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On July 20, 2023 at 1:44:57 PM UTC, Administrator:
Updated description of Lake_climate_change_scenarios_CH2018 from
The dataset "Lake_climate_change_scenarios_CH2018" provides simulation-based climate change impact scenarios for perialpine lakes in Switzerland. These transient future scenarios were produced by combining the hydrologic model PREVAH with the hydrodynamic model MIKE11 to simulate daily lake water level (Lake_water_level_scenarios_CH2018.xls) and outflow scenarios (Lake_outflow_scenarios_CH2018.xls) from 1981 to 2099, using the Swiss Climate Change Scenarios CH2018. The future scenarios contain a total of 39 model members for three Representative Concentration Pathways, RCP2.6 (concerted mitigation efforts), RCP4.5 (limited climate mitigation) and RCP8.5 (no climate mitigation measures). These scenarios result from the study titled "Lower summer lake levels in regulated perialpine lakes, caused by climate change," authored by Wechsler et al. in 2023. The dataset emphasizes four specific Swiss lakes, each subject to different degrees of lake level management: an unregulated lake (Lake Walen), a semi-regulated lake (Lake Brienz), and two regulated lakes (Lake Zurich and Lake Thun). In addition, the file (Lake_characteristics.xlsx) includes data used in the modeling process, encompassing the stage-area relation for the four lakes, stage-discharge relations for the unregulated and semi-regulated lakes, and lake level management rules for the two regulated lakes.
to
The dataset "Lake_climate_change_scenarios_CH2018" provides simulation-based climate change impact scenarios for perialpine lakes in Switzerland. These transient future scenarios were produced by combining the hydrologic model PREVAH with the hydrodynamic model MIKE11 to simulate daily lake water level (Lake_water_level_scenarios_CH2018.xls) and outflow scenarios (Lake_outflow_scenarios_CH2018.xls) from 1981 to 2099, using the Swiss Climate Change Scenarios CH2018. The future scenarios contain a total of 39 model members for three Representative Concentration Pathways, RCP2.6 (concerted mitigation efforts), RCP4.5 (limited climate mitigation) and RCP8.5 (no climate mitigation measures). These scenarios result from the study titled "Lower summer lake levels in regulated perialpine lakes, caused by climate change," authored by Wechsler et al. in 2023. The dataset emphasizes four specific Swiss lakes, each subject to different degrees of lake level management: an unregulated lake (Lake Walen), a semi-regulated lake (Lake Brienz), and two regulated lakes (Lake Zurich and Lake Thun). In addition, the file (Lake_characteristics.xlsx) includes data used in the modeling process, encompassing the stage-area relation for the four lakes, stage-discharge relations for the unregulated and semi-regulated lakes, and lake level management rules for the two regulated lakes.
              
    
          
          
        
        
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            26 {\"affiliation\": \"WSL\", \"affiliation_02\": \"\",  26 {\"affiliation\": \"WSL\", \"affiliation_02\": \"\", 
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            28 \"validation\", \"software\", \"supervision\"], \"email\":  28 \"validation\", \"software\", \"supervision\"], \"email\": 
            29 \"MASSIMILIANO.ZAPPA@wsl.ch\", \"given_name\": \"Massimiliano\",  29 \"MASSIMILIANO.ZAPPA@wsl.ch\", \"given_name\": \"Massimiliano\", 
            30 \"identifier\": \"0000-0002-2837-8190\", \"name\": \"Zappa\"}]", 30 \"identifier\": \"0000-0002-2837-8190\", \"name\": \"Zappa\"}]",
            31   "author_email": null, 31   "author_email": null,
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            33   "date": "[{\"date\": \"2022-10-15\", \"date_type\": \"collected\",  33   "date": "[{\"date\": \"2022-10-15\", \"date_type\": \"collected\", 
            34 \"end_date\": \"2023-03-04\"}]", 34 \"end_date\": \"2023-03-04\"}]",
            35   "doi": "10.16904/envidat.421", 35   "doi": "10.16904/envidat.421",
            36   "funding": "[{\"grant_number\": \"\", \"institution\": \"Bundesamt  36   "funding": "[{\"grant_number\": \"\", \"institution\": \"Bundesamt 
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            41   "isopen": true, 41   "isopen": true,
            42   "language": "en", 42   "language": "en",
            43   "license_id": "cc-by-sa", 43   "license_id": "cc-by-sa",
            44   "license_title": "Creative Commons Attribution Share-Alike  44   "license_title": "Creative Commons Attribution Share-Alike 
            45 (CC-BY-SA)", 45 (CC-BY-SA)",
            46   "license_url": "https://creativecommons.org/licenses/by-sa/4.0/", 46   "license_url": "https://creativecommons.org/licenses/by-sa/4.0/",
            47   "maintainer": "{\"affiliation\": \"WSL\", \"email\":  47   "maintainer": "{\"affiliation\": \"WSL\", \"email\": 
            48 \"tobias.wechsler@wsl.ch\", \"given_name\": \"Tobias\",  48 \"tobias.wechsler@wsl.ch\", \"given_name\": \"Tobias\", 
