I have friends who grew up in Minnesota and
periodically travel up to the North Shore for vacations and a little rock
collecting. In Minnesota and Wisconsin
the term “North Shore” affectionately refers to the north shore of Lake
Superior stretching from Duluth northeast to Grand Portage on the International
Border. Outside of these two states the
North Shore is fairly unknown to most people; however, it is one of the
treasurers of the nation. MN 61 follows
the shoreline of the lake and spectacular views are available by simply pulling
into an overlook or state park. The shoreline
is dominated by steep cliffs intermixed with broad to narrow beaches filled
with pebbles, cobbles and sand---a great place for rock hunting.
 |
|
Cliffs of the North Shore. Photo courtesy city-data.com.
|
The entire North Shore is dominated by rocks
associated with the Mid-Continent Rift System (MRS). This geological rift (think about the great
East African Rift Zone) begin to form in the Precambrian (Proterozoic Era)
perhaps 1.1 Ga splitting the stable part of the North American “continent” or
plate (referred to by geologists as the craton). Geologists believe the rifting started when a large mantle plume (heat) developed under the area now known as Lake Superior. The Rift is nearly 1400 miles long extending
from northeast Kansas to Lake Superior with an eastern arm curving around and
heading toward Ohio (part of a Triple Junction, more geology jargon). Hugh amounts of
lava erupted along faults while adjacent rivers from the up-lands dumped
thousands of feet of sediments (later sedimentary sandstones and conglomerates)
into the low lands of the Rift (the down-dropped basin of the Rift created by
normal faults). In addition, some of the magma was "intruded" and crystallized as a coarse-grained gabbro (generally known as the Duluth Gabbro). For some reason, the
rift “stopped splitting” (a failed rift in geological jargon), and the
continent healed. The most likely culprit in keeping Duluth from being located
on an ocean beach is another tectonic plate colliding with what is now the east
coast of North America. This bumping probably
put an end to the spreading.
 |
|
Map of Midcontinent Rift Showing Ages of Surrounding
Basement Rocks. Map from Middle Proterozoic and the Mid-continent Rift, Winona State University.
|
 |
| Midcontinent Rift System in Minnesota. Map from Miller 2007. |
Most of the rocks in the rift are buried below the
surface of the earth and are only known from geophysical studies and drill holes.
In Minnesota the Rift first rocks appear along the Kettle River north of the
Twin Cites at Banning State Park. In my
home state of Kansas the Midcontinent Geophysical Anomaly (MGA) delineates the
rift since the concentration of magnetite in the Rift rocks creates a magnetic
“high” that is picked up by geophysical instrumentation. In Iowa the Rift rocks also are in the
subsurface but drilling and geophysical studies have delineated a large uplift
block (horst) in the center of the Rift that has shed off sediments to basins
flanking the horst. This horst indicates
a crustal shortening event probably related to the previously noted continental
accretion and collision in the east.
 |
|
Map (Iowa Department of Natural Resources) showing
location of MRS with center horst. During
the continent collisional event the crustal shortening reactivated the bounding
faults as reverse faults as uplifted the horst.
|
Some of the really interesting aspects of the North
Shore geology are the many instances of rivers coming off the highlands to the
north and reaching the lake and spilling over waterfalls. The basalt of the Rift rocks creates the
opportunity for the rapids and falls and today most are protected in state parks,
places such as Gooseberry Falls State Park and Temperance River State
Park. I have camped at many of these
parks and they are spectacular.
One of the attractions for rockhounds at the North
Shore is the chance to collect the famous Lake Superior agates that erode from
the Rift basalt layers. Since the Rift rocks
include substantial amounts of iron, the agates have some sort of a red or
orange color---oxidized iron. Most
likely the agates formed post-deposition of the basalt and are the result of
percolating silica-rich groundwater filling the many vugs or vesicles in the
basalt.
 |
|
Falls of the Baptism River, Tettegouche State Park, Minnesota. Photo courtesy of www.superiortrails.com.
|
But back to my friends the Thompsons who vacation at
the North Shore. Recently they brought
home a piece of thomsonite claiming this mineral was named after some lost-lost
northland relative! It was a very nice
little nugget and they asked me about the composition---what was it?
Well, thomsonite [NaCa2Al5Si5O20-6H2O]
is a zeolite mineral, actually a series of silicate zeolites with the monikers
thomsonite-Ca (listed above) and thomsonite-Sr with the former being the most
common but in some case strontium replaces the calcium. The zeolites are an interesting “group of
hydrous silicates that show close similarities in composition, association, and
mode of occurrence. They are framework
aluminosilicates with Na, Ca, and K and highly variable amounts of H2O in the
generally large voids of the framework…When a zeolite is heated, the water in
the channelways is given off easily and continuously as the temperature rises,
leaving the structure intact…This dehydrated zeolite structure can be
completely rehydrated when it is immersed in water…and this allows it to be
used as desiccants.” I find it
interesting that the zeolite cations can easily exchange with “unwanted”
cations in solutions such as the sodium in a zeolite replacing the calcium in
“hard water.” Zeolites have an amazing
number of industrial uses. (above from Klein, 2002). About three million metric tons are mined
each year for industrial applications, and several thousand tons of synthetic
zeolites are produced for their purity.
There seem to be a few over 100 named zeolite minerals listed on www.mindat.org.
 |
|
Pebble of thomsonite showing internal concentric colored
rings. Width ~1.4 cm.
|
Most rockhounds collect zeolites because of their
well displayed crystals such as those noted in mesolite, stilbite, scolecite,
heulandite and numerous others. However,
about the only zeolite considered to be a semi-gemstone is thomsonite (although
natrolite has been facetted for collectors).
The best know specimens of thomsonite are small pebbles that erode from
the Rift basalts along the North Shore and then are available for observant
rockhounds on the beach. I say observant
because many of the pebbles really do not look like much of a find until then
are opened. The specimen that I have
(see photo) is very non-descript on the outside but has nice concentric colored
rings and radiating fibers on the inside. Lapidaries like to collect and polish
the small thomsonite pebbles that display a pinkish color on the outside.
So, if readers have travel plans for Minnesota (perhaps
for my favorite winter sport--skinny skis on the trails, or for summer fishing
and camping), consider the beautiful drive along the North Shore. The waterfalls are amazing and beaches are
available for collecting those famous agates.
However, keep your eyes open for these small, often non-descript, pebbles
of thomsonite.
REFERENCES
CITED
Klein, C. (after James D. Dana), 2002, The 22nd
Edition of the Manual of Mineral Science: new York, John Wiley and Sons.
Miller, J. D.
Jr., 2007, The Midcontinent Rift in the Lake Superior Region: Large
Igneous Province of the Month, http://largeigneousprovinces.org/