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On April 6, 2022 at 8:39:14 AM UTC, Dieter Rickenmann:

Updated description of Sediment transport observations in Swiss mountain streams from
The Swiss Federal Research Institute WSL has extensive experience with surrogate bedload transport measurements. The first measuring site was established in the Erlenbach stream, a small (first-order) catchment in the pre-alpine valley Alptal in central Switzerland. Continuous bedload transport measurements were started in 1986, using first piezoelectric sensors (1986 to 1999) and then geophone sensors (from 2002 onwards) underneath a steel plate and mounted flush with the streambed. In the meantime, the so-called Swiss plate geophone (SPG) system has been installed at more than 20 field sites, primarily in smaller and steeper streams in Switzerland, Austria, and Italy but also in a few larger rivers in Austria and in some other streams worldwide (Israel, USA, Japan). Sediment transport observations in Switzerland with the SPG system concern the following streams: Erlenbach near Brunni (Alptal valley), Albula at Tiefencastel, Navisence at Zinal, Avançon de Nant near Pont de Nant (see map). The data in this repository primarily refer to calibration measurements with the SPG system. The publications listed here discuss primarily the performance of the measuring system but also process-based aspects of bedload transport.
to
The Swiss Federal Research Institute WSL has extensive experience with surrogate bedload transport measurements. The first measuring site was established in the Erlenbach stream, a small (first-order) catchment in the pre-alpine valley Alptal in central Switzerland. Continuous bedload transport measurements were started in 1986, using first piezoelectric sensors (1986 to 1999) and then geophone sensors (from 2002 onwards) underneath a steel plate and mounted flush with the streambed. In the meantime, the so-called Swiss plate geophone (SPG) system has been installed at more than 20 field sites, primarily in smaller and steeper streams in Switzerland, Austria, and Italy but also in a few larger rivers and in some other streams worldwide (Israel, USA, Japan). Sediment transport observations in Switzerland with the SPG system concern the following streams: Erlenbach near Brunni (Alptal valley), Albula at Tiefencastel, Navisence at Zinal, Avançon de Nant near Pont de Nant (see map). The data in this repository primarily refer to calibration measurements with the SPG system. The publications listed here discuss primarily the performance of the measuring system but also process-based aspects of bedload transport.

Changed value of field related_publications to (A selection of related publications is listed here:) Antoniazza, G., Nicollier, T., Boss, S., Mettra, F., Badoux, A., Schaefli, B., et al., 2022. Hydrological drivers of bedload transport in an Alpine watershed. Water Resources Research, 58, e2021WR030663. https://doi.org/10.1029/2021WR030663 Antoniazza, G., Nicollier, T., Wyss, C.R., Boss, S., Rickenmann, D., 2020. Bedload Transport Monitoring in Alpine Rivers: Variability in Swiss Plate Geophone Response. Sensors 2020, 20, 4089; doi:10.3390/s20154089. Nicollier, T., Rickenmann, D., Hartlieb, A., 2021. Field and flume measurements with the impact plate: Effect of bedload grain-size distribution on signal response. Earth Surface Processes and Landforms. 2021; 46:1504–1520. http://doi.org/10.1002/esp.5117 Rickenmann, D., 2020. Effect of sediment supply on cyclic fluctuations of the disequilibrium ratio and threshold transport discharge, inferred from bedload transport measurements over 27 years at the Swiss Erlenbach stream. Water Resources Research, 56, e2020WR027741. https://doi.org/10.1029/2020WR027741 Rickenmann, D., 2017. Bed-load transport measurements with geophones and other passive acoustic methods. Journal of Hydraulic Engineering, 143(6), 03117004-1-14, doi: 10.1061/(ASCE)HY.1943-7900.0001300 Rickenmann, D., McArdell, B.W., 2007. Continuous measurement of sediment transport in the Erlenbach stream using piezoelectric bedload impact sensors. Earth Surface Processes and Landforms, 32, 1362–1378. Rickenmann, D., Fritschi, B., 2010. Bedload transport measurements using piezoelectric impact sensors and geophones. Rep. SIR 2010-5091, U.S. Geological Survey Scientific Investigations, Reston, VA,407–423. Rickenmann, D., Turowski, J.M., Fritschi, B., Klaiber, A., Ludwig, A., 2012. Bedload transport