Introduction
Several thousand years ago, Indigenous people living in the Andes and the
Amazon domesticated a series plants and animals, including potatoes,
tomatoes, llamas and alpacas, that continue to be vital sources of sustenance
today – including for many people living outside South America! While some
archaeological research has shed light on the timing and mechanisms of plant
domestication in the Andes, there has been little data available to address the
processes through which the wild ancestors of llamas and alpacas were
domesticated – until now.
A recent project in the Padua region of Southern Ecuador is now providing us
with ample survey and excavation data to address this intriguing problem. Your
task in this short assignment is to interpret the data contained in the series of
tables and maps below, redacting your analysis in an essay of 6-7 typewritten
pages (double-spaced, 12 pt. font). Please note that your prompt response is
required and any late deliveries will result in a deduction of 1pt per day
You should work on interpreting the data with your research team, but you
should write up your own report. Please do not divide up questions between
each other and write out notes for each other to answer them one by one.
Doing so will lead to a disjointed experience that will not fully engage you in
thinking across the various lines of evidence we would like you to consider.
Other than following these guidelines, you are free to approach your research
team meetings however you wish. We suggest that you might read the
evidence, discuss it, draft up notes, meet and discuss again, then write up your
reports. Introduction sections synthesizing your arguments and conclusion
sections reviewing your major conclusions are recommended, but feel free to be
creative. Please make sure to include both your own name and those of your
research team members on the front page of your essay and include your last
name in the file name, rather than uploading a file called “Essay 1” or some
variation thereof.
Finally, please bear in mind that, while we hope you will be able to discern
certain patterns in the data, there is no one “right answer” to this assignment.
What is most important is clear, systematic reasoning, including a consideration
of the limitations of the available data. We recommend being somewhat conservative in your interpretations – or at the very least, very carefully weighing different scenarios against one another, in light of the available evidence.
The Ecology of the Padua Region
Nestled between the jungles of the Ecuadorian Oriente and the high peaks of
the Andes between 2000 and 5000 meters of elevation, Ecuador’s Padua region
contains a diverse series of ecologies. Desert-like areas are found at lower
elevations, more shrubby or grassy areas at mid-altitude, with snowcaps and icy
wastelands at 5000 meters. Looking at an altitude profile (Figure 1b) we can
identify 5 different zones:
1. Alluvial Floodplain.This is a low-lying area around the Padua River, which
floods briefly during the wet season, from November through April. It is a
region of rich soils, but the dry season parches it brown, leaving only a
trickle of water in the river channel.
2. Piedmont. This is a zone of low shrubs that lies in the rain-shadow of the
Andes and never receives very much moisture. Due to its dryness, it hosts
only a few tender plants – and occasional, highly dispersed wild game.
The piedmont consists of slopes ascending above the alluvial floodplain.
3. Valley Slopes. Located between 2500 to 4000 meters above sea level,
steeply sloping sides of the valley, rising to meet the high grassy plain
above. Cloud masses from the eastern jungle keep this zone moist during
most of the year — somewhat more so during the wet season, in June,
July and August. Stunted shrubs form a low thorn forest, which support a
low but regular density of game during part of the year. Game tend to be
more densely concentrated here during the months that correspond to
the dry season in the alluvial plain.
4. High grassy plains (puna). Lying at 4000 meters of altitude, the puna
consists of rich, well-watered grasslands that never completely dry out at
any point during the year.
5. Snowcaps and high mountain slopes. To the west, rising above the puna
are snowcaps and high mountain slopes that constitute a rocky wasteland
covered with snow and ice for much of the year.
While many types of game are found in these zones, two large animals whose
remains frequently appear in archaeological assemblages in the Padua region
are deer and camelids. Deer are relatively solitary animals, which often range at lower altitudes, where they subsist by browsing on shrubs and other leafy
vegetation. Camelids include both wild vicuñas and domesticated llamas and
alpacas, which tend to live at relatively high elevations in their wild state. In
order to find enough food to eat, deer migrate between ecological zones on a
seasonal basis, following the availability of green vegetation. Unlike camelids,
know that deer were never domesticated, and must have always been exploited
in their wild state.
