The results of systematic survey in the Upper Colca study area are presented in this chapter with an analysis of the distributions of sites, features, and artifacts that were encountered in the course of the 2003 field season. Using methods detailed in the preceding chapter, materials from six survey blocks were mapped, collected, and analyzed in the vicinity of the Chivay obsidian source. This systematic survey work was complemented by test excavations at three sites, and the results and analysis of the testing program are presented subsequently, in Chapter 7. The research strategy included three principal survey areas (Blocks 1, 2, and 3) and a smaller separate tract (block 6) and in these four areas intensive, systematic survey was conducted that amounted to 33 km2. In addition, specific areas of interest in two extensive reconnaissance areas (Blocks 4 and 5), were evaluated in a region that measured 239 km2.
In this chapter, the data from three intensive survey blocks are presented. As the 20 km x 30 km project area consisted of the three separate blocks with different ecological conditions, and distinct social and economic histories, the project was, in some ways, three separate surveys. Prehistoric activities were distinct in the three major ecological zones: (1) the quarry area, (2) the high puna, and (3) the upper valley zone. In order to integrate these survey areas towards the common goal of documenting changes in the production and circulation of Chivay obsidian on a regional scale, the results of survey work will be presented here following prehistoric chronology, rather than spatially in terms of survey blocks. In other words, the execution of the survey work was largely guided by the geographic and logistical realities of working in three distinct zones linked by reconnaissance areas, but in terms of interpretation, the focus here is on large scale change through time in the vicinity of the Chivay source by considering all three zones simultaneously for each major time period.
The survey data is considered here in three temporal periods that were introduced in Chapter 3 - Archaic Foragers (10,000-3,300 BCE), Early Agropastoralists (3,300 BCE-AD 400), and Late Prehispanic (AD 400- 1532) - and within each period the evidence geographically by survey block. One consequence of considering all survey blocks by time period is that the variability within the study region at any given time is brought to the fore. The larger trends, and the variability, evident in each time period are explored here through a combination that includes: (1) summaries of raw data; (2) summaries of generalized data; (3) groupings by site, loci, and artifact type; (4) comparisons by environmental criteria; and, (5) specific descriptions for particular sites, loci, and artifacts.
These summaries were largely derived from quantitative information produced by the mobile GIS field methods described in Chapter 5, combined with lab analysis results that were linked to spatial provenience. This chapter begins with an introduction of cartographic conventions used in this chapter. Subsequently, specific evidence for variability of obsidian throughout the source area is explored, and finally the survey results are chronologically by moving through time from the Archaic evidence to the Inka period. These data are complemented by evidence from test excavations and lab analysis that are reviewed in Chapter 7.
Survey data and lab results from survey collections are presented in this chapter using a series of maps that strive to maintain spatial associations while representing the archaeological significance of particular artifacts and features. In order to convey lab results in their spatial context the following abbreviations were used.
|
Code |
Material Description |
|
Ob1 |
Homogeneous obsidian with conchoidal fracture |
|
Ob2 |
Variable obsidian with heterogeneities such as bubbles and inclusions. |
|
Ob1c, Ob2c |
…Clear |
|
Ob1cb, Ob2cb |
…Clear banded |
|
Ob1g, Ob2g |
…Grey |
|
Ob1gb, Ob2gb |
…Grey banded |
|
Ob1b, Ob2b |
…Black |
|
Ob1br, Ob2br |
…Brown |
|
Che |
Chert |
|
Cal |
Chalcedony |
|
Qtz |
Quartzite |
|
Vol |
Aphanitic volcanic (andesite, basalt, rhyolite) |
Table 6-1. Abbreviations for lithics used in maps, figures, and tables.
Characteristics of the Ob1 and Ob2 groups of obsidian raw material are described in more detail in Section 4.5.1. The decoration and origin tags are appended on other abbreviations as needed. The abbreviations are combined into label codes as in the following example
|
25.2Ob1g 4d, L.Arch |
ArchID.Artifact#:Material Projectile Pt Type, Period |
Table 6-2. Example of a map abbreviation label for a diagnostic lithic.
Ceramics were likewise abbreviated for efficient presentation in map form. The following condensed codes were used in maps and tables throughout the document to display lab results from ceramics analysis.
|
Group |
Abbreviation |
Description |
|
Measure |
D: # |
Diameter: Rim diameter in centimeters |
|
Style |
Ql |
Possible Qaluyu |
|
Ca |
Colla |
|
|
Ch |
Chiquero |
|
|
Cg |
Collagua |
|
|
Cg1,2,3 |
Collagua1, 2, or 3 |
|
|
Cg-Ik |
Collagua-Inka |
|
|
Ik |
Inka |
|
|
Period |
MF |
Middle Formative |
|
F-MH |
Formative - Middle Horizon |
|
|
MH |
Middle Horizon |
|
|
LIP |
Late Intermediate Period |
|
|
LH |
Late Horizon |
|
|
Hs |
Historic |
|
|
Md |
Modern |
|
|
Part |
Rm |
Rim |
|
Bd |
Body |
|
|
Hdl |
Handle |
|
|
Hdl-Rm |
Handle and Rim |
|
|
Bs |
Base |
|
|
Form |
Ol |
Olla |
|
Osc |
Olla sin Cuello (Neckless Olla) |
|
|
Jr |
Jar |
|
|
Pl |
Plate |
|
|
Bw |
Bowl |
|
|
Bk |
Beaker |
|
|
Tt |
Tortero (grittle) |
|
|
Decoration |
-p |
Painted |
|
-i |
Incised |
|
|
Origin |
-l |
Local |
|
-nl |
Non-local |
Table 6-3. Abbreviations for ceramics used in maps, figures, and tables.
|
54.2:Cg2,LIP D16: Rm,Bw |
ArchID.Artifact#:Style,Period Diameter(cm): Part, Form |
Table 6-4. Example and explanation of a map label for a diagnostic ceramic.
Sites, loci and point locations were used to record archaeological features in the course of this survey. The presentation of survey data in this chapter will be organized around set of site typologies by time period were generated from fieldwork observations and through subsequent data analysis. The hierarchy of presentation is generally as follows: (1) larger time period, (2) site type grouping with general data, (3) individual site descriptions with ArchID numbers listed, (4) particular loci, points, or data tables relevant to the site. Thus, individual features were assigned ArchID numbers, but in the process of interpretation for this report the features (loci and points) were assigned to sites which were, in turn, assigned to a larger typology and time period. In this presentation, each principal site description will begin with the ArchID number for a given site followed by its text name in quotes, and finally in brackets the range of ArchID numbers associated with the site.
Maps in this dissertation are all in the modern WGS 1984 datum and UTM zone 19 South metric coordinate system and the Transverse Mercator projection. Most existing maps in the central Andes are in the Provisional South American Datum of 1956 (PSAD56) or "La Canoa" and transformations between these coordinate systems for the Central Andes were discussed in Chapter 5 (Mugnier 2001;Mugnier 2006). By using WGS1984 datum, the spatial data conform to the native GPS coordinate system, as well as to newly available spatial data available from government agencies and private data sources.
Another convention used consistently throughout this research involves photos. In photos of features where the tape measure is visible, the visible tape is always stretched to exactly one meter unless otherwise indicated. In artifact photos, the grid behind the artifacts consists of one centimeter squares.