measurements at the Erlenbach stream with geophones and automated basket samplers. Earth Surface Processes and Landforms, 37, 1000-1011, doi: 10.1002/esp.3225 Rickenmann, D., J. M. Turowski, B. Fritschi, C. Wyss, J. B. Laronne, R. Barzilai, I. Reid, A. Kreisler, J. Aigner, H. Habersack, 2014. Bedloadtransport measurements with impact plate geophones: Comparison of sensor calibration at different gravel-bed streams. Earth Surface Processes and Landforms, 39, 928–942, doi:10.1002/esp.3499. Rickenmann, D., Antoniazza, G., Wyss, C.R., Fritschi, B., Boss, S., 2017. Bedload transport moni-toring with acoustic sensors in the Swiss Albula mountain river. Proc. IAHS, 375, 5-10, doi:10.5194/piahs-375-5-2017. Wyss, C. R., Rickenmann, D., Fritschi, B., Turowski, J. M., Weitbrecht, V., Boes, R. M., 2016. Measuring bedload transport rates by grainsize fraction using the Swiss plate geophone at the Erlenbach. Journal of Hydraulic Engineering, 142(5), 1–11, doi:10.1061/(ASCE)HY.1943-7900.0001090 Wyss, C. R., Rickenmann, D., Fritschi, B., Turowski, J. M., Weitbrecht, V., Boes, R. M., 2016. Laboratory flume experiments with the Swiss plate geophone bedload monitoring system. Part I: Impulse counts and particle size identification. Water Resources Research, 52(10), 7744–7759. Wyss, C. R., Rickenmann, D., Fritschi, B., Turowski, J. M., Weitbrecht, V., Travaglini, E., Bardou, E., Boes, R. M., 2016. Laboratory flume experiments with the Swiss plate geophone bedload monitoring system: 2. Application to field sites with direct bedload samples. Water Resources Research, 52, 7760–7778, doi:10.1002/2016WR019283 in Sediment transport observations in Swiss mountain streams

              
    
          
          
        
        
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            31 \"given_name\": \"Nicolas\", \"identifier\": \"\", \"name\":  31 \"given_name\": \"Nicolas\", \"identifier\": \"\", \"name\": 
            32 \"Steeb\"}, {\"affiliation\": \"WSL\", \"affiliation_02\": \"\",  32 \"Steeb\"}, {\"affiliation\": \"WSL\", \"affiliation_02\": \"\", 
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            34 \"validation\", \"supervision\"], \"email\":  34 \"validation\", \"supervision\"], \"email\": 
            35 \"alexandre.badoux@wsl.ch\", \"given_name\": \"Alexandre\",  35 \"alexandre.badoux@wsl.ch\", \"given_name\": \"Alexandre\", 
            36 \"identifier\": \"\", \"name\": \"Badoux\"}]", 36 \"identifier\": \"\", \"name\": \"Badoux\"}]",
            37   "author_email": null, 37   "author_email": null,
            38   "creator_user_id": "f3e46d4e-4127-4e13-b1ac-3d01c90b65c2", 38   "creator_user_id": "f3e46d4e-4127-4e13-b1ac-3d01c90b65c2",
            39   "date": "[{\"date\": \"2020-07-21\", \"date_type\": \"created\",  39   "date": "[{\"date\": \"2020-07-21\", \"date_type\": \"created\", 
            40 \"end_date\": \"2020-07-21\"}]", 40 \"end_date\": \"2020-07-21\"}]",
            41   "doi": "", 41   "doi": "",
            42   "funding": "[{\"grant_number\": \"\", \"institution\": \"WSL, BAFU,  42   "funding": "[{\"grant_number\": \"\", \"institution\": \"WSL, BAFU, 
            43 SNSF, CREALP, UNIL, ETHZ, DFG\", \"institution_url\": \"\"}]", 43 SNSF, CREALP, UNIL, ETHZ, DFG\", \"institution_url\": \"\"}]",
            44   "groups": [], 44   "groups": [],
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            46   "isopen": false, 46   "isopen": false,
            47   "language": "en", 47   "language": "en",
            48   "license_id": "wsl-data", 48   "license_id": "wsl-data",
            49   "license_title": "WSL Data Policy", 49   "license_title": "WSL Data Policy",
            50   "license_url":  50   "license_url": 
            51 ps://www.wsl.ch/en/about-wsl/programmes-and-initiatives/envidat.html", 51 ps://www.wsl.ch/en/about-wsl/programmes-and-initiatives/envidat.html",
            52   "maintainer": "{\"affiliation\": \"WSL\", \"email\":  52   "maintainer": "{\"affiliation\": \"WSL\", \"email\": 
            53 \"dieter.rickenmann@wsl.ch\", \"given_name\": \"Dieter\",  53 \"dieter.rickenmann@wsl.ch\", \"given_name\": \"Dieter\", 
            54 \"identifier\": \"0000-0002-2205-892X\", \"name\": \"Rickenmann\"}", 54 \"identifier\": \"0000-0002-2205-892X\", \"name\": \"Rickenmann\"}",
            55   "maintainer_email": null, 55   "maintainer_email": null,
            56   "metadata_created": "2020-07-21T13:58:50.653539", 56   "metadata_created": "2020-07-21T13:58:50.653539",
