88 research outputs found
Micrometeorological processes driving snow ablation in an Alpine catchment
Mountain snow covers typically become patchy over the course of a melting season. The snow pattern during melt is mainly governed by the end of winter snow depth distribution and the local energy balance. The objective of this study is to investigate micrometeorological processes driving snow ablation in an Alpine catchment. For this purpose we combine a meteorological model (ARPS) with a fully distributed energy balance model (Alpine3D). Turbulent fluxes above melting snow are further investigated by using data from eddy-correlation systems. We compare modelled snow ablation to measured ablation rates as obtained from a series of Terrestrial Laser Scanning campaigns covering a complete ablation season. The measured ablation rates indicate that the advection of sensible heat causes locally increased ablation rates at the upwind edges of the snow patches. The effect, however, appears to be active over rather short distances except for very strong wind conditions. Neglecting this effect, the model is able to capture the mean ablation rates for early ablation periods but strongly overestimates snow ablation once the fraction of snow coverage is below a critical value. While radiation dominates snow ablation early in the season, the turbulent flux contribution becomes important late in the season. Simulation results indicate that the air temperatures appear to overestimate the local air temperature above snow patches once the snow coverage is below a critical value. Measured turbulent fluxes support these findings by suggesting a stable internal boundary layer close to the snow surface causing a strong decrease of the sensible heat flux towards the snow cover. Thus, the existence of a stable internal boundary layer above a patchy snow cover exerts a dominant control on the timing and magnitude of snow ablation for patchy snow covers.<br/
Cold-to-warm flow regime transition in snow avalanches
Large avalanches usually encounter different snow conditions along their
track. When they release as slab avalanches comprising cold snow, they can
subsequently develop into powder snow avalanches entraining snow as they move
down the mountain. Typically, this entrained snow will be cold (T‾<-1 ∘C) at high elevations near the surface, but warm
(T‾>-1 ∘C) at lower elevations or deeper in the snowpack. The intake
of warm snow is believed to be of major importance to increase the
temperature of the snow composition in the avalanche and eventually cause a
flow regime transition. Measurements of flow regime transitions are performed
at the Vallée de la Sionne avalanche test site in Switzerland using two
different radar systems. The data are then combined with snow temperatures
calculated with the snow cover model SNOWPACK. We define transitions as
complete when the deposit at runout is characterized only by warm
snow or as partial if there is a warm flow regime, but the farthest
deposit is characterized by cold snow. We introduce a transition index
Ft, based on the runout of cold and warm flow regimes, as a
measure to quantify the transition type. Finally, we parameterize the snow
cover temperature along the avalanche track by the altitude Hs,
which represents the point where the average temperature of the uppermost
0.5 m changes from cold to warm. We find that Ft is related to
the snow cover properties, i.e. approximately proportional to Hs.
Thus, the flow regime in the runout area and the type of transition can be
predicted by knowing the snow cover temperature distribution. We find that,
if Hs is more than 500 m above the valley floor for the path
geometry of Vallée de la Sionne, entrainment of warm surface snow leads to
a complete flow regime transition and the runout area is reached by only warm
flow regimes. Such knowledge is of great importance since the impact pressure
and the effectiveness of protection measures are greatly dependent on the
flow regime.</p
Climate scenarios for Switzerland CH2018 - approach and implications
To make sound decisions in the face of climate change, government agencies, policymakers and private stakeholders require suitable climate information on local to regional scales. In Switzerland, the development of climate change scenarios is strongly linked to the climate adaptation strategy of the Confederation. The current climate scenarios for Switzerland CH2018 - released in form of six user-oriented products - were the result of an intensive collaboration between academia and administration under the umbrella of the National Centre for Climate Services (NCCS), accounting for user needs and stakeholder dialogues from the beginning. A rigorous scientific concept ensured consistency throughout the various analysis steps of the EURO-CORDEX projections and a common procedure on how to extract robust results and deal with associated uncertainties. The main results show that Switzerland?s climate will face dry summers, heavy precipitation, more hot days and snow-scarce winters. Approximately half of these changes could be alleviated by mid-century through strong global mitigation efforts. A comprehensive communication concept ensured that the results were rolled out and distilled in specific user-oriented communication measures to increase their uptake and to make them actionable. A narrative approach with four fictitious persons was used to communicate the key messages to the general public. Three years after the release, the climate scenarios have proven to be an indispensable information basis for users in climate adaptation and for downstream applications. Potential for extensions and updates has been identified since then and will shape the concept and planning of the next scenario generation in Switzerland
Climate Scenarios for Switzerland CH2018 – Approach and Implications
