• Geoscientific Model Development
• DOI 10.5194/gmd-10-3931-2017
• 1 November 2017

We provide the experimental designs and protocols for a community experiment to compare radiative transfer codes used for past climate on Earth, and for exoplanets.

PALAEOTRIP): experimental design and protocols">Read more

• Atmospheric Chemistry and Physics
• DOI 10.5194/acp-17-12813-2017
• 27 October 2017

This study shows that agricultural emissions are important for air quality and their reduction can effectively reduce the concentration of fine particles and their associated premature mortality. Therefore, emission control policies, especially in North America and Europe, should also involve strong ammonia emission decreases to optimally reduce fine-particle concentration.

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• Biogeosciences
• DOI 10.5194/bg-14-4795-2017
• 26 October 2017

This investigation characterizes the variability of pathways involved in N loss in the water column over the continental shelf off central Chile during the development of the upwelling season. Our results highlight the links between several pathways involved in N removal, and considering the extreme variation in oxygen observed could help to understand the ecological and biogeochemical implications due to global warming when intensification and/or expansion of the oceanic OMZs are projected.

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• Biogeosciences
• DOI 10.5194/bg-14-4619-2017
• 25 October 2017

From the analysis of MODIS and Landsat satellite data of the Jambi province in Indonesia, this first study on the effects of oil palm expansion on the surface temperature in Indonesia shows shows a local and regional warming effect caused by the expansion of oil palm plantations and other cash or tree crops between 2000 and 2015. The observed warming effects may affect ecosystem services, reduce water availabilty in the dry period and increase the vulnerability to fires in the province.

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• Hydrology and Earth System Sciences
• DOI 10.5194/hess-21-5293-2017
• 20 October 2017

We introduce a data set describing the landscape of 671 catchments in the contiguous USA: we synthesized various data sources to characterize the topography, climate, streamflow, land cover, soil, and geology of each catchment. This extends the daily time series of meteorological forcing and discharge provided by an earlier study. The diversity of these catchments will help to improve our understanding and modeling of how the interplay between catchment attributes shapes hydrological processes.

CAMELS data set: catchment attributes and meteorology for large-sample studies">Read more

• Natural Hazards and Earth System Sciences
• DOI 10.5194/nhess-17-1795-2017
• 19 October 2017

The predictability of 25 historical winter storms over Europe is revisited by taking advantage of a homogeneous dataset of retrospective forecasts for the 1995–2015 period. The forecasts well predict the storms up to 2–4 days ahead only but also show clear potential for the early warning of storms up to 10 days ahead. However, the predictability of individual storms exhibits large variability and physical characteristics are identified for outliers with a poor predictability.

ECMWF ensemble reforecasts">Read more

• Geoscientific Instrumentation, Methods and Data Systems
• DOI 10.5194/gi-6-429-2017
• 18 October 2017

This work describes a new approach to use fast X-ray fluorescence mapping as a tool for automated mineralogy applied on thin sections of plutonic rocks. Using a supervised classification of the spectral information, mineral maps are obtained for modal mineralogy and image analysis. The results are compared to a conventional method for automated mineralogy, which is scanning electron microscopy with mineral liberation analyzer, showing a good overall accuracy of 76 %.

EDXRF) applied to plutonic rock thin sections in comparison to a mineral liberation analyzer">Read more

• Earth Surface Dynamics
• DOI 10.5194/esurf-5-653-2017
• 16 October 2017

We use a seismometer network to detect and locate rockfalls, a key process shaping steep mountain landscapes. When tested against laser scan surveys, all seismically detected events could be located with an average deviation of 81 m. Seismic monitoring provides insight to the dynamics of individual rockfalls, which can be as small as 0.0053 m³. Thus, seismic methods provide unprecedented temporal, spatial and kinematic details about this important process.

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• Atmospheric Chemistry and Physics
• DOI 10.5194/acp-17-11929-2017
• 12 October 2017

We have observed large amounts of man-made chlorine compounds in E and SE Asia and in the upper tropical troposphere. These relatively short-lived compounds are not controlled by the Montreal Protocol, but if significant quantities were able to reach the stratosphere, the long-term recovery of stratospheric ozone would be delayed. We have also identified an important atmospheric transport mechanism that can rapidly transport these chemicals from E Asia to the upper troposphere via the tropics.

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• Nonlinear Processes in Geophysics
• DOI 10.5194/npg-24-581-2017
• 9 October 2017

The Hasselmann equation (HE) is the basis of modern surface ocean wave prediction models. Currently, they operate in theblack box with the tuning knobsmodes, since there is no consensus on universal wind input and wave-breaking dissipation source terms, and require re-tuning for different boundary and external conditions. We offer a physically justified framework able to reproduce theoretical properties of the HE and experimental field data without re-tuning of the model.

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