Morrow Mountain
Defining Attributes
The Morrow Mountain I variety has a broad, triangular blade with a short, tapering stem. The Morrow Mountain II variety has a narrow blade with a long, tapering stem.
Chronology
The Morrow Mountain point dates to the Middle Archaic period. Radiocarbon dates range from 5045 ± 245 BC (approximately 5850 BC in calendar years) at the Icehouse Bottom site in Tennessee to 4030 ± 200 BC (roughly 4850 BC calendar) at Russell Cave in Alabama (Chapman 1976). McAvoy and McAvoy (1997) obtained a radiocarbon date of 6700 ± 130 BP (roughly 5650 BC) for the Morrow Mountain I point at the Cactus Hill site in Virginia, and a date of 6470 ± 90 BP (5450 BC) for the Morrow Mountain II point at the Slade site in Virginia. Based on known dates for the two Morrow Mountain varieties and the earlier Stanly point, they suggest a time span of 7100 to 6700 BP (6000-5650 BC) for Morrow Mountain I, and 6800 to 6200 BP (5750-5250 BC) for Morrow Mountain II, although others suggest the data is too limited to fully sort out the chronological relationship between the two varieties (Justice 1987). Excavations at a number of sites have shown that the Morrow Mountain is younger than the Stanly and older than the Guilford and Savannah River points (Justice 1987).
Description
Blade – Morrow Mountain I
The blade is usually broad and triangular, with a flat to oval cross section. Sides are most commonly slightly excurvate, although some examples have straight or incurvate sides. Faint and irregular side serrations are characteristic. The blade is widest at the shoulder.
Blade – Morrow Mountain II
The blade is long and narrow, with straight or slightly excurvate sides, which sometimes curve outward at the shoulder. The relatively short blades on some examples appear to be the result of having been re-sharpened.
Haft Element
The stem is contracting and the base is pointed. There is a more definite break, or angle, at the shoulder of the Morrow Mountain II than on the Morrow Mountain I, and the stem of the former is longer than on the latter. Light grinding occasionally occurs on the stem and shoulder of the Morrow Mountain I.
Size – Morrow Mountain I
Length ranges from 30 to 70 mm, with an average of 45 mm. Width ranges from 22 to 45 mm, with an average of 30 mm. Thickness ranges from 3 to 6 mm.
Size – Morrow Mountain II
Length ranges from 30 to 80 mm, with an average of 60 mm. Width ranges from 18 to 30 mm, with an average of 20 mm. Thickness ranges from 6 to 10 mm.
Technique of Manufacture
The larger points appear to have been created using direct percussion and, in general, were crudely fashioned. Smaller points, which are very symmetrical in form, were all finished by pressure flaking.
Material
In a sample of 46 Morrow Mountain I points from the lower Patuxent drainage, Steponaitis (1980) reported that 57% were rhyolite and 25% slate, followed by chert, quartz, and quartzite at 6% each. The 31 Morrow Mountain II points in the same area were 65% rhyolite and 35% quartz. In the area surrounding Zekiah Swamp on the lower Potomac, Wanser (1982) found that 45% of 213 Morrow Mountain I points were rhyolite, with 28% quartzite, 23% quartz, and small amounts of argillite, chert, jasper, and other materials. The 235 Morrow Mountain II points in the same area were 49% rhyolite, 27% quartz, 20% quartzite, 2% chert, and smaller amounts of jasper, argillite, and other materials. In the Monocacy River drainage, 66% of 29 Morrow Mountain I points were rhyolite and 34% were quartzite, while all 10 Morrow Mountain II points were rhyolite (Kavanagh 1982). A majority of Morrow Mountain points in the Hagerstown Valley are rhyolite, with smaller numbers of chert and quartz (Stewart 1980). Quartzite Morrow Mountain points predominate in the middle Potomac River Valley, but rhyolite was also used (Hranicky 2002). Heat treatment has been noted on chert and quartzite Morrow Mountain I specimens from the Nottoway River in Virginia (McAvoy and McAvoy 1997).
Discussion
The Morrow Mountain varieties and their morphological correlates are found across most of the Southeast, and extend along the Atlantic seaboard to southern New England. In the Northeast, it is known as the Stark Stemmed (Justice 1987). A stylistic relationship between Stanly and Morrow Mountain points has been noted by some (Ward and Davis 1999). The Morrow Mountain is the earliest type with a tapering stem in the Mid-Atlantic region.
Defined in Literature
Although others had described the Morrow Mountain point, Coe (1964) was the first to separate and define the two varieties, based on examples recovered from the Doerschuk site in North Carolina.
Other Names Used
- Stark Stemmed
References
1976 The Archaic Period in the Lower Little Tennessee River Valley: the Radiocarbon Dates. Tennessee Anthropologist 1(1):1-12.
1964 The Formative Cultures of the Carolina Piedmont. Transactions of the American Philosophical Society 54(5). Philadelphia.
2002 Lithic Technology in the Middle Potomac River Valley of Maryland and Virginia. Kluwer Academic/Plenum Publishers, New York.
1987 Stone Age Spear and Arrow Points of the Midcontinental and Eastern United States: A Modern Survey and Reference. Indiana University Press, Bloomington.
1982 Archeological Resources of the Monocacy River Region, Frederick and Carroll Counties, Maryland: Final Report. Maryland Geological Survey, Division of Archeology, File Report 164.
1997 Archaeological Investigations of Site 44SX202, Cactus Hill, Sussex County. Virginia Department of Historic Resources Research Report Series n. 8, Richmond.
1980 A Survey of Artifact Collections from the Patuxent River Drainage, Maryland. Maryland Historical Trust Monograph Series 1. Maryland Historical Trust and Maryland Department of Natural Resources, Annapolis, MD.
1980 Prehistoric Settlement and Subsistence Patterns and the Testing of Predictive Site Location Models in the Great Valley of Maryland. Ph.D. dissertation, Catholic University of America.
1982 A Survey of Artifact Collections from Central Southern Maryland. Maryland Historical Trust Manuscript Series 23. Maryland Historical Trust and Maryland Department of Natural Resources, Annapolis.
1999 Time Before History: The Archaeology of North Carolina. The University of North Carolina Press, Chapel Hill.