Water chemistry of throughfall and soil water under four tree species at Gisburn, northwest England, before and after felling

The chemistry of throughfall, from intact canopies and felling debris, and soil waters beneath four tree species, alder ( Alnus glutinosa), Scots pine ( Pinus sylvestris), Norway spruce ( Picea abies) and oak ( Quercus petraea), and an unplanted control plot, was monitored before and after felling a...

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Bibliographic Details
Published in:Forest ecology and management 2000-04, Vol.129 (1), p.101-117
Main Authors: Robertson, S.M.C, Hornung, M, Kennedy, V.H
Format: Article
Language:English
Subjects:
Agronomy. Soil science and plant productions
Alnus glutinosa
Biological and medical sciences
British Isles, England, Gisburn
canopy
carbon
chemical composition
Chemical, physicochemical, biochemical and biological properties
chlorides
Clearfelling
forest litter
Fundamental and applied biological sciences. Psychology
groundwater
leakage
logging
magnesium sulfate
Mineral components. Ionic and exchange properties
nitrates
northern england
phosphates
Physics, chemistry, biochemistry and biology of agricultural and forest soils
Picea abies
Pinus sylvestris
potassium
Quercus petraea
slash
sodium
soil depth
Soil science
soil water
Soil water chemistry
species differences
surface water
throughfall
Throughfall chemistry
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Summary:The chemistry of throughfall, from intact canopies and felling debris, and soil waters beneath four tree species, alder ( Alnus glutinosa), Scots pine ( Pinus sylvestris), Norway spruce ( Picea abies) and oak ( Quercus petraea), and an unplanted control plot, was monitored before and after felling at a site on humic gley soils in the north of England. The results show clear differences in solute concentrations below the four species both before and after felling. Before felling the concentrations of the mainly atmospherically derived ions (Na +, Mg 2+, SO 4 2−, Cl −) were larger in both throughfall and soil waters below the conifers than the hardwoods. There were smaller inter species differences in the concentrations of solutes mainly controlled by within system processes (K +, NO 3 −, PO 4 −, DOC); NO 3 − concentrations were largest below the alder. Following felling, concentrations of the mainly atmospherically derived solutes declined below all four species and the inter-species differences reduced sharply so that in the second year after felling there was little difference between species. Concentrations of the solutes controlled by within system processes mainly increased after felling. The largest increase in K + concentrations was below the conifers, which had foliage at the time of felling; most of the K was retained in the upper soil except below spruce. Nitrate concentrations declined below alder after felling while increasing below the other species. The largest increase was below spruce and the increased concentrations were seen in the lower horizons below both conifer species, suggesting that there would probably be leakage to ground- or surface waters. The factors leading to the reduction in nitrate concentrations below alder merit further research. PO 4 3− released from the felling debris and litter layer was retained in the upper soil.
ISSN:0378-1127
1872-7042
DOI:10.1016/S0378-1127(99)00156-5