Changes
On August 23, 2023 at 8:33:45 AM UTC, Dieter Rickenmann:
-
Updated description of resource avancon-de-nant-event-3-August-2020.zip in Sediment transport observations in Swiss mountain streams from
Data used in paper: Antoniazza, G., Dietze, M., Mancini, D., Turowski, J. M., Rickenmann, D., Nicollier, T., et al. (2023). Anatomy of an Alpine bedload transport event: A watershed-scale seismic-network perspective. Journal of Geophysical Research: Earth Surface, 128, e2022JF007000. https://doi.org/10.1029/2022JF007000
toData used in paper: Antoniazza, G., Dietze, M., Mancini, D., Turowski, J.M., Rickenmann, D., Nicollier, T., Boss, S., Lane, S.N. (2023). Anatomy of an Alpine bedload transport event: A watershed-scale seismic-network perspective. Journal of Geophysical Research: Earth Surface, 128, e2022JF007000. https://doi.org/10.1029/2022JF007000
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6 | \"identifier\": \"0000-0002-2205-892X\", \"name\": \"Rickenmann\"}, | 6 | \"identifier\": \"0000-0002-2205-892X\", \"name\": \"Rickenmann\"}, | ||
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11 | \"identifier\": \"0000-0002-0394-3237\", \"name\": \"Antoniazza\"}, | 11 | \"identifier\": \"0000-0002-0394-3237\", \"name\": \"Antoniazza\"}, | ||
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16 | \"identifier\": \"0000-0003-2599-9343\", \"name\": \"Nicollier\"}, | 16 | \"identifier\": \"0000-0003-2599-9343\", \"name\": \"Nicollier\"}, | ||
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24 | \"stefan.boss@wsl.ch\", \"given_name\": \"Stefan\", \"identifier\": | 24 | \"stefan.boss@wsl.ch\", \"given_name\": \"Stefan\", \"identifier\": | ||
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32 | \"nicolas.steeb@wsl.ch\", \"given_name\": \"Nicolas\", \"identifier\": | 32 | \"nicolas.steeb@wsl.ch\", \"given_name\": \"Nicolas\", \"identifier\": | ||
33 | \"\", \"name\": \"Steeb\"}, {\"affiliation\": \"WSL\", | 33 | \"\", \"name\": \"Steeb\"}, {\"affiliation\": \"WSL\", | ||
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36 | \"email\": \"alexandre.badoux@wsl.ch\", \"given_name\": \"Alexandre\", | 36 | \"email\": \"alexandre.badoux@wsl.ch\", \"given_name\": \"Alexandre\", | ||
37 | \"identifier\": \"0000-0002-5450-4613\", \"name\": \"Badoux\"}]", | 37 | \"identifier\": \"0000-0002-5450-4613\", \"name\": \"Badoux\"}]", | ||
38 | "author_email": null, | 38 | "author_email": null, | ||
39 | "creator_user_id": "f3e46d4e-4127-4e13-b1ac-3d01c90b65c2", | 39 | "creator_user_id": "f3e46d4e-4127-4e13-b1ac-3d01c90b65c2", | ||
40 | "date": | 40 | "date": | ||
41 | :\"collected\",\"date\":\"2020-08-03\",\"end_date\":\"2020-08-03\"}]", | 41 | :\"collected\",\"date\":\"2020-08-03\",\"end_date\":\"2020-08-03\"}]", | ||
42 | "doi": "", | 42 | "doi": "", | ||
43 | "funding": "[{\"grant_number\": \"\", \"institution\": \"WSL, BAFU, | 43 | "funding": "[{\"grant_number\": \"\", \"institution\": \"WSL, BAFU, | ||
44 | SNSF, CREALP, UNIL, ETHZ, DFG\", \"institution_url\": \"\"}]", | 44 | SNSF, CREALP, UNIL, ETHZ, DFG\", \"institution_url\": \"\"}]", | ||
45 | "groups": [], | 45 | "groups": [], | ||
46 | "id": "0387b6bb-a4f8-4e0d-87e0-6eff063422bd", | 46 | "id": "0387b6bb-a4f8-4e0d-87e0-6eff063422bd", | ||
47 | "isopen": false, | 47 | "isopen": false, | ||
48 | "language": "en", | 48 | "language": "en", | ||
49 | "license_id": "wsl-data", | 49 | "license_id": "wsl-data", | ||