            n 57   "metadata_modified": "2022-04-05T13:29:00.145880", n 57   "metadata_modified": "2022-04-06T08:39:14.293056",
            58   "name": "sediment-transport-observations-in-swiss-mountain-streams", 58   "name": "sediment-transport-observations-in-swiss-mountain-streams",
            59   "notes": "The Swiss Federal Research Institute WSL has extensive  59   "notes": "The Swiss Federal Research Institute WSL has extensive 
            60 experience with surrogate bedload transport measurements. The first  60 experience with surrogate bedload transport measurements. The first 
            61 measuring site was established in the Erlenbach stream, a small  61 measuring site was established in the Erlenbach stream, a small 
            62 (first-order) catchment in the pre-alpine valley Alptal in central  62 (first-order) catchment in the pre-alpine valley Alptal in central 
            63 Switzerland. Continuous bedload transport measurements were started in  63 Switzerland. Continuous bedload transport measurements were started in 
            64 1986, using first piezoelectric sensors (1986 to 1999) and then  64 1986, using first piezoelectric sensors (1986 to 1999) and then 
            65 geophone sensors (from 2002 onwards) underneath a steel plate and  65 geophone sensors (from 2002 onwards) underneath a steel plate and 
            66 mounted flush with the streambed. In the meantime, the so-called Swiss  66 mounted flush with the streambed. In the meantime, the so-called Swiss 
            67 plate geophone (SPG) system has been installed at more than 20 field  67 plate geophone (SPG) system has been installed at more than 20 field 
            68 sites, primarily in smaller and steeper streams in Switzerland,  68 sites, primarily in smaller and steeper streams in Switzerland, 
            n 69 Austria, and Italy but also in a few larger rivers in Austria and in  n 69 Austria, and Italy but also in a few larger rivers and in some other 
            70 some other streams worldwide (Israel, USA, Japan). \r\nSediment  70 streams worldwide (Israel, USA, Japan). \r\nSediment transport 
            71 transport observations in Switzerland with the SPG system concern the  71 observations in Switzerland with the SPG system concern the following 
            72 following streams: Erlenbach near Brunni (Alptal valley), Albula at  72 streams: Erlenbach near Brunni (Alptal valley), Albula at 
            73 Tiefencastel, Navisence at Zinal, Avan\u00e7on de Nant near Pont de  73 Tiefencastel, Navisence at Zinal, Avan\u00e7on de Nant near Pont de 
            74 Nant (see map). The data in this repository primarily refer to  74 Nant (see map). The data in this repository primarily refer to 
            75 calibration measurements with the SPG system. The publications listed  75 calibration measurements with the SPG system. The publications listed 
            76 here discuss primarily the performance of the measuring system but  76 here discuss primarily the performance of the measuring system but 
            77 also process-based aspects of bedload transport.", 77 also process-based aspects of bedload transport.",
            78   "num_resources": 5, 78   "num_resources": 5,
            79   "num_tags": 6, 79   "num_tags": 6,
            80   "organization": { 80   "organization": {
            81     "approval_status": "approved", 81     "approval_status": "approved",
            82     "created": "2016-09-02T14:17:02.029939", 82     "created": "2016-09-02T14:17:02.029939",
            83     "description": " The Research Unit investigates natural hazard  83     "description": " The Research Unit investigates natural hazard 
            84 processes in mountainous areas, in particular the triggering and  84 processes in mountainous areas, in particular the triggering and 
            85 propagation of floods, sediment transport, landslides, debris flows  85 propagation of floods, sediment transport, landslides, debris flows 
            86 and rock fall. Process studies on the scale of slopes, channels and  86 and rock fall. Process studies on the scale of slopes, channels and 
            87 catchments form the basis for the development of simulation models and  87 catchments form the basis for the development of simulation models and 
            88 of hazard assessment procedures and for the design of countermeasures.  88 of hazard assessment procedures and for the design of countermeasures. 
