TY - JOUR
T1 - Observationally constrained reconstruction of 19th to mid-20th century sea-ice extent off Eastern Greenland
AU - Hallé, Danielle A.M.
AU - Karlsson, Nanna B.
AU - Solgaard, Anne Munck
AU - Andresen, Camilla S.
PY - 2018/8/15
Y1 - 2018/8/15
N2 - Arctic sea ice has a significant impact on the global radiation budget,
oceanic and atmospheric circulation and the stability of the Greenland
ice sheet (Vaughan et al. 2013). Prior to the era of aircraft
and satellite, information on sea-ice extent relied on observations from
ships and people living at the coast. This information is a valuable
contribution to better understand the history of sea ice. However, the
information exists in a range of formats, e.g., sea-ice extent before
the late 1800s is typically reported in the literature as an annual
index from a single geographical point or as hand-drawn maps. This makes
it difficult to assess and compare data across time and space. The
combination of digitised historical maps and single-point data makes the
information more accessible and provides a record that can help
understand the dynamics and processes of the climate and its
interactions with the cryosphere (Chapman & Walsh 1993). In this
study, maps of sea-ice extent by Koch (1945) were digitised. We use
these maps in combination with sea-ice charts from the Danish
Meteorological Institute (DMI) and Koch’s sea-ice index from 1820 to
1939, to map estimated sea-ice extent between Iceland and Greenland
going back to 1821. This information has not been included in even the
most recent databases of Arctic sea ice (Walsh et al. 2015,
2017). Furthermore, we extract time series of sea-ice extent at a number
of locations and investigate the relationship between them. Our
observation area is along eastern Greenland, between the southern tip of
Greenland at 59°46´N northwards to 77°21´N.
AB - Arctic sea ice has a significant impact on the global radiation budget,
oceanic and atmospheric circulation and the stability of the Greenland
ice sheet (Vaughan et al. 2013). Prior to the era of aircraft
and satellite, information on sea-ice extent relied on observations from
ships and people living at the coast. This information is a valuable
contribution to better understand the history of sea ice. However, the
information exists in a range of formats, e.g., sea-ice extent before
the late 1800s is typically reported in the literature as an annual
index from a single geographical point or as hand-drawn maps. This makes
it difficult to assess and compare data across time and space. The
combination of digitised historical maps and single-point data makes the
information more accessible and provides a record that can help
understand the dynamics and processes of the climate and its
interactions with the cryosphere (Chapman & Walsh 1993). In this
study, maps of sea-ice extent by Koch (1945) were digitised. We use
these maps in combination with sea-ice charts from the Danish
Meteorological Institute (DMI) and Koch’s sea-ice index from 1820 to
1939, to map estimated sea-ice extent between Iceland and Greenland
going back to 1821. This information has not been included in even the
most recent databases of Arctic sea ice (Walsh et al. 2015,
2017). Furthermore, we extract time series of sea-ice extent at a number
of locations and investigate the relationship between them. Our
observation area is along eastern Greenland, between the southern tip of
Greenland at 59°46´N northwards to 77°21´N.
UR - http://www.scopus.com/inward/record.url?scp=85069494488&partnerID=8YFLogxK
U2 - 10.34194/geusb.v41.4349
DO - 10.34194/geusb.v41.4349
M3 - Article
SN - 2597-2154
SN - 1904-4666
SN - 1604-8156
VL - 41
SP - 83
EP - 86
JO - Geological Survey of Denmark and Greenland Bulletin
JF - Geological Survey of Denmark and Greenland Bulletin
ER -