Tennena Cone

Template:Short description Template:Top icon Template:Use Canadian English Template:Use mdy dates Template:Infobox mountain Tennena Cone, alternatively Icebridge Cone, is a small volcanic cone in Cassiar Land District of northwestern British Columbia, Canada. It has an elevation of Script error: No such module "convert". and lies on the upper western flank of Ice Peak, the prominent south peak of Mount Edziza. The cone is almost completely surrounded by Mount Edziza's ice cap and is one of several volcanoes in the Snowshoe Lava Field on the Big Raven Plateau. Tennena Cone is Script error: No such module "convert". high, Script error: No such module "convert". long and up to Script error: No such module "convert". wide, its symmetrical structure resembling a black pyramid. The cone and the surrounding area are in Mount Edziza Provincial Park which also includes the Spectrum Range to the south.

Tennena Cone is part of the Mount Edziza volcanic complex, a group of overlapping volcanoes that have formed over the last 7.5 million years. It overlies four geological formations of this volcanic complex that formed during the Miocene, Pliocene and Pleistocene epochs, all of which consist of several types of volcanic rocks. Tennena Cone consists of alkali basalt pillow lavas, tuff breccias and lapilli tuffs of the younger Big Raven Formation which were deposited by a small eruption under glacial ice. The exact timing of this eruption is unknown, but radiometric dating of volcanic rocks from Tennena Cone suggests they were deposited sometime in the last 33,000 years.

Name and etymology

The name of the volcanic cone became official on January 2, 1980, and was adopted on the National Topographic System map 104G after being submitted to the BC Geographical Names office by the Geological Survey of Canada.Template:SfnTemplate:Sfn It was required for geology reporting purposes since Jack Souther, a volcanologist of the Geological Survey of Canada, was studying the area in detail between 1970 and 1992.Template:SfnTemplate:SfnTemplate:Sfn Tennena is a combination of the Tahltan words Script error: No such module "Lang". and Script error: No such module "Lang"., which mean Template:Gloss and Template:Gloss, respectively.Template:Sfn

Tennena Cone was given its name because it is almost completely surrounded by glacial ice in an alpine environment.Template:SfnTemplate:Sfn In his 1992 report The Late Cenozoic Mount Edziza Volcanic Complex, British Columbia, Jack Souther gave Tennena Cone the numeronym SLF-1, SLF being an acronym for the Snowshoe Lava Field.Template:Sfn Tennena Cone and the associated volcanic rocks have collectively been called the Tennena volcanic centre.Template:Sfn

Geography

Tennena Cone is located in Cassiar Land District of northwestern British Columbia, Canada, and resembles a symmetrical, Script error: No such module "convert". high, Script error: No such module "convert". long and up to Script error: No such module "convert". wide black pyramid.Template:SfnTemplate:SfnTemplate:SfnTemplate:Sfn Its northern, eastern and southern flanks are mantled by the roughly Script error: No such module "convert". Mount Edziza ice cap and rise about Script error: No such module "convert". above the ice surface.Template:SfnTemplate:Sfn Tennena Cone lies at the northern end of Tencho Glacier and reaches an elevation of Script error: No such module "convert". on the upper western flank of Ice Peak, the prominent south peak of Mount Edziza.Template:SfnTemplate:SfnTemplate:SfnTemplate:Sfn

At lower elevations, Tennena Cone is surrounded by Ornostay Bluff in the northwest and by Koosick Bluff in the southwest.Template:Sfn Between these two bluffs is the head of Sezill Creek which flows northwest from the surrounding Big Raven Plateau and then drains into Taweh Creek, a tributary of Mess Creek.Template:SfnTemplate:SfnTemplate:Sfn The Big Raven Plateau is a major physiographic feature of the Mount Edziza volcanic complex, which consists of a group of overlapping shield volcanoes, stratovolcanoes, lava domes and cinder cones that have formed over the last 7.5 million years.Template:SfnTemplate:Sfn At the southern end of the Big Raven Plateau is the Snowshoe Lava Field, of which Tennena Cone is a part.Template:Sfn

Tennena Cone lies in Mount Edziza Provincial Park southeast of the community of Telegraph Creek.Template:Sfn With an area of Script error: No such module "convert"., Mount Edziza Provincial Park is one of the largest provincial parks in British Columbia and was established in 1972 to showcase the volcanic landscape.Template:SfnTemplate:Sfn It includes not only the Mount Edziza area but also the Spectrum Range to the south, which are separated by Raspberry Pass.Template:SfnTemplate:Sfn Mount Edziza Provincial Park is in the Tahltan Highland, a southeast-trending upland area extending along the western side of the Stikine Plateau.Template:SfnTemplate:Sfn

