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On May 11, 2023 at 5:15:24 PM UTC, patdavid:
Updated description of Downscaled and bias corrected dataset for multiple GCMs and variables from
### Abstract Understanding the impact of climate variability and change is of great importance for developing adaptation and mitigation strategies. Coarse resolution data sets such as simulations of general circulation models (GCMs) are important for reconstructing historical climate and predicting the future. However, scale discrepancy and biases limit the coarse resolution data sets from being directly used for impact assessments and decision making. One solution for bridging this gap is to downscale and bias correct coarse resolution data to the local scale. ### Purpose We bias corrected and downscaled 9 climate variables for 5 popular GCMs from the latest CMIP6 with a widly used method, namely quantile delta mapping (QDM). The dataset has spatial resolution of 0.25 degree and daily temporal scale. For each GCM, two emission levels are included(ssp126 as low emission level and ssp585 as high emission level). The names of the 5 GCMs are EC-Earth3, MPI-ESM1-2-HR, MRI-ESM2-0, IPSL-CM6A-LR,and GFDL-ESM4. The 9 variables include daily total precipitation (pr), daily maximum near-surface air temperature(tasmax), daily minimum near-surface air temperature (tasmin),eastward near-surface wind (uas),northward near-surface wind (vas),near-surface relative humidity (hurs), surface downwelling shortwave radiation (rsds), surface downwelling longwave radiation (rlds) and sea level pressure (psl). The dataset will be used as forcings for the watershed modeling and physical/biogeochemical modeling around the bay area to explore adaptation and mitigation strategies. **DOI: ** [10.57778/wqdc-q670](https://doi.org/10.57778/wqdc-q670) ### Suggested Citation ### Related Publication Citation
to
### Abstract Understanding the impact of climate variability and change is of great importance for developing adaptation and mitigation strategies. Coarse resolution data sets such as simulations of general circulation models (GCMs) are important for reconstructing historical climate and predicting the future. However, scale discrepancy and biases limit the coarse resolution data sets from being directly used for impact assessments and decision making. One solution for bridging this gap is to downscale and bias correct coarse resolution data to the local scale. ### Purpose We bias corrected and downscaled 9 climate variables for 5 popular GCMs from the latest CMIP6 with a widly used method, namely quantile delta mapping (QDM). The dataset has spatial resolution of 0.25 degree and daily temporal scale. For each GCM, two emission levels are included(ssp126 as low emission level and ssp585 as high emission level). The names of the 5 GCMs are EC-Earth3, MPI-ESM1-2-HR, MRI-ESM2-0, IPSL-CM6A-LR,and GFDL-ESM4. The 9 variables include daily total precipitation (pr), daily maximum near-surface air temperature(tasmax), daily minimum near-surface air temperature (tasmin),eastward near-surface wind (uas),northward near-surface wind (vas),near-surface relative humidity (hurs), surface downwelling shortwave radiation (rsds), surface downwelling longwave radiation (rlds) and sea level pressure (psl). The dataset will be used as forcings for the watershed modeling and physical/biogeochemical modeling around the bay area to explore adaptation and mitigation strategies. **DOI: [10.57778/wqdc-q670](https://doi.org/10.57778/wqdc-q670)** ### Suggested Citation ### Related Publication Citation
              
    
          
          
        
        
            f 1 { f 1 {
            2   "author": "Fang Wang", 2   "author": "Fang Wang",
            3   "author_email": "fzw0024@auburn.edu", 3   "author_email": "fzw0024@auburn.edu",
            4   "creator_user_id": "383a0dce-09ad-42af-8eb5-02327d57d2a3", 4   "creator_user_id": "383a0dce-09ad-42af-8eb5-02327d57d2a3",
            5   "extras": [ 5   "extras": [
            6     { 6     {
            7       "key": "ISO.author.1", 7       "key": "ISO.author.1",
            8       "value": "Di Tian <tiandi@auburn.edu>" 8       "value": "Di Tian <tiandi@auburn.edu>"
            9     }, 9     },
            10     { 10     {
            11       "key": "spatial", 11       "key": "spatial",
            12       "value": "{\"type\": \"Polygon\",  12       "value": "{\"type\": \"Polygon\", 
            13 ":[[[-94.5,26],[-94.5,35.25],[-84.25,35.25],[-84.25,26],[-94.5,26]]]}" 13 ":[[[-94.5,26],[-94.5,35.25],[-84.25,35.25],[-84.25,26],[-94.5,26]]]}"
            14     } 14     }
            15   ], 15   ],