50 | "license_title": "WSL Data Policy", | 50 | "license_title": "WSL Data Policy", | ||
51 | "license_url": | 51 | "license_url": | ||
52 | ps://www.wsl.ch/en/about-wsl/programmes-and-initiatives/envidat.html", | 52 | ps://www.wsl.ch/en/about-wsl/programmes-and-initiatives/envidat.html", | ||
53 | "maintainer": "{\"affiliation\": \"WSL\", \"email\": | 53 | "maintainer": "{\"affiliation\": \"WSL\", \"email\": | ||
54 | \"dieter.rickenmann@wsl.ch\", \"given_name\": \"Dieter\", | 54 | \"dieter.rickenmann@wsl.ch\", \"given_name\": \"Dieter\", | ||
55 | \"identifier\": \"0000-0002-2205-892X\", \"name\": \"Rickenmann\"}", | 55 | \"identifier\": \"0000-0002-2205-892X\", \"name\": \"Rickenmann\"}", | ||
56 | "maintainer_email": null, | 56 | "maintainer_email": null, | ||
57 | "metadata_created": "2020-07-21T13:58:50.653539", | 57 | "metadata_created": "2020-07-21T13:58:50.653539", | ||
n | 58 | "metadata_modified": "2023-08-23T08:32:32.870908", | n | 58 | "metadata_modified": "2023-08-23T08:33:45.557170", |
59 | "name": "sediment-transport-observations-in-swiss-mountain-streams", | 59 | "name": "sediment-transport-observations-in-swiss-mountain-streams", | ||
60 | "notes": "The Swiss Federal Research Institute WSL has extensive | 60 | "notes": "The Swiss Federal Research Institute WSL has extensive | ||
61 | experience with surrogate bedload transport measurements. The first | 61 | experience with surrogate bedload transport measurements. The first | ||
62 | measuring site was established in the Erlenbach stream, a small | 62 | measuring site was established in the Erlenbach stream, a small | ||
63 | (first-order) catchment in the pre-alpine valley Alptal in central | 63 | (first-order) catchment in the pre-alpine valley Alptal in central | ||
64 | Switzerland. Continuous bedload transport measurements were started in | 64 | Switzerland. Continuous bedload transport measurements were started in | ||
65 | 1986, using first piezoelectric sensors (1986 to 1999) and then | 65 | 1986, using first piezoelectric sensors (1986 to 1999) and then | ||
66 | geophone sensors (from 2002 onwards) underneath a steel plate and | 66 | geophone sensors (from 2002 onwards) underneath a steel plate and | ||
67 | mounted flush with the streambed. In the meantime, the so-called Swiss | 67 | mounted flush with the streambed. In the meantime, the so-called Swiss | ||
68 | plate geophone (SPG) system has been installed at more than 20 field | 68 | plate geophone (SPG) system has been installed at more than 20 field | ||
69 | sites, primarily in smaller and steeper streams in Switzerland, | 69 | sites, primarily in smaller and steeper streams in Switzerland, | ||
70 | Austria, and Italy but also in a few larger rivers and in some other | 70 | Austria, and Italy but also in a few larger rivers and in some other | ||
71 | streams worldwide (Israel, USA, Japan). \r\nSediment transport | 71 | streams worldwide (Israel, USA, Japan). \r\nSediment transport | ||
72 | observations in Switzerland with the SPG system concern the following | 72 | observations in Switzerland with the SPG system concern the following | ||
73 | streams: Erlenbach near Brunni (Alptal valley), Albula at | 73 | streams: Erlenbach near Brunni (Alptal valley), Albula at | ||
74 | Tiefencastel, Navisence at Zinal, Avan\u00e7on de Nant near Pont de | 74 | Tiefencastel, Navisence at Zinal, Avan\u00e7on de Nant near Pont de | ||
