Assessing temporal representativeness of water quality monitoring data

• Published in: Journal of environmental monitoring Vol. 14; no. 2; pp. 589 - 595
• Main Authors: Anttila, Saku, Ketola, Mirva, Vakkilainen, Kirsi, Kairesalo, Timo
• Format: Journal Article
• Language: English
• Published: England 01.02.2012
• Subjects: Calibration; Chlorophyll - analysis; Finland; Phycocyanin - analysis; Time; Water Pollution - statistics & numerical data; Water Quality - standards; Finland
• ISSN: 1464-0325; 1464-0333
• DOI: 10.1039/c2em10768f

The effectiveness of different monitoring methods in detecting temporal changes in water quality depends on the achievable sampling intervals, and how these relate to the extent of temporal variation. However, water quality sampling frequencies are rarely adjusted to the actual variation of the monitoring area. Manual sampling, for example, is often limited by the level of funding and not by the optimal timing to take samples. Restrictions in monitoring methods therefore often determine their ability to estimate the true mean and variance values for a certain time period or season. Consequently, we estimated how different sampling intervals determine the mean and standard deviation in a specific monitoring area by using high frequency data from in situ automated monitoring stations. Raw fluorescence measurements of chlorophyll a for three automated monitoring stations were calibrated by using phycocyanin fluorescence measurements and chlorophyll a analyzed from manual water samples in a laboratory. A moving block bootstrap simulation was then used to estimate the standard errors of the mean and standard deviations for different sample sizes. Our results showed that in a temperate, meso-eutrophic lake, relatively high errors in seasonal statistics can be expected from monthly sampling. Moreover, weekly sampling yielded relatively small accuracy benefits compared to a fortnightly sampling. The presented method for temporal representation analysis can be used as a tool in sampling design by adjusting the sampling interval to suit the actual temporal variation in the monitoring area, in addition to being used for estimating the usefulness of previously collected data. Temporal representation analysis can be used as a tool in sampling design by adjusting the sampling interval to suit the actual temporal variation in the monitoring area.