The relative influence of nutrients and habitat on stream metabolism in agricultural streams

Frankforter, Jill D.; Weyers, Holly S.; Bales, Jerad D.; Moran, Patrick; Calhoun, Daniel L.

doi:10.1007/s10661-009-1127-y

Cited by 31 publications

(29 citation statements)

References 52 publications

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“…The average metabolic rates of the 12 streams in our study exhibited a range of 0.88-35. . Although the maximum rates of GPP and ER from our study sites are almost two-fold higher than rates from Bernot et al [46] and Frankforter et al [47], this difference may be attributed to the shallow (mean = 0.14 m) and relatively slow moving (mean = 0.05 m/s) streams assessed in our study. Shallow depths are associated with increased light availability and associated primary production at the streambed in all areas of the stream [48].…”

Section: Discussioncontrasting

confidence: 79%

Agricultural Best Management Practice Abundance and Location does not Influence Stream Ecosystem Function or Water Quality in the Summer Season

Pearce

Yates

2015

Water

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Best management practices (BMPs) are tools commonly used to mitigate negative impacts of agriculture on water quality; however, the relationship between BMPs and aquatic ecological function is unknown. Our research goal was to determine the association between both stream ecosystem metabolism and water quality, and the abundance and location of four different BMPs in agricultural catchments. Dissolved oxygen was measured over a two-week period in mid-June and used to estimate ecosystem metabolism of 13 headwater streams representing a gradient of BMP implementation in Southern Ontario, Canada. Stepwise regression analyses were used to associate stream metabolism and water quality with metrics describing the abundance and location of BMPs within each catchment. Studied streams exhibited rates of metabolism comparable to catchments from other agricultural regions. However, metrics of BMP implementation were not associated with either stream metabolism or water quality. Our results suggest that BMPs in the studied agricultural catchments are not improving water quality or mitigating water quality impacts on stream metabolism during the summer season. We propose that seasonality of catchment hydrology and time lag effects associated with past agricultural land use may be masking the mitigation benefits of BMPs on stream ecosystem conditions during the summer season.

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Section: Discussioncontrasting

confidence: 79%

Agricultural Best Management Practice Abundance and Location does not Influence Stream Ecosystem Function or Water Quality in the Summer Season

Pearce

Yates

2015

Water

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“…Anthropogenic alteration of flow regimes, such as dam constructions, can affect aquatic organisms since they cannot tolerate rapid changes in flow [4]. Agricultural areas often show nutrient enrichment in rivers [4,5], which can increase the biomass of algae. This condition will consequently cause a decrease of oxygen levels in the water and alter the habitat of aquatic organisms [5].…”

Section: Introductionmentioning

confidence: 99%

“…Agricultural areas often show nutrient enrichment in rivers [4,5], which can increase the biomass of algae. This condition will consequently cause a decrease of oxygen levels in the water and alter the habitat of aquatic organisms [5]. Moreover, disturbed areas also show higher nutrient transport in the rivers compared to forested watersheds [6].…”

Section: Introductionmentioning

confidence: 99%

Generalized Linear Models to Identify Key Hydromorphological and Chemical Variables Determining the Occurrence of Macroinvertebrates in the Guayas River Basin (Ecuador)

