Unexpected shift from phytoplankton to periphyton in eutrophic streams due to wastewater influx

Pollution with nitrogen (N) and phosphorous (P) impairs streams by favoring suspended algae and cyanobacteria over diatom-rich periphyton. Recently, wastewater treatment plants have been upgraded to biological nutrient removal to eliminate both P and N (mainly NH4+), although little is known of the effects of this effluent on flowing waters. Here, we used high performance liquid chromatography to quantify how the abundance and composition of phytoplankton and periphyton varied in response to both influx of effluent produced by biological nutrient removal and physico-chemical conditions in small, turbid, P-rich streams of the northern Great Plains. At the catchment scale, analysis with generalized additive models (GAMs) explained 40.5-62.6% of deviance in total phototroph abundance (as Chl a) and 72.5-82.5% of deviance in community composition (as biomarker carotenoids) in both planktonic and benthic habitats when date- and site-specific physico-chemical parameters were used as predictors. In contrast, GAMs using wastewater input (as aqueous delta N-15) as a predictor explained up to 50% of deviance in Chl a, and similar to 60% of deviance in community composition, in both suspended (51.6% of Chl a, 67.1% of composition) and attached communities (21.5% of Chl a, 58.8% of composition). Phytoplankton was replaced by periphyton within a 60-km wastewater-impacted reach due to dilution of streams by transparent effluent and addition of urban NO3-, although predominance of phytoplankton was re-established after confluence with higher-order streams. Overall, influx of effluent shifted turbid, phytoplankton-rich streams to clear ecosystems with abundant epilithon by improving water transparency and providing NO3- to favor benthic diatoms and chlorophytes.

Automated summary

The effluent from biological nutrient removal has been shown to shift turbid, phytoplankton-rich streams to clear ecosystems with abundant epilithon, favoring benthic diatoms and chlorophytes.