TY - JOUR
T1 - Chalk-glacitectonite, an important lithology in former glaciated terrains covering chalk and limestone bedrock
AU - Pedersen, Stig A. Schack
AU - Gravesen, Peter
AU - Hinsby, Klaus
N1 - Funding Information:
This study was part-funded by the EU Horizon2020-project ‘SUBSOL’ (grant agreement no. 642228, www.subsol.org).
PY - 2018/8/15
Y1 - 2018/8/15
N2 - A glacitectonite is defined as a brecciated sediment or a cataclastic
sedimentary rock formed by glaciotectonic deformation (Pedersen 1988).
The term tectonite was initially introduced by Sander (1912), mainly for
tectonically brecciated metamorphic rocks in the Alps. In the classic
work on cataclastic rocks, Higgins (1971) stated that the term covered
all rocks with fabric displaying coordinated geometric features related
to continuous flow during deformation.Therefore brecciated lithologies
formed by glaciotectonic deformations can be termed tectonites. Banham
(1977) suggested the prefix glaci- to clarify the relation to glacial
dynamics. Furthermore, Pedersen (1988) suggested the application of the
bedrock prefix. Thus, a chalk-glacitectonite is a brecciated chalk
formed by shear deformation during a glacial advance over an exposed
bedrock surface of chalk (Fig. 1). Hence the term describes a
sedimentary rock in which the primary structures are so disturbed that
they cannot be continuously traced, and a glacitectonic fabric developed
as joint fractures or shear surfaces superimposed on the lithology. The
significance of recognising chalk-glacitectonite from chalk and
limestone bedrock is the difference in textural properties, which is
fundamental in geological modelling. In areas dominated by
glaciotectonic complexes, which include thrust sheets of pre-glacial
sedimentary rocks, the sheets are subject to shearing and dragged along
the sole of the ice during its movement over the glaciotectonic complex.
Due to truncation and shear-drag, the glacitectonite forms at the base
of the deformational layer in a lodgement till. From the source area,
which typically is a detachment anticline, the glacitectonite thins out
in the direction of transport from 1–2 m (Fig. 2) to a thin shear zone
only a few centimetres thick over a distance of one to a few kilometres
(Pedersen 1996). Moreover, brecciation of thrust sheets displaced by
glacial thrusting occurs within glaciotectonic complexes. The
deformation ranges from initially anastomosing jointing (Figs 1, 3) to
brecciation with bedrock clasts in crushed bedrock matrix (Fig. 4). The
tectonic breccia distributed from the décollement zone at the base to
the truncating glacial unconformity at the top may additionally be
termed glacitectonites. Here we describe the occurrence and
identification of chalk-tectonites.
AB - A glacitectonite is defined as a brecciated sediment or a cataclastic
sedimentary rock formed by glaciotectonic deformation (Pedersen 1988).
The term tectonite was initially introduced by Sander (1912), mainly for
tectonically brecciated metamorphic rocks in the Alps. In the classic
work on cataclastic rocks, Higgins (1971) stated that the term covered
all rocks with fabric displaying coordinated geometric features related
to continuous flow during deformation.Therefore brecciated lithologies
formed by glaciotectonic deformations can be termed tectonites. Banham
(1977) suggested the prefix glaci- to clarify the relation to glacial
dynamics. Furthermore, Pedersen (1988) suggested the application of the
bedrock prefix. Thus, a chalk-glacitectonite is a brecciated chalk
formed by shear deformation during a glacial advance over an exposed
bedrock surface of chalk (Fig. 1). Hence the term describes a
sedimentary rock in which the primary structures are so disturbed that
they cannot be continuously traced, and a glacitectonic fabric developed
as joint fractures or shear surfaces superimposed on the lithology. The
significance of recognising chalk-glacitectonite from chalk and
limestone bedrock is the difference in textural properties, which is
fundamental in geological modelling. In areas dominated by
glaciotectonic complexes, which include thrust sheets of pre-glacial
sedimentary rocks, the sheets are subject to shearing and dragged along
the sole of the ice during its movement over the glaciotectonic complex.
Due to truncation and shear-drag, the glacitectonite forms at the base
of the deformational layer in a lodgement till. From the source area,
which typically is a detachment anticline, the glacitectonite thins out
in the direction of transport from 1–2 m (Fig. 2) to a thin shear zone
only a few centimetres thick over a distance of one to a few kilometres
(Pedersen 1996). Moreover, brecciation of thrust sheets displaced by
glacial thrusting occurs within glaciotectonic complexes. The
deformation ranges from initially anastomosing jointing (Figs 1, 3) to
brecciation with bedrock clasts in crushed bedrock matrix (Fig. 4). The
tectonic breccia distributed from the décollement zone at the base to
the truncating glacial unconformity at the top may additionally be
termed glacitectonites. Here we describe the occurrence and
identification of chalk-tectonites.
UR - http://www.scopus.com/inward/record.url?scp=85069518616&partnerID=8YFLogxK
U2 - 10.34194/geusb.v41.4333
DO - 10.34194/geusb.v41.4333
M3 - Article
SN - 2597-2154
SN - 1904-4666
SN - 1604-8156
VL - 41
SP - 21
EP - 24
JO - Geological Survey of Denmark and Greenland Bulletin
JF - Geological Survey of Denmark and Greenland Bulletin
ER -