Damanik-Ambarita

Everaert

Forio

et al. 2016

Water

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Abstract:The biotic integrity of the Guayas River basin in Ecuador is at environmental risk due to extensive anthropogenic activities. We investigated the potential impacts of hydromorphological and chemical variables on biotic integrity using macroinvertebrate-based bioassessments. The bioassessment methods utilized included the Biological Monitoring Working Party adapted for Colombia (BMWP-Col) and the average score per taxon (ASPT), via an extensive sampling campaign that was completed throughout the river basin at 120 sampling sites. The BMWP-Col classification ranged from very bad to good, and from probable severe pollution to clean water based on the ASPT scores. Generalized linear models (GLMs) and sensitivity analysis were used to relate the bioassessment index to hydromorphological and chemical variables. It was found that elevation, nitrate-N, sediment angularity, logs, presence of macrophytes, flow velocity, turbidity, bank shape, land use and chlorophyll were the key environmental variables affecting the BMWP-Col. From the analyses, it was observed that the rivers at the upstream higher elevations of the river basin were in better condition compared to lowland systems and that a higher flow velocity was linked to a better BMWP-Col score. The nitrate concentrations were very low in the entire river basin and did not relate to a negative impact on the macroinvertebrate communities. Although the results of the models provided insights into the ecosystem, cross fold model development and validation also showed that there was a level of uncertainty in the outcomes. However, the results of the models and sensitivity analysis can support water management actions to determine and focus on alterable variables, such as the land use at different elevations, monitoring of nitrate and chlorophyll concentrations, macrophyte presence, sediment transport and bank stability.

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“…Biološki i biohemijski procesi su u ovakvim eutrofnim ekosistemima veoma intenzivni što često kao posledicu ima smanjivanje količine rastvorenog kiseonika, a na kraju i preovlađivanje anaerobnih nad aerobnim procesima. Naročito je nepovoljna interakcija ovakvog stanja sa povišenom temperaturom vode tokom letnjih meseci kada u stajaćim i sporotekućim vodenim ekosistemima eutrofikacija može biti veoma ubrzana (Chambers et al, 2006;Frankforter et al, 2010;Yu et al, 2012). Uznapredovali procesi eutrofikacije se negativno odražavaju na kvalitet i upotrebljivost vode ali imaju i druge ekološke, meliorativne i hidrotehničke efekte kao što su: remećenje uslova tečenja vode u vodotoku, povećanje hidrauličkih otpora, smanjenje propusne moći, nagomilavanje plivajuće, flotantne, vegetacije u zoni vodoprivrednih objekata što izaziva teškoće i zastoj u njihovom radu, itd.…”

Section: Tab 1 Prosečne Višegodišnje Vrednosti (2006-2011) Parametaunclassified

Water Quality Degradation of Krivaja Watercourse

Savić

Bezdan

Josimov-Dunđerski

et al. 2015

AGR

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SažetakNa osnovu mesečnog monitoringa relevantnih indikatora kvaliteta površinskih voda, kod vodotoka Krivaja tokom analiziranog perioda 2006-2011. godine konstatovan je nezadovoljavajući kvalitet i učestala pojava najlošijih klasa ekološki statusa. Takvo stanje u znatnoj meri ograničava ili onemogućava upotrebljivost voda Krivaje u ma koje svrhe. Na osnovu podataka sa tri merne stanice, ustanovljena je longitudinalna distribucija analiziranih parametara i degradacija kvaliteta vode duž toka koja je prouzrokovana uticajem različitih zagađivača. Zaštita, revitalizacija i racionalno upravljanje vodama Krivaje, kao značajnog vodnog resursa područja kroz koje protiče, učinili bi da se ovaj vodotok izbriše sa liste "crnih tačaka" kvaliteta površinskih voda. Prevazilaženjem uočenog problema, Krivaja bi se osim kao recipijent otpadnih voda mogla koristiti bez opasnosti od negativnih efekata i u druge svrhe, a njene vode i obale ponovo učiniti privlačnim i upotrebljivim, između ostalog, i za navodnjavanje okolnih obradivih površina plodne vojvođanske ravnice i proizvodnju zdravstveno bezbedne hrane.

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The relative influence of nutrients and habitat on stream metabolism in agricultural streams

Cited by 31 publications

References 52 publications

Agricultural Best Management Practice Abundance and Location does not Influence Stream Ecosystem Function or Water Quality in the Summer Season

Agricultural Best Management Practice Abundance and Location does not Influence Stream Ecosystem Function or Water Quality in the Summer Season

Generalized Linear Models to Identify Key Hydromorphological and Chemical Variables Determining the Occurrence of Macroinvertebrates in the Guayas River Basin (Ecuador)

Water Quality Degradation of Krivaja Watercourse

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