiir Bodenkunde und Walderniihrung der Universitiit Gottingen, West Germany and J. PANKRATH Umweltbundesamt, Berlin (West), Germany D. Reidel Publishing Company Dordrecht, Holland / Boston, U.S.A. / London, England library of Congress Cataloging in Publication Data Main entry under title: Effects of accumulation of air pollutants in forest ecosystems. Sponsored by the Environmental Agency of the Federal Republic of Germany. Includes index. 1. Air-Pollution-Environmental aspects-Congresses. 2. Forest ecology-Congresses. 3. Forest soils-Congresses. 4. Soil ecology- Congresses. I. Ulrich, B. (Bernard), 1926- II. Pankrath, Jurgen. III. Germany (West). Umweltbundesamt. QH545.A3E33 1983 581.5'2642 83-3203 ISBN-13: 978-94-009-6985-8 e-ISBN-13: 978-94-009-6983-4 DOl: 10.1 007/978-94-009-6983-4 Published by D. Reidel Publishing Company, P.O. Box 17,3300 AA Dordrecht, Holland. Sold and distributed in the U.S.A. and Canada by Kluwer Boston Inc., 190 Old Derby Street, Hingham, MA 02043, U.S.A. In all other countries, sold and distributed by Kluwer Academic Publishers Group, P.O. Box 322, 3300 AH Dordrecht, Holland. D. Reidel Publishing Company is a member of the Kluwer Group. All Rights Reserved Copyright © 1983 by D. Reidel Publishing Company, Dordrecht, Holland Softcover reprint of the hardcover 1s t edition 1983 No part of the material protected by this copyright notice may be reproduced or utilized in any form or by any means, electronic or mechanical including photocopying, recording or by any informational storage and retrieval system, without written permission from the copyright owner CONTENTS Preface ix B. Ulrich: A concept of forest ecosystem stability and of acid deposition as driving force for destabilization 1 TOPIC 1: PROCESSES AND RATES OF DEPOSITION, STORAGE PLACES OF DEPOSITED AIR POLLUTANTS B. Ulrich: Interaction of forest canopies with atmospheric constituents: S02' alkali and earth alkali cations and chloride 33 R. Mayer: Interaction of forest canopies with atmospheric constituents: Aluminum and heavy metals 47 K.D. H6fken: Input of acidifiers and heavy metals to a German forest area due to dry and wet deposition 57 W. Thomas, W. Riess and R. Herrmann: Processes and rates of deposition of air pollutants in different ecosystems 65 L. Granat: Measurements of surface resistance during dry deposition of S02 to wet and dry coniferous forest 83 TOPIC 2: PROCESSES AND RATES OF PROTON PRODUCTION BY DISCOUPLING OF THE ION CYCLE, AND OF PROTON CONSUMPTION BY SILICATE WEATHERING E. Matzner and B. Ulrich: The turnover of protons by mineralization and ion uptake in a beech (Fagus Silvatica) and a Norway spruce ecosystem 93 S.I. Nillson: Effects on soil chemistry as a consequence of proton input 105 M.J. Mazzarino, H. Heinrichs and H. F6lster: Holocene versus accelerated actual proton consumption in German forest soils 113 vi CONTENTS TOPIC 3: EFFECTS ON CHEMICAL SOIL STATE B. Ulrich: Soil acidity and its relations to acid deposition 127 E. Matzner: Balances of element fluxes within different ecosystems impacted by acid rain 147 J. Prenzel: A mechanism for storage and retrieval of acid in acid soils 157 N. v. Breemen and E.R. Jordens: Effects of atmospheric ammonium sulfate on calcareous and non-calcareous soils of woodlands in the Netherlands 171 H.G. Miller: Studies of proton fl~x in forests and heaths in Scotland 183 I.K. Morrison: Composition of percolate from reconstructed profiles of two Jack Pine Forest soils as influenced by acid input 195 G. Abrahamsen: Sulphur pollution: Ca, Mg and Al in soil and soil water and possible effects on forest trees 207 R.A. Skeffington: Soil properties under three species of tree in southern England in relation to acid deposition in throughfall 219 G. BrUmmer and U. Herms: Influence of soil reaction and organic matter on the solubility of heavy metals in soils 233 TOPIC 4: EFFECTS ON BIOLOGICAL SOIL STATE AND ON ANIMALS M-W. v. Buch: Micro-morphological characteristics of humus forms as indicators of increased environmental stress in Hamburg's forests 247 A. Huttermann, B. Fedderau-Himme and K. Rosenplanter: Biochemical react'ivity in forest soils as indicators for environmental pollution 257 S. Bombosch: Mercury - Accumulation in game 271 TOPIC 5: EFFECTS OF SOIL ACIDIFICATION AND ACCUMULATION OF AIR POLLUTANTS ON PLANTS T. Keller: Air pollutant deposition and effects on plants 285 K.F. Wentzel: IUFRO-Studies on maximal S02 emissions standards to protect forests 295 H. Fluhler: Longtermed fluoride pollution of a forest ecosystem: Time, the dimension of pitfalls and limitations 303 CONTENTS vii S. Athari and H. Kramer: The problem of determining growth losses in Norway Spruce stands caused by environmental factors 319 J.B. Reemtsma: First information about inventory of emission depending damages on Norway Spruce in Lower Saxony/Fed. Rep. Germany 327 G.H. Tomlinson, II: Die-back of Red Spruce, acid deposition and changes in soil nutrient status - a review 331 K. Kreutzer, A. Knorr, F. Brosinger and P. Kretzschmar: Scots Pine-dying within the neighbourhood