            16   "groups": [], 16   "groups": [],
            17   "id": "4070e122-eda3-4dfd-968c-72fa6046e7a8", 17   "id": "4070e122-eda3-4dfd-968c-72fa6046e7a8",
            18   "isopen": true, 18   "isopen": true,
            19   "license_id": "other-open", 19   "license_id": "other-open",
            20   "license_title": "Other (Open)", 20   "license_title": "Other (Open)",
            21   "maintainer": "data@disl.edu", 21   "maintainer": "data@disl.edu",
            22   "maintainer_email": "data@disl.edu", 22   "maintainer_email": "data@disl.edu",
            23   "metadata_created": "2023-05-10T19:59:57.832797", 23   "metadata_created": "2023-05-10T19:59:57.832797",
            n 24   "metadata_modified": "2023-05-11T17:15:02.634302", n 24   "metadata_modified": "2023-05-11T17:15:24.500851",
            25   "name":  25   "name": 
            26 ownscaled-and-bias-corrected-dataset-for-multiple-gcms-and-variables", 26 ownscaled-and-bias-corrected-dataset-for-multiple-gcms-and-variables",
            27   "notes": "### Abstract\r\nUnderstanding the impact of climate  27   "notes": "### Abstract\r\nUnderstanding the impact of climate 
            28 variability and change is of great importance for developing  28 variability and change is of great importance for developing 
            29 adaptation \r\nand mitigation strategies. Coarse resolution data sets  29 adaptation \r\nand mitigation strategies. Coarse resolution data sets 
            30 such as simulations of general circulation models (GCMs) \r\nare  30 such as simulations of general circulation models (GCMs) \r\nare 
            31 important for reconstructing historical climate and predicting the  31 important for reconstructing historical climate and predicting the 
            32 future. However, scale discrepancy and \r\nbiases limit the coarse  32 future. However, scale discrepancy and \r\nbiases limit the coarse 
            33 resolution data sets from being directly used for impact assessments  33 resolution data sets from being directly used for impact assessments 
            34 and decision making. \r\nOne solution for bridging this gap is to  34 and decision making. \r\nOne solution for bridging this gap is to 
            35 downscale and bias correct coarse resolution data to the local  35 downscale and bias correct coarse resolution data to the local 
            36 scale.\r\n\r\n### Purpose\r\nWe bias corrected and downscaled 9  36 scale.\r\n\r\n### Purpose\r\nWe bias corrected and downscaled 9 
            37 climate variables for 5 popular GCMs from the latest CMIP6 \r\nwith a  37 climate variables for 5 popular GCMs from the latest CMIP6 \r\nwith a 
            38 widly used method, namely quantile delta mapping (QDM). \r\nThe  38 widly used method, namely quantile delta mapping (QDM). \r\nThe 
            39 dataset has spatial resolution of 0.25 degree and daily temporal  39 dataset has spatial resolution of 0.25 degree and daily temporal 
            40 scale. For each GCM, \r\ntwo emission levels are included(ssp126 as  40 scale. For each GCM, \r\ntwo emission levels are included(ssp126 as 
            41 low emission level and ssp585 as high emission level). \r\nThe names  41 low emission level and ssp585 as high emission level). \r\nThe names 
            42 of the 5 GCMs are EC-Earth3, MPI-ESM1-2-HR, MRI-ESM2-0,  42 of the 5 GCMs are EC-Earth3, MPI-ESM1-2-HR, MRI-ESM2-0, 
            43 IPSL-CM6A-LR,and GFDL-ESM4. \r\nThe 9 variables include daily total  43 IPSL-CM6A-LR,and GFDL-ESM4. \r\nThe 9 variables include daily total 
            44 precipitation (pr), daily maximum near-surface air  44 precipitation (pr), daily maximum near-surface air 
            45 temperature(tasmax), \r\ndaily minimum near-surface air temperature  45 temperature(tasmax), \r\ndaily minimum near-surface air temperature 
            46 (tasmin),eastward near-surface wind (uas),northward \r\nnear-surface  46 (tasmin),eastward near-surface wind (uas),northward \r\nnear-surface 
            47 wind (vas),near-surface relative humidity (hurs), surface downwelling  47 wind (vas),near-surface relative humidity (hurs), surface downwelling 
            48 shortwave radiation (rsds), \r\nsurface downwelling longwave radiation  48 shortwave radiation (rsds), \r\nsurface downwelling longwave radiation 
            49 (rlds) and sea level pressure (psl). The dataset will be used as  49 (rlds) and sea level pressure (psl). The dataset will be used as 
            50 forcings \r\nfor the watershed modeling and physical/biogeochemical  50 forcings \r\nfor the watershed modeling and physical/biogeochemical 