75 | Nant (see map). The data in this repository primarily refer to | 75 | Nant (see map). The data in this repository primarily refer to | ||
76 | calibration measurements with the SPG system. The publications listed | 76 | calibration measurements with the SPG system. The publications listed | ||
77 | here discuss primarily the performance of the measuring system but | 77 | here discuss primarily the performance of the measuring system but | ||
78 | also process-based aspects of bedload transport.", | 78 | also process-based aspects of bedload transport.", | ||
79 | "num_resources": 7, | 79 | "num_resources": 7, | ||
80 | "num_tags": 6, | 80 | "num_tags": 6, | ||
81 | "organization": { | 81 | "organization": { | ||
82 | "approval_status": "approved", | 82 | "approval_status": "approved", | ||
83 | "created": "2016-09-02T14:17:02.029939", | 83 | "created": "2016-09-02T14:17:02.029939", | ||
84 | "description": " The Research Unit investigates natural hazard | 84 | "description": " The Research Unit investigates natural hazard | ||
85 | processes in mountainous areas, in particular the triggering and | 85 | processes in mountainous areas, in particular the triggering and | ||
86 | propagation of floods, sediment transport, landslides, debris flows | 86 | propagation of floods, sediment transport, landslides, debris flows | ||
87 | and rock fall. Process studies on the scale of slopes, channels and | 87 | and rock fall. Process studies on the scale of slopes, channels and | ||
88 | catchments form the basis for the development of simulation models and | 88 | catchments form the basis for the development of simulation models and | ||
89 | of hazard assessment procedures and for the design of countermeasures. | 89 | of hazard assessment procedures and for the design of countermeasures. | ||
90 | To this end worldwide unique observation systems are developed, such | 90 | To this end worldwide unique observation systems are developed, such | ||
91 | as a debris flow balance and geophone systems for bedload transport. | 91 | as a debris flow balance and geophone systems for bedload transport. | ||
92 | Damage and damaging processes due to frequent and extreme events are | 92 | Damage and damaging processes due to frequent and extreme events are | ||
93 | assessed as prerequisites for the risk-based and sustainable | 93 | assessed as prerequisites for the risk-based and sustainable | ||
94 | management of natural hazards.\r\n\r\nA second focus of the unit is on | 94 | management of natural hazards.\r\n\r\nA second focus of the unit is on | ||
95 | the estimation and prediction of snow and water resources, e.g. for | 95 | the estimation and prediction of snow and water resources, e.g. for | ||
96 | hydropower production or early recognition of drought. The unit | 96 | hydropower production or early recognition of drought. The unit | ||
97 | operates a snow hydrological service for federal and cantonal agencies | 97 | operates a snow hydrological service for federal and cantonal agencies | ||
98 | and a drought information platform for a broad range of water | 98 | and a drought information platform for a broad range of water | ||
99 | users.\r\n\r\n__Further information__: | 99 | users.\r\n\r\n__Further information__: | ||
100 | .ch/en/about-wsl/organization/research-units/mountain-hydrology.html", | 100 | .ch/en/about-wsl/organization/research-units/mountain-hydrology.html", | ||
