NITROGEN ADDITION AND REMOVAL AT GARDSJON - EFFECTS ON FINE-ROOT GROWTH AND FINE-ROOT CHEMISTRY

Investigations were carried out on Norway spruce (Picea abies) fine-ro ot growth in 3 catchment areas subjected to decreased nitrogen (N) and sulphur (S) deposition (G1 ROOF), increased N deposition (G2 NITREX) and ambient levels of N and S deposition (F1 CONTROL), within the Lake Gardsjon basin, SW Sweden. Root sampling was performed using ingrowth cores which were installed and resampled in 2-year intervals at the 3 catchments. The amount of fine roots in the resampled ingrowth cores was interpreted as a direct measure of tree vitality. There was a grad ual decline in fine-root growth in the Fl CONTROL catchment from 1991 onwards; whereas, reduced N and S deposition in the G1 ROOF resulted i n a tendency towards stabilisation and a gradual recovery. This stabil isation process was also indicated by better nutritional conditions in the fine roots, viz. increased potassium (K), phosphorous (P) and cal cium (Ca) levels in relation to N. The K level did not change at Fl CO NTROL, and stayed at a low level relative to N. The G2 NITREX exposed to increased N exhibited a tendency towards decline, but not as consis tent as for the Fl CONTROL. Increase of K, P and Ca levels relative to N in G1 NITREX occurred probably as a result of ion exchange caused b y the added ammonium nitrate. Considerable differences were observed i n ingrowth rates between different growth periods, in particular at F1 CONTROL and G2 NITREX. (C) 1998 Elsevier Science B.V.