of an industrial area 343 K.E. Rehfuess, H. Flurl, F. Franz and E. Raunecker: Growth patterns, phloem nutrient contents and root characteristics of beech (Fagus sylv.L.) on soils of different reaction 359 J. Bauch: Biological alterations in the stem and root of fir and spruce due to pollution influence 377 Index 387 PREFACE This volume is based on a workshop on "Effects of accumulation of air pollutants in forest ecosystems'; held in GOttingen, Federal Republic of Germany, from May 16-18, 1982. This work'shop was initiated and sponsored by the Environmental Agency of the Federal Republic of Germany (project officer: Dr. J. Pankrath) as part of a research contract (project leader: Dr. B. Ulrich). THE PROBLEM SEEN UNDER THE ASPECT OF ADMINISTRATION The problem of forest damage caused by air pollution is not new in Europe. Already in 1983 a comprehensive report from Schroeder and Reuss about vegetation damages by fume in the Harz mountains was published. In 1923, Prof. Dr. Julius Stocklasa of the Bohemian Technical Highschool in Prague was concerned with research of toxical effects of sulphur dioxide in his publication "The damage of vegetation by flue gas and exhalations of facili ties". This comprehensive and instructive work concludes with the sentence: "It is already high time for the governments of all cultural states to take legal, police and private measures in order to prevent damage by flue gases". In the neighbourhood of industries with high gaseous and dust emissions damages have been shown to occur for a long timei these deleterious effects have influenced the growth of trees and in extreme cases have even caused their early death. Allover Central Europe a scattered but immense forest damage is confirmed. In the last years a reduction in the vitality of forests has been observed especially in areas remote from industrialized regions. This exhaustion of forest ecosystems is the result of an environmental stress which has lasted already for more than several decades. The new complex disease of coniferous stands especially is obviously pOinting towards more serious impairment. Trees, being the final link of the ecological hierarchy of a forest are disturbed in their ecological equilibrium. The biological and/or ix B. Ulrich and J. Pankrath reds.), Effects of Accumulation of Air Pollutants in Forest Ecosystems, ix-xvii. Copyright © 1983 by D. Reidel Publishing Company. x PREFACE soil buffering capacity of forest stands which normally supports the resistance of its species to different kinds of air pollution is obviously exhausted in several areas. In the Federal Republic of Germany by 10 percent of the forest area exhibit deleterious impacts mainly caused by a supply of acidifying air pollutants. Whereas the symptoms of forest damage are uncontested, it is only with regard to the causes of forest injury that the opinions of forest experts strikingly disagreeo At the moment it is a matter of fact that the impairment of air pollutants on vegetation as well as the acidification of soils is one of the main causes in the reduction of vitality of large forest areas. For instance, acidification of soil signifies, according to the current state of knowledqe. that toxic and root injuring aluminium ions are releasedo In addition, forest areas are very ,effectively filtering pollu tants out of the air. Thus, the uptake of harmful airborne sub stances is increased by a significant amount if compared to the open field. This filtering effect of the canopy, called inter ception, works the whole year for coniferous stands; for deciduous stands it is limited to the foliage period. A few decades ago the impairment of regions remote from air pollution sources was hidden by growth stimulating effects of Nitrogen and sulphur compoundso The increase of the source heights has made the deleterious effects gradually become more evident on a growing scale. It is not intented to discuss the different opinions on possible causes of forest damage, nor are investigations on the contri bution of air pollutants to be presented at this workshop anti cipated; however, it is necessary to call upon the deposition of acidifying air pollutants which is to be particular to the widespread forest disease, and to consider technical and legal instruments for an air quality control which are also beneficial to larger regionso Samples of precipitation in areas remote from industrialized regions of the Federal Republic of Germany show a diluted acid with a mean pH value of 4.2, corresponding to a hydrogen ion concentration of 63 pg H+/l. Analyses of cations and anions in precipitation indicate that H~ ions, characterizing acidity, are due to dissociation of sulphuric (about 2/3) and nitric acid (about 1/3) originating in the oxidation of sulphur dioxide and nitrogen oxides, respectivelyo In comparison to sulphuric and nitric acids other strong acids derived from hydrogen fluoride and hydrogen chloride are mainly of local concern. In the Federal Republic of Germany for instance 3,55 Mio t S02 had been released annually