Changes
On March 6, 2022 at 1:35:13 PM UTC, Joerg Wieder:
-
Added resource LINDA Dataset Weissfluhjoch to Aerosol Data Weissfluhjoch
f | 1 | { | f | 1 | { |
2 | "author": "[{\"affiliation\": \"ETH Z\\u00fcrich\", | 2 | "author": "[{\"affiliation\": \"ETH Z\\u00fcrich\", | ||
3 | \"affiliation_02\": \"\", \"affiliation_03\": \"\", \"data_credit\": | 3 | \"affiliation_02\": \"\", \"affiliation_03\": \"\", \"data_credit\": | ||
4 | [\"collection\", \"validation\", \"curation\", \"software\"], | 4 | [\"collection\", \"validation\", \"curation\", \"software\"], | ||
5 | \"email\": \"joerg.wieder@env.ethz.ch\", \"given_name\": | 5 | \"email\": \"joerg.wieder@env.ethz.ch\", \"given_name\": | ||
6 | \"J\\u00f6rg\", \"identifier\": \"\", \"name\": \"Wieder\"}, | 6 | \"J\\u00f6rg\", \"identifier\": \"\", \"name\": \"Wieder\"}, | ||
7 | {\"affiliation\": \"University of Basel\", \"affiliation_02\": \"\", | 7 | {\"affiliation\": \"University of Basel\", \"affiliation_02\": \"\", | ||
8 | \"affiliation_03\": \"\", \"data_credit\": [\"collection\", | 8 | \"affiliation_03\": \"\", \"data_credit\": [\"collection\", | ||
9 | \"validation\", \"curation\"], \"email\": | 9 | \"validation\", \"curation\"], \"email\": | ||
10 | \"claudia.mignani@unibas.ch\", \"given_name\": \"Claudia\", | 10 | \"claudia.mignani@unibas.ch\", \"given_name\": \"Claudia\", | ||
11 | \"identifier\": \"\", \"name\": \"Mignani\"}, {\"affiliation\": \"ETH | 11 | \"identifier\": \"\", \"name\": \"Mignani\"}, {\"affiliation\": \"ETH | ||
12 | Z\\u00fcrich\", \"affiliation_02\": \"\", \"affiliation_03\": \"\", | 12 | Z\\u00fcrich\", \"affiliation_02\": \"\", \"affiliation_03\": \"\", | ||
13 | \"data_credit\": [\"validation\", \"curation\"], \"email\": | 13 | \"data_credit\": [\"validation\", \"curation\"], \"email\": | ||
14 | \"carolin.roesch@env.ethz.ch\", \"given_name\": \"Carolin\", | 14 | \"carolin.roesch@env.ethz.ch\", \"given_name\": \"Carolin\", | ||
15 | \"identifier\": \"\", \"name\": \"R\\u00f6sch\"}]", | 15 | \"identifier\": \"\", \"name\": \"R\\u00f6sch\"}]", | ||
16 | "author_email": null, | 16 | "author_email": null, | ||
17 | "creator_user_id": "b19d31fd-dc57-44f6-8e71-5fb3bd827318", | 17 | "creator_user_id": "b19d31fd-dc57-44f6-8e71-5fb3bd827318", | ||
18 | "date": "[{\"date\": \"2019-02-08\", \"date_type\": \"collected\", | 18 | "date": "[{\"date\": \"2019-02-08\", \"date_type\": \"collected\", | ||
19 | \"end_date\": \"2019-03-31\"}]", | 19 | \"end_date\": \"2019-03-31\"}]", | ||
20 | "doi": "10.16904/envidat.156", | 20 | "doi": "10.16904/envidat.156", | ||
21 | "extras": [ | 21 | "extras": [ | ||
22 | { | 22 | { | ||
23 | "key": "Geographic Location", | 23 | "key": "Geographic Location", | ||
24 | "value": "46\u00b049\u201958.670\u201dN | 24 | "value": "46\u00b049\u201958.670\u201dN | ||
25 | 9\u00b048\u201923.309\u201dE" | 25 | 9\u00b048\u201923.309\u201dE" | ||
26 | }, | 26 | }, | ||
27 | { | 27 | { | ||
28 | "key": "parent", | 28 | "key": "parent", | ||
29 | "value": "RACLETS Field Campaign" | 29 | "value": "RACLETS Field Campaign" | ||
30 | } | 30 | } | ||
31 | ], | 31 | ], | ||
32 | "funding": "[{\"grant_number\": \"200021_175824\", \"institution\": | 32 | "funding": "[{\"grant_number\": \"200021_175824\", \"institution\": | ||
33 | \"SNF\", \"institution_url\": \"http://p3.snf.ch/project-175824\"}]", | 33 | \"SNF\", \"institution_url\": \"http://p3.snf.ch/project-175824\"}]", | ||
34 | "groups": [ | 34 | "groups": [ | ||
35 | { | 35 | { | ||
36 | "description": "During the | 36 | "description": "During the | ||
37 | [RACLETS](https://www.envidat.ch/group/about/raclets-field-campaign) | 37 | [RACLETS](https://www.envidat.ch/group/about/raclets-field-campaign) | ||
38 | campaign aerosol properties were measured in Davos Wolfang (LON: | 38 | campaign aerosol properties were measured in Davos Wolfang (LON: | ||
39 | 9.853594, LAT: 46.835577), at an elevation of 1630 m above sea level | 39 | 9.853594, LAT: 46.835577), at an elevation of 1630 m above sea level | ||
40 | (a.s.l.), which is in a valley between lake Davos in the South and | 40 | (a.s.l.), which is in a valley between lake Davos in the South and | ||
41 | Laret in the North. The second measurement site for aerosol particles | 41 | Laret in the North. The second measurement site for aerosol particles | ||
42 | was on a mountain site, called Weissfluhjoch (LON: 9.806475, LAT: | 42 | was on a mountain site, called Weissfluhjoch (LON: 9.806475, LAT: | ||
43 | 46.832964), at an elevation of 2700 m a.s.l. The instruments were | 43 | 46.832964), at an elevation of 2700 m a.s.l. The instruments were | ||
44 | owned and operated by ETH Zurich and University of Basel. \r\n\r\nThe | 44 | owned and operated by ETH Zurich and University of Basel. \r\n\r\nThe | ||
45 | aerosol size spectra from 15 nm to 40 μ m were recorded with a | 45 | aerosol size spectra from 15 nm to 40 μ m were recorded with a | ||
46 | combination of SMPS (model 3938, TSI Inc.), APS (model 3321, TSI | 46 | combination of SMPS (model 3938, TSI Inc.), APS (model 3321, TSI | ||
47 | Inc.), and OPCs (OPC-N3, Alphasense ; GT-526S Met One Instruments, | 47 | Inc.), and OPCs (OPC-N3, Alphasense ; GT-526S Met One Instruments, | ||