To make sound decisions in the face of climate change, government agencies, policymakers and private stakeholders require suitable climate information on local to regional scales. In Switzerland, the development of climate change scenarios is strongly linked to the climate adaptation strategy of the Confederation. The current climate scenarios for Switzerland CH2018 - released in form of six user-oriented products - were the result of an intensive collaboration between academia and administration under the umbrella of the National Centre for Climate Services (NCCS), accounting for user needs and stakeholder dialogues from the beginning. A rigorous scientific concept ensured consistency throughout the various analysis steps of the EURO-CORDEX projections and a common procedure on how to extract robust results and deal with associated uncertainties. The main results show that Switzerland’s climate will face dry summers, heavy precipitation, more hot days and snow-scarce winters. Approximately half of these changes could be alleviated by mid-century through strong global mitigation efforts. A comprehensive communication concept ensured that the results were rolled out and distilled in specific user-oriented communication measures to increase their uptake and to make them actionable. A narrative approach with four fictitious persons was used to communicate the key messages to the general public. Three years after the release, the climate scenarios have proven to be an indispensable information basis for users in climate adaptation and for downstream applications. Potential for extensions and updates has been identified since then and will shape the concept and planning of the next scenario generation in Switzerland
Thermodynamics in the hydrologic response: Travel time formulation and application to Alpine catchments
This paper presents a spatially-explicit model for hydro-thermal response simulations of Alpine catchments, accounting for advective and non-advective energy fluxes in stream networks characterized by arbitrary degrees of geomorphological complexity. The relevance of the work stems from the increasing scientific interest concerning the impacts of the warming climate on water resources management and temperature-controlled ecological processes. The description of the advective energy uxes is cast in a travel time formulation of water and energy transport, resulting in a closed form solution for water temperature evolution in the soil compartment. The application to Alpine catchments hinges on the boundary conditions provided by the fully-distributed and physically-based snow model Alpine3D. The performance of the simulations is illustrated by comparing modeled and measured hydrographs and thermographs at the outlet of the Dischma catchment (45 km2) in the Swiss Alps. The Monte Carlo calibration shows that the model is robust and that a simultaneous fitting of stream ow and stream temperature reduces the uncertainty in the hydrological parameters estimation. The calibrated model also provides a good fit to the measurements in the validation period, suggesting that it could be employed for predictive applications, both for hydrological and ecological purposes. The temperature of the subsurface flow, as described by the proposed travel time formulation, proves warmer than the stream temperature during winter and colder during summer. Finally, the spatially-explicit results of the model during snowmelt show a notable hydro-thermal spatial variability in the river network, owing to the small spatial correlation of infilltration and meteorological forcings in Alpine regions
Reptile remains from Tiga (Tokanod), Loyalty Islands, New Caledonia
Archaeological excavations on Tiga provide the first vouchered herpetological records for this small island between Lifou and Maré in the Loyalty Islands. Eighty-three skeletal elements from four sites yielded material assignable to skinks (Emoia loyaltiensis, Lioscincus nigrofasciolatus), geckos (Bavayia crass i-collis, B. sp., Gehyra georgpotthasti, Nactus pelagicus), and a boid snake (Candoia bihroni) all known from elsewhere in the Loyalties, as well as undetermined material consistent with these and other Loyalties lizards. Diagnostic features of geckos versus skinks for elements commonly recovered from archaeological sites and from owl pellets are discussed. Gehyra georgpotthasti has a limited distribution in the Loyalties and its occurrence on Tiga clarifies its range. The boid snake is the only reptile likely to have been harvested by human inhabitants of Tiga. The presence of gekkonid geckos in pre-European times is confirmed and contrasts with the situation of Grande Terre fossil sites, where only diplodactylid geckos have been recovered. Although it is anticipated that all species recovered from archaeological sites are still present on the island, a modern herpetofaunal survey is needed
On Rhabditis stercoralis
Volume: 18Start Page: 507End Page: 50
MeteoIO 2.4.2: a preprocessing library for meteorological data
Using numerical models which require large meteorological data sets
is sometimes difficult and problems can often be traced back to the
Input/Output functionality. Complex models are usually developed by
the environmental sciences community with a focus on the core
modelling issues. As a consequence, the I/O routines that are costly
to properly implement are often error-prone, lacking flexibility and
robustness. With the increasing use of such models in operational
applications, this situation ceases to be simply uncomfortable and
becomes a major issue.
<br><br>
The MeteoIO library has been designed for the specific needs of
numerical models that require meteorological data. The whole task of
data preprocessing has been delegated to this library, namely
retrieving, filtering and resampling the data if necessary as well
as providing spatial interpolations and parameterizations. The focus
has been to design an Application Programming Interface (API) that
(i) provides a uniform interface to meteorological data in
the models, (ii) hides the complexity of the processing
taking place, and (iii) guarantees a robust behaviour in the case
of format errors, erroneous or missing data. Moreover, in an
operational context, this error handling should avoid unnecessary
interruptions in the simulation process.
<br><br>
A strong emphasis has been put on simplicity and modularity in order
to make it extremely easy to support new data formats or protocols
and to allow contributors with diverse backgrounds to
participate. This library is also regularly evaluated for computing
performance and further optimized where necessary. Finally, it is
released under an Open Source license and is available at <a href="http://models.slf.ch/p/meteoio"target="_blank">http://models.slf.ch/p/meteoio</a>.
<br><br>
This paper gives an overview of the MeteoIO library from the point
of view of conceptual design, architecture, features and
computational performance. A scientific evaluation of the produced
results is not given here since the scientific algorithms that are
used have already been published elsewhere
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