101 | "id": "8ca28da8-ad8f-401a-9356-0aa7fdba2604", | 101 | "id": "8ca28da8-ad8f-401a-9356-0aa7fdba2604", | ||
102 | "image_url": "2018-07-10-091052.004438LogoWSL.svg", | 102 | "image_url": "2018-07-10-091052.004438LogoWSL.svg", | ||
103 | "is_organization": true, | 103 | "is_organization": true, | ||
104 | "name": "gebirgshydrologie", | 104 | "name": "gebirgshydrologie", | ||
105 | "state": "active", | 105 | "state": "active", | ||
106 | "title": "GebirgsHydrologie", | 106 | "title": "GebirgsHydrologie", | ||
107 | "type": "organization" | 107 | "type": "organization" | ||
108 | }, | 108 | }, | ||
109 | "owner_org": "8ca28da8-ad8f-401a-9356-0aa7fdba2604", | 109 | "owner_org": "8ca28da8-ad8f-401a-9356-0aa7fdba2604", | ||
110 | "private": false, | 110 | "private": false, | ||
111 | "publication": "{\"publication_year\": \"2020\", \"publisher\": | 111 | "publication": "{\"publication_year\": \"2020\", \"publisher\": | ||
112 | \"EnviDat\"}", | 112 | \"EnviDat\"}", | ||
113 | "publication_state": "", | 113 | "publication_state": "", | ||
114 | "related_datasets": "", | 114 | "related_datasets": "", | ||
115 | "related_publications": "(A selection of related publications is | 115 | "related_publications": "(A selection of related publications is | ||
116 | listed here:)\r\n\r\nAntoniazza, G., Nicollier, T., Boss, S., Mettra, | 116 | listed here:)\r\n\r\nAntoniazza, G., Nicollier, T., Boss, S., Mettra, | ||
117 | F., Badoux, A., Schaefli, B., Rickenmann, D., Lane, S.N., 2022. | 117 | F., Badoux, A., Schaefli, B., Rickenmann, D., Lane, S.N., 2022. | ||
118 | Hydrological drivers of bedload transport in an Alpine watershed. | 118 | Hydrological drivers of bedload transport in an Alpine watershed. | ||
119 | Water Resources Research, 58, e2021WR030663. | 119 | Water Resources Research, 58, e2021WR030663. | ||
120 | https://doi.org/10.1029/2021WR030663\r\n\r\nAntoniazza, G., Nicollier, | 120 | https://doi.org/10.1029/2021WR030663\r\n\r\nAntoniazza, G., Nicollier, | ||
121 | T., Wyss, C.R., Boss, S., Rickenmann, D., 2020. Bedload Transport | 121 | T., Wyss, C.R., Boss, S., Rickenmann, D., 2020. Bedload Transport | ||
122 | Monitoring in Alpine Rivers: Variability in Swiss Plate Geophone | 122 | Monitoring in Alpine Rivers: Variability in Swiss Plate Geophone | ||
123 | Response. Sensors 2020, 20, 4089; | 123 | Response. Sensors 2020, 20, 4089; | ||
124 | doi:10.3390/s20154089.\r\n\r\nNicollier, T., Rickenmann, D., Hartlieb, | 124 | doi:10.3390/s20154089.\r\n\r\nNicollier, T., Rickenmann, D., Hartlieb, | ||
125 | A., 2021. Field and flume measurements with the impact plate: Effect | 125 | A., 2021. Field and flume measurements with the impact plate: Effect | ||
126 | of bedload grain-size distribution on signal response. Earth Surface | 126 | of bedload grain-size distribution on signal response. Earth Surface | ||
127 | Processes and Landforms. 2021; 46:1504\u20131520. | 127 | Processes and Landforms. 2021; 46:1504\u20131520. | ||
128 | http://doi.org/10.1002/esp.5117\r\n\r\nRickenmann, D., 2020. Effect of | 128 | http://doi.org/10.1002/esp.5117\r\n\r\nRickenmann, D., 2020. Effect of | ||
129 | sediment supply on cyclic fluctuations of the disequilibrium ratio and | 129 | sediment supply on cyclic fluctuations of the disequilibrium ratio and | ||
130 | threshold transport discharge, inferred from bedload transport | 130 | threshold transport discharge, inferred from bedload transport | ||
