Abstract
Rain and throughfall chemistry has been monitored for five years (1987–1991) in three adjacent stands (Norway spruce, Silver fir and Scots pine) situated at an altitude of 1500 m above sea level in the Rhodopes mountains (South-Western Bulgaria). Throughfall collectors have been set up near the stem, below the opening between the crowns, and halfway between the stem and the border of the tree crown. Pollutant concentration in bulk precipitation strongly increased during the period of investigation. Because base cation deposition increased together with sulfate deposition, the increase in proton deposition remained moderate. The increase in throughfall concentration was parallel for different tree species. The time course of mineral concentration in throughfall was approximately similar to that of rainfall but the inter-event variability in concentration was reduced. Net throughfall fluxes of Ca, Mg and K increased during the study period whereas net throughfall fluxes of Cl, Na and S remained more stable. Although the wet deposition of protons increased, the proton input in net throughfall decreased or remained stable in relation to the increase in base cation concentration. This suggests a low dry deposition in the study region and conversely an increased net leaching of base cations. However, the seasonal variations in net throughfall as well as the time course of the difference between the concentrations of throughfall samples collected at different distances from the stems indicates that most of the increase in the net throughfall of Ca and Mg was due to dry deposition. The difficulties associated with the use of ions such as Na as deposition tracers for other base cations is emphasized.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Alenas I and Skarby L 1988 Throughfall of plant nutrients in relation to crown thinning in Swedish Coniferous forest. Water Air Soil Pollut. 38, 223–237.
Beier C and Gundersen P 1989 Atmospheric deposition to the edge of a spruce forest in Denmark. Environ. Pollut. 60, 257–271.
Beier C, Gundersen P and Rasmussen L 1992 A new method for estimation of dry deposition of particles based on throughfall measurements in a forest edge. Atmos. Environ 26, 1553–1559.
Cape J N, Fowler D, Kinnaird J W, Nicholson I A and Paterson I S 1987 Transport of acidity through ecosystems. In Pollulant Transport and Fate in Ecosystems. Eds. P JCoughtrey, M H Martin and M HUnsworth. pp 139–154. British Ecological Soc., Blackwell, Oxford, London, UK.
Hasselrot B and Grennfelt P 1987 Deposition of air pollutants in a wind exposed forest edge. Water Air Soil Pollut. 34, 135–143.
Ignatova N 1994 Augmentation recente du dépôt de polluants atmosphériques par les precipitations dans deux regions forestières de Bulgarie. Sci Total Environ. 151, 167–179.
Ivens W P M F 1991 Spatial variations of throughfall fluxes in European forests. In Proc. 5th Int. Conf. on Precipitation Scavenging and Atmosphere-Surface Exchange Processes. pp 1379–1390. Richland, Washington, USA.
Kaupenjohan M, Schneider B U, Hantschel R, Zech W and Horn R 1988 Sulphuric acid treatment of Picea abies: Effects on nutrient solution, throughfall chemistry and tree nutrition. Z. Pflanzenernähr. Bodenkd. 151, 123–126.
Lindberg S E and Garten C T 1988 Sources of sulphur in forest canopy throughfall. Nature 336, 148–151.
Lovett G M 1992 Atmospheric deposition and canopy interactions of nitrogen. In Atmospheric Deposition and Forest Nutrient Cycling. Eds. DJohnson and GLovett. pp 153–164. Ecological Studies 91 Springer Verlag, Berlin.
Miller H G 1984 Deposition-plant-soil-interactions. Phil. Trans. R. Soc. Lond. 305, 339–352.
Miller H G and Miller J D 1980 Collection and retention of atmospheric pollutant by vegetation. In Ecological Impact of Acid Precipitation. Eds. DDrablos and ATollan. pp 33–40. SNSF, Oslo.
Mohamed Ahamed D 1992 Rôle du facteur édaphique dans le fonctionnement biogéochimique et l'état de santé de deux pessières vosgiennes. Effet d'un amendement calci-magnésien. Thèse, Université de Nancy I. 206 p.
Paoletti E and Gellini R 1989 Effects of acid fog and detergents on foliar leaching of cations. Water Air Soil Pollut. 45, 49–61.
Potter C S 1991 Nutrient leaching from Acer rubrum leaves by experimental acid rainfall. Can. J. For. Res. 21, 222–229.
Probst A, Viville D, Fritz B, Ambroise B and Dambrine E 1992 Hydrochemical budgets of a small forested granitic catchment exposed to acid deposition: The Strengbach catchment case study (Vosges massif, France). Water Air Soil Pollut. 62, 337–347.
Reynolds B, Cape J N and Paterson I S 1989 A comparison of element fluxes in throughfall beneath Larch and Sitka spruce at two contrasting sites in the United Kingdom. Forestry 62, 29–39.
Scherbatskoy T and Klein R M 1983 Response of spruce and birch foliage to leaching by acidic mists. J. Environ. Qual. 12, 189–195.
Stevens P A 1987 Throughfall chemistry beneath Sitka spruce of four ages in Beddgelert Forest, North Wales, UK. Plant and Soil 101, 291–294.
Ulrich B 1983 Interaction of forest canopies with atmospheric consituents: SO2, alkali and earth alkali cations and cloride. In Effects of Accumulation of Air Pollutants in Forest Ecosystems. Eds. B Ulrich and JPankrath. pp 33–45. D. Reidel, Dordrecht.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Ignatova, N. Changes in crown leaching composition induced by a sudden increase in atmospheric deposition. A case study in South-Western Bulgaria. Plant Soil 168, 373–382 (1995). https://doi.org/10.1007/BF00029350
Issue Date:
DOI: https://doi.org/10.1007/BF00029350