            49 \"identifier\": \"0000-0001-9017-5346\", \"name\": \"Wechsler\"}", 49 \"identifier\": \"0000-0001-9017-5346\", \"name\": \"Wechsler\"}",
            50   "maintainer_email": null, 50   "maintainer_email": null,
            51   "metadata_created": "2023-07-19T13:07:25.725184", 51   "metadata_created": "2023-07-19T13:07:25.725184",
            n 52   "metadata_modified": "2023-07-19T13:16:43.133959", n 52   "metadata_modified": "2023-07-20T13:44:57.682967",
            53   "name": "lake_cc_scenarios_ch2018", 53   "name": "lake_cc_scenarios_ch2018",
            54   "notes": "The dataset \"Lake_climate_change_scenarios_CH2018\"  54   "notes": "The dataset \"Lake_climate_change_scenarios_CH2018\" 
            55 provides simulation-based climate change impact scenarios for  55 provides simulation-based climate change impact scenarios for 
            56 perialpine lakes in Switzerland. These transient future scenarios were  56 perialpine lakes in Switzerland. These transient future scenarios were 
            57 produced by combining the hydrologic model PREVAH with the  57 produced by combining the hydrologic model PREVAH with the 
            58 hydrodynamic model MIKE11 to simulate daily lake water level  58 hydrodynamic model MIKE11 to simulate daily lake water level 
            59 (Lake_water_level_scenarios_CH2018.xls) and outflow scenarios  59 (Lake_water_level_scenarios_CH2018.xls) and outflow scenarios 
            60 (Lake_outflow_scenarios_CH2018.xls) from 1981 to 2099, using the Swiss  60 (Lake_outflow_scenarios_CH2018.xls) from 1981 to 2099, using the Swiss 
            61 Climate Change Scenarios CH2018. The future scenarios contain a total  61 Climate Change Scenarios CH2018. The future scenarios contain a total 
            62 of 39 model members for three Representative Concentration Pathways,  62 of 39 model members for three Representative Concentration Pathways, 
            63 RCP2.6 (concerted mitigation efforts), RCP4.5 (limited climate  63 RCP2.6 (concerted mitigation efforts), RCP4.5 (limited climate 
            64 mitigation) and RCP8.5 (no climate mitigation measures). These  64 mitigation) and RCP8.5 (no climate mitigation measures). These 
            65 scenarios result from the study titled \"Lower summer lake levels in  65 scenarios result from the study titled \"Lower summer lake levels in 
            66 regulated perialpine lakes, caused by climate change,\" authored by  66 regulated perialpine lakes, caused by climate change,\" authored by 
            t 67 Wechsler et al. in 2023.\r\nThe dataset emphasizes four specific Swiss  t 67 Wechsler et al. in 2023.\r\n\r\nThe dataset emphasizes four specific 
            68 lakes, each subject to different degrees of lake level management: an  68 Swiss lakes, each subject to different degrees of lake level 
            69 unregulated lake (Lake Walen), a semi-regulated lake (Lake Brienz),  69 management: an unregulated lake (Lake Walen), a semi-regulated lake 
            70 and two regulated lakes (Lake Zurich and Lake Thun). In addition, the  70 (Lake Brienz), and two regulated lakes (Lake Zurich and Lake 
            71 file (Lake_characteristics.xlsx) includes data used in the modeling  71 Thun).\r\n\r\nIn addition, the file (Lake_characteristics.xlsx) 
            72 process, encompassing the stage-area relation for the four lakes,  72 includes data used in the modeling process, encompassing the 
            73 stage-discharge relations for the unregulated and semi-regulated  73 stage-area relation for the four lakes, stage-discharge relations for 
            74 lakes, and lake level management rules for the two regulated lakes.", 74 the unregulated and semi-regulated lakes, and lake level management 
            75 rules for the two regulated lakes.",
            75   "num_resources": 3, 76   "num_resources": 3,
            76   "num_tags": 5, 77   "num_tags": 5,
            77   "organization": { 78   "organization": {
            78     "approval_status": "approved", 79     "approval_status": "approved",
            79     "created": "2016-09-02T14:17:02.029939", 80     "created": "2016-09-02T14:17:02.029939",
            80     "description": " The Research Unit investigates natural hazard  81     "description": " The Research Unit investigates natural hazard 
            81 processes in mountainous areas, in particular the triggering and  82 processes in mountainous areas, in particular the triggering and 
            82 propagation of floods, sediment transport, landslides, debris flows  83 propagation of floods, sediment transport, landslides, debris flows 
            83 and rock fall. Process studies on the scale of slopes, channels and  84 and rock fall. Process studies on the scale of slopes, channels and 
            84 catchments form the basis for the development of simulation models and  85 catchments form the basis for the development of simulation models and 
            85 of hazard assessment procedures and for the design of countermeasures.  86 of hazard assessment procedures and for the design of countermeasures. 