            51 modeling around the bay area to explore adaptation and \r\nmitigation  51 modeling around the bay area to explore adaptation and \r\nmitigation 
            t 52 strategies.\r\n\r\n**DOI: **  t 52 strategies.\r\n\r\n**DOI: 
            53 [10.57778/wqdc-q670](https://doi.org/10.57778/wqdc-q670)\r\n\r\n###  53 [10.57778/wqdc-q670](https://doi.org/10.57778/wqdc-q670)**\r\n\r\n### 
            54 Suggested Citation\r\n\r\n### Related Publication Citation", 54 Suggested Citation\r\n\r\n### Related Publication Citation",
            55   "num_resources": 5, 55   "num_resources": 5,
            56   "num_tags": 9, 56   "num_tags": 9,
            57   "organization": { 57   "organization": {
            58     "approval_status": "approved", 58     "approval_status": "approved",
            59     "created": "2022-07-22T03:25:13.329710", 59     "created": "2022-07-22T03:25:13.329710",
            60     "description": "The Dauphin Island Sea Lab's (DISL) mission is to  60     "description": "The Dauphin Island Sea Lab's (DISL) mission is to 
            61 become a center for transformative U.S. oceanic and coastal research  61 become a center for transformative U.S. oceanic and coastal research 
            62 and education.. Founded in 1971 by the State of Alabama Legislature to  62 and education.. Founded in 1971 by the State of Alabama Legislature to 
            63 maximize the marine sciences capabilities of several Alabama  63 maximize the marine sciences capabilities of several Alabama 
            64 institutions and minimize duplication. \r\n\r\nLocated on the eastern  64 institutions and minimize duplication. \r\n\r\nLocated on the eastern 
            65 tip of Dauphin Island, a barrier island in the northern Gulf of  65 tip of Dauphin Island, a barrier island in the northern Gulf of 
            66 Mexico, DISL is surrounded by Mobile Bay, the Mississippi Sound, and  66 Mexico, DISL is surrounded by Mobile Bay, the Mississippi Sound, and 
            67 the waters of the Gulf, making it a perfect location to conduct a wide  67 the waters of the Gulf, making it a perfect location to conduct a wide 
            68 range of marine science activity. \r\n\r\n[The University Programs  68 range of marine science activity. \r\n\r\n[The University Programs 
            69 (UP)](https://www.disl.edu/univ-prog/) serves the students of the  69 (UP)](https://www.disl.edu/univ-prog/) serves the students of the 
            70 Marine Environmental Sciences Consortium\u2019s (MESC) 22 public and  70 Marine Environmental Sciences Consortium\u2019s (MESC) 22 public and 
            71 private four-year colleges and universities through graduate and  71 private four-year colleges and universities through graduate and 
            72 undergraduate programs. Throughout the year, graduate students conduct  72 undergraduate programs. Throughout the year, graduate students conduct 
            73 research, and attend classes while completing their degree under the  73 research, and attend classes while completing their degree under the 
            74 mentorship of faculty and staff at the Dauphin Island Sea Lab.   74 mentorship of faculty and staff at the Dauphin Island Sea Lab.  
            75 \r\n\r\n[The Discovery Hall Programs (DHP)](https://www.disl.edu/dhp/)  75 \r\n\r\n[The Discovery Hall Programs (DHP)](https://www.disl.edu/dhp/) 
            76 oversees educational programs for K-12 field programs,  76 oversees educational programs for K-12 field programs, 
            77 teacher-training, and community outreach opportunities.  \r\n[The  77 teacher-training, and community outreach opportunities.  \r\n[The 
            78 Estuarium](https://www.disl.edu/aquarium/), our public aquarium  78 Estuarium](https://www.disl.edu/aquarium/), our public aquarium 
            79 located on the Dauphin Island Sea Lab campus, is a part of DHP's  79 located on the Dauphin Island Sea Lab campus, is a part of DHP's 
            80 educational outreach mission. The Estuarium focuses solely on the  80 educational outreach mission. The Estuarium focuses solely on the 
            81 Mobile-Tensaw Estuary System. The BayMobile allows DHP educators to  81 Mobile-Tensaw Estuary System. The BayMobile allows DHP educators to 
            82 bring marine science to students across Alabama in the classroom and  82 bring marine science to students across Alabama in the classroom and 
            83 at community events. \r\n\r\nResearch programs at the Dauphin Island  83 at community events. \r\n\r\nResearch programs at the Dauphin Island 
            84 Sea Lab range from biogeochemistry and oceanography to ecosystem  84 Sea Lab range from biogeochemistry and oceanography to ecosystem 
