Not logged in
PANGAEA.
Data Publisher for Earth & Environmental Science

Ebeling, Anna; Petrauskas, Catharina; Kruse, Madita; Rust, Bettina; Pieper, Andrea; Klein, Ole; El Gareb, Fadi Ragea; Erbslöh, Hans-Burkhard; Pröfrock, Daniel (2023): Metal distribution for sediment samples of Ludwig Prandtl cruise LP20200629 [dataset]. PANGAEA, https://doi.org/10.1594/PANGAEA.963886

Always quote citation above when using data! You can download the citation in several formats below.

Published: 2023-12-05DOI registered: 2024-01-03

RIS CitationBibTeX Citation ShareShow MapGoogle Earth

Abstract:
Offshore wind energy is a steadily growing sector contributing to the worldwide energy production. The impact of these offshore constructions on the marine environment, however, remains unclear in many aspects. In fact, little is known about potential emissions from corrosion protection systems such as organic coatings or galvanic anodes composed of Al and Zn alloys, used to protect offshore structures. In order to assess potential chemical emissions from offshore wind farms and their impact on the marine environment water and sediment samples were taken in and around offshore wind farms of the German Bight between 22.07.2020 and 25.07.2020 within the context of the Hereon-BSH project OffChEm. The surface sediment samples were taken by a box grab, homogenized, freeze-dried and wet-sieved to gain the <20 µm grain size fraction. The <20 µm grain size fraction was acid digested and measured by ICP-MS/MS for their (trace) metal mass fractions.
Related to:
Ebeling, Anna; Klein, Ole; El Gareb, Fadi Ragea; Erbslöh, Hans-Burkhard; Pröfrock, Daniel (2023): Oceanographic parameters for the sample stations of Ludwig Prandtl cruise LP20200629 [dataset]. PANGAEA, https://doi.org/10.1594/PANGAEA.963874
Ebeling, Anna; Rust, Bettina; Klein, Ole; El Gareb, Fadi Ragea; Erbslöh, Hans-Burkhard; Pieper, Andrea; Pröfrock, Daniel (2023): Trace metal distribution for water samples of Ludwig Prandtl cruise LP20200629 [dataset]. PANGAEA, https://doi.org/10.1594/PANGAEA.963880
Ebeling, Anna; Wippermann, Dominik; Zimmermann, Tristan; Klein, Ole; Kirchgeorg, Torben; Weinberg, Ingo; Hasenbein, Simone; Plaß, Anna; Pröfrock, Daniel (2023): Investigation of potential metal emissions from galvanic anodes in offshore wind farms into North Sea sediments. Marine Pollution Bulletin, 194, 115396, https://doi.org/10.1016/j.marpolbul.2023.115396
Klein, Ole; Zimmermann, Tristan; Ebeling, Anna; Kruse, Madita; Kirchgeorg, Torben; Pröfrock, Daniel (2022): Occurrence and Temporal Variation of Technology-Critical Elements in North Sea Sediments—A Determination of Preliminary Reference Values. Archives of Environmental Contamination and Toxicology, 82(4), 481-492, https://doi.org/10.1007/s00244-022-00929-4
Petrauskas, Catharina; Kruse, Madita; Klein, Ole; El Gareb, Fadi Ragea; Erbslöh, Hans-Burkhard; Ebeling, Anna; Pröfrock, Daniel (2024): Grain size distribution for sediment samples of Ludwig Prandtl cruise LP20200629 [dataset]. PANGAEA, https://doi.org/10.1594/PANGAEA.963878
Zimmermann, Tristan; von der Au, Marcus; Reese, Anna; Klein, Ole; Hildebrandt, Lars; Pröfrock, Daniel (2020): Substituting HF by HBF 4 – an optimized digestion method for multi-elemental sediment analysis via ICP-MS/MS. Analytical Methods, 12(30), 3778-3787, https://doi.org/10.1039/D0AY01049A
