Interannual variability of Greenland winter precipitation sources: Lagrangian moisture diagnostic and North Atlantic Oscillation influence

@article{Sodemann2008InterannualVO,
  title={Interannual variability of Greenland winter precipitation sources: Lagrangian moisture diagnostic and North Atlantic Oscillation influence},
  author={Harald Sodemann and Cornelia Schwierz and Heini Wernli},
  journal={Journal of Geophysical Research},
  year={2008},
  volume={113}
}
[1] We present a new Lagrangian diagnostic for identifying the sources of water vapor for precipitation. Unlike previous studies, the method allows for a quantitative demarcation of evaporative moisture sources. This is achieved by taking into account the temporal sequence of evaporation into and precipitation from an air parcel during transport, as well as information on its proximity to the boundary layer. The moisture source region diagnostic was applied to trace the origin of water vapor… 
View via Publisher
iacweb.ethz.ch
425 Citations
Highly Influential Citations
35
Background Citations
125
Methods Citations
97
Results Citations
20

425 Citations

Interannual variability of Greenland winter precipitation sources: 2. Effects of North Atlantic Oscillation variability on stable isotopes in precipitation

[1] A new Lagrangian moisture source diagnostic is applied to identify the atmospheric conditions relevant for the fractionation of stable water isotopes during evaporation over the ocean and

Lagrangian detection of precipitation moisture sources for an arid region in northeast Greenland: relations to the North Atlantic Oscillation, sea ice cover and temporal trends from 1979 to 2017

Temperature in northeast Greenland is expected to rise at a faster rate than the global average as a consequence of anthropogenic climate change. Associated with this temperature rise, precipitation

Lagrangian detection of precipitation moisture sources for an arid region in northeast Greenland: relations to the North Atlantic Oscillation, sea ice cover, and temporal trends from 1979 to 2017

Abstract. Temperature in northeast Greenland is expected to rise at a faster rate than the global average as a consequence of anthropogenic climate change. Associated with this temperature rise,

Seasonal and inter‐annual variability of the moisture sources for Alpine precipitation during 1995–2002

This study presents a first quantitative climatology of the moisture sources for precipitation in the European Alps, covering a 7‐year period from January 1995 to August 2002. Using a Lagrangian

How important is intensified evaporation for Mediterranean precipitation extremes?

The moisture sources for heavy precipitation events in the northwestern Mediterranean are investigated with a Lagrangian moisture source diagnostic, which is based on the analysis of moisture changes

Remote moisture sources for 6-hour summer precipitation over the Southeastern Tibetan Plateau and its effects on precipitation intensity

The effect of moisture source and synoptic conditions on precipitation isotopes in arid central Asia

The stable isotope composition of precipitation has been widely applied to trace moisture sources. In the westerly dominated areas of central Asia, the isotopic composition of precipitation

Analysis of atmospheric moisture transport to the Upper Paraná River basin

The understanding of the atmospheric phase of the hydrological cycle is an important step forward in improving our abilities to predict droughts and floods, as well as the impacts of climate change

Spatial and Temporal Planetary Boundary Layer Moisture‐Source Variability of Crimean Peninsula Precipitation

The atmospheric water cycle is a key component of the global energy and moisture exchange. In order to gain better understanding of the atmospheric processes and temporal variability and trends

Spatial Shift of Greenland Moisture Sources Related to Enhanced Arctic Warming

Understanding the atmospheric moisture budget of Greenland is critical for predicting future Greenland climate. However, past attempts to quantify the provenance of Greenland precipitation have been
...

50 References

The Atmospheric Hydrologic Cycle over the Arctic Basin from Reanalyses. Part II: Interannual Variability*

Previously, the atmospheric moisture budgets over the Arctic Basin as represented by reanalysis data from the National Centers for Environmental Prediction‐National Center for Atmospheric Research

Evaporative moisture sources during a sequence of floods in the Mediterranean region

This study investigates, with the aid of a water vapor back‐trajectory technique, the large‐scale source of moisture for a series of floods that affected the north‐western and north‐central

Precipitation over Greenland and its relation to the North Atlantic Oscillation

The ω equation method based on an equivalent isobaric geopotential height in σ coordinates has been used to retrieve the precipitation over Greenland. This approach is designed to accurately

Contrasting evaporative moisture sources during the drought of 1988 and the flood of 1993

Using hourly observed precipitation data, National Centers for Environmental Prediction reanalyses at 6 hourly intervals, and a quasi-isentropic back-trajectory algorithm, we have examined the

Aspects of climate variability in the North Atlantic sector: Discussion and relation to the Greenland Ice Sheet Project 2 high‐resolution isotopic signal

This paper reviews aspects of climate variability in the North Atlantic sector that may influence the seasonal to decadal scale isotopic signal in the Greenland Ice Sheet Project 2 (GISP2) ice core.

Precipitation over Greenland Retrieved by a Dynamic Method and Its Relation to Cyclonic Activity

Abstract In order to calculate the vertical motion over some high mountain regions, such as Greenland, an ω-equation without the quasigeostrophic approximation in σ-coordinates has been developed. A

A 36-yr Climatological Description of the Evaporative Sources of Warm-Season Precipitation in the Mississippi River Basin

Abstract The terrestrial and oceanic sources of moisture that supply warm-season rainfall to the Mississippi River basin and its subbasins are examined over a 36-yr period (1963–98). Using hourly

Climatological aspects of the extreme European rainfall of August 2002 and a trajectory method for estimating the associated evaporative source regions

Abstract. During the first half of August 2002, a sequence of extreme precipitation episodes affected many regions of central and southern Europe, culminating in one of the most severe flooding

Isotopic composition and origin of polar precipitation in present and glacial climate simulations

The Hamburg atmospheric general circulation model (AGCM) ECHAM-4 is used to identify the main source regions of precipitation falling on Greenland and Antarctica. Both water isotopes H218O and HDO

The origin of Arctic precipitation under present and glacial conditions

At low altitude locations, the deuterium excess d = δ D - 8δ 18 O in precipitation generally varies with the season in antiphase with the δ's. In the high-altitude regions of the Greenland ice sheet,