48 | Inc.).\r\nIn-situ measurements of Cloud Condensation Nuclei (CCN) were | 48 | Inc.).\r\nIn-situ measurements of Cloud Condensation Nuclei (CCN) were | ||
49 | carried out with a CCN chamber (CCNC, Droplet Measurement | 49 | carried out with a CCN chamber (CCNC, Droplet Measurement | ||
50 | Technologies). LINDA (LED based Ice Nucleation Detection Aparatus, | 50 | Technologies). LINDA (LED based Ice Nucleation Detection Aparatus, | ||
51 | University of Basel), DRINCZ (Droplet Ice Nuclei Counter Zurich, ETH | 51 | University of Basel), DRINCZ (Droplet Ice Nuclei Counter Zurich, ETH | ||
52 | Zurich), and a cold stage were used to investigate ice nucleating | 52 | Zurich), and a cold stage were used to investigate ice nucleating | ||
53 | particle (INP) concentrations by drop freezing experiments. | 53 | particle (INP) concentrations by drop freezing experiments. | ||
54 | Information about the secondary ice fraction was gained by melting and | 54 | Information about the secondary ice fraction was gained by melting and | ||
55 | re-freezing single dendrites. For further chemical analysis, particles | 55 | re-freezing single dendrites. For further chemical analysis, particles | ||
56 | larger than 0.5 μm were collected with an air sampler (Coriolis | 56 | larger than 0.5 μm were collected with an air sampler (Coriolis | ||
57 | μ, bertin Instruments) using a cyclone technology to separate | 57 | μ, bertin Instruments) using a cyclone technology to separate | ||
58 | particles from the air into the sample liquid. \r\n\r\nInformation on | 58 | particles from the air into the sample liquid. \r\n\r\nInformation on | ||
59 | [precipitation](https://www.envidat.ch/group/about/precipitation), | 59 | [precipitation](https://www.envidat.ch/group/about/precipitation), | ||
60 | [wind](https://www.envidat.ch/group/about/remote-sensing-raclets), | 60 | [wind](https://www.envidat.ch/group/about/remote-sensing-raclets), | ||
61 | [meteorological | 61 | [meteorological | ||
62 | parameters](https://www.envidat.ch/group/about/meteorology), [cloud | 62 | parameters](https://www.envidat.ch/group/about/meteorology), [cloud | ||
63 | properties](https://www.envidat.ch/group/about/remote-sensing-raclets) | 63 | properties](https://www.envidat.ch/group/about/remote-sensing-raclets) | ||
64 | and [cloud | 64 | and [cloud | ||
65 | omposition](https://www.envidat.ch/group/about/clouds-in-situ-raclets) | 65 | omposition](https://www.envidat.ch/group/about/clouds-in-situ-raclets) | ||
66 | were gained at the valley station. | 66 | were gained at the valley station. | ||
67 | [Snowflake](https://www.envidat.ch/group/about/snow) properties were | 67 | [Snowflake](https://www.envidat.ch/group/about/snow) properties were | ||
68 | investigated at the mountaintop station. | 68 | investigated at the mountaintop station. | ||
69 | oloBalloon](https://www.envidat.ch/group/about/clouds-in-situ-raclets) | 69 | oloBalloon](https://www.envidat.ch/group/about/clouds-in-situ-raclets) | ||
70 | and [radiosondes](https://www.envidat.ch/group/about/meteorology) were | 70 | and [radiosondes](https://www.envidat.ch/group/about/meteorology) were | ||
71 | launched close to the aerosol measurement station in Davos Wolfgang. | 71 | launched close to the aerosol measurement station in Davos Wolfgang. | ||
72 | The OceaNet container hosting [remote | 72 | The OceaNet container hosting [remote | ||
73 | sensing](https://www.envidat.ch/group/about/remote-sensing-raclets) | 73 | sensing](https://www.envidat.ch/group/about/remote-sensing-raclets) | ||
74 | instruments and a disdrometer to measure | 74 | instruments and a disdrometer to measure | ||
75 | [precipitation](https://www.envidat.ch/group/about/precipitation) were | 75 | [precipitation](https://www.envidat.ch/group/about/precipitation) were | ||
76 | placed in the same area.\r\n\r\n![pic not | 76 | placed in the same area.\r\n\r\n![pic not | ||
77 | imo/images/notUploaded/Jan/IMG_20190209_103151_scale.jpg)\r\n\r\nImage | 77 | imo/images/notUploaded/Jan/IMG_20190209_103151_scale.jpg)\r\n\r\nImage | ||
78 | 1: Measurement site Davos Wolfgang. © Jan | 78 | 1: Measurement site Davos Wolfgang. © Jan | ||
79 | Henneberger.\r\n\r\n\r\n![pic not | 79 | Henneberger.\r\n\r\n\r\n![pic not | ||
80 | ata/holimo/images/notUploaded/Claudia/IMG_8970_scale.JPG)\r\n\r\nImage | 80 | ata/holimo/images/notUploaded/Claudia/IMG_8970_scale.JPG)\r\n\r\nImage | ||
81 | 2: Measurement site Weissfluhjoch. © Claudia Mignani.\r\n", | 81 | 2: Measurement site Weissfluhjoch. © Claudia Mignani.\r\n", | ||
82 | "display_name": "Aerosols", | 82 | "display_name": "Aerosols", | ||
83 | "id": "7e071c09-4ec0-4ebf-bf3c-a41755cd566d", | 83 | "id": "7e071c09-4ec0-4ebf-bf3c-a41755cd566d", | ||
84 | "image_display_url": | 84 | "image_display_url": | ||
85 | dat.ch/uploads/group/2019-08-21-115852.482765RACLETSaerosolslogo.png", | 85 | dat.ch/uploads/group/2019-08-21-115852.482765RACLETSaerosolslogo.png", | ||
86 | "name": "aerosols-raclets", | 86 | "name": "aerosols-raclets", | ||
87 | "title": "Aerosols" | 87 | "title": "Aerosols" | ||
88 | }, | 88 | }, | ||
89 | { | 89 | { | ||
90 | "description": "### Campaign Overview\r\n\r\nThe __RACLETS__ - | 90 | "description": "### Campaign Overview\r\n\r\nThe __RACLETS__ - | ||
91 | _Role of Aerosols and CLouds Enhanced by Topography on Snow_ - | 91 | _Role of Aerosols and CLouds Enhanced by Topography on Snow_ - | ||