Project(s):
Helmholtz-Zentrum Hereon (Hereon)
Coverage:
Median Latitude: 54.329203 * Median Longitude: 7.785147 * South-bound Latitude: 53.884617 * West-bound Longitude: 7.081218 * North-bound Latitude: 54.575115 * East-bound Longitude: 8.697081
Date/Time Start: 2020-07-22T07:28:00 * Date/Time End: 2020-07-25T08:58:00
Minimum DEPTH, sediment/rock: m * Maximum DEPTH, sediment/rock: m
Event(s):
LP20200629_Stat_001_Kugelbake_KBA_Sed (Stat_001_Kugelbake)  * Latitude: 53.884617 * Longitude: 8.697081 * Date/Time: 2020-07-22T07:28:00 * Elevation: -7.0 m * Location: North Sea * Campaign: LP20200629 * Basis: Ludwig Prandtl * Method/Device: Box corer (BC)
LP20200629_Stat_002_Lt_Vogelsand_KBA_Sed (Stat_002_Lt_Vogelsand)  * Latitude: 53.966555 * Longitude: 8.496765 * Date/Time: 2020-07-22T08:49:00 * Elevation: -12.0 m * Location: North Sea * Campaign: LP20200629 * Basis: Ludwig Prandtl * Method/Device: Box corer (BC)
LP20200629_Stat_003_CuxSyl01_KBA_Sed (Stat_003_CuxSyl01)  * Latitude: 54.117958 * Longitude: 8.476986 * Date/Time: 2020-07-22T11:01:00 * Elevation: -10.0 m * Location: North Sea * Campaign: LP20200629 * Basis: Ludwig Prandtl * Method/Device: Box corer (BC)
Parameter(s):
#NameShort NameUnitPrincipal InvestigatorMethod/DeviceComment
Event labelEventEbeling, Anna
Sample code/labelSample labelEbeling, Anna
International Generic Sample NumberIGSNEbeling, Anna
Station labelStationEbeling, Anna
DEPTH, sediment/rockDepth sedmEbeling, AnnaGeocode
Latitude of eventLatitudeEbeling, Anna
Longitude of eventLongitudeEbeling, Anna
Date/Time of eventDate/TimeEbeling, Anna
Method/Device of eventMethod/DeviceEbeling, Anna
10 Elevation of eventElevationmEbeling, Anna
11 LithiumLiµg/kgEbeling, AnnaElement analysis grain size fraction <20 microns via ICP-MS (total digest)measured in sediment, <20 µm
12 Lithium, limit of detectionLi LODµg/kgEbeling, Anna
13 Lithium, limit of quantificationLi LOQµg/kgEbeling, Anna
14 Lithium, uncertaintyLi unc±Ebeling, Anna
15 BerylliumBeµg/kgEbeling, AnnaElement analysis grain size fraction <20 microns via ICP-MS (total digest)measured in sediment, <20 µm
16 Beryllium, limit of detectionBe LODµg/kgEbeling, Anna
17 Beryllium, limit of quantificationBe LOQµg/kgEbeling, Anna
18 Beryllium, uncertaintyBe unc±Ebeling, Anna
19 StrontiumSrµg/kgEbeling, AnnaElement analysis grain size fraction <20 microns via ICP-MS (total digest)measured in sediment, <20 µm
20 Strontium, limit of detectionSr LODµg/kgEbeling, Anna
21 Strontium, limit of quantificationSr LOQµg/kgEbeling, Anna
22 Strontium, uncertaintySr unc±Ebeling, Anna
23 YttriumYµg/kgEbeling, AnnaElement analysis grain size fraction <20 microns via ICP-MS (total digest)measured in sediment, <20 µm
24 Yttrium, limit of detectionY LODµg/kgEbeling, Anna
25 Yttrium, limit of quantificationY LOQµg/kgEbeling, Anna
26 Yttrium, uncertaintyY unc±Ebeling, Anna
27 NickelNiµg/kgEbeling, AnnaElement analysis grain size fraction <20 microns via ICP-MS (total digest)measured in sediment, <20 µm
28 Nickel, limit of detectionNi LODµg/kgEbeling, Anna
29 Nickel, limit of quantificationNi LOQµg/kgEbeling, Anna
30 Nickel, uncertaintyNi unc±Ebeling, Anna
31 ZincZnµg/kgEbeling, AnnaElement analysis grain size fraction <20 microns via ICP-MS (total digest)measured in sediment, <20 µm
32 Zinc, limit of detectionZn LODµg/kgEbeling, Anna
