In early October Tim Raub and I were invited to join Dr
Fanny Bessard and Dr Paul Churchill as part of a pilot study of the valley to
ascertain if there were suitable records to investigate the role of climate,
environmental change and natural hazards in the history of the country.
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| https://sketchfab.com/models/1cc062741aa840b0b7ae34e6148853f9 |
Our first tasks at the now ruined city of Dvin was to
determine the environment and possible original reasons as to why the town was
founded at this particular location.
There is evidence of site occupation stretching back to at least early
bronze age as the site stands proud of the surrounding landscape. Close inspection revealed a bedrock base that
is likely a gravel terrace remnant of the old piedmont surface extending from
the mountains to the east. This has been
dissected in parts by a series of river channels which today have either dried
up or been modified to harness the water for irrigation purposes. While Tim
mapped the geology, I undertook frequency domain electromagnetic surveys in the
hunt for the channels and their relationship to the outside walls of the old
city. The results were combined with digital terrain and photographic models
that show great promise for our future work.
Armed with the knowledge that water supply from the uplands
likely played an important controlling factor in both rural and urban centres
we moved our investigation up to the hills. Immediately to the east the geology
consists of mainly sedimentary rocks and in particular Permo-Triassic limestone
(more on this later). To the north east
however, the geology quickly gives way to igneous complexes associated with the
numerous volcanic centres in the region.
While the climate, and thus rainfall patterns
are similar, these different geologies manifest themselves in very different
hydrology and scenery. On the sedimentary rocks, fast flowing but ephemeral
streams erode steep valley sides whereas the igneous terrain tends to a rolling
landscape with more sustained overland flow of streams and rivers. This means no way of capturing the water in
the south in reservoirs, rather the natural springs have to be tapped at
source. However, in the north the hunt
is on for where water storage schemes might have been built. Means for the transport of water is in
evidence everywhere. Leets run parallel
to many hillsides and mark the stark contrast from barren land above the leets to
lush agricultural land below. Evidence
of buried water conduits in the form of clay pipes of all manner of size and
shape have been unearthed from highland villages to the towns across the valley
floors. Tracing these will be a priority for future work and trying to understand
the pattern of distribution and timing of their construction and demise could
be crucial to an understanding of the history. For example, what happened to
them when earthquakes struck?
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| Permo-Triassic Boundary |
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| Temple of Garni |
So back to that geology.
Tim had done his home work and knew about a few sites that he thought
worthy of visit. The first was where the
Azat river cut down through the basalts beneath the Temple of Garni. The temple dates back to the first century AD
and has survived transformation and use through many different religions. The columnar basalt is quite something else
which blew us away totally. This has to
be one of the most spectacular basaltic exposures in the world!
The second site was in the sedimentary sequences to the south
and when approached from the southern road out of Lake Sevan you are
confronted by a sudden drop-off into the steep limestone valleys that reveal a
1200m section of limestone and calcareous shales with hues from pink to cream that
represent one of the best exposures of the Permian to Triassic mass extinction
event anywhere. The extent of the exposure is quite remarkable both laterally
and in the vertical transition. Great
student mapping projects to be had here!
The third site he wanted to visit was to the east at Lake
Sevan. This large upland lake sits
along the Spitak fault that marks the juxtaposition of ophiolite complexes to
the east with the basalt and sedimentary sequences that lead down to the Ararat
Valley. The fault, as with many other
ones in Armenia, is still highly active, a feature of the region that is felt
on a regular basis with significant earthquakes. The last major of these had an epicentre
further north along this fault zone that struck with a magnitude 6.8 event in
1989 killing over 30,000 people. Understanding more about the timing of
earthquakes could help our archaeological studies and thus we needed to find
sites with long environmental records that were punctuated by features that
showed the earthquake record. The delta
on the northern river inlets gives just that kind of section with what appears
to be a series of down-faulted land surfaces in a cyclic and fairly uniform sequence. This should provide just the kind of record
we need for future detailed study.
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| Tim at the Sevan section of repeat cycles |
Armenia has so much to offer in way of study sites both
geologically and archaeologically. The
people were great (especially thanks here to Drs Babajanyan and Pavel at the
National Archaeological Inst), the food was great and the wine was great. Now for the big grant application to allow us
to return to study the interplay between geology and archaeology.
