The possible role of Brazilian promontory in Little Ice Age

Abstract. Rapid retreat of Greenland's marine-terminating glaciers coincides with regional warming trends, which have broadly been used to explain these rapid changes. However, outlet glaciers within similar climate regimes experience widely contrasting retreat patterns, suggesting that the local fjord geometry could be an important additional factor. To assess the relative role of climate and fjord geometry, we use the retreat history of Jakobshavn Isbræ, West Greenland, since the Little Ice Age (LIA) maximum in 1850 as a baseline for the parameterization of a depth- and width-integrated ice flow model. The impact of fjord geometry is isolated by using a linearly increasing climate forcing since the LIA and testing a range of simplified geometries. We find that the total length of retreat is determined by external factors – such as hydrofracturing, submarine melt and buttressing by sea ice – whereas the retreat pattern is governed by the fjord geometry. Narrow and shallow areas provide pinning points and cause delayed but rapid retreat without additional climate warming, after decades of grounding line stability. We suggest that these geometric pinning points may be used to locate potential sites for moraine formation and to predict the long-term response of the glacier. As a consequence, to assess the impact of climate on the retreat history of a glacier, each system has to be analyzed with knowledge of its historic retreat and the local fjord geometry.

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Palaeoclimatological and palaeolimnological records from fossil midges and tree-rings: the role of the North Atlantic Oscillation in eastern Finland through the Medieval Climate Anomaly and Little Ice Age

Quaternary Science Reviews ◽

10.1016/j.quascirev.2010.06.015 ◽

2010 ◽

Vol 29 (17-18) ◽

pp. 2411-2423 ◽

Cited By ~ 38

Author(s):

Tomi P. Luoto ◽

Samuli Helama

Keyword(s):

North Atlantic ◽

Little Ice Age ◽

Ice Age ◽

Medieval Climate Anomaly ◽

Climate Anomaly ◽

The North ◽

The North Atlantic ◽

The North Atlantic Oscillation ◽

Eastern Finland

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A importância da acção do frio do Quaternário final em Portugal e suas implicações nas morfodinâmicas de vertente.

Revista Brasileira de Geografia Física ◽

10.26848/rbgf.v5i2.232748 ◽

2012 ◽

Vol 5 (2) ◽

pp. 421

Author(s):

António Sousa Pedrosa

Keyword(s):

Little Ice Age ◽

Late Quaternary ◽

Climatic Conditions ◽

Ice Age ◽

Glacial Deposits ◽

Central Portugal

Resumo De entre os factores que tiveram maior influência na evolução do relevo de Portugal no decurso final do Quaternário é incontestável que o frio e os processos que lhe estão associados tiveram um papel muito importante na modelação das formas de relevo. Neste trabalho procuraremos fazer uma síntese dos principais aspectos da evolução das vertentes relacionados com os frio, inferir através dos vestígios que chegaram até ao nossos dias quais as condições morfo-climáticas em que ocorreram e quais os processos que lhes estavam encontravam associados. Realçamos assim o papel da acção dos glaciares nas áreas onde ocorreram assim como a importância dos processos periglaciares na evolução das vertentes. O período tardiglaciar também se mostrou marcante na dinâmica de vertentes tendo mobilizado e remobilizado muito material nas vertentes através de solifluxões generalizadas levando muitas delas à sua regularização. O período conhecido como a pequena idade do gelo também deixou as suas marcas na dinâmica das vertentes às quais se associam as escombreiras de gravidade. Por fim enfatizamos um pouco o papel do frio na actual morfodinâmica de vertentes no Norte de Centro de Portugal. Palavras-chave: Norte de Portugal; Montanhas, depósitos glaciares, depósitos periglaciares, dinâmica de vertentes Summary Among the factors that most influenced the evolution of the relief of Portugal during the late Quaternary is incontestable that the cold and the processes associated with it had a very important role in modeling the forms of relief. In this paper, we will try to summarize the importance that the cold had on the evolution of slopes, inferred through the vestiges that have come down to our day, which morpho-climatic conditions in which they occur, and also what processes if they were associated with. Thus enhancing the role of action in areas where glaciers have occurred and the importance of periglacial processes in the evolution of the slopes. In tardiglaciar the dynamics of slopes was very active and mobilized a lot of material through the process of solifluction regularized many of them. The period known as the Little Ice Age has also left its mark on the dynamic slopes which relate to tailings heaps of gravity. Finally we emphasize the role of cold in the current slopes of morphodynamics in north and central Portugal. Keywords: North of Portugal; mountains, glacial deposits, periglacial deposits, morphodynamics of slopes

