{"type":"Feature","geometry":{"type":"Polygon","coordinates":[[[16.299132,47.707567],[16.299647,47.707372],[16.299422,47.707177],[16.298934,47.70739],[16.299132,47.707567]]]},"properties":{"title":"DRAIN Station","id":{"prefix":"https:\/\/deims.org\/locations\/","suffix":"b7008603-fca2-452f-9b3d-aad30cdafc7a"},"created":"2021-01-22T09:47:47+01:00","changed":"2025-05-06T14:26:19+02:00","locationType":{"label":"Sampling Location","uri":"http:\/\/vocabs.lter-europe.net\/elter_cl\/10494"},"relatedSite":{"type":"site","title":"Lehrforst Rosalia - Austria","id":{"prefix":"https:\/\/deims.org\/","suffix":"77c127c4-2ebe-453b-b5af-61858ff02e31"},"changed":"2025-09-10T13:19:28+0200"},"abstract":"In 2013, the long-term outdoor experiment DRAIN (\u201cEcological Impact of Droughts and Heavy RAINs on forest soils\u201d) was launched in the Rosalia training forest. Here, the nutrient and water balance of the forest and the soil biodiversity in a typical beech stand under natural and climate change conditions are being investigated.\r\n\r\nIn the DRAIN experiment, precipitation is controlled by irrigation systems and so-called \u201crain-out shelters\u201d, although the total amount of precipitation remains constant. \u201cRain Out Shelters\u201d are specialized structures that keep precipitation away from certain areas to simulate drought stress. Since 2020, the deposition rate of nitrate has also been controlled in the DRAIN experiment.","size":{"value":0.11,"unit":"ha"},"elevation":{"min":630,"max":650,"unit":"msl"},"images":null}}