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Experimental manipulations of water and nutrient input to a Norway spruce plantation at Klosterhede, Denmark (1995)

Gundersen, P. ; Andersen, B. R. ; Beier, C. ; [et al.]

Springer

Plant and soil 168-169 (1995), S. 601-611

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ISSN: 1573-5036

Keywords: drought ; nutrient cycling ; potassium ; soil solution ; spatial variability ; throughfall

Source: Springer Online Journal Archives 1860-2000

Topics: Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition

Notes: Abstract At Klosterhede, Denmark experimental manipulations of water and nutrient inputs to a forest stand were carried out under a 1200 m2 roof simulating i) summer drought, ii) removal of N and S input, and iii) optimal nutrition and water availability. In practise, manipulation of element fluxes in a complex system like a forest may cause unintended changes such as climatic effects from the roof which may interfere with the results of the intended manipulation. This paper illustrates the extent and effects of such unintended changes. The most important climatic change under the roof was a 50% reduction of photosynthetic light which caused a decrease in moss cover on the ground floor. Soil temperatures under the roof were decreased 0.3°C during summer and increased 0.2°C during winter. Air humidity was not changed. Throughfall water amount decreased close to the stems whereas element concentrations in throughfall increased close to the stems and with tree size on the ambient plots. This distinct spatial pattern was changed under the roof to a more variable water distribution from the sprinkling system and to constant element concentrations in the sprinkling water. This loss/change of spatial variability in the input was reflected in the soil solution. The concentration patterns found in soil water (increasing close to the stem and with tree size) in the ambient plots were no longer observed under the roof. Exclusion of throughfall by the roof disturbed the internal cycle of nutrients leached from the canopy. The removal of canopy leached Ca and K by the roof caused a decline in soil water concentrations, even on the drought plot where natural throughfall was only cut off during two summer months. The internal cycle of Ca and K had to be restored by addition of Ca and K under the roof. Further, leachable elements and soluble compounds may be washed out from litterfall during the collection period on the roof, and thus lost from the internal cycle by by exclusion of throughfall. It is important to consider these problems in the design of new manipulation experiments and in the interpretation of the results. Some recommendations are given.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00029374

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Experimental manipulations of water and nutrient input to a Norway spruce plantation at Klosterhede, Denmark (1995)

Hansen, K. ; Beier, C. ; Gundersen, P. ; [et al.]

Springer

Plant and soil 168-169 (1995), S. 623-632

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ISSN: 1573-5036

Keywords: atmospheric deposition ; biogeochemical cycling ; decomposition ; experimental manipulations ; soil water chemistry ; throughfall

Source: Springer Online Journal Archives 1860-2000

Topics: Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition

Notes: Abstract At Klosterhede, Denmark experimental manipulations of the input of water and nutrients to a Norway spruce forest stand have been performed. The manipulations included fertilizer application, irrigation and creation of artificial dry periods. Further, the acidic input was excluded from the soil by a 1200 m2 roof. The aim of this study was to quantify the effects of air pollutants on the internal cycling of nutrients in the forest ecosystem and to assess the influence of the manipulations on the canopy interacting processes, the soil water composition and the turnover of organic matter. The improved nutrient availability and the increased soil water content in the fertigation (fertilizer application + irrigation) and the irrigation plots under the roof resulted in an increased decomposition of cotton strips compared to the uncovered control plot. However, the decomposition of needle material (litterbags) in the roof covered plots was reduced probably due to altered humidity conditions in the humic layer as a result of the irrigation system. Significant changes to the manipulations were seen in the soil water concentrations of SO4 2- in the irrigated and the fertigated plots and of K+ in the irrigated plot which show that the internal cycling and dynamics of sulphur and potassium are very sensitive to interference in the input. The effect of reduced acid input on soil water concentrations of Al and H+ was not evident before the 5th year of treatment where Al concentration was reduced almost 50% at 55 cm depth on the “clean rain” (irrigated) plot. It was not possible to detect any enlarged throughfall deposition on the fertigated and irrigated plots despite an observed rise in the canopy surface area on these plots or to detect any changes in canopy leaching reflecting changes in nutrient status.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00029376

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