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The geomorphological role of snow since the Little Ice Age in the Sierra de Ancares (NW Spain)

Cuadernos de Investigación Geográfica ◽

10.18172/cig.3379 ◽

2018 ◽

Vol 44 (1) ◽

pp. 171 ◽

Cited By ~ 1

Author(s):

P. Carrera-Gómez ◽

M. Valcárcel

Keyword(s):

Snow Cover ◽

Little Ice Age ◽

Ice Age ◽

Nw Spain ◽

Seasonal Snow ◽

Snow Precipitation ◽

Prior Construction ◽

Seasonal Snow Cover ◽

Rapid Mass

On the Pico Cuiña cirque, Sierra de Ancares (León, Spain), the seasonal snow cover undergoes both slow and rapid mass displacements. Push associated with moving snow is responsible for an intense geomorphological activity, which is characterised by the plucking and transport of fragments of the bedrock, the abrasion of rock surfaces and the deposition of the mobilized material. Pronival ramparts are the most characteristic accumulation geoform created by pushing snow. Its study enabled us to verify the functionality of the nival processes and to prove the relative antiquity of some of them. The use of lichenometric techniques, based on the prior construction of a growth curve for lichens of the Rhizocarpon subgenus, has made possible to date sectors of the pronival ramparts. Lichenometric dates show a series of events of geomorphic activity of the snow cover fitting chronologically within the so-called Little Ice Age. It can be deduced from the observation of the current geomorphic dynamics of the snow cover that, although Little Ice Age temperature decrease might be important, particularly in the summer, the role of the variations in snow precipitation must be also taken into consideration.

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Supplementary material to "The role of debris cover in the evolution of Zmuttgletscher, Switzerland, since the end of the Little Ice Age"

10.5194/tc-2018-292-supplement ◽

2019 ◽

Author(s):

Nico Mölg ◽

Tobias Bolch ◽

Andrea Walter ◽

Andreas Vieli

Keyword(s):

Little Ice Age ◽

Ice Age ◽

Debris Cover ◽

Supplementary Material

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The role of rapid glacier retreat and landscape transformation in controlling the post-Little Ice Age evolution of paraglacial coasts in central Spitsbergen (Billefjorden, Svalbard)

Land Degradation and Development ◽

10.1002/ldr.2923 ◽

2018 ◽

Vol 29 (6) ◽

pp. 1962-1978 ◽

Cited By ~ 18

Author(s):

Mateusz C. Strzelecki ◽

Antony J. Long ◽

Jeremy M. Lloyd ◽

Jakub Małecki ◽

Piotr Zagórski ◽

...

Keyword(s):

Little Ice Age ◽

Glacier Retreat ◽

Ice Age ◽

Landscape Transformation

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Greenhouses, hot water bottles, cycles and the future of New Zealand climate

Proceedings of the New Zealand Grassland Association ◽

10.33584/jnzg.2009.71.2772 ◽

2009 ◽

pp. 61-67

Author(s):

W.P. De Lange

Keyword(s):

New Zealand ◽

Thermal Energy ◽

Infrared Radiation ◽

Little Ice Age ◽

Hot Water ◽

Ice Age ◽

The Sun ◽

Weather Patterns ◽

Time Periods ◽

Almost All

The Greenhouse Effect acts to slow the escape of infrared radiation to space, and hence warms the atmosphere. The oceans derive almost all of their thermal energy from the sun, and none from infrared radiation in the atmosphere. The thermal energy stored by the oceans is transported globally and released after a range of different time periods. The release of thermal energy from the oceans modifies the behaviour of atmospheric circulation, and hence varies climate. Based on ocean behaviour, New Zealand can expect weather patterns similar to those from 1890-1922 and another Little Ice Age may develop this century.

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