Post on 27-Dec-2015
Chapter 7
Geoarchaeology and Site Formation Processes
Outline
• The Law of Superposition• Reading Gatecliff’s Dirt• Gatecliff’s Stratigraphy• Is Stratigraphy Really that Easy?• Site Formation Processes: How
Good Sites Go Bad• Conclusion
Geoarchaeology
• Applies concepts and methods of the geosciences to archaeological research.
• Objectives:– Place sites and artifacts in a context
through the application of stratigraphic principles and dating techniques.
– Understand the natural processes of site formation.
The Law of Superposition
• In any pile of sedimentary rocks undisturbed by folding or overturning, the strata on the bottom were deposited first, those above them were deposited second, those above them third, and so on.
• This principle seems simple, but it was a critical observation in the 17th century when formulated by Nicolaus Steno.
Fossil Footprints at Laetoli:Law of Superposition in
Action• For decades, specialists in human
evolution argued that bipedalism must have arisen in response to tool use.
• Based on her knowledge of the region’s geology, Leakey guessed that the age of the footprints at Laetoli was more than a million years older than the oldest known tool use.
How Old Are the Footprints?
• Leakey worked with geologists Robert Drake and Garness Curtis, who processed a series of potassium-argon dates on samples from the major stratified layers recognized in the Laetoli area.
• The fossil hominid footprints are between 3.49 and 3.56 million years old.
• With the dating of the Laetolil footprints, Leakey showed that humans were bipedal long before they made stone tools.
What Happened to the Laetoli Footprints?
• When Leakey completed her work she backfilled the site with 2 feet of soil.
• After a few years, trees grew on the spot.
• In 1995, archaeologist Fiona Marshall unearthed the trees’ roots without disturbing the tracks.
• In 100 years, the footprints will be uncovered again and if possible safely removed to a museum.
Stratigraphic Profile: Laetoli
Reading Gatecliff’s Dirt
• Gatecliff Shelter has a 40-foot stratigraphic profile covering more than 7000 years.
• The Gatecliff sediments, like those of all archaeological sites, resulted from both natural processes and human behavior.
Physical Stratigraphy of Gatecliff Shelter
Stratum
Soil
Nature of sediment
Field designation
Age (C-14 yr bp)
1 S-1 Rubble GU-14 0–1250 BP
2Sand and
siltUpper GU 13
1250 BP
3 S-2 Rubble Part of GU 12 1250–1350 BP
4Sand and
siltGU 13 and GU 12 Silt
1350 BP
5 S-3 Rubble Part of GU 12 1350–3200 BP
6Sand and
siltGU 11 3200 BP
7 RubbleGU 11 and
GU 10R3250–3200 BP
Physical Stratigraphy of Gatecliff Shelter
Stratum
Soil
Nature of sediment
Field designation
Age(C-14 yr bp)
8Sand and
siltGU 10 3250 BP
9 Rubble GU 9R 3300–3250 BP
10Sand and
siltGU 8 A and B 3300 BP
11 Rubble GU 7R 3400–3300 BP
12
Sand and silt
GU 7 3400 BP
13 Rubble 6 Living Floor 4050–3400 BP
Physical Stratigraphy of Gatecliff Shelter
Stratum
Soil
Nature of sediment
Field designatio
n
Age(C-14 yr bp)
14Sand and
siltGU 5 Silt 4050 BP
15 Rubble Part of GU 5 4100–4050 BP
16Sand and
siltPart of GU 5 4100 BP
17 Rubble GU 4 4250–4100 BP
18 Silty Sand GU 3 4250 BP
19Sand and
rubbleGU 2 5000–4250 BP
20 S-4 Silt and clay GU 1A 5100–5000 BP
21Sand and
silt GU 1 and GU 7–74
5100BP
Physical Stratigraphy of Gatecliff Shelter
Stratum
SoilNature of sediment
Field designatio
n
Age (C-14 yr bp)
22 Rubble GU 6R–74 5250–5100 BP
23 Gravel,
sand, and silt
GU 6–74 and GU 5–74
5250 BP
24 Rubble GU 4R–74 5350–5250 BP
25 Silt GU 4-74 5350 BP
26 Rubble GU 3R-74 5500–5350 BP
27-29 Silts GU 3A-74 5500 BP
30 Sand GU 3B-74 5500 BP
Physical Stratigraphy of Gatecliff Shelter
Stratum
Soil
Nature of sediment
Field designat
ion
Age (C-14 yr bp)
31 Rubble GU 2R-74 5700–5500 BP
32 Fine sand, silt GU 2-74
33 Fine sand, silt
GU 12–76, GU 1–
78, GU 1–74
34Silt, very fine
sandGU 2–78
35 Rubble GU 3R–78
36Silty medium
sandGU 3–78
Hypothetical Rockshelter, Filling with Colluvial and Eolian Sediments, and
Rooffall
Development of a Hypothetical Archaeological
Site
Development of a Hypothetical Archaeological
Site
Context
• A systemic context is a living behavioral system wherein artifacts are part of the on-going system of manufacture, use, re-use, and discard.