131 | measurements over 27 years at the Swiss Erlenbach stream. Water | 131 | measurements over 27 years at the Swiss Erlenbach stream. Water | ||
132 | Resources Research, 56, e2020WR027741. | 132 | Resources Research, 56, e2020WR027741. | ||
133 | https://doi.org/10.1029/2020WR027741\r\n\r\nRickenmann, D., 2017. | 133 | https://doi.org/10.1029/2020WR027741\r\n\r\nRickenmann, D., 2017. | ||
134 | Bed-load transport measurements with geophones and other passive | 134 | Bed-load transport measurements with geophones and other passive | ||
135 | acoustic methods. Journal of Hydraulic Engineering, 143(6), | 135 | acoustic methods. Journal of Hydraulic Engineering, 143(6), | ||
136 | 03117004-1-14, doi: | 136 | 03117004-1-14, doi: | ||
137 | 10.1061/(ASCE)HY.1943-7900.0001300\r\n\r\nRickenmann, D., McArdell, | 137 | 10.1061/(ASCE)HY.1943-7900.0001300\r\n\r\nRickenmann, D., McArdell, | ||
138 | B.W., 2007. Continuous measurement of sediment transport in the | 138 | B.W., 2007. Continuous measurement of sediment transport in the | ||
139 | Erlenbach stream using piezoelectric bedload impact sensors. Earth | 139 | Erlenbach stream using piezoelectric bedload impact sensors. Earth | ||
140 | Surface Processes and Landforms, 32, | 140 | Surface Processes and Landforms, 32, | ||
141 | 1362\u20131378.\r\n\r\nRickenmann, D., Fritschi, B., 2010. Bedload | 141 | 1362\u20131378.\r\n\r\nRickenmann, D., Fritschi, B., 2010. Bedload | ||
142 | transport measurements using piezoelectric impact sensors and | 142 | transport measurements using piezoelectric impact sensors and | ||
143 | geophones. Rep. SIR 2010-5091, U.S. Geological Survey Scientific | 143 | geophones. Rep. SIR 2010-5091, U.S. Geological Survey Scientific | ||
144 | Investigations, Reston, VA,407\u2013423.\r\n\r\nRickenmann, D., | 144 | Investigations, Reston, VA,407\u2013423.\r\n\r\nRickenmann, D., | ||
145 | Turowski, J.M., Fritschi, B., Klaiber, A., Ludwig, A., 2012. Bedload | 145 | Turowski, J.M., Fritschi, B., Klaiber, A., Ludwig, A., 2012. Bedload | ||
146 | transport measurements at the Erlenbach stream with geophones and | 146 | transport measurements at the Erlenbach stream with geophones and | ||
147 | automated basket samplers. Earth Surface Processes and Landforms, 37, | 147 | automated basket samplers. Earth Surface Processes and Landforms, 37, | ||
148 | 1000-1011, doi: 10.1002/esp.3225\r\n\r\nRickenmann, D., J. M. | 148 | 1000-1011, doi: 10.1002/esp.3225\r\n\r\nRickenmann, D., J. M. | ||
149 | Turowski, B. Fritschi, C. Wyss, J. B. Laronne, R. Barzilai, I. Reid, | 149 | Turowski, B. Fritschi, C. Wyss, J. B. Laronne, R. Barzilai, I. Reid, | ||
150 | A. Kreisler, J. Aigner, H. Habersack, 2014. Bedloadtransport | 150 | A. Kreisler, J. Aigner, H. Habersack, 2014. Bedloadtransport | ||
151 | measurements with impact plate geophones: Comparison of sensor | 151 | measurements with impact plate geophones: Comparison of sensor | ||
152 | calibration at different gravel-bed streams. Earth Surface Processes | 152 | calibration at different gravel-bed streams. Earth Surface Processes | ||
153 | and Landforms, 39, 928\u2013942, | 153 | and Landforms, 39, 928\u2013942, | ||
154 | doi:10.1002/esp.3499.\r\n\r\nRickenmann, D., Antoniazza, G., Wyss, | 154 | doi:10.1002/esp.3499.\r\n\r\nRickenmann, D., Antoniazza, G., Wyss, | ||