92 | campaign uniquely combines cloud and snow research to improve the | 92 | campaign uniquely combines cloud and snow research to improve the | ||
93 | understanding of precipitation formation in clouds and snow deposition | 93 | understanding of precipitation formation in clouds and snow deposition | ||
94 | on the ground. \r\n\r\n\r\nDuring the RACLETS campaign in February | 94 | on the ground. \r\n\r\n\r\nDuring the RACLETS campaign in February | ||
95 | and March 2019, an extensive set of instruments was deployed in the | 95 | and March 2019, an extensive set of instruments was deployed in the | ||
96 | Davos regions including aerosol, cloud, precipitation and snow | 96 | Davos regions including aerosol, cloud, precipitation and snow | ||
97 | measurements. In a unique cooperation between cloud and snow research | 97 | measurements. In a unique cooperation between cloud and snow research | ||
98 | groups, this study aimed to observe the complete life cycle of ice | 98 | groups, this study aimed to observe the complete life cycle of ice | ||
99 | crystals:\r\n\r\n- Cloud droplet formation and ice nucleation on | 99 | crystals:\r\n\r\n- Cloud droplet formation and ice nucleation on | ||
100 | aerosol particles\r\n- Growth of cloud droplets and ice crystals to | 100 | aerosol particles\r\n- Growth of cloud droplets and ice crystals to | ||
101 | precipitation\r\n- Ice crystal enhancement by ice multiplication\r\n- | 101 | precipitation\r\n- Ice crystal enhancement by ice multiplication\r\n- | ||
102 | Precipitation location and amount on the ground\r\n- Redistribution of | 102 | Precipitation location and amount on the ground\r\n- Redistribution of | ||
103 | snow on the ground\r\n\r\n\r\nThe measurements were contextualized by | 103 | snow on the ground\r\n\r\n\r\nThe measurements were contextualized by | ||
104 | using regional numerical weather models for the atmosphere and | 104 | using regional numerical weather models for the atmosphere and | ||
105 | high-resolution models for snow deposition.\r\n\r\nTo explore the | 105 | high-resolution models for snow deposition.\r\n\r\nTo explore the | ||
106 | campaign sites in a short introduction | 106 | campaign sites in a short introduction | ||
107 | tps://iacweb.ethz.ch/data/holimo/images/Davos_campaign_GE_31_Jan.mp4), | 107 | tps://iacweb.ethz.ch/data/holimo/images/Davos_campaign_GE_31_Jan.mp4), | ||
108 | just click on the picture below. \r\n<br />\r\n[![IMAGE IS | 108 | just click on the picture below. \r\n<br />\r\n[![IMAGE IS | ||
109 | eb.ethz.ch/data/holimo/images/Davos_campaign_GE_31_Jan.mp4)\r\n\r\n<br | 109 | eb.ethz.ch/data/holimo/images/Davos_campaign_GE_31_Jan.mp4)\r\n\r\n<br | ||
110 | />\r\n\r\nTo cover the spatial differences of the topography, | 110 | />\r\n\r\nTo cover the spatial differences of the topography, | ||
111 | instruments were deployed at five different locations and on a cable | 111 | instruments were deployed at five different locations and on a cable | ||
112 | car. The main measurement site was located in __Davos Wolfang__, 1630 | 112 | car. The main measurement site was located in __Davos Wolfang__, 1630 | ||
113 | m above sea level (a.s.l.). Here, | 113 | m above sea level (a.s.l.). Here, | ||
114 | [clouds](https://www.envidat.ch/group/about/clouds-in-situ-raclets) | 114 | [clouds](https://www.envidat.ch/group/about/clouds-in-situ-raclets) | ||
115 | were probed in-situ by a tethered balloon system (HoloBalloon), | 115 | were probed in-situ by a tethered balloon system (HoloBalloon), | ||
116 | [radiosondes](https://www.envidat.ch/group/about/meteorology) were | 116 | [radiosondes](https://www.envidat.ch/group/about/meteorology) were | ||
117 | launched, | 117 | launched, | ||
118 | [precipitation](https://www.envidat.ch/group/about/precipitation) was | 118 | [precipitation](https://www.envidat.ch/group/about/precipitation) was | ||
119 | measured (disdrometer), [remote sensing | 119 | measured (disdrometer), [remote sensing | ||
120 | nstruments](https://www.envidat.ch/group/about/remote-sensing-raclets) | 120 | nstruments](https://www.envidat.ch/group/about/remote-sensing-raclets) | ||
121 | were deployed (OceaNet station, Wind Profiler and Wind LIDAR) and | 121 | were deployed (OceaNet station, Wind Profiler and Wind LIDAR) and | ||
122 | [aerosol and INP | 122 | [aerosol and INP | ||
123 | measurements](https://www.envidat.ch/group/about/aerosols-raclets) | 123 | measurements](https://www.envidat.ch/group/about/aerosols-raclets) | ||
124 | were carried out to study the atmosphere. The mountain ridge | 124 | were carried out to study the atmosphere. The mountain ridge | ||
125 | __Gotschna__ separates Davos Wolfgang in the south from Klosters in | 125 | __Gotschna__ separates Davos Wolfgang in the south from Klosters in | ||
126 | the north. In __Klosters__ (1170 m a.s.l.), a | 126 | the north. In __Klosters__ (1170 m a.s.l.), a | ||
127 | ceilometer](https://www.envidat.ch/group/about/remote-sensing-raclets) | 127 | ceilometer](https://www.envidat.ch/group/about/remote-sensing-raclets) | ||
128 | was applied to measure the cloud base. On a cable car, running on the | 128 | was applied to measure the cloud base. On a cable car, running on the | ||