• Once artifacts enter the ground, they are part of the archaeological context, where they can continue to be affected by human action, but where they also are affected by natural processes.
Formation Processes in the Systemic Context
• Four key processes in the systemic context influence the creation of archaeological sites: – Cultural deposition– Reclamation– Disturbance– Reuse
Cultural Deposition
Dominant factor in forming the archaeological record.
1. Discard - Everything eventually breaks or wears out and is discarded.
2. Loss - Example: An arrow that misses its target or a pot left at a camp.
3. Caching - Some items are intentionally left behind.
4. Ritual - Example: grave goods.
Reclamation Processes
• Human behaviors that result in artifacts moving from the archaeological context back to the systemic context.
• Example: scavenging beams from an abandoned structure to use them in a new one.
Cultural Disturbance Processes
• Human behaviors that modify artifacts in their archaeological context.
• Example: dam building; farming; and construction of houses, pits, hearths, and so on.
Reuse Processes
• In this process, an object moves through a series of behavioral settings before it enters the archaeological record.
• This can entail the recycling of some objects:– Potsherds are ground up and used as
temper in manufacturing new vessels. – Broken arrowheads are re-chipped into
drills.
Formation Processes in the Archaeological
Context• Once an object enters an
archaeological context, a host of natural as well as cultural formation processes takes place.
• These natural processes determine whether organic material will be preserved and where objects will be found.
Natural Formation Processes
• Floralturbation - Process in which trees and plants affect the distribution of artifacts.
• Faunalturbation - Process in which animals, from large game to earthworms, affect the distribution of material.
• Cryoturbation - Process in which freeze/thaw activity in a soil pushes larger artifacts to the surface of a site.
Natural Formation Processes
• Argilliturbation - Process in which wet/dry cycles in clay-rich soils push artifacts upward as the sediment swells and then moves them down as cracks form during dry cycles.
• Graviturbation - Process in which artifacts are moved downslope through gravity, sometimes assisted by precipitation runoff.
Effects of Natural Formation Processes on Distribution of
Artifacts
Effects of Natural Formation Processes on Distribution of
Artifacts
Effects of Natural Formation Processes on Distribution of
Artifacts
Effects of Natural Formation Processes on Distribution of
Artifacts
Effects of Natural Formation Processes on Distribution of
Artifacts
Site Formation Process Summary
Systemic context Archaeological Context
Cultural Deposition Floralturbation (plants)
•Discard Faunalturbation (animals)
•Loss Cryoturbation (freezing)
•CachingArgilliturbation (wet-dry cycles)
•Ritual interment Graviturbation (hill slopes)
Reclamation
Disturbance
Reuse
How Artifacts Become Oriented to the Direction of
River Flow
Quick Quiz
1. The _____ ______ ________ states that in any pile of undisturbed sedimentary rocks, the strata on the bottom were deposited first, those above them were deposited second, those above them third, and so on.
Answer: Law of Superposition
• The Law of Superposition states that in any pile of undisturbed sedimentary rocks, the strata on the bottom were deposited first, those above them were deposited second, those above them third, and so on.
2. When Leakey dated the Laeotolil footprints as between 3.49 and 3.56 million years old, she showed that humans made stone tools long before they were bipedal.
A. TrueB. False
Answer: B. False
2. When Leakey dated the Laeotolil footprints as between 3.49 and 3.56 million years old, she showed that humans were bipedal long before they made stone tools.
3. Floralturbation is a systemic site formation process caused by cultural deposition.
A. TrueB. False
Answer: B. False
• Floralturbation is a natural formation process in which trees and plants affect the distribution of artifacts.
4. Scavenging beams from an abandoned structure to use them in a new one is an example of a _____ ______, human behaviors that result in artifacts moving from the archaeological context back to the systemic context.
Answer: reclamation processes
• Scavenging beams from an abandoned structure to use them in a new one is an example of a reclamation process, human behaviors that result in artifacts moving from the archaeological context back to the systemic context.