Monthly mass balances for compartments of the Loosdrecht Lakes system: Approach and preliminary results

Abstract

Water quality modelling in the framework of the Water Quality Research Loosdrecht Lakes requires mass balances covering periods of one month or less for at least three of the lake compartments of the Loosdrecht Lakes system: the Loosdrecht Lakes, L. Vuntus and L. Breukeleveen. The hydrological system of the Loosdrecht area underlying these mass balances is described. Data available on the various mass balance items are surveyed, as well as the methods considered to calculate those items that do not lend themselves to direct measurement. The system will be modelled by means of a series of interdependent spreadsheets. Calibration of this model to the 1983–1986 data set should render it suitable to calculate the mass balances retrospectively,i.e. in the period 1975–1982. The model in its present form cannot be used to predict mass balances. Masses of Cl, P and N stored in the three main lake compartments of interest at consecutive sampling dates in 1983 and 1984 are graphically presented and compared with roughly estimated biannual balances of the same substances for the aggregate of the three lake compartments. Not unexpectedly, the distribution within the system of the conservative substance Cl is a function of the differences between the lake compartments in mixing ratios of high-Cl to low-Cl inputs. The amounts of the nutrients P and N stored in the lake water follow a rather erratic course. Though it is possible to idealize this to a seasonal cycle, the two-year period dealt with by this study is too short to identify such a cycle with certainty. From the large residual terms of the biannual nutrient balances it is obvious that the not directly quantifiable processes like sedimentation, release from the sediment and (presumably) denitrification that are lumped into those residual terms, are of major importance to the amounts of nutrients in the lake water.