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A ERC DPG Site <br /> Aquatic Resource Delineation Report <br /> 3.0 METHODLOGY <br /> The aquatic resource delineation was conducted following the methodology enumerated in the 1987 <br /> Corps of Engineers Wetlands Delineation Manual and the Regional Supplement to the Corps of Engineers <br /> Wetland Delineation Manual: Great Plains Region (Version 2.0) (herein referred to as "Supplement") <br /> (Environmental Laboratory 1987, USACE 2010). During the field inspection, dominant vegetation was <br /> recorded, representative hydrologic indicators were noted and soil samples were examined for hydric <br /> indicators. Delineation field work for the study area was completed on April 17, 18, and 19, 2017. The <br /> weather during the delineation was sunny and dry with gusty winds at approximately 65 degrees <br /> Fahrenheit. The conditions observed within the study area were typical for the region and sufficient <br /> indicators of vegetation, soils and hydrology were observed to make a wetland determination. The <br /> following definitions provided the basis of this aquatic resource delineation. <br /> The USACE and the Environmental Protection Agency(USEPA)jointly define wetlands as:"those areas that <br /> are inundated or saturated by surface or ground water at a frequency and duration sufficient to support, <br /> and under normal circumstances do support, a prevalence of vegetation typically adapted for life in <br /> saturated soil conditions" [40 CFR 230.3(t)]. Three general environmental parameters define a wetland. <br /> These parameters must include the presence of hydrophytic vegetation, hydric soils, and wetland <br /> hydrology. Except under certain situations,evidence of a minimum of one positive wetland indicator from <br /> -each of the above parameters must be identified in order to make a positive wetland determination. <br /> In addition,waters of the US are also defined as areas that "include essentially all surface waters such as <br /> rivers, streams and their tributaries, all wetlands adjacent to these waters, and all ponds, lakes and <br /> reservoirs" The boundaries of some waters of the US(i.e.,such as streams or lakes)are further defined by <br /> the ordinary high water mark(OHWM).The OHWM is characterized as"the line on the shores established <br /> by the fluctuations of water and indicated by physical characteristics such as:a clear natural line impressed <br /> on the bank, shelving, changes in the character of the soil,wetland vegetation,the presence of litter and <br /> debris, and other appropriate means that consider the characteristics of the surrounding areas" (USACE <br /> 2005). <br /> Areas that do not meet any one of the wetland parameters (hydrophytic vegetation, hydric soils and/or <br /> wetland hydrology) or non-vegetated stream channel/open water (OHWM) were classified as a non- <br /> wetland (upland) and mapped as such. <br /> Any area determined to be potential waters of the US was delineated in the field with pink pin flags and <br /> ribbon identified with 'WETLAND BOUNDARY' printed on it and sequentially labeled alpha-numerically <br /> (i.e. Al,A2...). <br /> Each wetland determination point was recorded using a hand-held Trimble GeoXH global positioning <br /> system (GPS) receiver. The resulting GPS data were post processed using GPS Pathfinder Office 5.85 <br /> software. Post processing differential correction provided an average horizontal mapping accuracy of+/- <br /> 2 feet. Post-processed GPS data were imported into ArcMap Geographic Information Systems (GIS) <br /> (Version 10.5)for spatial analysis and mapping. All aquatic resources delineated within the study area are <br /> 4 <br />