            89 To this end worldwide unique observation systems are developed, such  89 To this end worldwide unique observation systems are developed, such 
            90 as a debris flow balance and geophone systems for bedload transport.  90 as a debris flow balance and geophone systems for bedload transport. 
            91 Damage and damaging processes due to frequent and extreme events are  91 Damage and damaging processes due to frequent and extreme events are 
            92 assessed as prerequisites for the risk-based and sustainable  92 assessed as prerequisites for the risk-based and sustainable 
            93 management of natural hazards.\r\n\r\nA second focus of the unit is on  93 management of natural hazards.\r\n\r\nA second focus of the unit is on 
            94 the estimation and prediction of snow and water resources, e.g. for  94 the estimation and prediction of snow and water resources, e.g. for 
            95 hydropower production or early recognition of drought. The unit  95 hydropower production or early recognition of drought. The unit 
            96 operates a snow hydrological service for federal and cantonal agencies  96 operates a snow hydrological service for federal and cantonal agencies 
            97 and a drought information platform for a broad range of water  97 and a drought information platform for a broad range of water 
            98 users.\r\n\r\n__Further information__:  98 users.\r\n\r\n__Further information__: 
            99 .ch/en/about-wsl/organization/research-units/mountain-hydrology.html", 99 .ch/en/about-wsl/organization/research-units/mountain-hydrology.html",
            100     "id": "8ca28da8-ad8f-401a-9356-0aa7fdba2604", 100     "id": "8ca28da8-ad8f-401a-9356-0aa7fdba2604",
            101     "image_url": "2018-07-10-091052.004438LogoWSL.svg", 101     "image_url": "2018-07-10-091052.004438LogoWSL.svg",
            102     "is_organization": true, 102     "is_organization": true,
            103     "name": "gebirgshydrologie", 103     "name": "gebirgshydrologie",
            104     "state": "active", 104     "state": "active",
            105     "title": "GebirgsHydrologie", 105     "title": "GebirgsHydrologie",
            106     "type": "organization" 106     "type": "organization"
            107   }, 107   },
            108   "owner_org": "8ca28da8-ad8f-401a-9356-0aa7fdba2604", 108   "owner_org": "8ca28da8-ad8f-401a-9356-0aa7fdba2604",
            109   "private": false, 109   "private": false,
            110   "publication": "{\"publication_year\": \"2020\", \"publisher\":  110   "publication": "{\"publication_year\": \"2020\", \"publisher\": 
            111 \"EnviDat\"}", 111 \"EnviDat\"}",
            112   "publication_state": "", 112   "publication_state": "",
            113   "related_datasets": "", 113   "related_datasets": "",
            114   "related_publications": "(A selection of related publications is  114   "related_publications": "(A selection of related publications is 
            115 listed here:)\r\n\r\nAntoniazza, G., Nicollier, T., Boss, S., Mettra,  115 listed here:)\r\n\r\nAntoniazza, G., Nicollier, T., Boss, S., Mettra, 
            n 116 F., Badoux, A., Schaefli, B., et al. (2022). Hydrological drivers of  n 116 F., Badoux, A., Schaefli, B., et al., 2022. Hydrological drivers of 
            117 bedload transport in an Alpine watershed. Water Resources Research,  117 bedload transport in an Alpine watershed. Water Resources Research, 
            118 58, e2021WR030663.  118 58, e2021WR030663. 
