• Collecting all appropriate field data to contribute to, and execute production of, a final bedrock geologic map that includes delineation of all bedrock units based on mineralogy, texture and lithology, as well as contacts between lithologic units; faults, joints, and other discontinuities with attention to such structures or fractures that may be water bearing; and point observations of structures such as bedding, foliations and fold hinges. • Obtain and record the location, orientation, and type of fractures in bedrock outcrops during field mapping and provide to NHGS as the data is collected, that includes joint orientation. • High-quality photographs of significant geologic features shall be provided to NHGS as raw digital image files. • The final produced map will follow the patterns, symbols and cartography of the United States Geological Survey, and the most current Federal Geographic Data Committee digital cartographic standards. • Map both unit polygons representing map units and coincident polylines representing contacts, and for each map unit, and identify confidence level that conveys confidence in a map unit’s identity must be submitted, in addition to three confidence levels for each geologic contact: location confidence (in meters), existence confidence, and identify confidence. • Map points representing features typical represented on 1:24,000 scale bedrock maps, including but not limited to features such as strike and dip of planer features, important linear features, localized important lithologic and structural features that are too small to represent as a line or polygon on a map, such as small shear or fracture zones, intrusive igneous bodies, hydrothermally altered rock, springs, and other features of this type. • Attend a one-day long field conference, which incorporates attendance by NHGS staff and geologic community peers. • Prepare a map of the Goffstown Quadrangle on a base, utilizing a template created by NHGS, that includes (1) scale and contour interval, (2) north arrow and magnetic declination, (3) title, authorship, publisher, date, (4) location index map, (5) field data or field data stations, (6) description of map units, (7) explanation of map symbols, (8) unit symbols on map, (9) lineament trend rose plots, and (10) fracture and joint stereonet and rose plots, including mean vector(s), which will be included on a second plate of the map. • At least one geologic cross-section. • Participate in a Microsoft Teams-based review of the produced map and will work to incorporate comments received from this review into a revised final map product, with the review attended by geologic community peers.