            86 To this end worldwide unique observation systems are developed, such  87 To this end worldwide unique observation systems are developed, such 
            87 as a debris flow balance and geophone systems for bedload transport.  88 as a debris flow balance and geophone systems for bedload transport. 
            88 Damage and damaging processes due to frequent and extreme events are  89 Damage and damaging processes due to frequent and extreme events are 
            89 assessed as prerequisites for the risk-based and sustainable  90 assessed as prerequisites for the risk-based and sustainable 
            90 management of natural hazards.\r\n\r\nA second focus of the unit is on  91 management of natural hazards.\r\n\r\nA second focus of the unit is on 
            91 the estimation and prediction of snow and water resources, e.g. for  92 the estimation and prediction of snow and water resources, e.g. for 
            92 hydropower production or early recognition of drought. The unit  93 hydropower production or early recognition of drought. The unit 
            93 operates a snow hydrological service for federal and cantonal agencies  94 operates a snow hydrological service for federal and cantonal agencies 
            94 and a drought information platform for a broad range of water  95 and a drought information platform for a broad range of water 
            95 users.\r\n\r\n__Further information__:  96 users.\r\n\r\n__Further information__: 
            96 .ch/en/about-wsl/organization/research-units/mountain-hydrology.html", 97 .ch/en/about-wsl/organization/research-units/mountain-hydrology.html",
            97     "id": "8ca28da8-ad8f-401a-9356-0aa7fdba2604", 98     "id": "8ca28da8-ad8f-401a-9356-0aa7fdba2604",
            98     "image_url": "2018-07-10-091052.004438LogoWSL.svg", 99     "image_url": "2018-07-10-091052.004438LogoWSL.svg",
            99     "is_organization": true, 100     "is_organization": true,
            100     "name": "gebirgshydrologie", 101     "name": "gebirgshydrologie",
            101     "state": "active", 102     "state": "active",
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            103     "type": "organization" 104     "type": "organization"
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            106   "private": false, 107   "private": false,
            107   "publication": "{\"publication_year\": \"2023\", \"publisher\":  108   "publication": "{\"publication_year\": \"2023\", \"publisher\": 
            108 \"EnviDat\"}", 109 \"EnviDat\"}",
            109   "publication_state": "pub_pending", 110   "publication_state": "pub_pending",
            110   "related_datasets": "", 111   "related_datasets": "",
            111   "related_publications": "To be updated", 112   "related_publications": "To be updated",
            112   "relationships_as_object": [], 113   "relationships_as_object": [],
            113   "relationships_as_subject": [], 114   "relationships_as_subject": [],
            114   "resource_type": "dataset", 115   "resource_type": "dataset",
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            116   "resources": [ 117   "resources": [
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            121       "description": "Lake water level scenarios for Lake Walen, Lake  122       "description": "Lake water level scenarios for Lake Walen, Lake 
            122 Zurich, Lake Brienz and Lake Thun.", 123 Zurich, Lake Brienz and Lake Thun.",
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            149       "created": "2023-07-19T13:11:21.077862", 150       "created": "2023-07-19T13:11:21.077862",
            150       "description": "Lake outflow scenarios for Lake Walen, Lake  151       "description": "Lake outflow scenarios for Lake Walen, Lake 
            151 Zurich, Lake Brienz and Lake Thun. ", 152 Zurich, Lake Brienz and Lake Thun. ",
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            159       "mimetype_inner": null, 160       "mimetype_inner": null,
            160       "name": "Lake outflow scenarios CH2018", 161       "name": "Lake outflow scenarios CH2018",
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