            85 ecology. While much of our research focuses on the near-shore and  85 ecology. While much of our research focuses on the near-shore and 
            86 estuarine processes of the northern Gulf of Mexico, field sites of our  86 estuarine processes of the northern Gulf of Mexico, field sites of our 
            87 internationally-renowned faculty also include the Arctic, Mexico,  87 internationally-renowned faculty also include the Arctic, Mexico, 
            88 Australia, and other countries.\r\n\r\nThe Dauphin Island Sea Lab also  88 Australia, and other countries.\r\n\r\nThe Dauphin Island Sea Lab also 
            89 offers state and local government, industry, and agency  89 offers state and local government, industry, and agency 
            90 decision-makers a range of coastal zone management services, including  90 decision-makers a range of coastal zone management services, including 
            91 access to the nationally acclaimed data management center. Armed with  91 access to the nationally acclaimed data management center. Armed with 
            92 data through the DISL data management center, entities can make  92 data through the DISL data management center, entities can make 
            93 well-informed decisions and sound policies while considering  93 well-informed decisions and sound policies while considering 
            94 environmental impact. Another key contributor to successful coastal  94 environmental impact. Another key contributor to successful coastal 
            95 zone management is the Mobile Bay National Estuary Program, which  95 zone management is the Mobile Bay National Estuary Program, which 
            96 falls within the services of DISL.\r\n\r\n", 96 falls within the services of DISL.\r\n\r\n",
            97     "id": "cb136e67-d862-4b9e-af1c-e5c564cee512", 97     "id": "cb136e67-d862-4b9e-af1c-e5c564cee512",
            98     "image_url":  98     "image_url": 
            99 "2022-07-29-144848.512466DISL-centered-logo-w-Tag-CMYK.svg", 99 "2022-07-29-144848.512466DISL-centered-logo-w-Tag-CMYK.svg",
            100     "is_organization": true, 100     "is_organization": true,
            101     "name": "dauphin-island-sea-lab", 101     "name": "dauphin-island-sea-lab",
            102     "state": "active", 102     "state": "active",
            103     "title": "Dauphin Island Sea Lab", 103     "title": "Dauphin Island Sea Lab",
            104     "type": "organization" 104     "type": "organization"
            105   }, 105   },
            106   "owner_org": "cb136e67-d862-4b9e-af1c-e5c564cee512", 106   "owner_org": "cb136e67-d862-4b9e-af1c-e5c564cee512",
            107   "private": false, 107   "private": false,
            108   "relationships_as_object": [], 108   "relationships_as_object": [],
            109   "relationships_as_subject": [], 109   "relationships_as_subject": [],
            110   "resources": [ 110   "resources": [
            111     { 111     {
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            113       "cache_url": null, 113       "cache_url": null,
            114       "created": "2023-05-10T20:02:36.331262", 114       "created": "2023-05-10T20:02:36.331262",
            115       "datastore_active": false, 115       "datastore_active": false,
            116       "datastore_contains_all_records_of_source_file": false, 116       "datastore_contains_all_records_of_source_file": false,
            117       "description": "All the original GCM data without BC and  117       "description": "All the original GCM data without BC and 
            118 downscaling\r\n\r\n - CMIP6_GCMs/MPI-ESM1-2-HR                       #  118 downscaling\r\n\r\n - CMIP6_GCMs/MPI-ESM1-2-HR                       # 
            119 GCM MPI-ESM1-2-HR  \r\n - CMIP6_GCMs/MPI-ESM1-2-HR/ssp126           #  119 GCM MPI-ESM1-2-HR  \r\n - CMIP6_GCMs/MPI-ESM1-2-HR/ssp126           # 
            120 GCM MPI-ESM1-2-HR for the low emssion level ssp126(2015 to 2100)\r\n -  120 GCM MPI-ESM1-2-HR for the low emssion level ssp126(2015 to 2100)\r\n - 
            121 CMIP6_GCMs/MPI-ESM1-2-HR/ssp585           # GCM MPI-ESM1-2-HR for the  121 CMIP6_GCMs/MPI-ESM1-2-HR/ssp585           # GCM MPI-ESM1-2-HR for the 
            122 high emssion level ssp585(2015 to 2100)\r\n -  122 high emssion level ssp585(2015 to 2100)\r\n - 
            123 CMIP6_GCMs/MPI-ESM1-2-HR/historical       # GCM MPI-ESM1-2-HR in the  123 CMIP6_GCMs/MPI-ESM1-2-HR/historical       # GCM MPI-ESM1-2-HR in the 
            124 historical period (1979 to 2014)\r\n - CMIP6_GCMs/EC-Earth3                       124 historical period (1979 to 2014)\r\n - CMIP6_GCMs/EC-Earth3                      
