Stream macroinvertebrate occurrence along gradients in organic pollution and eutrophication

Friberg, Nikolai; Skriver, Jens; Larsen, Søren E.; Pedersen, Morten Lauge; Buffagni, Andrea

doi:10.1111/j.1365-2427.2008.02164.x

Cited by 129 publications

(87 citation statements)

References 28 publications

(45 reference statements)

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“…In particular nutrient enrichment and organic pollution are often closely related (Friberg et al, 2009). Authors that report the response of benthic invertebrates to nutrient concentrations (Skoulikidis et al, 2004;Camargo et al, 2004;Smith et al, 2007) either tend not to consider parameters of organic pollution at the same time, or handle effects of the two stressors together (e.g.…”

Section: Multiple Stressorsmentioning

confidence: 98%

The role of land use, nutrients, and other stressors in shaping benthic invertebrate assemblages in Slovenian rivers

et al. 2011

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Studying human impacts on riverine systems is challenging due to the natural diversity and multiple stressors that are co-occurring. The term stressor(s) refers to variable(s) of anthropogenic landscape changes and local abiotic stream conditions that reflect human activities. We compared the effects of different stressors and natural (typology) factors on benthic invertebrate assemblages in Slovenian rivers. A total of 270 river sites located in four European ecoregions were sampled, covering the gradient of human perturbation ranging from (near)natural to highly degraded/polluted. Stressors commonly affecting running waters were grouped into managementrelevant stressor-groups: land use (percentage of urban, intensive and non-intensive agricultural, and natural land use in the catchment and sub-catchment), eutrophication (in-stream concentrations of phosphorus and nitrogen compounds) and other stressors (e.g., organic pollution, hydromorphological alteration). We compared the effects of the stressor-groups on invertebrate assemblages using partial Canonical Correspondence Analysis and tested the explanatory power of each stressor-group using typology variables as covariates. Stressors and typology variables showed high independent effects (40-65%) on invertebrate assemblages despite considerable joint effects from land use and typology. Stressors' pure effects accounted for 70%, and interactions among the stressor-groups made up the remaining 30% of the total explained variability. Altogether, this study gives a good perspective on the ability to separate the effects of anthropogenic stressors from natural causes, as well as to separate effects among groups of stressors. Against this background, we advocate stressor-specific analyses to provide or improve guidelines for selecting appropriate measures to enhance the river status.

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Section: Multiple Stressorsmentioning

confidence: 98%

The role of land use, nutrients, and other stressors in shaping benthic invertebrate assemblages in Slovenian rivers

et al. 2011

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“…In particular, BOD 5 (> 2 mg L -1 ), oxygen concentrations (< 5-6 mg L -1 ) and ammonium-N concentrations (> 0.2 mg L -1 ) were often measured at critical levels which are likely caused by anthropogenic sources such as agriculture, untreated wastewater from scattered dwellings (Friberg et al, 2010) and discharge from landfills (Milosevic et al, 2012). Moreover, nitrate-N, phosphate-P and potassium were often found at high concentrations documenting the heavy use of agricultural fertilisers for crops (Table 3).…”

Section: Characterisation Of Environmental Stressorsmentioning

confidence: 99%

A catchment scale evaluation of multiple stressor effects in headwater streams

Rasmussen

McKnight

Loinaz

et al. 2013

Science of The Total Environment

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Mitigation activities to improve water quality and quantity in streams as well as stream management and restoration efforts are conducted in the European Union aiming to improve the chemical, physical and ecological status of streams. Headwater streams are often characterised by impairment of hydro-morphological, chemical, and ecological conditions due to multiple anthropogenic impacts. However, they are generally disregarded as water bodies for mitigation activities in the European Water Framework Directive despite their importance for supporting a higher ecological quality in higher order streams.We studied 11 headwater streams in the Hove catchment in the Copenhagen region. All sites had substantial physical habitat and water quality impairments due to anthropogenic influence (intensive agriculture, urban settlements, contaminated sites and low base-flow due to water abstraction activities in the catchment). We aimed to identify the dominating anthropogenic stressors at the catchment scale causing ecological impairment of benthic macroinvertebrate communities and provide a rank-order of importance that could help prioritising mitigation activities. We identified numerous chemical and hydromorphological impacts of which several were probably causing major ecological impairment, but we were unable to provide a robust rank-ordering of importance suggesting that targeted mitigation efforts on single anthropogenic stressors in the catchment are unlikely to have substantial effects on the ecological quality in these streams.The SPEcies At Risk (SPEAR) index explained most of the variability in the macroinvertebrate community structure, and notably, SPEAR index scores were often very low (< 10 % SPEAR abundance). An extensive re-sampling of a subset of the streams provided evidence that especially insecticides were probably essential contributors to the overall ecological impairment of these streams.Our results suggest that headwater streams should be considered in future management and mitigation plans. Catchment-based management is necessary because several anthropogenic stressors exceeded problematic thresholds, suggesting that more holistic approaches should be preferred.

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“…The resulting eutrophication of waterbodies often leads to changes in pH, turbidity, and dissolved oxygen availability, and thus, can be detrimental to aquatic ecosystem structure and functioning [Smith and Schindler, 2009;Friberg et al, 2010]. In addition to ecological impacts, high riverine nutrient concentrations can cause significant socio-economic implications by impairing freshwater ecosystem services including drinking water supply, recreational opportunities, and aesthetic qualities such as taste or odor [Millennium Ecosystem Assessment, 2005;Bennett et al, 2009].…”

Section: Introductionmentioning

confidence: 99%

High‐frequency monitoring of catchment nutrient exports reveals highly variable storm event responses and dynamic source zone activation

et al. 2017

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Storm events can drive highly variable behavior in catchment nutrient and water fluxes, yet short‐term event dynamics are frequently missed by low‐resolution sampling regimes. In addition, nutrient source zone contributions can vary significantly within and between storm events. Our inability to identify and characterize time‐dynamic source zone contributions severely hampers the adequate design of land use management practices in order to control nutrient exports from agricultural landscapes. Here we utilize an 8 month high‐frequency (hourly) time series of streamflow, nitrate (NO3‐N), dissolved organic carbon (DOC), and hydroclimatic variables for a headwater agricultural catchment. We identified 29 distinct storm events across the monitoring period. These events represented 31% of the time series and contributed disproportionately to nutrient loads (42% of NO3‐N and 43% of DOC) relative to their duration. Regression analysis identified a small subset of hydroclimatological variables (notably precipitation intensity and antecedent conditions) as key drivers of nutrient dynamics during storm events. Hysteresis analysis of nutrient concentration‐discharge relationships highlighted the dynamic activation of discrete NO3‐N and DOC source zones, which varied on an event‐specific basis. Our results highlight the benefits of high‐frequency in situ monitoring for characterizing short‐term nutrient fluxes and unraveling connections between hydroclimatological variability and river nutrient export and source zone activation under extreme flow conditions. These new process‐based insights, which we summarize in a conceptual model, are fundamental to underpinning targeted management measures to reduce nutrient loading of surface waters.

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Stream macroinvertebrate occurrence along gradients in organic pollution and eutrophication

Cited by 129 publications

References 28 publications

The role of land use, nutrients, and other stressors in shaping benthic invertebrate assemblages in Slovenian rivers

The role of land use, nutrients, and other stressors in shaping benthic invertebrate assemblages in Slovenian rivers

A catchment scale evaluation of multiple stressor effects in headwater streams

High‐frequency monitoring of catchment nutrient exports reveals highly variable storm event responses and dynamic source zone activation

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