129 | north side of the ridge towards __Gotschnagrat__ (2285 m a.s.l.), | 129 | north side of the ridge towards __Gotschnagrat__ (2285 m a.s.l.), | ||
130 | HoloGondel was attached, which took in-situ images of ice crystals and | 130 | HoloGondel was attached, which took in-situ images of ice crystals and | ||
131 | droplets in | 131 | droplets in | ||
132 | [clouds](https://www.envidat.ch/group/about/clouds-in-situ-raclets). A | 132 | [clouds](https://www.envidat.ch/group/about/clouds-in-situ-raclets). A | ||
133 | [snow drift station](https://www.envidat.ch/group/about/snow) and a | 133 | [snow drift station](https://www.envidat.ch/group/about/snow) and a | ||
134 | [disdrometer](https://www.envidat.ch/group/about/precipitation) were | 134 | [disdrometer](https://www.envidat.ch/group/about/precipitation) were | ||
135 | located at __Gotschnagrat__. At the mountain site __Weissfluhjoch__ | 135 | located at __Gotschnagrat__. At the mountain site __Weissfluhjoch__ | ||
136 | (2700 m a.s.l.), south of __Gotschna__, [Aerosols, INPs, | 136 | (2700 m a.s.l.), south of __Gotschna__, [Aerosols, INPs, | ||
137 | CCNs](https://www.envidat.ch/group/about/aerosols-raclets) were | 137 | CCNs](https://www.envidat.ch/group/about/aerosols-raclets) were | ||
138 | measured in addition to analysing | 138 | measured in addition to analysing | ||
139 | [snowflakes](https://www.envidat.ch/group/about/snow) and performing | 139 | [snowflakes](https://www.envidat.ch/group/about/snow) and performing | ||
140 | [snow measurements](https://www.envidat.ch/group/about/snow). | 140 | [snow measurements](https://www.envidat.ch/group/about/snow). | ||
141 | [Snow](https://www.envidat.ch/group/about/snow) and | 141 | [Snow](https://www.envidat.ch/group/about/snow) and | ||
142 | [precipitation](https://www.envidat.ch/group/about/precipitation) | 142 | [precipitation](https://www.envidat.ch/group/about/precipitation) | ||
143 | measurements were performed in __Laret__, which is located in the | 143 | measurements were performed in __Laret__, which is located in the | ||
144 | valley at an elevation of 1522 m a.s.l. and in a distance of about 1 | 144 | valley at an elevation of 1522 m a.s.l. and in a distance of about 1 | ||
145 | km north of Davos Wolfgang.\r\n\r\n\r\n\r\n### Data Files\r\nThe data | 145 | km north of Davos Wolfgang.\r\n\r\n\r\n\r\n### Data Files\r\nThe data | ||
146 | recorded during the campaign can be accessed via the following | 146 | recorded during the campaign can be accessed via the following | ||
147 | subprojects (as link): \r\n\r\n- | 147 | subprojects (as link): \r\n\r\n- | ||
148 | [_Aerosols_](https://www.envidat.ch/group/aerosols-raclets)\r\n- | 148 | [_Aerosols_](https://www.envidat.ch/group/aerosols-raclets)\r\n- | ||
149 | [_Clouds | 149 | [_Clouds | ||
150 | in-situ_](https://www.envidat.ch/group/clouds-in-situ-raclets)\r\n- | 150 | in-situ_](https://www.envidat.ch/group/clouds-in-situ-raclets)\r\n- | ||
151 | [_Meteorology_](https://www.envidat.ch/group/meteorology) \r\n- | 151 | [_Meteorology_](https://www.envidat.ch/group/meteorology) \r\n- | ||
152 | [_Modelling_](https://www.envidat.ch/group/modeling) \r\n- | 152 | [_Modelling_](https://www.envidat.ch/group/modeling) \r\n- | ||
153 | [_Precipitation_](https://www.envidat.ch/group/precipitation) \r\n- | 153 | [_Precipitation_](https://www.envidat.ch/group/precipitation) \r\n- | ||
154 | [_Remote | 154 | [_Remote | ||
155 | Sensing_](https://www.envidat.ch/group/remote-sensing-raclets)\r\n- | 155 | Sensing_](https://www.envidat.ch/group/remote-sensing-raclets)\r\n- | ||
156 | [_Snow_](https://www.envidat.ch/group/snow) \r\n\r\n<br />\r\n\r\n### | 156 | [_Snow_](https://www.envidat.ch/group/snow) \r\n\r\n<br />\r\n\r\n### | ||
157 | __Project Partners__\r\nMore information about participating insitutes | 157 | __Project Partners__\r\nMore information about participating insitutes | ||
158 | can be found here: \r\n\r\n- https://duw.unibas.ch/de/home/\r\n- | 158 | can be found here: \r\n\r\n- https://duw.unibas.ch/de/home/\r\n- | ||
159 | https://www.epfl.ch/en/home/\r\n- | 159 | https://www.epfl.ch/en/home/\r\n- | ||
160 | http://www.iac.ethz.ch/group/atmospheric-physics.html\r\n- | 160 | http://www.iac.ethz.ch/group/atmospheric-physics.html\r\n- | ||
161 | https://www.meteoswiss.admin.ch/home.html?tab=overview\r\n- | 161 | https://www.meteoswiss.admin.ch/home.html?tab=overview\r\n- | ||
162 | https://www.slf.ch/\r\n- | 162 | https://www.slf.ch/\r\n- | ||
163 | https://www.tropos.de/institut/ueber-uns/das-institut/\r\n- | 163 | https://www.tropos.de/institut/ueber-uns/das-institut/\r\n- | ||
164 | https://www.wsl.ch/de/schnee-und-eis.html \r\n\r\n<br | 164 | https://www.wsl.ch/de/schnee-und-eis.html \r\n\r\n<br | ||
165 | />\r\n\r\n### __Related Data__ \r\n\r\nSatellite images and data can | 165 | />\r\n\r\n### __Related Data__ \r\n\r\nSatellite images and data can | ||
166 | be requested at | 166 | be requested at | ||
167 | [NASA](https://ladsweb.modaps.eosdis.nasa.gov/).\r\nFurther weather | 167 | [NASA](https://ladsweb.modaps.eosdis.nasa.gov/).\r\nFurther weather | ||
168 | radar data can be requested for certain periods at | 168 | radar data can be requested for certain periods at | ||
