ATMOSPHERIC DEPOSITION AND SOIL ACIDIFICATION IN 5 CONIFEROUS FOREST ECOSYSTEMS - A COMPARISON OF THE CONTROL PLOTS OF THE EXMAN SITES

Citation
K. Kreutzer et al., ATMOSPHERIC DEPOSITION AND SOIL ACIDIFICATION IN 5 CONIFEROUS FOREST ECOSYSTEMS - A COMPARISON OF THE CONTROL PLOTS OF THE EXMAN SITES, Forest ecology and management, 101(1-3), 1998, pp. 125-142
Citations number
53
Categorie Soggetti
Forestry
ISSN journal
03781127
Volume
101
Issue
1-3
Year of publication
1998
Pages
125 - 142
Database
ISI
SICI code
0378-1127(1998)101:1-3<125:ADASAI>2.0.ZU;2-Z
Abstract
The five sites of the EXMAN project conducted in Ireland, Denmark, Net herlands, Northern and Southern Germany were compared regarding (1) th e marine and anthropogenic components of deposition, (2) the acidifica tion of soil and consequences for Al status, and (3) the nitrate load of seepage. The marine deposition decreases with decreasing rates from the coast inland. It vanishes at a distance of more than 600 km of th e sea. The most part of sea salt input in conifer forests is due to dr y deposition. Sea salt Mg2+ in throughfall near the coast by far excee ds the demand of trees. The anthropogenic deposition of N and S at the Irish site is about 20%; at the Danish site, about 60% of that at the inland sites. At the Irish site, the anthropogenic deposition is the two-to threefold of the preindustrial deposition. NH4+ prevails at all sites as acid component in throughfall, controlling the pH values tha t vary between 3.9 and 5.3. In drainage water leaving the root zone, t he mean pH values vary only between 4.1 and 4.4. Proton budgets for th e forest floor have shown that N turnover dominates as a proton source at the inland sites, whereas at the coastal sites the dominant source results from the production of organic acids. The main proton sink is due to H+ output. Proton budgets for the total root zone indicate tha t an important proton gain is caused at the most sites by proton excre tion of the roots in connection with base cation uptake. In addition, at some sites, the release and output of SO42-, appears to be a consid erable proton source. At all sites, buffering and output of Al represe nt the main proton sink. The Al solubility of each layer of the EXMAN; ?AN sites was compared with the solubility of a synthetic gibbsite. Al saturation exists only at the lower boundary of the main root zone. I n the soil layers above, there is an undersaturation that is largest a t the humus layer efflux. The relationship between Al dissolved and Al adsorbed, both expressed in cation percentages, is rather weak for th e coastal sites in contrast to the inland sites. The importance of the ionic strength effect of sea salt input is discussed with respect to the deep reaching Al saturation and acidification of the soils. Modera te to strong Al stress is indicated at all sites in the mineral soil. The nitrate load of tho seepage water depends on the N status of the e cosystems rather than N deposition when the throughfall exceeds 20 kg N ha(-1) yr(-1) An attempt was mode to classify the EXMAN sites with r espect to the N status with the aid of the N flux gradient by depth. ( C) 1998 Elsevier Science B.V.