ABSTRACT
Rocks in the Eastern Vermont Sequence are highly metamorphosed and
are said to range in age from Precambrian to Siluro-Devonian. The sequence
outcrops on Keyes Mountain, about 6km Northwest of Felchville, Vermont,
and an area on this mountain about 2km square was mapped in great detail.
The dominant rock type found is quartzofeldspathic gneiss, but schistose
gneiss, amphibolite, quartzite and schist also occur. Most of these rocks
are layered but layering has been transposed in many places and much of
it is probably secondary. Layering and schistosity both dip dominantly
to the north at about 25º.
A number of mesoscopic structures can be mapped, including folds, schistosity,
lineations, boudinage and low-angle dislocations.
Folds can be divided into three style groups
- S.G. 1 : tight to isoclinal folds in layering with no axial-surface
foliation.
- S.G. 2 : open to isoclinal folds in layering and schistosity with
weakly to strongly developed axial-surface foliation.
- S.G. 3 : open to tight folds in layering and schistosity with no
axial-surface foliation. Axial surfaces are usually at a high angle to
foliation.
On the basis of overprinting relationships, at least three generations
of folds exist. First and second generations cannot be separated by style
and are referred to as "early folds" ; most early folds are isoclinal.
The third generation includes all S.G. 3 folds, although it is possible
that more than one generation is present in S.G. 3. They are therefore
referred to as "late folds".
Mesoscopic late folds plunge dominantly at 25º to 030, their axial
surfaces dip steeply to the west. A large, open macroscopic late fold occupies
the whole area and is probably similarly oriented to mesoscopic late folds.
Mesoscopic early fold axes are redistributed on a partial small circle
by late folding but are inferred to have had a strong preferred orientation
in the foliation plane before this event.
Evidence offered by previous workers for the interpretation of the
Chester and other domes in Eastern Vermont as "Christmas Tree" folds is
considered to be inadequate. An alternative model involving refolding of
early folds by doubly-plunging late folds is favoured. Five units with
boundaries parallel to schistosity were delineated, each with distinctive
lithologic and structural characteristics. The structurally "highest" and
"lowest" both fit published descriptions of "basement." The central three
units are characterised structurally by widespread transposition, intensely
developed schistosity, and an abundance of low angle dislocations, boudinage
and isoclinal folds. They are interpreted as a dislocation zone across
which large relative displacements may have occured.
The stratigraphic formations mapped by previous workers could not be
recognized in this area ; all unit boundaries are thought to be structural
ones and each unit is probably a structural rather than a stratigraphic
entity. It is possible that this is true of other "stratigraphic" formations
and boundaries in the Eastern Vermont sequence.
Nisbet, B.W., 1976. Structural studies in the northern Chester Dome
of East-Central Vermont. Unpublished PhD dissertation, State University
of New York at Albany. 167pp., +ix; 5 folded plates (maps)
University at Albany Science Library call number: SCIENCE MIC
Film QE 171 N57X
Copies of this PhD dissertation can be ordered
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