155 | C.R., Fritschi, B., Boss, S., 2017. Bedload transport moni-toring with | 155 | C.R., Fritschi, B., Boss, S., 2017. Bedload transport moni-toring with | ||
156 | acoustic sensors in the Swiss Albula mountain river. Proc. IAHS, 375, | 156 | acoustic sensors in the Swiss Albula mountain river. Proc. IAHS, 375, | ||
157 | 5-10, doi:10.5194/piahs-375-5-2017.\r\n\r\nWyss, C. R., Rickenmann, | 157 | 5-10, doi:10.5194/piahs-375-5-2017.\r\n\r\nWyss, C. R., Rickenmann, | ||
158 | D., Fritschi, B., Turowski, J. M., Weitbrecht, V., Boes, R. M., 2016. | 158 | D., Fritschi, B., Turowski, J. M., Weitbrecht, V., Boes, R. M., 2016. | ||
159 | Measuring bedload transport rates by grainsize fraction using the | 159 | Measuring bedload transport rates by grainsize fraction using the | ||
160 | Swiss plate geophone at the Erlenbach. Journal of Hydraulic | 160 | Swiss plate geophone at the Erlenbach. Journal of Hydraulic | ||
161 | Engineering, 142(5), 1\u201311, | 161 | Engineering, 142(5), 1\u201311, | ||
162 | doi:10.1061/(ASCE)HY.1943-7900.0001090\r\n\r\nWyss, C. R., Rickenmann, | 162 | doi:10.1061/(ASCE)HY.1943-7900.0001090\r\n\r\nWyss, C. R., Rickenmann, | ||
163 | D., Fritschi, B., Turowski, J. M., Weitbrecht, V., Boes, R. M., 2016. | 163 | D., Fritschi, B., Turowski, J. M., Weitbrecht, V., Boes, R. M., 2016. | ||
164 | Laboratory flume experiments with the Swiss plate geophone bedload | 164 | Laboratory flume experiments with the Swiss plate geophone bedload | ||
165 | monitoring system. Part I: Impulse counts and particle size | 165 | monitoring system. Part I: Impulse counts and particle size | ||
166 | identification. Water Resources Research, 52(10), | 166 | identification. Water Resources Research, 52(10), | ||
167 | 7744\u20137759.\r\n\r\nWyss, C. R., Rickenmann, D., Fritschi, B., | 167 | 7744\u20137759.\r\n\r\nWyss, C. R., Rickenmann, D., Fritschi, B., | ||
168 | Turowski, J. M., Weitbrecht, V., Travaglini, E., Bardou, E., Boes, R. | 168 | Turowski, J. M., Weitbrecht, V., Travaglini, E., Bardou, E., Boes, R. | ||
169 | M., 2016. Laboratory flume experiments with the Swiss plate geophone | 169 | M., 2016. Laboratory flume experiments with the Swiss plate geophone | ||
170 | bedload monitoring system: 2. Application to field sites with direct | 170 | bedload monitoring system: 2. Application to field sites with direct | ||
171 | bedload samples. Water Resources Research, 52, 7760\u20137778, | 171 | bedload samples. Water Resources Research, 52, 7760\u20137778, | ||
172 | doi:10.1002/2016WR019283\r\n", | 172 | doi:10.1002/2016WR019283\r\n", | ||
173 | "relationships_as_object": [], | 173 | "relationships_as_object": [], | ||
174 | "relationships_as_subject": [], | 174 | "relationships_as_subject": [], | ||
175 | "resource_type": "dataset", | 175 | "resource_type": "dataset", | ||
176 | "resource_type_general": "dataset", | 176 | "resource_type_general": "dataset", | ||
177 | "resources": [ | 177 | "resources": [ | ||
178 | { | 178 | { | ||
179 | "cache_last_updated": null, | 179 | "cache_last_updated": null, | ||
180 | "cache_url": null, | 180 | "cache_url": null, | ||
181 | "created": "2020-07-21T14:03:11.836273", | 181 | "created": "2020-07-21T14:03:11.836273", | ||
182 | "description": "Data used in paper: Antoniazza, G., Nicollier, | 182 | "description": "Data used in paper: Antoniazza, G., Nicollier, | ||