            119 https://doi.org/10.1029/2021WR030663\r\n\r\nAntoniazza, G., Nicollier,  119 https://doi.org/10.1029/2021WR030663\r\n\r\nAntoniazza, G., Nicollier, 
            120 T., Wyss, C.R., Boss, S., Rickenmann, D., 2020. Bedload Transport  120 T., Wyss, C.R., Boss, S., Rickenmann, D., 2020. Bedload Transport 
            121 Monitoring in Alpine Rivers: Variability in Swiss Plate Geophone  121 Monitoring in Alpine Rivers: Variability in Swiss Plate Geophone 
            122 Response. Sensors 2020, 20, 4089;  122 Response. Sensors 2020, 20, 4089; 
            t 123 doi:10.3390/s20154089.\r\n\r\nNicollier, T., Rickenmann, D., and  t 123 doi:10.3390/s20154089.\r\n\r\nNicollier, T., Rickenmann, D., Hartlieb, 
            124 Hartlieb, A. (2021). Field and flume measurements with the impact  124 A., 2021. Field and flume measurements with the impact plate: Effect 
            125 plate: Effect of bedload grain-size distribution on signal response.  125 of bedload grain-size distribution on signal response. Earth Surface 
            126 Earth Surface Processes and Landforms. 2021; 46:1504\u20131520.  126 Processes and Landforms. 2021; 46:1504\u20131520. 
            127 http://doi.org/10.1002/esp.5117\r\n\r\nRickenmann, D., 2020. Effect of  127 http://doi.org/10.1002/esp.5117\r\n\r\nRickenmann, D., 2020. Effect of 
            128 sediment supply on cyclic fluctuations of the disequilibrium ratio and  128 sediment supply on cyclic fluctuations of the disequilibrium ratio and 
            129 threshold transport discharge, inferred from bedload transport  129 threshold transport discharge, inferred from bedload transport 
            130 measurements over 27 years at the Swiss Erlenbach stream. Water  130 measurements over 27 years at the Swiss Erlenbach stream. Water 
            131 Resources Research, 56, e2020WR027741.  131 Resources Research, 56, e2020WR027741. 
            132 https://doi.org/10.1029/2020WR027741\r\n\r\nRickenmann, D., 2017.  132 https://doi.org/10.1029/2020WR027741\r\n\r\nRickenmann, D., 2017. 
            133 Bed-load transport measurements with geophones and other passive  133 Bed-load transport measurements with geophones and other passive 
            134 acoustic methods. Journal of Hydraulic Engineering, 143(6),  134 acoustic methods. Journal of Hydraulic Engineering, 143(6), 
            135 03117004-1-14, doi:  135 03117004-1-14, doi: 
            136 10.1061/(ASCE)HY.1943-7900.0001300\r\n\r\nRickenmann, D., McArdell,  136 10.1061/(ASCE)HY.1943-7900.0001300\r\n\r\nRickenmann, D., McArdell, 
            137 B.W., 2007. Continuous measurement of sediment transport in the  137 B.W., 2007. Continuous measurement of sediment transport in the 
            138 Erlenbach stream using piezoelectric bedload impact sensors. Earth  138 Erlenbach stream using piezoelectric bedload impact sensors. Earth 
            139 Surface Processes and Landforms, 32,  139 Surface Processes and Landforms, 32, 
            140 1362\u20131378.\r\n\r\nRickenmann, D., Fritschi, B., 2010. Bedload  140 1362\u20131378.\r\n\r\nRickenmann, D., Fritschi, B., 2010. Bedload 
            141 transport measurements using piezoelectric impact sensors and  141 transport measurements using piezoelectric impact sensors and 
            142 geophones. Rep. SIR 2010-5091, U.S. Geological Survey Scientific  142 geophones. Rep. SIR 2010-5091, U.S. Geological Survey Scientific 
            143 Investigations, Reston, VA,407\u2013423.\r\n\r\nRickenmann, D.,  143 Investigations, Reston, VA,407\u2013423.\r\n\r\nRickenmann, D., 
            144 Turowski, J.M., Fritschi, B., Klaiber, A., Ludwig, A., 2012. Bedload  144 Turowski, J.M., Fritschi, B., Klaiber, A., Ludwig, A., 2012. Bedload 
            145 transport measurements at the Erlenbach stream with geophones and  145 transport measurements at the Erlenbach stream with geophones and 
            146 automated basket samplers. Earth Surface Processes and Landforms, 37,  146 automated basket samplers. Earth Surface Processes and Landforms, 37, 
            147 1000-1011, doi: 10.1002/esp.3225\r\n\r\nRickenmann, D., J. M.  147 1000-1011, doi: 10.1002/esp.3225\r\n\r\nRickenmann, D., J. M. 
