{ "_id": "meta", "_rev": "3-58b2b62fee70a0d4dc0114d04012c912", "abstract": "It is well known that climate conditions affect human living conditions. Prominent examples are water availability or heat spells like in the European summer in 2003. The project addressed the question how climate may have changed in the past 6000 years and thus affected living conditions. As an example, in the last millennia, changes in orbital parameters such as the shape of the elliptical path of the earth around the sun were a source of climate change. However, due to the sparseness of regional reconstructions of climatic variables such as temperature and precipitation, climate models are a useful tool for analyzing possible changes. In the project, state-of-the-art climate models were employed to simulate climate for the period from 6000 years ago until the present. Orbital parameters, greenhouse gases and solar activity are viewed as external forces. Simulations were carried out with low-resolution coupled ocean-atmosphere general circulation models and high-resolution atmosphere models.", "title": "Climate Models", "collection_type": "collection", "collection_image_copyright": "Ingo Kirchner", "shorttitle": "ANCM", "vikus_data_available": false, "description": "The research data of the last 6000 years were produced using global and regional climate simulations. Climate models of the present and future climate are applied as background for the simulations. The global climate was simulated in a high spatial resolution by using the so-called time slice approach for chosen periods in the past 6000 years. The subsequent refinement with the regional model allows a gain of information in Europe. Stored data was processed statistically and optimized for archaeological purposes. It is possible to investigate basic physical parameters or to create overviews of the typical vegetation distribution derived from a vegetation model. The data provided on this page contain the derived data of the simulations. Further raw data can be obtained from the following DOI:", "additional_information_links": [], "research_group": [ "Prof. Dr. J\u00fcrgen Fischer, Freie Universit\u00e4t Berlin, Prof. Dr. Ulrich Cubasch, Freie Universit\u00e4t Berlin, Dr. Janina Zittel, Zuse Institut Berlin, Dr. Emmanuele Russo, Freie Universit\u00e4t Berlin, Dr. Ingo Kirchner, Freie Universit\u00e4t Berlin, M.Sc. Markus Th\u00fcrkow, Freie Universit\u00e4t Berlin" ], "institutions": [ "Freie Universit\u00e4t Berlin,", "Excellence Cluster 264 Topoi", "Institute for Meteorology, Freie Universit\u00e4t Berlin" ], "keywords": [ "BCLIMATE SIMULATION", "ECHAM", "COSMO-CLM" ], "license": { "name": "Creative Commons BY-SA 3.0 DE", "url": "https:\/\/creativecommons.org\/licenses\/by-sa\/3.0\/de\/", "logo": "by-sa.eu.png" }, "general_information": [ [ "Description", "The research data of the last 6000 years were produced using global and regional climate simulations. Climate models of the present and future climate are applied as background for the simulations. The global climate was simulated in a high spatial resolution by using the so-called time slice approach for chosen periods in the past 6000 years. The subsequent refinement with the regional model allows a gain of information in Europe. Stored data was processed statistically and optimized for archaeological purposes. It is possible to investigate basic physical parameters or to create overviews of the typical vegetation distribution derived from a vegetation model. The data provided on this page contain the derived data of the simulations. Further raw data can be obtained from the following DOI:" ] ], "metadata_blocks": [ { "title": "Specific attributes", "data": [ [ "Creators", "Institute for Meteorology, Freie Universit\u00e4t Berlin" ], [ "Publisher", "Edition Topoi" ], [ "Institutions", "Freie Universit\u00e4t Berlin, Excellence Cluster Topoi EXC 264" ], [ "Subject", "" ], [ "Subject Scheme", "DFG" ] ] }, { "title": "Technical characteristics", "data": [ [ "pid System", "DOI" ] ] }, { "title": "Annotations", "data": [ [ "Entry Date", "2019-05-22" ], [ "Last Update", "2019-05-22" ] ] } ], "service_images_path": "\/ANCM\/ServiceANCM\/Images\/", "resource_type_icons_path": "\/resource_type_icons\/default\/", "startpage_main_img": "ANCM.jpg", "collections_bg_img": "ANCMstart.jpg", "gallery_num_fig_per_page": 12, "hierarchy_placeholder": "\/img\/thumb_placeholder.jpg", "visible_on_startpage": false, "additional_information_text": "Russo, E. and Cubasch, U.: Mid-to-late Holocene temperature evolution and atmospheric dynamics over Europe in regional model simulations, Clim. Past, 12, 1645-1662, https:\/\/doi.org\/10.5194\/cp-12-1645-2016, 2016.", "uses_sci_version": 2, "default_thumb_extension": "png", "filter": { "subject": [ "" ], "resource_type": [ "NetCDF" ], "geolocation": [ "" ], "period": [ "" ] }, "sci_repos_base_path_format": { "online": "\/var\/www\/editiontopoirepo\/ANCM\/ReposANCM\/ANCM%s\/", "testserver": "", "local": "" }, "doi": "10.17171\/1-13" }