Geology

Background

Tennena Cone is part of the Northern Cordilleran Volcanic Province, a broad area of volcanoes and lava flows extending from northwestern British Columbia northwards through Yukon into easternmost Alaska.Template:SfnTemplate:Sfn The dominant rocks comprising these volcanoes are alkali basalts and hawaiites, but nephelinite, basanite and peralkalineTemplate:Efn phonolite, trachyte and comendite are locally abundant. These rocks were deposited by volcanic eruptions from 20 million years ago to as recently as a few hundred years ago. The cause of volcanic activity in the Northern Cordilleran Volcanic Province is thought to be due to rifting of the North American Cordillera driven by changes in relative plate motion between the North American and Pacific plates.Template:Sfn

Lithology

Tennena Cone consists mainly of Big Raven Formation alkali basalt that can be mapped into four subdivisions, all of which are exposed on the eastern, southern and western flanks of the cone.Template:SfnTemplate:Sfn The first subdivision is massive and crudely bedded tuff breccia exposed in near-vertical cliffs on the flanks of Tennena Cone. Exposed in scarps on the eastern and southern flanks of Tennena Cone is lapilli tuff of the second subdivision which forms Script error: No such module "convert". beds. Two Script error: No such module "convert". wide dikesTemplate:Efn comprise the third subdivision, both of which consist of fragmented plagioclase-phyric rock.Template:Sfn The first dike forms a Script error: No such module "convert". high remnant and is exposed on the eastern flank of Tennena Cone whereas the second dike is exposed Script error: No such module "convert". to the south. In addition to occurring on the eastern flank, the second dike is also exposed on the western flank and along the summit ridge of Tennena Cone.Template:Sfn The fourth subdivision consists of pillow and fluidal lavas that overlie tuff breccia in the northern section of the cone.Template:Sfn

At the southwestern base of Tennena Cone are elongated mounds of pillow lava that cover about Script error: No such module "convert". of hummocky topography. They have a maximum basal diameter of Script error: No such module "convert". and range from Script error: No such module "convert". high, decreasing in height to the southwest. The orientation of these mounds suggest they were formed by a fissure eruption.Template:Sfn Just west of these pillow lava mounds are massive non-pillowed lava flows which are exposed over an area of around Script error: No such module "convert". across gently sloping terrain.Template:Sfn Extending west of Tennena Cone north of the pillow lava mounds and massive non-pillowed lava flows is a Script error: No such module "convert". pillowed lava flow that terminates at the head of Sezill Creek valley.Template:Sfn It contains pillows that range from less than to more than Script error: No such module "convert". in diameter, as well as vertically oriented pillow-like lava bodies.Template:Sfn

Pumice of the Sheep Track Member is present on Tennena Cone and other volcanoes in the Snowshoe Lava Field.Template:Sfn This is air-fall tephra deposited by a small but violent VEI-3 eruption from the southwestern flank of Ice Peak in the last 7,000 years, most likely around 950 CE.Template:SfnTemplate:Sfn Sheep Track pumice is lithologically distinct from the rest of the Big Raven Formation, consisting mainly of comenditic trachyte rather than alkali basalt or hawaiite.Template:Sfn The source of the pumice is unknown, but it probably originated from a vent under Tencho Glacier, the largest glacier of the Mount Edziza volcanic complex.Template:SfnTemplate:Sfn

Formation

Tennena Cone was one of the first volcanoes to erupt during the fifth magmatic cycle of the Mount Edziza volcanic complex.Template:Sfn Its formation began when basaltic magma issued from a vent under Script error: No such module "convert". of glacial ice where it was quenched to create the pillow lavas, tuff breccias and lapilli tuffs comprising Tennena Cone.Template:SfnTemplate:Sfn This volcanic material accumulated inside a depression melted in the ice but did not breach the ice surface, resulting in the formation of a subglacial mound.Template:SfnTemplate:Sfn Lava flows from Tennena Cone travelled west through tunnels created by eruption-generated meltwater escaping at the base of the enclosing ice.Template:Sfn

The longest lava flow at the head of Sezill Creek valley Script error: No such module "convert". west of Tennena Cone travelled to the western edge of the enclosing ice, causing a violent steam explosion.Template:SfnTemplate:Sfn This explosive interaction between meltwater and lava spilled over the terminal moraine and spread onto the Big Raven Plateau beyond the ice.Template:SfnTemplate:SfnTemplate:Sfn Although the lava flow was quenched by meltwater throughout its entire length, it has a thickness of Script error: No such module "convert". and travelled into small depressions of the current topography. This suggests the lava flow was relatively fluid at the time of eruption, resulting in higher mobility.Template:Sfn