183 | T., Wyss, C.R., Boss, S., Rickenmann, D., 2020. Bedload Transport | 183 | T., Wyss, C.R., Boss, S., Rickenmann, D., 2020. Bedload Transport | ||
184 | Monitoring in Alpine Rivers: Variability in Swiss Plate Geophone | 184 | Monitoring in Alpine Rivers: Variability in Swiss Plate Geophone | ||
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214 | and Threshold Transport Discharge, Inferred from Bedload Transport | 214 | and Threshold Transport Discharge, Inferred from Bedload Transport | ||
215 | Measurements over 27 Years at the Swiss Erlenbach stream. Water | 215 | Measurements over 27 Years at the Swiss Erlenbach stream. Water | ||
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245 | (since 2009), the Albula (2018), the Navisence (2019) and the | 245 | (since 2009), the Albula (2018), the Navisence (2019) and the | ||
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248 | Plate Geophone System for Fractional Bedload Transport\" submitted to | 248 | Plate Geophone System for Fractional Bedload Transport\" submitted to | ||
249 | Earth Surface Dynamics on the 14th of January 2022.\r\n\"Improving the | 249 | Earth Surface Dynamics on the 14th of January 2022.\r\n\"Improving the | ||
250 | Calibration of Impact Plate Bedload Monitoring Systems by Filtering | 250 | Calibration of Impact Plate Bedload Monitoring Systems by Filtering | ||
251 | Out Acoustic Signals from Extraneous Particle Impacts\" submitted to | 251 | Out Acoustic Signals from Extraneous Particle Impacts\" submitted to | ||
252 | Earth and Space Science on the 13th of August 2021.\r\n", | 252 | Earth and Space Science on the 13th of August 2021.\r\n", | ||
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283 | Calibration of the Swiss Plate Geophone System for Fractional Bedload | 283 | Calibration of the Swiss Plate Geophone System for Fractional Bedload | ||
284 | Transport\" submitted to Earth Surface Dynamics on the 14th of January | 284 | Transport\" submitted to Earth Surface Dynamics on the 14th of January | ||
285 | 2022.\r\n\"Improving the Calibration of Impact Plate Bedload | 285 | 2022.\r\n\"Improving the Calibration of Impact Plate Bedload | ||
286 | Monitoring Systems by Filtering Out Acoustic Signals from Extraneous | 286 | Monitoring Systems by Filtering Out Acoustic Signals from Extraneous | ||
287 | Particle Impacts\" submitted to Earth and Space Science on the 13th of | 287 | Particle Impacts\" submitted to Earth and Space Science on the 13th of | ||
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318 | Lane, S.N., 2022. Hydrological Drivers of Bedload Transport in an | 318 | Lane, S.N., 2022. Hydrological Drivers of Bedload Transport in an | ||
319 | Alpine Watershed. Water Resources Research, 58, e2021WR030663. | 319 | Alpine Watershed. Water Resources Research, 58, e2021WR030663. | ||
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351 | Chen, Z., Wyss, C., Badoux, A. (2022). Comparison of calibration | 351 | Chen, Z., Wyss, C., Badoux, A. (2022). Comparison of calibration | ||
352 | characteristics of different acoustic impact systems for measuring | 352 | characteristics of different acoustic impact systems for measuring | ||
353 | bedload transport in mountain streams. Earth Surface Dynamics | 353 | bedload transport in mountain streams. Earth Surface Dynamics | ||
354 | Discussions, https://doi.org/10.5194/esurf-2022-7", | 354 | Discussions, https://doi.org/10.5194/esurf-2022-7", | ||
