Chronic nutrient inputs affect stream macroinvertebrate communities more than acute inputs: An experiment manipulating phosphorus, nitrogen and sediment

Stephen J Davis; Daire Ó hUallacháin; Per-Erik Mellander; Christoph D Matthaei; Jeremy J Piggott; Mary Kelly-Quinn

doi:10.1016/j.scitotenv.2019.05.031

Chronic nutrient inputs affect stream macroinvertebrate communities more than acute inputs: An experiment manipulating phosphorus, nitrogen and sediment

Sci Total Environ. 2019 Sep 15:683:9-20. doi: 10.1016/j.scitotenv.2019.05.031. Epub 2019 May 7.

Authors

Stephen J Davis¹, Daire Ó hUallacháin², Per-Erik Mellander³, Christoph D Matthaei⁴, Jeremy J Piggott⁵, Mary Kelly-Quinn⁶

Affiliations

¹ Teagasc, Environmental Research Centre, Johnstown Castle, Wexford, Co., Wexford, Ireland; School of Biology and Environmental Science, University College Dublin, Dublin 4, Ireland. Electronic address: Stephen.davis@ucdconnect.ie.
² Teagasc, Environmental Research Centre, Johnstown Castle, Wexford, Co., Wexford, Ireland.
³ Agricultural Catchments Programme, Teagasc, Johnstown Castle, Wexford, Co., Wexford, Ireland.
⁴ Department of Zoology, University of Otago, 340 Great King Street, Dunedin 9016, New Zealand.
⁵ School of Natural Sciences, Trinity College Dublin, the University of Dublin, College Green, Dublin 2, Ireland.
⁶ School of Biology and Environmental Science, University College Dublin, Dublin 4, Ireland.

PMID: 31128565
DOI: 10.1016/j.scitotenv.2019.05.031

Abstract

Freshwaters worldwide are affected by multiple stressors. Timing of inputs and pathways of delivery can influence the impact stressors have on freshwater communities. In particular, effects of point versus diffuse nutrient inputs on stream macroinvertebrates are poorly understood. Point-source inputs tend to pose a chronic problem, whereas diffuse inputs tend to be acute with short concentration spikes. We manipulated three key agricultural stressors, phosphorus (ambient, chronic, acute), nitrogen (ambient, chronic, acute) and fine sediment (ambient, high), in 112 stream mesocosms (26 days colonisation, 18 days of manipulations) and determined the individual and combined effects of these stressors on stream macroinvertebrate communities (benthos and drift). Chronic nutrient treatments continuously received high concentrations of P and/or N. Acute channels received the same continuous enrichment, but concentrations were doubled during two 3-hour periods (day 6, day 13) to simulate acute nutrient inputs during rainstorms. Sediment was the most pervasive stressor in the benthos, reducing total macroinvertebrate abundance and richness, EPT (mayflies, stoneflies, caddisflies) abundance and richness. By contrast, N or P enrichment did not affect any of the six studied community-level metrics. In the drift assemblage, enrichment effects became more prevalent the longer the experiment went on. Sediment was the dominant driver of drift responses at the beginning of the experiment. After the first acute nutrient pulse, sediment remained the most influential stressor but its effects started to fade. After the second pulse, N became the dominant stressor. In general, impacts of either N or P on the drift were due to chronic exposure, with acute nutrient pulses having no additional effects. Overall, our findings imply that cost-effective management should focus on mitigating sediment inputs first and tackle chronic nutrient inputs second. Freshwater managers should also take into account the length of exposure to high nutrient concentrations, rather than merely the concentrations themselves.

Keywords: Agricultural stressors; Europe; Invertebrate drift; Mesocosm experiment; Nutrients.

MeSH terms

Animals
Biota / drug effects
Biota / physiology
Geologic Sediments / analysis*
Invertebrates / drug effects*
Invertebrates / physiology
Ireland
Nitrogen / analysis*
Nutrients / analysis
Phosphorus / analysis*
Rivers / chemistry*
Time Factors

Substances

Phosphorus
Nitrogen