2014
DOI: 10.1002/eco.1514
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Impact of extreme hydrologic disturbance upon the sediment carbon quality in agriculturally impacted temperate streams

Abstract: The impact of extreme hydrologic disturbances on the quality of fine particulate organic carbon (FPOC) associated with sediments in low-gradient, agriculturally impacted streams remains poorly understood despite the significance of the FPOC pool to benthic food webs, organic matter budgets and nutrient cycles. We estimated immediate and long-term impacts of an extreme flow disturbance on FPOC quality using a 5-year dataset of the stable carbon isotopic signature and a new metric for carbon quality. Results of … Show more

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Cited by 19 publications
(14 citation statements)
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“…High rates of fixation are reflective of the highly productive nature of open‐canopy, high nutrient streams in the watershed that create nonrate‐limiting conditions for algal growth [ Griffiths et al ., ; Ford and Fox , ]. High rates of denitrification are likely supported by high quality carbon pools associated with algal biomass and detritus accrued in the SFGL of the agroecosystem streams [ Martinelli et al ., 2011; Lane et al ., ; Ford et al ., ].…”
Section: Discussionmentioning
confidence: 99%
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“…High rates of fixation are reflective of the highly productive nature of open‐canopy, high nutrient streams in the watershed that create nonrate‐limiting conditions for algal growth [ Griffiths et al ., ; Ford and Fox , ]. High rates of denitrification are likely supported by high quality carbon pools associated with algal biomass and detritus accrued in the SFGL of the agroecosystem streams [ Martinelli et al ., 2011; Lane et al ., ; Ford et al ., ].…”
Section: Discussionmentioning
confidence: 99%
“…Particulate nitrogen includes fine and coarse nitrogen pools comprised primarily of benthic algal biomass and fine particulate sediment particles and aggregates from upland sediment sources [ Ford and Fox , ]. The nature of low‐gradient, human disturbed systems suggests relatively minor inputs from leaf litter and detritus since they are small relative to algae and fine particulate nitrogen (FPN) [ Griffiths et al ., ; Ford et al ., ]. TRANSFER simulates coarse particulate N to be composed soley of algal particulate N ( APN ).…”
Section: Methodsmentioning
confidence: 99%
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“…Two primary ISOFLOC response variables are C FPOC-T(av) and d 13 C FPOC-T(av) because: (i) it is important to understand how the new isotope submodels add additional information to the carbon mass-balance model; (ii) C FPOC-T(av) and d 13 C FPOC-T(av) have been previously shown to have seasonal and annual oscillations at the watershed scale indicative of source variability and in-stream processes [Ford and Fox, 2014;Ford et al, 2015]; and (iii) the impact of highly nonlinear feedbacks between physical and biological processes, and subsequently parameters, on C FPOC-T(av) and d 13 C FPOC-T(av) are not intuitive and the sensitivity analysis helps to better understand these linkages. ISOFLOC sensitivity analysis uses quantitative apportionment based on a variance-based sensitivity analysis.…”
Section: Sensitivity Analysismentioning
confidence: 99%
“…As previously highlighted, the maximum removal solution in our uncertainty analysis reflected measured nitrate concentrations well during periods of inundation, and the minimum removal solution reflected measured nitrate concentration dynamics well during periods when flow was restricted to the main stream channel. The higher removal rates in the floodplain are likely reflective of several interacting processes, including wetting-drying dynamics in the floodplain that enhance biochemical reactivity (BryantMason et al, 2013), perirheic mixing of tributary and riverine waters with ponded waters with steep redox gradients (Mertes, 1997;Jones et al, 2014Jones et al, , 2015, and dynamic organic matter quantity and quality, which is well recognized to influence rates of microbial reactivity (Ford and Fox, 2015b).…”
Section: High-resolution Data-model Integration In Complex Landscapesmentioning
confidence: 99%