            125 # GCM EC-Earth3 \r\n - CMIP6_GCMs/EC-Earth3/ssp126               # GCM  125 # GCM EC-Earth3 \r\n - CMIP6_GCMs/EC-Earth3/ssp126               # GCM 
            126 EC-Earth3 for the low emssion level ssp126(2015 to 2100)\r\n -  126 EC-Earth3 for the low emssion level ssp126(2015 to 2100)\r\n - 
            127 CMIP6_GCMs/EC-Earth3/ssp585               # GCM EC-Earth3 for the high  127 CMIP6_GCMs/EC-Earth3/ssp585               # GCM EC-Earth3 for the high 
            128 emssion level ssp585(2015 to 2100)\r\n -  128 emssion level ssp585(2015 to 2100)\r\n - 
            129 CMIP6_GCMs/EC-Earth3/historical           # GCM EC-Earth3 in the  129 CMIP6_GCMs/EC-Earth3/historical           # GCM EC-Earth3 in the 
            130 historical period (1979 to 2014)\r\n - CMIP6_GCMs/MRI-ESM2-0                      130 historical period (1979 to 2014)\r\n - CMIP6_GCMs/MRI-ESM2-0                     
            131 # GCM MRI-ESM2-0\r\n - CMIP6_GCMs/MRI-ESM2-0/ssp126              # GCM  131 # GCM MRI-ESM2-0\r\n - CMIP6_GCMs/MRI-ESM2-0/ssp126              # GCM 
            132 MRI-ESM2-0 for the low emssion level ssp126(2015 to 2100)\r\n -  132 MRI-ESM2-0 for the low emssion level ssp126(2015 to 2100)\r\n - 
            133 CMIP6_GCMs/MRI-ESM2-0/ssp585              # GCM MRI-ESM2-0 for the  133 CMIP6_GCMs/MRI-ESM2-0/ssp585              # GCM MRI-ESM2-0 for the 
            134 high emssion level ssp585(2015 to 2100)\r\n -  134 high emssion level ssp585(2015 to 2100)\r\n - 
            135 CMIP6_GCMs/MRI-ESM2-0/historical          # GCM MRI-ESM2-0 in the  135 CMIP6_GCMs/MRI-ESM2-0/historical          # GCM MRI-ESM2-0 in the 
            136 historical period (1979 to 2014)\r\n - CMIP6_GCMs/IPSL-CM6A-LR                    136 historical period (1979 to 2014)\r\n - CMIP6_GCMs/IPSL-CM6A-LR                   
            137 # GCM IPSL-CM6A-LR                 \r\n -  137 # GCM IPSL-CM6A-LR                 \r\n - 
            138 CMIP6_GCMs/IPSL-CM6A-LR/ssp126            # GCM IPSL-CM6A-LR for the  138 CMIP6_GCMs/IPSL-CM6A-LR/ssp126            # GCM IPSL-CM6A-LR for the 
            139 low emssion level ssp126(2015 to 2100)\r\n -  139 low emssion level ssp126(2015 to 2100)\r\n - 
            140 CMIP6_GCMs/IPSL-CM6A-LR/ssp585            # GCM IPSL-CM6A-LR for the  140 CMIP6_GCMs/IPSL-CM6A-LR/ssp585            # GCM IPSL-CM6A-LR for the 
            141 high emssion level ssp585(2015 to 2100)\r\n -  141 high emssion level ssp585(2015 to 2100)\r\n - 
            142 CMIP6_GCMs/IPSL-CM6A-LR/historical        # GCM IPSL-CM6A-LR in the  142 CMIP6_GCMs/IPSL-CM6A-LR/historical        # GCM IPSL-CM6A-LR in the 
            143 historical period (1979 to 2014)\r\n - CMIP6_GCMs/GFDL-ESM4                       143 historical period (1979 to 2014)\r\n - CMIP6_GCMs/GFDL-ESM4                      
            144 # GCM GFDL-ESM4                     \r\n - CMIP6_GCMs/GFDL-ESM4/ssp126                144 # GCM GFDL-ESM4                     \r\n - CMIP6_GCMs/GFDL-ESM4/ssp126               
            145 # GCM GFDL-ESM4 for the low emssion level ssp126(2015 to 2100)              145 # GCM GFDL-ESM4 for the low emssion level ssp126(2015 to 2100)             
            146 \r\n - CMIP6_GCMs/GFDL-ESM4/ssp585               # GCM GFDL-ESM4 for  146 \r\n - CMIP6_GCMs/GFDL-ESM4/ssp585               # GCM GFDL-ESM4 for 
            147 the high emssion level ssp126(2015 to 2100)\r\n -  147 the high emssion level ssp126(2015 to 2100)\r\n - 
            148 CMIP6_GCMs/GFDL-ESM4/historical           # GCM GFDL-ESM4 in the  148 CMIP6_GCMs/GFDL-ESM4/historical           # GCM GFDL-ESM4 in the 
            149 historical period (1979 to 2014)\r\n", 149 historical period (1979 to 2014)\r\n",
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            163       "url":  163       "url": 
            164 -corrected-dataset-for-multiple-gcms-and-variables/CMIP6_GCMs.tar.gz", 164 -corrected-dataset-for-multiple-gcms-and-variables/CMIP6_GCMs.tar.gz",
            165       "url_type": null 165       "url_type": null
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            172       "datastore_contains_all_records_of_source_file": false, 172       "datastore_contains_all_records_of_source_file": false,
            173       "description": "Daily ERA5 data for the 9 variables", 173       "description": "Daily ERA5 data for the 9 variables",
            174       "format": "TAR", 174       "format": "TAR",
            175       "hash": "", 175       "hash": "",
            176       "id": "ab76a8d0-54d6-4bea-933b-fcadcab65a92", 176       "id": "ab76a8d0-54d6-4bea-933b-fcadcab65a92",
            177       "last_modified": null, 177       "last_modified": null,
