Sevenstormeventswerechemicallychara

Sevenstormeventswerechemicallycharacterizedateitherone or both of the wetland sites ranging from 31.8 to 147.8mm in accumulation (Table 2). Inflow and outflow volume vary greatly between events at both sites and do not show a predictable trend. However, in the pasture wetland, storage volume generally decreased moving from the summer and through the winter, presumably due to the lower evapotranspiration losses between events.ThelargeinflowandoutflowmeasuredduringtheFebruary 15, 2013, event is likely a result of high antecedent soil moisture conditions and water tables due to the exceptionally wet month of January 2013, which received approximately 323mm of rainfall (average annual is 109mm). Measured outflow volume was consistentlyhigherthaninflowvolumeforsampledeventsinthecrop field wetland. This may be due to unmeasured flow at the large inlet pipe that had scoured over time below the culvert headwall in the gravel sub-base. Based upon this error, these data were not used in mass balance calculations; however, it was assumed that theflowinthepipewasrepresentativeoftheflowaroundthepipe in the scoured gravel sub-base (Table 3). ICW pollutant reduction capacity was evaluated based on the differences of event-based geometric means of concentrations in samples between the inlet and outlet the crop field ICW (Table 4). Apositivevaluerepresentsageneralreductionintheconcentration of pollutants leaving the crop field ICW while a negative number representsageneralincrease.Ofthefoursampledevents,theonly increase in concentrations were measured during the September 17, 2013 event in TN and TOC and the January 29, 2013 exceptionally large event in TSS, TN, and TOC. All other events were characterizedwithageneralreductioninconcentrationforallconstituents of concern. Thegreatestpollutantattenuationoccurredwiththesuspended sediment constituent. TSS reduction was measured in relatively largequantitiesinallthesampledeventsexcludingthelargeevent on January 29, 2013. The primary mechanisms of solids/sediment removalisthroughsettlingindeeppoolsjustbelowbothinletsand densevegetationthatactsasastrainer,trappingfinesedimentthat is not readily deposited (Kadlec and Wallace, 2009). Ammonia is of particular concern in dairy operations, where ammonia-richmanureisspreadasfertilizeronsilagefields.Ammoniatransportinrunoffislikelytooccurwhensaturatedconditionsoccur and the soil–water column is under anoxic conditions. The tight soil structure and relatively shallow water table at this operation create extended saturated conditions in areas of the crop fields. Ammonia nitrification was expected to occur in the ICWs as runoff was filtered through alternating pockets of anoxic and aerobic conditions created mainly by emergent, dense vegetation. Ammoniaconcentrationswerecomparedattheinletandoutlet of each ICW. Event-maximum measured ammonia concentration waslargerattheinletthanattheoutletineacheventatbothICWs withtheloneexceptionoftheSeptember17,2013,eventinthepastureICW(Fig.4).Statisticalanalysisindicatedthateventammonia concentration distributions were significantly different (p=0.05) at the inlet than at the outlet in two of the four sampled events in the crop field ICW (December 18, 2012 and September 17, 2012), and three of the four samples events in the pasture ICW (August 7, 2012, September 17, 2012, and February 15, 2013). However, in
theSeptembereventatthepastureICW,theoutletdistributionwas shifted higher than that of the inlet. No seasonal trend is apparent with these results, which speaks to the complexity of these systems in terms of nitrogen retention. Overall, the ICWs attenuated the peak ammonia concentrations coming into the practice. Event-basedconstituentmassremovalwasdeterminedforfive eventsinthepastureICW(Table5).TSSwassignificantlyreducedin everyevent,witheventmassremovalsrangingfrom600to978kg, with a total of over 220kg of solids were retained in the pasture ICW.Massremovalofammoniaandnitrateoccurredinallbutone event (different events). Organic carbon was transported from the practiceinallsampledeventswiththeexceptionofthe12/18/2013 event. Overall during sampled events, the practice removed significant amounts of solids (>2200kg) and nitrogen (0.22kg), and transported dissolved phosphorus (0.21kg) and organic carbon (27kg).