The exact age of Tennena Cone is unknown, but it may have formed during the Last Glacial Maximum between 23,000 and 18,000 years ago when the Mount Edziza volcanic complex was covered by the Cordilleran Ice Sheet.Template:SfnTemplate:Sfn Another possibility is the cone formed under an expansion of the Mount Edziza ice cap during the Younger Dryas between 12,900 and 11,600 years ago or during a more recent glacial advance.Template:SfnTemplate:SfnTemplate:Sfn Argon–argon dating of glassy pillow lava from Tennena Cone has yielded ages of 0.011 ± 0.033 million years and 0.005 ± 0.033 million years, but further work is required to improve the precision of these ages.Template:SfnTemplate:Sfn

Since its eruption under glacial ice, Tennena Cone has been modified by glacial erosion.Template:Sfn This includes the steepening of its flanks and the formation of its Script error: No such module "convert". long summit ridge, which is covered with morainal detritus.Template:Sfn The degree of glacial erosion and the deposition of morainal detritus on the summit ridge of Tennena Cone suggest the volcano was overlain by significantly thick ice. This ice may have also overlain the summit of Mount Edziza, which is Script error: No such module "convert". to the north-northeast and Script error: No such module "convert". higher than that of Tennena Cone.Template:Sfn

Basement

Tennena Cone overlies the Armadillo, Ice Peak, Nido and Raspberry formations, all of which are older stratigraphic units of the Mount Edziza volcanic complex.Template:SfnTemplate:Sfn The Ice Peak Formation is the youngest of the four geological formations and is divided into two principal assemblages of Pleistocene age. The lower assemblage consists of alkali basalt and hawaiite with minor tristanite, trachybasalt and mugearite. These rocks are in the form of pillow lavas, pillow breccias, tuff breccias and ice-contact deposits, as well as subaerial lava flows and pyroclastic breccias. The upper assemblage consists of alkali basalt, trachybasalt, trachyte, tristanite, benmoreite and mugearite, which comprise pyroclastic breccias, lava flows and lava domes.Template:Sfn Underlying the Ice Peak Formation are alkali basalt lava flows and flow breccias of the Tenchen Member of the Nido Formation, which were erupted from multiple volcanoes during the Pliocene.Template:SfnTemplate:Sfn

Miocene comendite, trachyte, alkali basalt and minor sparsely porphyriticTemplate:Efn hawaiite of the Armadillo Formation underlie the Nido Formation; they are in the form of lava flows, flow breccias, pumice, ash flows and agglutinate. The oldest geological formation underlying Tennena Cone is the Raspberry Formation, which consists of Miocene alkali basalt and minor hawaiite and mugearite.Template:SfnTemplate:Sfn These volcanic rocks are in the form of lava flows, flow breccias and agglutinate, although pillow lava and tuff breccia occur locally.Template:Sfn Underlying the Raspberry Formation are sedimentary, volcanic and metamorphic rocks of the Stikinia terrane, which are Paleozoic and Mesozoic in age.Template:SfnTemplate:SfnTemplate:Sfn

Significance

Tennena Cone and its eruptive products are of geological significance because they contain an unusually wide range of features characteristic of a small-volume eruption under thick glacial ice.Template:Sfn These features include ordinary pillow lavas and vertically oriented, distended pillow lavas, as well as massive non-pillowed lavas and interbedded gravelly sands and poorly consolidated sandstone.Template:Sfn The subglacially emplaced lavas erupted from Tennena Cone are also of geological significance because they can be traced more than Script error: No such module "convert". away from the vent area.Template:Sfn Their well-preserved textures and geomorphological structures can be used to help identify other subglacially-emplaced lava flows on Earth and on other terrestrial bodies such as Mars.Template:Sfn Tennena Cone is one of two glaciovolcanic features at Mount Edziza that have been investigated in detail, the other being Pillow Ridge on the northwestern side of the mountain.Template:SfnTemplate:SfnTemplate:Sfn

See also

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• List of Northern Cordilleran volcanoes
• List of volcanoes in Canada
• Volcanism of Western Canada

Notes

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References

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Sources

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Further reading

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Template:Mount Edziza volcanic complex Template:Northern Cordilleran volcanoes Template:Interior Mountains