Abstract
Ground water inputs and outputs of N were studied for a small ground water discharge swamp situated in a headwater drainage basin in southern Ontario, Canada. Darcy's equation with data for piezometers was used to measure inputs of shallow local ground water at the swamp margin and deep regional ground water beneath the swamp. Ground water flux was also quantified by measuring ground water discharge to the outlet stream draining the swamp in combination with a chemical mixing model to separate shallow and deep ground water components based on chloride differences. Estimates of shallow ground water flux determined by these two approaches agreed closely however, the piezometer data seriously underestimated the deep ground water input to the swamp. An average ground water input-output budget of total N (TN) total organic nitrogen (TON) ammonium (NH4 +-N) and nitrate (NO3 --N) was estimated for stream base flow periods which occurred on an average of 328 days each year during 1986–1990. Approximately 90% of the annual NO3 --N input was contributed by shallow ground water at the swamp margin. Deep ground water represented about 65% of the total ground water input and a similar proportion of TON and NH4 +-N inputs. Annual ground water NO3 --N inputs and outputs were similar whereas NH4 +-N retention was 4 kg ha-1 representing about 68% of annual ground water input. Annual TON inputs in ground water exceeded outputs by 7.7 kg ha (27%). The capacity of the swamp to regulate ground water N fluxes was influenced by the N chemistry of ground water inputs and the hydrologic pathways of transport within the swamp.
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References
Cooper AB (1990) Nitrate depletion in the riparian zone and stream channel of a small headwater catchment. Hydrobiol. 202: 13–26
Devito KJ, Dillon PJ & Lazerte BD (1989) Phosphorus and nitrogen retention in five Precambrian Shield wetlands. Biogeochemistry 8: 185–204
Environment Canada (1979) Analytical methods manual. Inland Waters Directorate, Water Quality Branch, Ottawa, Canada
Freeze RA & Cherry JA (1979) Groundwater. Prentice-Hall, New Jersey, 604 pp
Hemond HF 91980) Biogeochemistry of Thoreau's bog, Concord, Massachusetts, Ecol. Monog. 50: 507–526
Hill AR (1990a) Groundwater cation concentrations in the riparian zone of a forested headwater stream. Hydrol. Processes 4: 121–130
Hill AR (1990b) Ground water flow paths in relation to nitrogen chemistry in the nearstream zone. Hydrobiol. 206: 39–52
Hill AR & Warwick J (1987) Ammonium transformations in springwater within the riparian zone of a small woodland stream. Can. Fish. Aquat. Sci. 44: 1948–1956
Howard KWF & Beck P (986) Hydrochemical interpretation of groundwater flow system in Quaternary sediments of southern Ontario. Can. J. Earth Sci. 23: 938–947
Koerselman W (1989) Groundwater and surface water hydrology of a small groundwater fed fen. Wetlands Ecology and Management 1: 31–43
La Baugh SW (1986) Wetland ecosystem studies from a hydrologic perspective. Water Res. Bull. 22: 1–10
Lowrance RR, Todd RL & Asmussen LE (1983) Waterborne nutrient budgets for the riparian zone of an agricultural watershed. Agric. Ecosyst. Environ. 10: 371–384
Lowrance R, Todd R, Fail J, Hendrickson O, Leonard R & Asmussen L (1984) Riparian forests as nutrient filters in agricultural watersheds. Biosci. 34: 374–377
Peterjohn WT & Correll DL (1984) Nutrient dynamics in an agricultural watershed: observations on the role of a riparian forest. Ecology 65: 1466–1475
Roulet NT (1990) Hydrology of a headwater basin wetland: Groundwater discharge and wetland maintenance. Hydrol. Processes 4: 387–400
Roulet NT (1991) Storm runoff production in a headwater basin wetland. Nordic Hydrol. (in press)
Sibul V, Wang KT & Vallery D (1977) Ground water resources of the Duffins Creek Rouge river drainage basins. Water Resources Report 8, Ontario Ministry of the Environment, Toronto, Canada
Solorzano L & Sharp JH (1980) Determination of total dissolved nitrogen in natural waters. Limnol. Oceanogr. 25: 751–754
Technicon (1977) Nitrate and nitrite in water and seawater. Industrial Method 158-71W1A. Technicon Industrial System, Tarrytown, NY
Technicon (1978) Ammonia in water and seawater. Industrial Method 154-71W/B. Technicon Industrial systems, Tarrytown, NY
Urban NR & Eisenreich SJ (1988) Nitrogen cycling in a forested Minnesota bog. Can. J. Bot. 66: 435–449
Warwick J & Hill AR (1988) Nitrate depletion in the riparian zone of a small woodland stream. Hydrobiol. 157: 231–240
Winter TC (1981) Uncertainties in estimating the water balance of lakes. Water Res. Bull. 17: 82–115
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Hill, A.R. A ground water nitrogen budget for a headwater swamp in an area of permanent ground water discharge. Biogeochemistry 14, 209–224 (1991). https://doi.org/10.1007/BF00000808
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DOI: https://doi.org/10.1007/BF00000808