169 | ecasting-systems/atmosphere/weather-radar-network.html).\r\n\r\n\r\n", | 169 | ecasting-systems/atmosphere/weather-radar-network.html).\r\n\r\n\r\n", | ||
170 | "display_name": "RACLETS Field Campaign", | 170 | "display_name": "RACLETS Field Campaign", | ||
171 | "id": "ab759699-d40a-44c9-995f-c0e5aad1c2b5", | 171 | "id": "ab759699-d40a-44c9-995f-c0e5aad1c2b5", | ||
172 | "image_display_url": | 172 | "image_display_url": | ||
173 | "https://iacweb.ethz.ch/data/holimo/images/RACLETS_logo.jpg", | 173 | "https://iacweb.ethz.ch/data/holimo/images/RACLETS_logo.jpg", | ||
174 | "name": "raclets-field-campaign", | 174 | "name": "raclets-field-campaign", | ||
175 | "title": "RACLETS Field Campaign" | 175 | "title": "RACLETS Field Campaign" | ||
176 | } | 176 | } | ||
177 | ], | 177 | ], | ||
178 | "id": "67ab6458-99fd-4f2e-b707-20c8dcf52109", | 178 | "id": "67ab6458-99fd-4f2e-b707-20c8dcf52109", | ||
179 | "isopen": true, | 179 | "isopen": true, | ||
180 | "language": "en", | 180 | "language": "en", | ||
181 | "license_id": "odc-odbl", | 181 | "license_id": "odc-odbl", | ||
182 | "license_title": "ODbL with Database Contents License (DbCL)", | 182 | "license_title": "ODbL with Database Contents License (DbCL)", | ||
183 | "license_url": "https://opendefinition.org/licenses/odc-odbl", | 183 | "license_url": "https://opendefinition.org/licenses/odc-odbl", | ||
184 | "maintainer": "{\"affiliation\": \"ETH Z\u00fcrich\", \"email\": | 184 | "maintainer": "{\"affiliation\": \"ETH Z\u00fcrich\", \"email\": | ||
185 | \"joerg.wieder@env.ethz.ch\", \"given_name\": \"J\u00f6rg\", | 185 | \"joerg.wieder@env.ethz.ch\", \"given_name\": \"J\u00f6rg\", | ||
186 | \"identifier\": \"\", \"name\": \"Wieder\"}", | 186 | \"identifier\": \"\", \"name\": \"Wieder\"}", | ||
187 | "maintainer_email": null, | 187 | "maintainer_email": null, | ||
188 | "metadata_created": "2020-03-26T14:22:53.316433", | 188 | "metadata_created": "2020-03-26T14:22:53.316433", | ||
n | 189 | "metadata_modified": "2022-03-06T13:29:33.429854", | n | 189 | "metadata_modified": "2022-03-06T13:35:13.825737", |
190 | "name": "aerosol-data-weissfluhjoch", | 190 | "name": "aerosol-data-weissfluhjoch", | ||
191 | "notes": "Aerosol properties were measured between February 8 and | 191 | "notes": "Aerosol properties were measured between February 8 and | ||
192 | March 31 2019 at the measurement site Weissfluhjoch (LON: 9.806475, | 192 | March 31 2019 at the measurement site Weissfluhjoch (LON: 9.806475, | ||
193 | LAT: 46.832964). Optical and aerodynamic particle counters, as well as | 193 | LAT: 46.832964). Optical and aerodynamic particle counters, as well as | ||
194 | a scanning mobility particle size spectrometer and an ice nuclei | 194 | a scanning mobility particle size spectrometer and an ice nuclei | ||
195 | counter were deployed to report particle concentrations and size | 195 | counter were deployed to report particle concentrations and size | ||
196 | distributions in fine (10-1000 nm) and coarse mode (> 1000 nm), cloud | 196 | distributions in fine (10-1000 nm) and coarse mode (> 1000 nm), cloud | ||
197 | condensation nuclei concentrations (CCNCs), and ice nuclei particle | 197 | condensation nuclei concentrations (CCNCs), and ice nuclei particle | ||
198 | concentrations (ICNCs). The ambient particles were transported via a | 198 | concentrations (ICNCs). The ambient particles were transported via a | ||
199 | heated inlet to be distributed to the particle detecting devices | 199 | heated inlet to be distributed to the particle detecting devices | ||
200 | inside the setup room. \r\n\r\nOptical Particle Counter (OPC): Light | 200 | inside the setup room. \r\n\r\nOptical Particle Counter (OPC): Light | ||
201 | scattering of a diode laser beam caused by travelling particles is | 201 | scattering of a diode laser beam caused by travelling particles is | ||
202 | used in the both, the OPC-N3 (0.41 - 38.5 μm) and GT-526S (0.3 | 202 | used in the both, the OPC-N3 (0.41 - 38.5 μm) and GT-526S (0.3 | ||
203 | \u2013 5 μm), to determine their size and number concentration. | 203 | \u2013 5 μm), to determine their size and number concentration. | ||
204 | For the OPC-N3, particle size spectra and concentration data are used | 204 | For the OPC-N3, particle size spectra and concentration data are used | ||
205 | afterwards to calculate PM₁, PM₂,₅ and | 205 | afterwards to calculate PM₁, PM₂,₅ and | ||
206 | PM₁₀ (assumptions: particle density: 1.65 g | 206 | PM₁₀ (assumptions: particle density: 1.65 g | ||
207 | cmˉ³, refractive index: 1.5+i0). \r\n\r\nAerodynamic | 207 | cmˉ³, refractive index: 1.5+i0). \r\n\r\nAerodynamic | ||
208 | Particle Sizer (APS): The APS (3321, TSI Inc.) measured the particle | 208 | Particle Sizer (APS): The APS (3321, TSI Inc.) measured the particle | ||
209 | size distribution for aerodynamic diameters between 0.5 μm and | 209 | size distribution for aerodynamic diameters between 0.5 μm and | ||
210 | ~20 μm by the particle\u2019s time-of-flight and light-scattering | 210 | ~20 μm by the particle\u2019s time-of-flight and light-scattering | ||
211 | intensity (assumptions: particle density 1 g cmˉ³). | 211 | intensity (assumptions: particle density 1 g cmˉ³). | ||