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            182       "package_id": "4070e122-eda3-4dfd-968c-72fa6046e7a8", 182       "package_id": "4070e122-eda3-4dfd-968c-72fa6046e7a8",
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            186       "state": "active", 186       "state": "active",
            187       "url":  187       "url": 
            188 ted-dataset-for-multiple-gcms-and-variables/ERA5-single-daily.tar.gz", 188 ted-dataset-for-multiple-gcms-and-variables/ERA5-single-daily.tar.gz",
            189       "url_type": null 189       "url_type": null
            190     }, 190     },
            191     { 191     {
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            194       "created": "2023-05-10T20:04:56.380015", 194       "created": "2023-05-10T20:04:56.380015",
            195       "datastore_active": false, 195       "datastore_active": false,
            196       "datastore_contains_all_records_of_source_file": false, 196       "datastore_contains_all_records_of_source_file": false,
            197       "description": " - ERA5-single-hourly      # Hourly ERA5 data  197       "description": " - ERA5-single-hourly      # Hourly ERA5 data 
            198 directly downloaded from ECMWF website\r\n - ERA5-single-hourly/hurs #  198 directly downloaded from ECMWF website\r\n - ERA5-single-hourly/hurs # 
            199 Hourly ERA5 data for near-surface relative humidity (hurs)\r\n -  199 Hourly ERA5 data for near-surface relative humidity (hurs)\r\n - 
            200 ERA5-single-hourly/psl  # Hourly ERA5 data for sea level pressure  200 ERA5-single-hourly/psl  # Hourly ERA5 data for sea level pressure 
            201 (psl)\r\n - ERA5-single-hourly/rlds # Hourly ERA5 data for surface  201 (psl)\r\n - ERA5-single-hourly/rlds # Hourly ERA5 data for surface 
            202 downwelling longwave radiation (rlds)\r\n - ERA5-single-hourly/rsds #  202 downwelling longwave radiation (rlds)\r\n - ERA5-single-hourly/rsds # 
            203 Hourly ERA5 data for surface downwelling shortwave radiation  203 Hourly ERA5 data for surface downwelling shortwave radiation 
            204 (rsds)\r\n - ERA5-single-hourly/uas  # Hourly ERA5 data for eastward  204 (rsds)\r\n - ERA5-single-hourly/uas  # Hourly ERA5 data for eastward 
            205 near-surface wind (uas)\r\n - ERA5-single-hourly/vas  # Hourly ERA5  205 near-surface wind (uas)\r\n - ERA5-single-hourly/vas  # Hourly ERA5 
            206 data for northward near-surface wind (vas)\r\n -  206 data for northward near-surface wind (vas)\r\n - 
            207 ERA5-single-hourly/d2m  # Hourly ERA5 data for 2m dew temperature\r\n  207 ERA5-single-hourly/d2m  # Hourly ERA5 data for 2m dew temperature\r\n 
            208 - ERA5-single-hourly/pr   # Hourly ERA5 data for total  208 - ERA5-single-hourly/pr   # Hourly ERA5 data for total 
            209 precipitation\r\n - ERA5-single-hourly/t2m  # Hourly ERA5 data for 2m  209 precipitation\r\n - ERA5-single-hourly/t2m  # Hourly ERA5 data for 2m 
            210 temperature\r\n", 210 temperature\r\n",
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            215       "metadata_modified": "2023-05-10T21:01:30.808969", 215       "metadata_modified": "2023-05-10T21:01:30.808969",
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            223       "state": "active", 223       "state": "active",
            224       "url":  224       "url": 
            225 ed-dataset-for-multiple-gcms-and-variables/ERA5-single-hourly.tar.gz", 225 ed-dataset-for-multiple-gcms-and-variables/ERA5-single-hourly.tar.gz",
            226       "url_type": null 226       "url_type": null
            227     }, 227     },
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            231       "created": "2023-05-10T20:10:00.342335", 231       "created": "2023-05-10T20:10:00.342335",
            232       "datastore_active": false, 232       "datastore_active": false,
            233       "datastore_contains_all_records_of_source_file": false, 233       "datastore_contains_all_records_of_source_file": false,
            234       "description": "All the BC/downscaled results through  234       "description": "All the BC/downscaled results through 
            235 QDM\r\n\r\n - QDM/IPSL-CM6A-LR                          #  235 QDM\r\n\r\n - QDM/IPSL-CM6A-LR                          # 
            236 BC/downscaled results for GCM IPSL-CM6A-LR                           236 BC/downscaled results for GCM IPSL-CM6A-LR                          
            237 \r\n - QDM/IPSL-CM6A-LR/ssp126                   # BC/downscaled  237 \r\n - QDM/IPSL-CM6A-LR/ssp126                   # BC/downscaled 
