Add to ORKGInternational audienceThe surface temperature forcing is responsible for the majority of the observed deviation of temperature with depth. In some cases, differences higher than the error of measurements are observed between the model and measurements. These can be an indication that other factors than surface temperature change influence subsurface temperature. Groundwater flow is one of the possible candidates
distinguish anthropogenic forcing of the Earth’s past climate from its natural variability need to b...
Heat fluxes in the continental subsurface were estimated from general circulation model (GCM) simula...
In this paper we discuss temperature anomalies that develop in the shallow subsurface as a result of...
International audienceModelling of surface temperature change effect on temperature vs.~depth and te...
Gain of heat and temperature in the shallow subsurface over the last decades/century has been impact...
A quantitative assessment is presented for the impact of the maximum depth of a temperature-depth pr...
International audienceTemperature-depth (T-z) profiles from twenty-four shallow boreholes of less th...
Only meters below our feet, shallow aquifers serve as sustainable energy source and provide freshwat...
Inversions of subsurface temperature profiles to reconstruct ground surface temperature (GST) histor...
Temperature changes at the Earthʼs surface propagate and are recorded underground as perturbations t...
Journal ArticleTemperature-depth data from six boreholes in western Utah and nine boreholes in south...
Borehole-based reconstructions of ground surface temperature (GST) have been widely used as indicato...
International audienceBorehole temperature depth profiles are commonly used to infer time variations...
Understanding the climate change processes requires application of special methodologies for reveali...
The investigation of observed borehole temperatures has proved to be a valuable tool for the reconst...
distinguish anthropogenic forcing of the Earth’s past climate from its natural variability need to b...
Heat fluxes in the continental subsurface were estimated from general circulation model (GCM) simula...
In this paper we discuss temperature anomalies that develop in the shallow subsurface as a result of...
International audienceModelling of surface temperature change effect on temperature vs.~depth and te...
Gain of heat and temperature in the shallow subsurface over the last decades/century has been impact...
A quantitative assessment is presented for the impact of the maximum depth of a temperature-depth pr...
International audienceTemperature-depth (T-z) profiles from twenty-four shallow boreholes of less th...
Only meters below our feet, shallow aquifers serve as sustainable energy source and provide freshwat...
Inversions of subsurface temperature profiles to reconstruct ground surface temperature (GST) histor...
Temperature changes at the Earthʼs surface propagate and are recorded underground as perturbations t...
Journal ArticleTemperature-depth data from six boreholes in western Utah and nine boreholes in south...
Borehole-based reconstructions of ground surface temperature (GST) have been widely used as indicato...
International audienceBorehole temperature depth profiles are commonly used to infer time variations...
Understanding the climate change processes requires application of special methodologies for reveali...
The investigation of observed borehole temperatures has proved to be a valuable tool for the reconst...
distinguish anthropogenic forcing of the Earth’s past climate from its natural variability need to b...
Heat fluxes in the continental subsurface were estimated from general circulation model (GCM) simula...
In this paper we discuss temperature anomalies that develop in the shallow subsurface as a result of...