212 | \r\n\r\nScanning Mobility Particle Size Spectrometer (SMPS): Particle | 212 | \r\n\r\nScanning Mobility Particle Size Spectrometer (SMPS): Particle | ||
213 | number concentrations in a size range between 12 and 460 nm | 213 | number concentrations in a size range between 12 and 460 nm | ||
214 | (electrical mobility diameter) were measured at Davos Wolfgang, using | 214 | (electrical mobility diameter) were measured at Davos Wolfgang, using | ||
215 | a Scanning Mobility Particle Sizer Spectrometer (SMPS 3938, TSI Inc.). | 215 | a Scanning Mobility Particle Sizer Spectrometer (SMPS 3938, TSI Inc.). | ||
216 | The classifier (3082, TSI Inc.) was equipped with a neutralizer (3088, | 216 | The classifier (3082, TSI Inc.) was equipped with a neutralizer (3088, | ||
217 | TSI Inc.) and a differential mobility analyzer working with negative | 217 | TSI Inc.) and a differential mobility analyzer working with negative | ||
218 | polarity (3081, TSI Inc.). The size selected particles were counted by | 218 | polarity (3081, TSI Inc.). The size selected particles were counted by | ||
219 | a water-based condensation particle counter (3787 TSI Inc.). The TSI | 219 | a water-based condensation particle counter (3787 TSI Inc.). The TSI | ||
220 | AIM software was used to provide particle size distributions by | 220 | AIM software was used to provide particle size distributions by | ||
221 | applying multiple charge and diffusion loss corrections (assumptions: | 221 | applying multiple charge and diffusion loss corrections (assumptions: | ||
222 | particle density 1 g cmˉ³). \r\n\r\nCoriolis μ and | 222 | particle density 1 g cmˉ³). \r\n\r\nCoriolis μ and | ||
223 | LINDA: A microbial air sampler (Coriolis μ, bertin Instruments) | 223 | LINDA: A microbial air sampler (Coriolis μ, bertin Instruments) | ||
224 | was used to collect airborne particles for investigating their ice | 224 | was used to collect airborne particles for investigating their ice | ||
225 | nucleating ability with a droplet freezing device. Particles larger | 225 | nucleating ability with a droplet freezing device. Particles larger | ||
226 | than 0.5 μm were drawn with an air flow rate of up to 300 l | 226 | than 0.5 μm were drawn with an air flow rate of up to 300 l | ||
227 | min‾¹ into the cone and centrifuged into the wall of the | 227 | min‾¹ into the cone and centrifuged into the wall of the | ||
228 | cone due to the forming vortex. The liquid sample was transferred into | 228 | cone due to the forming vortex. The liquid sample was transferred into | ||
229 | the LED based Ice Nucleation Detection Apparatus (LINDA, University of | 229 | the LED based Ice Nucleation Detection Apparatus (LINDA, University of | ||
230 | Basel) to study heterogeneous ice formation (immersion freezing mode) | 230 | Basel) to study heterogeneous ice formation (immersion freezing mode) | ||
231 | of ambient airborne particles. \r\n", | 231 | of ambient airborne particles. \r\n", | ||
n | 232 | "num_resources": 4, | n | 232 | "num_resources": 5, |
233 | "num_tags": 6, | 233 | "num_tags": 6, | ||
234 | "organization": { | 234 | "organization": { | ||
235 | "approval_status": "approved", | 235 | "approval_status": "approved", | ||
236 | "created": "2019-04-16T12:35:23.279710", | 236 | "created": "2019-04-16T12:35:23.279710", | ||
237 | "description": "The Institute for Atmospheric and Climate Science | 237 | "description": "The Institute for Atmospheric and Climate Science | ||
238 | (IAC) is part of the Department of Environmental Systems Science | 238 | (IAC) is part of the Department of Environmental Systems Science | ||
239 | (D-USYS) of the Swiss Federal Institute of Technology Zurich (ETH | 239 | (D-USYS) of the Swiss Federal Institute of Technology Zurich (ETH | ||
240 | Zurich). The IAC focuses on atmospheric and climate processes, | 240 | Zurich). The IAC focuses on atmospheric and climate processes, | ||
241 | including links to the hydrosphere, cryosphere, and biosphere. | 241 | including links to the hydrosphere, cryosphere, and biosphere. | ||
242 | Research is directed at understanding how human activities alter these | 242 | Research is directed at understanding how human activities alter these | ||
243 | processes via changes in greenhouse gases, aerosols, chemical | 243 | processes via changes in greenhouse gases, aerosols, chemical | ||
244 | constituents, and land surfaces and how this impacts upon climate, | 244 | constituents, and land surfaces and how this impacts upon climate, | ||
245 | ozone, UV radiation, pollutant exposure, ecosystems, water resources | 245 | ozone, UV radiation, pollutant exposure, ecosystems, water resources | ||
246 | and extreme events. Emphasisis placed on the improvement of the | 246 | and extreme events. Emphasisis placed on the improvement of the | ||
247 | predictive capabilities on weather and climate time scales and on | 247 | predictive capabilities on weather and climate time scales and on | ||
248 | knowledge transfer between basic sciences, applied sciences, and | 248 | knowledge transfer between basic sciences, applied sciences, and | ||
249 | society. ", | 249 | society. ", | ||
250 | "id": "677814d4-baab-47c2-ba03-8f34882de3cc", | 250 | "id": "677814d4-baab-47c2-ba03-8f34882de3cc", | ||
251 | "image_url": | 251 | "image_url": | ||