into the atmosphere, an amount that was shared by the following emission source categories: PREFACE ~ - Power plants, heating plants and industrial power plants 56 % - Industry 28 % - Small industry and domestic consumption 13 % - Traffic 3 % The corresponding Nox-emissions resulted in about 3 Mio t N02' shared by the following source categories: - Power plants, heating plants and industrial power plants 31 % - Industry 19 % - Small industry and domestic consumption 5 % - Traffic 45 % The S02 emissions are due to the utilization of fossil fuels; in the last few years a stabilisation of the s02 emission level was reached by substitution of coal, supply of fuels with low sulphur content and application of flue gas desulphurization techniques. In contrast to S02' the NOx emissions due to firing processes had increased according to the growth of consumption of primary energy; this evidently illustrates the fact that measures for reduction had hardly been applied. A successful environmental policy has to limit the release of air pollutants at the source. In demanding the current state of technology one merely obeys the legal rule~ for protection of human health and for conservation of natural resources It is o to be regarded with great care, however, that in the past decreasing pollution levels in densely populated areas have often been accompanied by increasing pollution in more remote areas with low pollution levels. Thus the building of tall stacks to unburden the neighbourhood of high level emittors clearly exhibits its partial disadvantage. The Federal Emission Law in Germany contains legal instruments to ensure clean air. Installations which need a licence, have to obey the emission and air quality standards of the Technical Regulation of Air Protection. Technical reduction measures like low emission firing technologies low emission fuels advanced gas purification processes have to be used. In the Federal Republic of Germany the necessary legal instruments for an effective clean air policy have been elaborated. Priority for further action is given to the amendment of the Technical Regulation of Air Protection, to an Ordinance for large firing installations limiting especially precursors of acids like S02, NOx' HF and HCl in operating new and - with a certain delay in time - in operating old installations, and to diminish emissions from motor vehicles. The ecological air pollution issue is, moreover, an international PREFACE ~i problem which cannot be solved by national measures alone. It is well known that the transboundary transport of air pollution in Europe causes a manifold of mutual interferences. For instance, the annual sulphur deposition in the Federal Republic of Germany is due half to deposition from indigeneous sources and half due to emissions from other European countries. Within the framework of the ECE Convention on Long Range Transboundary Air Pollution it is the common objective to strengthen the co-operation of the contracting countries in order to combat harmful air pollu tion. The contracting countries shall endeavour to diminish and to prevent air pollution as far as possible. The 1982 Stockholm Conference on Acidification of the Environment demonstrated that the problems of air pollution have international dimensions. Any reduction of acidifying emissions of sulphur and nitrogen compounds will be beneficial to the environmento Control techniques are already available today. The demand for further scientifically and technically research must not obscure, however, the unmediate and unquestionable need for measures for combating the acidification of the environment. In implementing the 1979 ECE Convention on Long Range Trans boundary Air Pollution priority must be given to internationally harmonited measures taken at the source of air pollution in accordance with the state of technology. THE PROBLEM SEEN UNDER THE ASPECT OF SCIENCE From the scientific point of view, the forest damage and die-back now occuring in Central Europe raises several questions. Two of them may be put here: Why was science not able to foresee this development? Why is science, even after the large scale outbreak of forest damages, not able to give rapidly clear proof of what is going on ? These questions touch on the philosophical background of science. To answer them, it is necessary to consider the procedure of how objective knowledge is gained in general. We do so by following Karl Popper who stated that any increase in objective knowledge is attained by passing through the following stages: 1. condensing of the available knowledge and the observations into a hypothesis; 2. trying to discard the hypothesis with the help of new experiments and observations; 30 and as soon as it becomes impossible to find any contra diction, accepting the hypothesis as proven theory. In the light of this science theory, a condensing hypothesis forms the starting point to gain objective knowledge. In a forest ecosystem, all system components which may be affected have to be included into the hypothesis.