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385 | (2023). Anatomy of an Alpine bedload transport event: A | 385 | Lane, S.N. (2023). Anatomy of an Alpine bedload transport event: A | ||
386 | watershed-scale seismic-network perspective. Journal of Geophysical | 386 | watershed-scale seismic-network perspective. Journal of Geophysical | ||
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419 | "tags": [ | 419 | "tags": [ | ||
420 | { | 420 | { | ||
421 | "display_name": "BEDLOAD TRANSPORT", | 421 | "display_name": "BEDLOAD TRANSPORT", | ||
422 | "id": "07d35ca6-2499-421f-8f9e-532ffef7ce77", | 422 | "id": "07d35ca6-2499-421f-8f9e-532ffef7ce77", | ||
423 | "name": "BEDLOAD TRANSPORT", | 423 | "name": "BEDLOAD TRANSPORT", | ||
424 | "state": "active", | 424 | "state": "active", | ||
425 | "vocabulary_id": null | 425 | "vocabulary_id": null | ||
426 | }, | 426 | }, | ||
427 | { | 427 | { | ||
428 | "display_name": "MOUNTAIN STREAM", | 428 | "display_name": "MOUNTAIN STREAM", | ||
429 | "id": "34a19918-208e-49c4-8528-590bd8d87da6", | 429 | "id": "34a19918-208e-49c4-8528-590bd8d87da6", | ||
430 | "name": "MOUNTAIN STREAM", | 430 | "name": "MOUNTAIN STREAM", | ||
431 | "state": "active", | 431 | "state": "active", | ||
432 | "vocabulary_id": null | 432 | "vocabulary_id": null | ||
433 | }, | 433 | }, | ||
434 | { | 434 | { | ||
435 | "display_name": "RIVER", | 435 | "display_name": "RIVER", | ||
436 | "id": "ce3f2d59-3d8c-49a4-b762-6771337b6707", | 436 | "id": "ce3f2d59-3d8c-49a4-b762-6771337b6707", | ||
437 | "name": "RIVER", | 437 | "name": "RIVER", | ||
438 | "state": "active", | 438 | "state": "active", | ||
439 | "vocabulary_id": null | 439 | "vocabulary_id": null | ||
440 | }, | 440 | }, | ||
441 | { | 441 | { | ||
442 | "display_name": "SEDIMENT TRANSPORT", | 442 | "display_name": "SEDIMENT TRANSPORT", | ||
443 | "id": "0a7bf988-6e16-47f8-99ec-00befec19c88", | 443 | "id": "0a7bf988-6e16-47f8-99ec-00befec19c88", | ||
444 | "name": "SEDIMENT TRANSPORT", | 444 | "name": "SEDIMENT TRANSPORT", | ||
445 | "state": "active", | 445 | "state": "active", | ||
446 | "vocabulary_id": null | 446 | "vocabulary_id": null | ||
447 | }, | 447 | }, | ||
448 | { | 448 | { | ||
449 | "display_name": "SURROGATE MEASUREMENT", | 449 | "display_name": "SURROGATE MEASUREMENT", | ||
450 | "id": "3ec3ddac-27b0-4304-863e-6425a886f540", | 450 | "id": "3ec3ddac-27b0-4304-863e-6425a886f540", | ||
451 | "name": "SURROGATE MEASUREMENT", | 451 | "name": "SURROGATE MEASUREMENT", | ||
452 | "state": "active", | 452 | "state": "active", | ||
453 | "vocabulary_id": null | 453 | "vocabulary_id": null | ||
454 | }, | 454 | }, | ||
455 | { | 455 | { | ||
456 | "display_name": "TORRENT", | 456 | "display_name": "TORRENT", | ||
457 | "id": "472cc0c3-b266-42e7-8116-e0dcc7ad762b", | 457 | "id": "472cc0c3-b266-42e7-8116-e0dcc7ad762b", | ||
458 | "name": "TORRENT", | 458 | "name": "TORRENT", | ||
459 | "state": "active", | 459 | "state": "active", | ||
460 | "vocabulary_id": null | 460 | "vocabulary_id": null | ||
461 | } | 461 | } | ||
462 | ], | 462 | ], | ||
463 | "title": "Sediment transport observations in Swiss mountain | 463 | "title": "Sediment transport observations in Swiss mountain | ||
464 | streams", | 464 | streams", | ||
465 | "type": "dataset", | 465 | "type": "dataset", | ||
466 | "url": null, | 466 | "url": null, | ||
467 | "version": "1.0" | 467 | "version": "1.0" | ||
468 | } | 468 | } |