252 | "2019-04-16-114039.307713image.imageformat.lightbox.404647511.jpg", | 252 | "2019-04-16-114039.307713image.imageformat.lightbox.404647511.jpg", | ||
253 | "is_organization": true, | 253 | "is_organization": true, | ||
254 | "name": "iac", | 254 | "name": "iac", | ||
255 | "state": "active", | 255 | "state": "active", | ||
256 | "title": "IAC", | 256 | "title": "IAC", | ||
257 | "type": "organization" | 257 | "type": "organization" | ||
258 | }, | 258 | }, | ||
259 | "owner_org": "677814d4-baab-47c2-ba03-8f34882de3cc", | 259 | "owner_org": "677814d4-baab-47c2-ba03-8f34882de3cc", | ||
260 | "private": false, | 260 | "private": false, | ||
261 | "publication": "{\"publication_year\": \"2020\", \"publisher\": | 261 | "publication": "{\"publication_year\": \"2020\", \"publisher\": | ||
262 | \"EnviDat\"}", | 262 | \"EnviDat\"}", | ||
263 | "publication_state": "published", | 263 | "publication_state": "published", | ||
264 | "related_datasets": "", | 264 | "related_datasets": "", | ||
265 | "related_publications": "", | 265 | "related_publications": "", | ||
266 | "relationships_as_object": [], | 266 | "relationships_as_object": [], | ||
267 | "relationships_as_subject": [], | 267 | "relationships_as_subject": [], | ||
268 | "resource_type": "dataset", | 268 | "resource_type": "dataset", | ||
269 | "resource_type_general": "dataset", | 269 | "resource_type_general": "dataset", | ||
270 | "resources": [ | 270 | "resources": [ | ||
271 | { | 271 | { | ||
272 | "cache_last_updated": null, | 272 | "cache_last_updated": null, | ||
273 | "cache_url": null, | 273 | "cache_url": null, | ||
274 | "created": "2020-03-26T14:24:32.714441", | 274 | "created": "2020-03-26T14:24:32.714441", | ||
275 | "description": "Particle concentrations in a size range of 0.35 | 275 | "description": "Particle concentrations in a size range of 0.35 | ||
276 | μm to 40 μm were measured with an OPC-N3 (Alphasense, Inc.) | 276 | μm to 40 μm were measured with an OPC-N3 (Alphasense, Inc.) | ||
277 | in a resolution of 20 seconds (time in UTC). PM₁, | 277 | in a resolution of 20 seconds (time in UTC). PM₁, | ||
278 | PM₂,₅ and PM₁₀ were directly derived. ", | 278 | PM₂,₅ and PM₁₀ were directly derived. ", | ||
279 | "doi": "", | 279 | "doi": "", | ||
280 | "format": "CSV", | 280 | "format": "CSV", | ||
281 | "hash": "", | 281 | "hash": "", | ||
282 | "id": "3932aae8-fa08-4dd7-bb1c-35cdfe3859bf", | 282 | "id": "3932aae8-fa08-4dd7-bb1c-35cdfe3859bf", | ||
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285 | "mimetype": "text/csv", | 285 | "mimetype": "text/csv", | ||
286 | "mimetype_inner": null, | 286 | "mimetype_inner": null, | ||
287 | "name": "OPC-N3 Dataset Weissfluhjoch", | 287 | "name": "OPC-N3 Dataset Weissfluhjoch", | ||
288 | "package_id": "67ab6458-99fd-4f2e-b707-20c8dcf52109", | 288 | "package_id": "67ab6458-99fd-4f2e-b707-20c8dcf52109", | ||
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295 | "size": 54387041, | 295 | "size": 54387041, | ||
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299 | "url_type": "upload" | 299 | "url_type": "upload" | ||
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303 | "cache_url": null, | 303 | "cache_url": null, | ||
304 | "created": "2020-03-26T14:25:47.998297", | 304 | "created": "2020-03-26T14:25:47.998297", | ||
305 | "description": "Particle counts were recorded in six size | 305 | "description": "Particle counts were recorded in six size | ||
306 | channels (0.3, 0.5, 0.8, 1.5, 2.5 and 5 μm) in a resolution of 20 | 306 | channels (0.3, 0.5, 0.8, 1.5, 2.5 and 5 μm) in a resolution of 20 | ||
307 | seconds (time in UTC) by a particle counter (GT-526S, Met One | 307 | seconds (time in UTC) by a particle counter (GT-526S, Met One | ||
308 | Instruments, Inc.).", | 308 | Instruments, Inc.).", | ||
309 | "doi": "", | 309 | "doi": "", | ||
310 | "format": "CSV", | 310 | "format": "CSV", | ||
311 | "hash": "", | 311 | "hash": "", | ||
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313 | "last_modified": "2020-03-26T14:25:47.851332", | 313 | "last_modified": "2020-03-26T14:25:47.851332", | ||
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315 | "mimetype": "text/csv", | 315 | "mimetype": "text/csv", | ||
316 | "mimetype_inner": null, | 316 | "mimetype_inner": null, | ||
317 | "name": "OPC-GT526S Dataset Weissfluhjoch", | 317 | "name": "OPC-GT526S Dataset Weissfluhjoch", | ||
318 | "package_id": "67ab6458-99fd-4f2e-b707-20c8dcf52109", | 318 | "package_id": "67ab6458-99fd-4f2e-b707-20c8dcf52109", | ||
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329 | "url_type": "upload" | 329 | "url_type": "upload" | ||
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332 | "cache_last_updated": null, | 332 | "cache_last_updated": null, | ||
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334 | "created": "2020-05-18T14:25:54.655475", | 334 | "created": "2020-05-18T14:25:54.655475", | ||
335 | "description": "The APS file contains aerosol data (total number | 335 | "description": "The APS file contains aerosol data (total number | ||
336 | concentration, median, mean, geometric mean, mode and geometric | 336 | concentration, median, mean, geometric mean, mode and geometric | ||
337 | standard deviation of the size distribution) for aerodynamic diameters | 337 | standard deviation of the size distribution) for aerodynamic diameters | ||