            148 Turowski, B. Fritschi, C. Wyss, J. B. Laronne, R. Barzilai, I. Reid,  148 Turowski, B. Fritschi, C. Wyss, J. B. Laronne, R. Barzilai, I. Reid, 
            149 A. Kreisler, J. Aigner, H. Habersack, 2014. Bedloadtransport  149 A. Kreisler, J. Aigner, H. Habersack, 2014. Bedloadtransport 
            150 measurements with impact plate geophones: Comparison of sensor  150 measurements with impact plate geophones: Comparison of sensor 
            151 calibration at different gravel-bed streams. Earth Surface Processes  151 calibration at different gravel-bed streams. Earth Surface Processes 
            152 and Landforms, 39, 928\u2013942,  152 and Landforms, 39, 928\u2013942, 
            153 doi:10.1002/esp.3499.\r\n\r\nRickenmann, D., Antoniazza, G., Wyss,  153 doi:10.1002/esp.3499.\r\n\r\nRickenmann, D., Antoniazza, G., Wyss, 
            154 C.R., Fritschi, B., Boss, S., 2017. Bedload transport moni-toring with  154 C.R., Fritschi, B., Boss, S., 2017. Bedload transport moni-toring with 
            155 acoustic sensors in the Swiss Albula mountain river. Proc. IAHS, 375,  155 acoustic sensors in the Swiss Albula mountain river. Proc. IAHS, 375, 
            156 5-10, doi:10.5194/piahs-375-5-2017.\r\n\r\nWyss, C. R., Rickenmann,  156 5-10, doi:10.5194/piahs-375-5-2017.\r\n\r\nWyss, C. R., Rickenmann, 
            157 D., Fritschi, B., Turowski, J. M., Weitbrecht, V., Boes, R. M., 2016.  157 D., Fritschi, B., Turowski, J. M., Weitbrecht, V., Boes, R. M., 2016. 
            158 Measuring bedload transport rates by grainsize fraction using the  158 Measuring bedload transport rates by grainsize fraction using the 
            159 Swiss plate geophone at the Erlenbach. Journal of Hydraulic  159 Swiss plate geophone at the Erlenbach. Journal of Hydraulic 
            160 Engineering, 142(5), 1\u201311,  160 Engineering, 142(5), 1\u201311, 
            161 doi:10.1061/(ASCE)HY.1943-7900.0001090\r\n\r\nWyss, C. R., Rickenmann,  161 doi:10.1061/(ASCE)HY.1943-7900.0001090\r\n\r\nWyss, C. R., Rickenmann, 
            162 D., Fritschi, B., Turowski, J. M., Weitbrecht, V., Boes, R. M., 2016.  162 D., Fritschi, B., Turowski, J. M., Weitbrecht, V., Boes, R. M., 2016. 
            163 Laboratory flume experiments with the Swiss plate geophone bedload  163 Laboratory flume experiments with the Swiss plate geophone bedload 
            164 monitoring system. Part I: Impulse counts and particle size  164 monitoring system. Part I: Impulse counts and particle size 
            165 identification. Water Resources Research, 52(10),  165 identification. Water Resources Research, 52(10), 
            166 7744\u20137759.\r\n\r\nWyss, C. R., Rickenmann, D., Fritschi, B.,  166 7744\u20137759.\r\n\r\nWyss, C. R., Rickenmann, D., Fritschi, B., 
            167 Turowski, J. M., Weitbrecht, V., Travaglini, E., Bardou, E., Boes, R.  167 Turowski, J. M., Weitbrecht, V., Travaglini, E., Bardou, E., Boes, R. 
