2006 Philadelphia Annual Meeting (22–25 October 2006)

Paper No. 9
Presentation Time: 3:45 PM

HYDROSTRATIGRAPHY OF THE NEW JERSEY COASTAL PLAIN: SEQUENCES AND FACIES PREDICT CONTINUITY OF AQUIFERS AND CONFINING UNITS


SUGARMAN, Peter J.1, MILLER Sr, Kenneth G.2, BROWNING, James V.3, KULPECZ, Andrew A.3, MCLAUGHLIN, Peter P.4 and MONTEVERDE, Donald M.1, (1)New Jersey Geol Survey, P.O. Box 427, Trenton, NJ 08625, (2)Dept. of Geological Sci, Rutgers Univ, 610 Taylor Road, Piscataway, NJ 08854, (3)Dept. of Geological Sci, Rutgers University, 610 Taylor Rd, Piscataway, NJ 08854, (4)Delaware Geol Survey, University of Delaware, Newark, DE 19716-7501, Pete.Sugarman@dep.state.nj.us

The regional extent and connectivity of Cretaceous to Miocene aquifer sands in the New Jersey Coastal Plain are evaluated using detailed facies analysis within a sequence stratigraphic framework. We correlate sequences from continuous coreholes using well logs to trace across strike and dip sections throughout this region, allowing us to predict the continuity of confining units and aquifer sands. Marine sequences follow a predictable shallowing upward pattern: fine-grained shelf and prodelta sediments grade upward into delta front and shallow-marine sands, corresponding to confining bed-aquifer couplets. Aquifer sands deposited in marine shelf environments tend to be continuous on the 10+ km scale and are traceable for >60 km along strike and >25 km along dip. Confining beds for these units are typically shelf or prodelta silty clays that are even more laterally continuous. Marginal marine to non-marine sequences are more difficult to predict due to a lack of continuous marine marker beds, difficulty in interpreting paleoenvironments of thick sand beds, and lack of fossil material for biostratigraphy except pollen. Marginal to non-marine sequences are generally less continuous, though some show surprising lateral continuity along strike (>60 km), reflecting the widespread extent of delta front environments. We conclude that sequence stratigraphy provides a predictive framework for aquifers and confining units in this and other regions, but that regional and local differences in sediment supply and tectonics affect the development of the hydrostratigraphic framework.