338 | between 0.5 μm and ~20 μm as well as instrument | 338 | between 0.5 μm and ~20 μm as well as instrument | ||
339 | characteristics, in a temporal resolution of 20 seconds, with time in | 339 | characteristics, in a temporal resolution of 20 seconds, with time in | ||
340 | UTC, measured at Weissfluhjoch.", | 340 | UTC, measured at Weissfluhjoch.", | ||
341 | "doi": "", | 341 | "doi": "", | ||
342 | "format": "netcdf4", | 342 | "format": "netcdf4", | ||
343 | "hash": "", | 343 | "hash": "", | ||
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366 | "created": "2020-06-15T09:12:08.616257", | 366 | "created": "2020-06-15T09:12:08.616257", | ||
367 | "description": "The SMPS file contains aerosol data (particle | 367 | "description": "The SMPS file contains aerosol data (particle | ||
368 | concentration, total number concentration, median, mean, geometric | 368 | concentration, total number concentration, median, mean, geometric | ||
369 | mean, mode and geometric standard deviation of the size distribution) | 369 | mean, mode and geometric standard deviation of the size distribution) | ||
370 | in a size range between 12 and 460 nm (electrical mobility diameter) | 370 | in a size range between 12 and 460 nm (electrical mobility diameter) | ||
371 | as well as instrument characteristics (sample temperature, pressure, | 371 | as well as instrument characteristics (sample temperature, pressure, | ||
372 | relative humidity, mean free path and gas viscosity) in a temporal | 372 | relative humidity, mean free path and gas viscosity) in a temporal | ||
373 | resolution of 2 minutes, with time in UTC, measured at | 373 | resolution of 2 minutes, with time in UTC, measured at | ||
374 | Weissfluhjoch.", | 374 | Weissfluhjoch.", | ||
375 | "doi": "", | 375 | "doi": "", | ||
376 | "format": "netcdf4", | 376 | "format": "netcdf4", | ||
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402 | temperature (in \u00b0C) dependent frozen fractions, number of Ice | ||||
403 | Nuleating Particles (INP, per standard liter) and differential INP | ||||
404 | concentrations (per standard liter and Kelvin).", | ||||
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399 | 46.832964]}", | 430 | 46.832964]}", | ||
400 | "spatial_info": "Switzerland", | 431 | "spatial_info": "Switzerland", | ||
401 | "state": "active", | 432 | "state": "active", | ||
402 | "subtitle": "", | 433 | "subtitle": "", | ||
403 | "tags": [ | 434 | "tags": [ | ||
404 | { | 435 | { | ||
405 | "display_name": "AEROSOL", | 436 | "display_name": "AEROSOL", | ||
406 | "id": "d5b3dc42-7a15-4ce1-8c53-8a7666a1f7ea", | 437 | "id": "d5b3dc42-7a15-4ce1-8c53-8a7666a1f7ea", | ||
407 | "name": "AEROSOL", | 438 | "name": "AEROSOL", | ||
408 | "state": "active", | 439 | "state": "active", | ||
409 | "vocabulary_id": null | 440 | "vocabulary_id": null | ||
410 | }, | 441 | }, | ||
411 | { | 442 | { | ||
412 | "display_name": "ICE NUCLEATION", | 443 | "display_name": "ICE NUCLEATION", | ||
413 | "id": "834c08f2-dfc1-4c50-b478-eea20c673c97", | 444 | "id": "834c08f2-dfc1-4c50-b478-eea20c673c97", | ||
414 | "name": "ICE NUCLEATION", | 445 | "name": "ICE NUCLEATION", | ||
415 | "state": "active", | 446 | "state": "active", | ||
416 | "vocabulary_id": null | 447 | "vocabulary_id": null | ||
417 | }, | 448 | }, | ||
418 | { | 449 | { | ||
419 | "display_name": "INP", | 450 | "display_name": "INP", | ||
420 | "id": "2df9a942-3bb3-4b63-9718-b14c7ce3284c", | 451 | "id": "2df9a942-3bb3-4b63-9718-b14c7ce3284c", | ||
421 | "name": "INP", | 452 | "name": "INP", | ||
422 | "state": "active", | 453 | "state": "active", | ||
423 | "vocabulary_id": null | 454 | "vocabulary_id": null | ||
424 | }, | 455 | }, | ||
425 | { | 456 | { | ||
426 | "display_name": "LINDA", | 457 | "display_name": "LINDA", | ||
427 | "id": "3e4b1bf5-56b9-4576-8a7a-768fc5641b94", | 458 | "id": "3e4b1bf5-56b9-4576-8a7a-768fc5641b94", | ||
428 | "name": "LINDA", | 459 | "name": "LINDA", | ||
429 | "state": "active", | 460 | "state": "active", | ||
430 | "vocabulary_id": null | 461 | "vocabulary_id": null | ||
431 | }, | 462 | }, | ||
432 | { | 463 | { | ||
433 | "display_name": "PARTICLES", | 464 | "display_name": "PARTICLES", | ||
434 | "id": "a313cbad-02db-4327-9ecf-22f23204c95e", | 465 | "id": "a313cbad-02db-4327-9ecf-22f23204c95e", | ||
435 | "name": "PARTICLES", | 466 | "name": "PARTICLES", | ||
436 | "state": "active", | 467 | "state": "active", | ||
437 | "vocabulary_id": null | 468 | "vocabulary_id": null | ||
438 | }, | 469 | }, | ||
439 | { | 470 | { | ||
440 | "display_name": "RACLETS", | 471 | "display_name": "RACLETS", | ||
441 | "id": "8e54a744-139c-4f81-8a64-6b059187a3b2", | 472 | "id": "8e54a744-139c-4f81-8a64-6b059187a3b2", | ||
442 | "name": "RACLETS", | 473 | "name": "RACLETS", | ||
443 | "state": "active", | 474 | "state": "active", | ||
444 | "vocabulary_id": null | 475 | "vocabulary_id": null | ||
445 | } | 476 | } | ||
446 | ], | 477 | ], | ||
447 | "title": "Aerosol Data Weissfluhjoch", | 478 | "title": "Aerosol Data Weissfluhjoch", | ||
448 | "type": "dataset", | 479 | "type": "dataset", | ||
449 | "url": null, | 480 | "url": null, | ||
450 | "version": "1.0" | 481 | "version": "1.0" | ||
451 | } | 482 | } |