While we cannot completely reconstruct what local ecologies in the Padua
region were like thousands of years ago when camelids were first domesticated,
we can tell that there has been no significant change in climate in the last 5000
years. We can therefore assume that the habitats occupied by wild camelids
included the puna and other high, permanently green areas. We also know that
wild camelids must have been ancestral to the domesticated llama, but
unfortunately there are no significant skeletal differences between wild and
domestic forms of the animal. The birthing seasons for both deer and camelids
are centered early in the month of December–one month into the wet season–
which can be a useful detail for determining what time of the year
archaeological sites were occupied.
The Archeological Research
The Padua project surveyed an area that covers all of the ecological zones
described above and is pictured in Figure 1a. Within this area, we can assume
that the Padua project discovered all (or nearly all) of the archaeological sites
present in the landscape. From studies of surface remains at these sites,
researchers have been able to date them. For this study, the relevant periods of
occupation for understanding the process of domestication are the Macani and
Coca phases, dated to 2000-1000 B.C. and 1000-0 B.C. respectively. Only sites
from these phases are shown on Figure 1a, and some basic data on them are
reported in Table 1. The team found that there were few major changes in
artifacts between these two phases. Projectile points do not change in form from
one phase to another, but there does appear to be significant variation in form
between different areas of the Padua Region. In addition, five sites were
excavated in the survey area. In each of these sites, archaeologists collected a
10% sample of the archeological deposits and took great care in recovering
animal remains. However, they were unfortunately not familiar with techniques
for recovering plant remains. Therefore, you have no direct evidence for plant use, despite the fact that the residents of the Padua region definitely consumed
at least some plant material.
In addition to the survey data, the following categories of data are summarized
for you in in Tables 2 and 3 below:
1. Stone tools. All of the projectile points, scrapers, and grinding (milling)
stones from the sites have been reported. We can probably assume that
these projectile points were used as spear tips, that scrapers were used in
hide preparation, and that milling stones were used to grind hard seeds.
2. Animal bones. A qualified faunal analyst has separated the deer from the
camelid bones and classified all the bones by age at death – in a series of
categories: 0-6 months, 6-12 months, 12-18 months, adults, and aged
individuals. “Adults” range in age from 18 months to 5 years of age,
while “aged” animals are older than 5 years old. Accordintly, each of
these latter two categories should contain a greater number of animals
proportionally, due to their greater age range.
3. Site Size. Site sizes are available for all 21 sites, except #17. While it’s not
clear how site size and population correlate with one another,
ethnographic evidence suggests that herding sites of around 250 m2
tend to contain 20-25 people. In the largest sites (#’s 9, 13, 18), we’ve
found evidence of stone walled architecture. The other sites are mostly
cave occupations with no evidence of substantial structures.
Your Analysis:
Describe patterns of seasonal site distribution. There is no reason to suspect that
any one group’s subsistence area incorporated the entire area, nor that all
people living in the region followed the same subsistence pattern.
1. Can you identify evidence for animal domestication in the faunal data –
and is there any circumstantial evidence for plant domestication? If so, in
what sites and during what periods do you find this evidence?
2. What factors do you think led to the domestication of animals (and
perhaps plants) in this region? Do you think human population pressure
played a role? And do the data support Ingold’s alternative interpretation
of the trajectory of domestication?
3. What seems to be the impact of domestication on human lifeways – in
terms of mobility, group size, and political economy? Do you seeevidence of major changes in the use of natural resources around these sites that are correlated with domestication?
4. Are there certain areas where domestication seems not to have occurred,
or domesticates are lacking? What reasons might explain the(se)
absence(s) – i.e., what factors may have led to the domestication of
animals and plants in some subregions, and not others?
5. Consider how your SAMPLE data relate to the POPULATION of animals
from which they were drawn. You obviously have only a few sites’ worth
of data to work with, and you’re relying on limited excavations even
within those sites (i.e., 10% of their total area). Also, your survey data is
from a relatively small geographical area.
In what ways might thesampling procedure be influencing your interpretations?
If you had onlydealt with one site from among all those in the area, would you have
been able to come to the same conclusions about settlement patterns
and the timing and location of domestication?
Throughout your analysis you will be paying careful attention to faunal remains.
Remember that age structure (the relative ages represented in a faunal
assemblage) may reflect either the ages of animals available in a natural
environment, or the range of animals chosen from domesticated herds. There
may be considerable difference between the two age ranges. Also, keep in mind
that the age (in months) of an animal at death can provide data that is incredibly
valuable for determining the season(s) during which a site was occupied.