Variability of water fluxes through the black spruce (Picea mariana) canopy and feather moss (Pleurozium schreberi) carpet in the boreal forest of Northern Manitoba
1997
Price, A.G. | Dunham, K. | Carleton, T. | Band, L.
Water flux measurements in a stand of black spruce (Picea mariana) with a feather moss (Pleurozium schreberi) floor in the boreal forest of Northern Manitoba show that stemflow is volumetrically insignificant, constituting less than 1% of gross precipitation amounts. Canopy interception is shown to be up to 60% of gross precipitation for small events, and approximately 15% for large ones. Season-long canopy interception was 23% of gross precipitation. Moss interceptton is shown to be approximately 23% of total throughfall amounts, giving a season-long 'whole-system' interception of 41% of gross precipitation. The data suggest that approximately 79% of throughfall inputs move through the moss layer within a few days of input events, and that the approximate 21% retained by the moss subsequently evaporates during quiescent periods. Throughfall inputs to the moss layer are strongly spatially variable, resulting in a similar variability of process in the moss layer. The data also suggest that processes occurring at the moss-mineral soil interface are influential in determining the nature of system hydrologic response.
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