Water quality assessment of different reservoir types in relation to nutrient solution use in hydroponics.
Hydroponics requires good quality water. For this purpose, water quality is based on concentrations of specific ions and phytotoxic substances as well as the presence of organisms and substances that can clog irrigation systems. Here, four irrigation reservoirs, i.e. two rainwater ponds, a peat ditch, and a natural lake, were analyzed to determine whether or not they conform to water quality guidelines. Based on our data, the four reservoirs could be divided into two categories in respect to their water quality. The two rainwater ponds belong to the category characterized by low input of ionic strength (480 μmol m−1), low concentration of unwanted ions, such as SO42− (63 μmol l−1) and Zn2+ (3.9 μmol l−1), a moderate bacterial population (lg 4.9 CFU m−1), and moderate algae density (lg 6.0 cells ml−1). The rainwater ponds were found to contain a good diversity in bacteria (45 species from 25 genera), and a poor diversity of algae (15 species from 4 groups). The other category, to which the peat ditch and natural lake belong, is characterized by a high ionic strength (12,200 μmol l−1), high concentrations of alkali ions (Mg2+: 890 μmol l−1; Ca2+: 3.260 μmol l−1; K+: 470 μmol l−1), a moderate bacterial (lg 4.7 CFU ml−1), but low algae density (lg 5.0 cells ml−1). In comparison to the first category, the diversity of the bacteria was poor (seven species from three genera). However, in sharp contrast was the rich algal community detected in the peat ditch, for which 32 species from six groups were found, whereas in the natural lake, only one group with seven species was identified. In all reservoirs, species of the genera Paenibacillus and Bacillus were detected, and small green algae, e.g. Scenedesmus spp., also dominated in each case. Overall, the bacterial and algal densities showed wide fluctuations between water sources, and neither caused filter clogging as observed in investigations of others. The quality of the rainwater investigated was assessed to be well suited for use in hydroponics due to appropriate nutrient concentration (except Zn2+ in one pond), and lack of potential bacterial and algal development. However, we recommend water from the natural lake and the peat ditch to be used with care because of the high nutrient concentration.
Schwarz, D.; Grosch, R.; Gross, W.; Hoffmann-Hergarten, S. 2005. Water quality assessment of different reservoir types in relation to nutrient solution use in hydroponics. Agricultural Water Management 71 (2), 145-166.