            238 results for GCM IPSL-CM6A-LR of ssp126(2015 to 2100) \r\n -  238 results for GCM IPSL-CM6A-LR of ssp126(2015 to 2100) \r\n - 
            239 QDM/IPSL-CM6A-LR/ssp585                   # BC/downscaled results for  239 QDM/IPSL-CM6A-LR/ssp585                   # BC/downscaled results for 
            240 GCM IPSL-CM6A-LR of ssp585(2015 to 2100)\r\n - QDM/EC-Earth3                              240 GCM IPSL-CM6A-LR of ssp585(2015 to 2100)\r\n - QDM/EC-Earth3                             
            241 # BC/downscaled results for GCM EC-Earth3  \r\n - QDM/EC-Earth3/ssp126                       241 # BC/downscaled results for GCM EC-Earth3  \r\n - QDM/EC-Earth3/ssp126                      
            242 # BC/downscaled results for GCM EC-Earth3 of ssp126(2015 to 2100)                       242 # BC/downscaled results for GCM EC-Earth3 of ssp126(2015 to 2100)                      
            243 \r\n - QDM/EC-Earth3/ssp585                      # BC/downscaled  243 \r\n - QDM/EC-Earth3/ssp585                      # BC/downscaled 
            244 results for GCM EC-Earth3 of ssp585(2015 to 2100) \r\n -  244 results for GCM EC-Earth3 of ssp585(2015 to 2100) \r\n - 
            245 QDM/MPI-ESM1-2-HR                         # BC/downscaled results for  245 QDM/MPI-ESM1-2-HR                         # BC/downscaled results for 
            246 GCM MPI-ESM1-2-HR \r\n - QDM/MPI-ESM1-2-HR/ssp126                  #  246 GCM MPI-ESM1-2-HR \r\n - QDM/MPI-ESM1-2-HR/ssp126                  # 
            247 BC/downscaled results for GCM MPI-ESM1-2-HR of ssp126(2015 to  247 BC/downscaled results for GCM MPI-ESM1-2-HR of ssp126(2015 to 
            248 2100)\r\n - QDM/MPI-ESM1-2-HR/ssp585                  # BC/downscaled  248 2100)\r\n - QDM/MPI-ESM1-2-HR/ssp585                  # BC/downscaled 
            249 results for GCM MPI-ESM1-2-HR of ssp585(2015 to 2100)\r\n -  249 results for GCM MPI-ESM1-2-HR of ssp585(2015 to 2100)\r\n - 
            250 QDM/MRI-ESM2-0                            # BC/downscaled results for  250 QDM/MRI-ESM2-0                            # BC/downscaled results for 
            251 GCM MRI-ESM2-0 \r\n - QDM/MRI-ESM2-0/ssp126                     #  251 GCM MRI-ESM2-0 \r\n - QDM/MRI-ESM2-0/ssp126                     # 
            252 BC/downscaled results for GCM MRI-ESM2-0 of ssp126(2015 to 2100)\r\n -  252 BC/downscaled results for GCM MRI-ESM2-0 of ssp126(2015 to 2100)\r\n - 
            253 QDM/MRI-ESM2-0/ssp585                     # BC/downscaled results for  253 QDM/MRI-ESM2-0/ssp585                     # BC/downscaled results for 
            254 GCM MRI-ESM2-0 of ssp585(2015 to 2100)\r\n - QDM/GFDL-ESM4                              254 GCM MRI-ESM2-0 of ssp585(2015 to 2100)\r\n - QDM/GFDL-ESM4                             
            255 # BC/downscaled results for GCM GFDL-ESM4 \r\n - QDM/GFDL-ESM4/ssp126                       255 # BC/downscaled results for GCM GFDL-ESM4 \r\n - QDM/GFDL-ESM4/ssp126                      
            256 # BC/downscaled results for GCM GFDL-ESM4 of ssp126(2015 to 2100)\r\n  256 # BC/downscaled results for GCM GFDL-ESM4 of ssp126(2015 to 2100)\r\n 
            257 - QDM/GFDL-ESM4/ssp585.                     # BC/downscaled results  257 - QDM/GFDL-ESM4/ssp585.                     # BC/downscaled results 
            258 for GCM GFDL-ESM4 of ssp585(2015 to 2100)\r\n", 258 for GCM GFDL-ESM4 of ssp585(2015 to 2100)\r\n",
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            273 nd-bias-corrected-dataset-for-multiple-gcms-and-variables/QDM.tar.gz", 273 nd-bias-corrected-dataset-for-multiple-gcms-and-variables/QDM.tar.gz",
            274       "url_type": null 274       "url_type": null
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            282       "description": "Jupyter notebook with extra information on the  282       "description": "Jupyter notebook with extra information on the 
            283 dataset.\r\nRetrieved from:  283 dataset.\r\nRetrieved from: 
            284 https://github.com/OyBcSt/Climate_data/blob/main/index.ipynb", 284 https://github.com/OyBcSt/Climate_data/blob/main/index.ipynb",
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            300       "url_type": "" 300       "url_type": ""
            301     } 301     }
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            311     }, 311     },
            312     { 312     {
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            314       "id": "c868053d-8971-4a12-a91e-6d9705f48297", 314       "id": "c868053d-8971-4a12-a91e-6d9705f48297",
            315       "name": "daily minimum near-surface air temperature", 315       "name": "daily minimum near-surface air temperature",
