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Literatura académica sobre el tema "Climatologie – Arctique"
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Artículos de revistas sobre el tema "Climatologie – Arctique"
Rider, Alexis. "Of Ice and Meteorites". Social Anthropology/Anthropologie Sociale 32, n.º 1 (1 de marzo de 2024): 46–63. http://dx.doi.org/10.3167/saas.2024.320105.
Texto completoTesis sobre el tema "Climatologie – Arctique"
Lecouffe, Audrey. "Évolution et persistance des vortex stratosphériques polaires Arctique et Antarctique sur la période 1979 - 2021". Electronic Thesis or Diss., Sorbonne université, 2021. https://accesdistant.sorbonne-universite.fr/login?url=https://theses-intra.sorbonne-universite.fr/2021SORUS293.pdf.
Texto completoThis PhD study focuses on the study of the evolution of the stratospheric polar vortices over the last forty years. The intensity and position of the Southern and Northern stratospheric polar vortex edge are evaluated as a function of equivalent latitude over the 1979 - 2021 period on 3 isentropic levels in the lower and middle stratosphere (675 K, 550 K and 475 K) from ECMWF ERA-Interim reanalysis. An analysis of the onset and breakup dates of the polar vortices is included. The solar cycle and to a lower extent the quasi-biennal oscillation, El Niño Southern Oscillation and the Arctic Oscillation modulate the interannual evolution of the strength of the vortex edge and the vortex breakup dates. In the SH, long-term increase of the vortex edge intensity and breakup dates is observed over the 1979 - 1999 period, linked to the increase of the Antarctic ozone hole. After early break-ups between 1981 and 1987, more persistent vortex occured in the NH during the 1990s. For both hemispheres stronger vortex edge and longer vortex duration is observed in solar minimum (minSC) years. For the SH, the vortex edge is stronger and lasts longer for maxSC/wQBO years than for maxSC/eQBO years, and is somewhat stronger during cold ENSO phase (cENSO). For the NH, the stronger vortex edge is more pronounced than in SH during the wQBO phase, and it is stronger during minSC/wQBO years
Edel, Léo. "Vers une meilleure connaissance des précipitations en Arctique : utilisation de la télédétection spatiale micro-ondes". Thesis, Université Paris-Saclay (ComUE), 2019. http://www.theses.fr/2019SACLX108.
Texto completoBecause solid precipitation measurements at the surface are complex in Arctic, snowfall rates present significant differences between recent datasets. To further characterize arctic precipitation, microwave remote sensing is an appropriate tool. The radar observations onboard CloudSat provides rates of snowfall at the surface for a 4-years period. These retrievals are validated with in situ data, and compared to various datasets. Despite a good qualitative agreement, significant differences are observed, especially over Greenland. The regional reanalysis shows a better agreement with CloudSat retrievals than the global reanalysis, especially regarding the seasonnal distribution of snowfall rates. Then, CloudSat observations are used as a reference to evaluate the ability of passive microwave sounders to detect arctic snowfall for frequencies around 183 GHz. Detection is possible and relies mainly on brightness temperatures at 190 and 183 ± 3 GHz as well as the temperature near the surface and the integrated water vapor. A poor detection capability is observed in cold conditions and for light snowfall. Despite these limitations, the algorithm provides significant information for intense snowfalls, with good sampling due to its wide swath and long time series. Available for the last 20 years, passive microwave observations show a notable ability for a better characterization of arctic snowfall
Rojo, Maxence. "Impacts des événements météorologiques extrêmes et du changement climatique sur les régions arctiques et subarctiques : Perspectives croisées en climatologie et en sciences humaines et sociales". Thesis, Université Paris-Saclay (ComUE), 2016. http://www.theses.fr/2016SACLV075.
Texto completoThe perception of the climate is culturally and socially constructed. For this reason, we have studied some weather events integrating the cultural, political and historical contexts in which they occur.In a first part, we analyzed the impact of Polar Lows, intense mesocyclones that develop over ice-free Arctic seas during winter time, on coastal regions of Norway. The passage of PL can provoke dangerous sea conditions with strong waves, sudden snowfall and blizzard. This phenomenon may represent a risk to maritime and coastal activities in the region, particularly for shipping, fishing and oil and gas offshore platforms.In a second part we studied the impacts of climate change and severe weather events in the Republic of Tuva. Tuva is a very southern subarctic region. Its climate is extremely continental and precipitation tend to be low due to the low moisture content in the cold air. During the twentieth century, the region has experienced major socio-economic changes, sometimes brutal, including the transition from a communist and planned economy to a market economy in the early 1990. Despite these recent changes, pastoralists in western Tuva (horses, cows, yaks, sheep, camels) and reindeer herders in eastern Tuva, still live in close contact with the natural environment. Indigenous peoples of Tuva are facing global changes caused by certain contemporary regional and national policies, including the expansion of the mining industry and the development of mega projects. They offer different points of view, describing environmental changes and their impact on their daily activities
Nicolle, Marie. "Variabilités hydro-climatiques multi-décennales à pluri-séculaires en Arctique-subarctique depuis 2000 ans". Thesis, Normandie, 2018. http://www.theses.fr/2018NORMR129/document.