            168 M., 2016. Laboratory flume experiments with the Swiss plate geophone  168 M., 2016. Laboratory flume experiments with the Swiss plate geophone 
            169 bedload monitoring system: 2. Application to field sites with direct  169 bedload monitoring system: 2. Application to field sites with direct 
            170 bedload samples. Water Resources Research, 52, 7760\u20137778,  170 bedload samples. Water Resources Research, 52, 7760\u20137778, 
            171 doi:10.1002/2016WR019283\r\n", 171 doi:10.1002/2016WR019283\r\n",
            172   "relationships_as_object": [], 172   "relationships_as_object": [],
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            181       "description": "Data used in paper: Antoniazza, G., Nicollier,  181       "description": "Data used in paper: Antoniazza, G., Nicollier, 
            182 T., Wyss, C.R., Boss, S., Rickenmann, D., 2020. Bedload Transport  182 T., Wyss, C.R., Boss, S., Rickenmann, D., 2020. Bedload Transport 
            183 Monitoring in Alpine Rivers: Variability in Swiss Plate Geophone  183 Monitoring in Alpine Rivers: Variability in Swiss Plate Geophone 
            184 Response. Sensors 2020, 20, 4089; doi:10.3390/s20154089", 184 Response. Sensors 2020, 20, 4089; doi:10.3390/s20154089",
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            212 of Sediment Supply on Cyclic Fluctuations of the Disequilibrium Ratio  212 of Sediment Supply on Cyclic Fluctuations of the Disequilibrium Ratio 
            213 and Threshold Transport Discharge, Inferred from Bedload Transport  213 and Threshold Transport Discharge, Inferred from Bedload Transport 
            214 Measurements over 27 Years at the Swiss Erlenbach stream. Water  214 Measurements over 27 Years at the Swiss Erlenbach stream. Water 
            215 Resources Research, 56, e2020WR027741.  215 Resources Research, 56, e2020WR027741. 
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            243       "description": "SPG field calibration data from the Erlenbach  243       "description": "SPG field calibration data from the Erlenbach 
            244 (since 2009), the Albula (2018), the Navisence (2019) and the  244 (since 2009), the Albula (2018), the Navisence (2019) and the 
            245 Avan\u00e7on de Nant (2019-2020) monitoring stations. Data used in  245 Avan\u00e7on de Nant (2019-2020) monitoring stations. Data used in 
            246 following papers: \r\n\"Toward a General Calibration of the Swiss  246 following papers: \r\n\"Toward a General Calibration of the Swiss 
            247 Plate Geophone System for Fractional Bedload Transport\" submitted to  247 Plate Geophone System for Fractional Bedload Transport\" submitted to 
            248 Earth Surface Dynamics on the 14th of January 2022.\r\n\"Improving the  248 Earth Surface Dynamics on the 14th of January 2022.\r\n\"Improving the 
            249 Calibration of Impact Plate Bedload Monitoring Systems by Filtering  249 Calibration of Impact Plate Bedload Monitoring Systems by Filtering 
            250 Out Acoustic Signals from Extraneous Particle Impacts\" submitted to  250 Out Acoustic Signals from Extraneous Particle Impacts\" submitted to 
            251 Earth and Space Science on the 13th of August 2021.\r\n", 251 Earth and Space Science on the 13th of August 2021.\r\n",
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            279       "description": "SPG data from controlled flume experiments  279       "description": "SPG data from controlled flume experiments 
            280 conducted at the Obernach outdoor flume facility (TU Munich) between  280 conducted at the Obernach outdoor flume facility (TU Munich) between 
            281 2018 and 2020. Data used in following papers: \r\n\"Toward a General  281 2018 and 2020. Data used in following papers: \r\n\"Toward a General 
            282 Calibration of the Swiss Plate Geophone System for Fractional Bedload  282 Calibration of the Swiss Plate Geophone System for Fractional Bedload 
            283 Transport\" submitted to Earth Surface Dynamics on the 14th of January  283 Transport\" submitted to Earth Surface Dynamics on the 14th of January 
            284 2022.\r\n\"Improving the Calibration of Impact Plate Bedload  284 2022.\r\n\"Improving the Calibration of Impact Plate Bedload 
            285 Monitoring Systems by Filtering Out Acoustic Signals from Extraneous  285 Monitoring Systems by Filtering Out Acoustic Signals from Extraneous 
            286 Particle Impacts\" submitted to Earth and Space Science on the 13th of  286 Particle Impacts\" submitted to Earth and Space Science on the 13th of 
            287 August 2021.", 287 August 2021.",
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            316 T., Boss, S., Mettra, F., Badoux, A., Schaefli, B., Rickenmann, D.,  316 T., Boss, S., Mettra, F., Badoux, A., Schaefli, B., Rickenmann, D., 
            317 Lane, S.N. 2022. Hydrological Drivers of Bedload Transport in an  317 Lane, S.N. 2022. Hydrological Drivers of Bedload Transport in an 
            318 Alpine Watershed. Water Resources Research, 58, e2021WR030663.  318 Alpine Watershed. Water Resources Research, 58, e2021WR030663. 
            319 https://doi.org/10.1029/2021WR030663", 319 https://doi.org/10.1029/2021WR030663",
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