            316       "state": "active", 316       "state": "active",
            317       "vocabulary_id": null 317       "vocabulary_id": null
            318     }, 318     },
            319     { 319     {
            320       "display_name": "daily total precipitation", 320       "display_name": "daily total precipitation",
            321       "id": "4bbcd693-85e1-4434-9322-969dab47085a", 321       "id": "4bbcd693-85e1-4434-9322-969dab47085a",
            322       "name": "daily total precipitation", 322       "name": "daily total precipitation",
            323       "state": "active", 323       "state": "active",
            324       "vocabulary_id": null 324       "vocabulary_id": null
            325     }, 325     },
            326     { 326     {
            327       "display_name": "eastward near-surface wind", 327       "display_name": "eastward near-surface wind",
            328       "id": "12a798a4-0f36-474d-94e6-16a9c03fc906", 328       "id": "12a798a4-0f36-474d-94e6-16a9c03fc906",
            329       "name": "eastward near-surface wind", 329       "name": "eastward near-surface wind",
            330       "state": "active", 330       "state": "active",
            331       "vocabulary_id": null 331       "vocabulary_id": null
            332     }, 332     },
            333     { 333     {
            334       "display_name": "near-surface relative humidity", 334       "display_name": "near-surface relative humidity",
            335       "id": "52c808b1-40aa-4cdf-8fb1-375051eb0b9e", 335       "id": "52c808b1-40aa-4cdf-8fb1-375051eb0b9e",
            336       "name": "near-surface relative humidity", 336       "name": "near-surface relative humidity",
            337       "state": "active", 337       "state": "active",
            338       "vocabulary_id": null 338       "vocabulary_id": null
            339     }, 339     },
            340     { 340     {
            341       "display_name": "northward near-surface wind", 341       "display_name": "northward near-surface wind",
            342       "id": "2cc3dd62-31fb-4353-815a-d7e0c994a0e7", 342       "id": "2cc3dd62-31fb-4353-815a-d7e0c994a0e7",
            343       "name": "northward near-surface wind", 343       "name": "northward near-surface wind",
            344       "state": "active", 344       "state": "active",
            345       "vocabulary_id": null 345       "vocabulary_id": null
            346     }, 346     },
            347     { 347     {
            348       "display_name": "sea level pressure", 348       "display_name": "sea level pressure",
            349       "id": "94ce9862-eac9-4d3e-839a-e90134c3fbf4", 349       "id": "94ce9862-eac9-4d3e-839a-e90134c3fbf4",
            350       "name": "sea level pressure", 350       "name": "sea level pressure",
            351       "state": "active", 351       "state": "active",
            352       "vocabulary_id": null 352       "vocabulary_id": null
            353     }, 353     },
            354     { 354     {
            355       "display_name": "surface downwelling longwave radiation", 355       "display_name": "surface downwelling longwave radiation",
            356       "id": "22bbd1c2-ef28-49b3-b445-1c384be06550", 356       "id": "22bbd1c2-ef28-49b3-b445-1c384be06550",
            357       "name": "surface downwelling longwave radiation", 357       "name": "surface downwelling longwave radiation",
            358       "state": "active", 358       "state": "active",
            359       "vocabulary_id": null 359       "vocabulary_id": null
            360     }, 360     },
            361     { 361     {
            362       "display_name": "surface downwelling shortwave radiation", 362       "display_name": "surface downwelling shortwave radiation",
            363       "id": "54129a45-0d9d-4b61-b88f-2debe2ca9377", 363       "id": "54129a45-0d9d-4b61-b88f-2debe2ca9377",
            364       "name": "surface downwelling shortwave radiation", 364       "name": "surface downwelling shortwave radiation",
            365       "state": "active", 365       "state": "active",
            366       "vocabulary_id": null 366       "vocabulary_id": null
            367     } 367     }
            368   ], 368   ],
            369   "title": "Downscaled and bias corrected dataset for multiple GCMs  369   "title": "Downscaled and bias corrected dataset for multiple GCMs 
            370 and variables", 370 and variables",
            371   "type": "dataset", 371   "type": "dataset",
            372   "url": "", 372   "url": "",
            373   "version": "" 373   "version": ""
            374 } 374 }