Texto completoThe temperature increase during the 1850-2012 period is not uniform globally and the Arctic is warming twice as much as the average. However, the short time coverage of instrumental data makes it difficult to distinguish natural climate variability and anthropogenic forcing. The study of climatic variability "free" of human influence requires the use of proxies data measured in continental and marine palaeoclimatic archives. In the Arctic-subarctic region, high resolution records have been centralized in the Arctic 2k PAGES database. The objectives of this work are to improve the characterization and interpretation of climatic variability over the last 2000 years, going beyond the millennial trend and the major climatic periods, but also by focusing on the role and spatial expression of the internal variability of the climate system. This thesis is based on the Arctic 2k PAGES database, which allows the study of temperature variations in the Arctic-subarctic region, as well as a new database to reconstruct hydroclimatic variations (precipitation and humidity) in the region and created during this study. The use of climate signal analysis methods on regional records calculated from these two databases has highlighted climate variability in the Arctic-subarctic region from the multi-decadal to millennial scales.In particular, multi-decadal variability is related to the internal variability of the climate system. The hydroclimatic and temperature variations expressed at multi-decadal scales in the region are characterized by frequencies specific to regional climate oscillations (North Atlantic oscillation and decadal Pacific oscillation), particularly over the last 200 years. The work done on the temperature database and the reflection on the creation and exploitation of the hydroclimatic database have also led to the definition of a working methodology with a palaeoclimatic database, from its construction to the definition of its limits, in particular in terms of the spatial representability of the series contained in the database and the assimilation of data with different seasonings
Blanchard, Yann. "Analyse du potentiel de la radiométrie infrarouge thermique pour la caractérisation des nuages de glace en Arctique". Phd thesis, Université de Sherbrooke, 2011. http://tel.archives-ouvertes.fr/tel-00753586.
Texto completoAthanase, Marylou. "On the recent evolution of Atlantic Water at the entrance to the Arctic Ocean : observations and Mercator Ocean operational model". Electronic Thesis or Diss., Sorbonne université, 2020. http://www.theses.fr/2020SORUS263.
Texto completoCombination of observations and Mercator Ocean operational model (PSY4 hereafter) outputs provided insights on the recent oceanic conditions in the changing Western Eurasian and Nansen basins, entry region for the warm and salty Atlantic Water (AW) to the Arctic Ocean. Autonomous platforms showed that the Western Eurasian Basin exhibited a fresher surface layer and shallower warm AW layer in 2017 than in the 2005‐2012 World Ocean Atlas climatology. PSY4 brought insights on the mesoscale structures observed in the halocline and warm layer. In particular, in the Nansen Basin a large mesoscale structure of AW from the boundary current turned into an anticyclonic eddy after the platforms passage. A second AW structure northwest of the Yermak Plateau, was a branch of AW recirculating back toward Fram Strait. The performance of PSY4 was assessed using independent observations over 2007-2020 in the Western Nansen Basin (WNB). We took advantage of 14 years of fields from PSY4 to examine winter conditions in the WNB over 2007-2020. PSY4 showed that deep winter convection and recurrent outflows from troughs northeast of Svalbard dramatically modified the AW. The northern Yermak Plateau-Sofia Deep and continental slope areas became “Marginal Convection Zones" in 2011 with, from then on, occurrences of ice-free conditions and mixed layer depths deeper than 200m in winter, and highly variable ocean-to-atmosphere heat fluxes. PSY4 also showed changes in circulation in the WNB over 2008-2020, with the strengthening of the Yermak Branch, which fed the southward Return Yermak Branch along the eastern flank of the Plateau. PSY4 highlighted the onset of new AW pathways: a recurrent anticyclonic circulation established in Sofia Deep. An offshore AW circulation developed downstream of the Yermak Plateau (following the 3800m isobaths). East of 20°E, additional AW from boundary current was injected in this offshore circulation, via enhanced basin-ward mesoscale activity