A decennial control of N-cycle in the Belgian Ardenne forest ecosystems

Weiß, Franz; Hambuckers, Alain; Vanpraag, Hj.; Remacle, Jean-François

doi:10.1007/bf00009396

Cited by 35 publications

(18 citation statements)

References 6 publications

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“…The foliar yellowing of Norway spruce associated with forest dieback was identified as a symptom of magnesium deficiency [9,37]. It has been postulated that these deficiencies could be reinforced by acid and nitrogen inputs from the atmosphere, which accelerate the processes of soil acidification and cation leaching [35]. In South Belgium, several studies demonstrated that besides the well known cases of low concentrations in phosphorous and calcium, magnesium was also at a critical level in 70% of the sampled soils [17].…”

Section: Introductionmentioning

confidence: 99%

Regional scale effects of base cation fertilization on Norway spruce and European beech stands situated on acid brown soils: soil and foliar chemistry

2001

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-Ten experiments were installed on acid soils in different ecoclimatic conditions of the Belgian Ardenne. Soil pH, exchangeable cations and P contents as well as foliar nutrient concentrations were monitored 1 and 3 years following the application of either (1) 3 t ha -1 of a dolomitic limestone or (2) 3 t ha -1 of a dolomitic limestone plus different amounts of P (0-800 kg natural phosphate) and/or K (0-250 kg K 2 SO 4 ). Dolomite rapidly increased Ca and Mg concentrations in the 0-10 cm soil layer and in the tree leaves. After three years, exchangeable Al was significantly lower in the first soil layer but it still represented more than 50% of the exchangeable cations. Mean pH increase in the 0-10 cm layer was less than 0.5 pH units. Dolomite alone tended to reduce mean K concentrations in the soils and/or leaves of the beech stands. The addition of potassium sulphate to dolomite generally increased the soil and foliar K contents in the spruce stands contrary to the beech stands. It also tended to increase the resaturation of the exchange complex with Ca and Mg ions. The effects of natural phosphate addition were restricted to a slight increase of P foliar concentrations. The B foliar concentrations were reduced by both treatments, whereas Zn concentrations increased significantly. The between stands variability of soil and foliage chemical properties was important but did not influence the effects of the treatments.base cation fertilization / micronutrient / Picea abies / Fagus sylvatica Résumé -Effets à l'échelle régionale de la fertilisation en cations basiques sur des peuplements d'épicéa commun et de hêtre situés sur des sols bruns acides : analyses de sols et feuilles. Dix dispositifs ont été installés dans différentes conditions écoclimatiques de l'Ardenne belge. Les cations échangeables, le pH, la concentration en P dans le sol et les teneurs foliaires en éléments ont été détermi-nés 1 et 3 ans après l'application de (1) 3 t ha -1 de dolomie ou (2) 3 t ha -1 de dolomie plus différentes doses de P (0-800 kg de phosphates naturels) et/ou de K (0-250 kg K 2 SO 4 ). La dolomie permet d'accroître rapidement la concentration en Ca et Mg dans les dix premiers cm du sol et dans les feuilles. Après 3 ans, l'Al échangeable diminue mais seulement dans la première couche de sol. Dans cette même couche, l'accroissement de pH est limité à une demi unité. La dolomie seule a tendance à réduire les teneurs en K échangeable dans le sol et les feuilles des arbres en hêtraies. L'application de K 2 SO 4 permet finalement d'accroître la concentration en K dans le sol et les feuilles des peuplements d'épicéa. De plus, ce traitement entraîne une plus grande resaturation du complexe d'échange en Ca et Mg. Les phosphates naturels augmentent légèrement les teneurs foliaires en P. Le B dans les feuilles diminue suite aux deux traitements et le Zn augmente significativement. La variabilité des propriétés chimiques des sols et des feuilles est importante entre les dispositifs expérimentaux mais n'influence pas l'effet des ...

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Section: Introductionmentioning

confidence: 99%

Regional scale effects of base cation fertilization on Norway spruce and European beech stands situated on acid brown soils: soil and foliar chemistry

2001

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“…Soil acidification due to atmospheric pollution, and subsequent nutritional deficiencies, appeared to be a major cause of the observed decrease in forest health. This was especially confirmed for Norway spruce growing on naturally poor acidic soils of the Belgian Ardenne [35,36]. For Q. robur and Q. petraea, many studies revealed that the decline should be considered as a complex-causal phenomenon [15,16,23].…”

Section: Introductionmentioning

confidence: 89%

Impact of dolomite lime on the ground vegetation and on potential net N transformations in Norway spruce (Picea abies (L.) Karst.) and sessile oak (Quercus petraea (Matt.) Lieb.) stands in the Belgian Ardenne

Dulière¹,

Carnol²,

Dalem³

et al. 1999

Ann. For. Sci.

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-The impact of dolomite lime (5 T·ha -1 ) on the ground vegetation and on potential net nitrogen (N) transformations was investigated in two Belgian forest ecosystems. Norway spruce (Picea abies (L.) Karst.) and sessile oak (Quercus petraea (Matt.) Lieb.) stands were situated in the Haute Ardenne (east Belgium) on acid-brown soil. The herb-layer floristic richness increased during the 2 years following liming, with the appearance of light and N-demanding species, which are also found in clear-cut areas or on road verges. Mosses reacted rapidly, showing a decrease acidophilous-dominant species and the establishment of some ruderal species. Six months after liming, the pH was significantly increased in the organic horizon of both stands and in the organomineral horizon of the oak stand. Soils originating from the two stands showed distinct responses in net NO 3 -production to the dolomite lime treatment. In the organic layer of the Quercus soil, net NH 4 + production was decreased, NO 3 -production increased, and total N mineralisation remained unchanged. In the organomineral layer, NO 3 -production was increased. In the Picea soil, NO 3 -production was decreased in the organomineral soil layer. These

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“…In densely populated countries such as the Netherlands, Germany or Belgium, the forests are often restricted to the most infertile soils. In those conditions, nitrogen deposition induces soil base cation depletion and tree nutritional imbalances (De Vries 1988, Schulze 1989, Weissen et al 1990). Otherwise, in regions where water deficit gets worse, rising CO2 concentration offsets the effects of increasing summer drought.…”

Section: Projections Over 21 St Centurymentioning

confidence: 99%

Responses of European forest ecosystems to 21st century climate: assessing changes in interannual variability and fire intensity

Dury¹,

Hambuckers²,

Warnant³

et al. 2011

iForest

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A decennial control of N-cycle in the Belgian Ardenne forest ecosystems

Cited by 35 publications

References 6 publications

Regional scale effects of base cation fertilization on Norway spruce and European beech stands situated on acid brown soils: soil and foliar chemistry

Regional scale effects of base cation fertilization on Norway spruce and European beech stands situated on acid brown soils: soil and foliar chemistry

Impact of dolomite lime on the ground vegetation and on potential net N transformations in Norway spruce (Picea abies (L.) Karst.) and sessile oak (Quercus petraea (Matt.) Lieb.) stands in the Belgian Ardenne

Responses of European forest ecosystems to 21st century climate: assessing changes in interannual variability and fire intensity

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