33 Zinc, limit of quantificationZn LOQµg/kgEbeling, Anna
34 Zinc, uncertaintyZn unc±Ebeling, Anna
35 ArsenicAsµg/kgEbeling, AnnaElement analysis grain size fraction <20 microns via ICP-MS (total digest)measured in sediment, <20 µm
36 Arsenic, limit of detectionAs LODµg/kgEbeling, Anna
37 Arsenic, limit of quantificationAs LOQµg/kgEbeling, Anna
38 Arsenic, uncertaintyAs unc±Ebeling, Anna
39 RubidiumRbµg/kgEbeling, AnnaElement analysis grain size fraction <20 microns via ICP-MS (total digest)measured in sediment, <20 µm
40 Rubidium, limit of detectionRb LODµg/kgEbeling, Anna
41 Rubidium, limit of quantificationRb LOQµg/kgEbeling, Anna
42 Rubidium, uncertaintyRb unc±Ebeling, Anna
43 CaesiumCsµg/kgEbeling, AnnaElement analysis grain size fraction <20 microns via ICP-MS (total digest)measured in sediment, <20 µm
44 Caesium, limit of detectionCs LODµg/kgEbeling, Anna
45 Caesium, limit of quantificationCs LOQµg/kgEbeling, Anna
46 Caesium, uncertaintyCs unc±Ebeling, Anna
47 TungstenWµg/kgEbeling, AnnaElement analysis grain size fraction <20 microns via ICP-MS (total digest)measured in sediment, <20 µm
48 Tungsten, limit of detectionW LODµg/kgEbeling, Anna
49 Tungsten, limit of quantificationW LOQµg/kgEbeling, Anna
50 Tungsten, uncertaintyW unc±Ebeling, Anna
51 ThalliumTlµg/kgEbeling, AnnaElement analysis grain size fraction <20 microns via ICP-MS (total digest)measured in sediment, <20 µm
52 Thallium, limit of detectionTl LODµg/kgEbeling, Anna
53 Thallium, limit of quantificationTl LOQµg/kgEbeling, Anna
54 Thallium, uncertaintyTl unc±Ebeling, Anna
55 LeadPbµg/kgEbeling, AnnaElement analysis grain size fraction <20 microns via ICP-MS (total digest)measured in sediment, <20 µm
56 Lead, limit of detectionPb LODµg/kgEbeling, Anna
57 Lead, limit of quantificationPb LOQµg/kgEbeling, Anna
58 Lead, uncertaintyPb unc±Ebeling, Anna
59 BismuthBiµg/kgEbeling, AnnaElement analysis grain size fraction <20 microns via ICP-MS (total digest)measured in sediment, <20 µm
60 Bismuth, limit of detectionBi LODµg/kgEbeling, Anna
61 Bismuth, limit of quantificationBi LOQµg/kgEbeling, Anna
62 Bismuth, uncertaintyBi unc±Ebeling, Anna
63 ThoriumThµg/kgEbeling, AnnaElement analysis grain size fraction <20 microns via ICP-MS (total digest)measured in sediment, <20 µm
64 Thorium, limit of detectionTh LODµg/kgEbeling, Anna
65 Thorium, limit of quantificationTh LOQµg/kgEbeling, Anna
66 Thorium, uncertaintyTh unc±Ebeling, Anna
67 UraniumUµg/kgEbeling, AnnaElement analysis grain size fraction <20 microns via ICP-MS (total digest)measured in sediment, <20 µm
68 Uranium, limit of detectionU LODµg/kgEbeling, Anna
69 Uranium, limit of quantificationU LOQµg/kgEbeling, Anna
70 Uranium, uncertaintyU unc±Ebeling, Anna
71 ScandiumScµg/kgEbeling, AnnaElement analysis grain size fraction <20 microns via ICP-MS (total digest)measured in sediment, <20 µm
72 Scandium, limit of detectionSc LODµg/kgEbeling, Anna
73 Scandium, limit of quantificationSc LOQµg/kgEbeling, Anna
74 Scandium, uncertaintySc unc±Ebeling, Anna
75 TitaniumTiµg/kgEbeling, AnnaElement analysis grain size fraction <20 microns via ICP-MS (total digest)measured in sediment, <20 µm
76 Titanium, limit of detectionTi LODµg/kgEbeling, Anna
77 Titanium, limit of quantificationTi LOQµg/kgEbeling, Anna
78 Titanium, uncertaintyTi unc±Ebeling, Anna
79 VanadiumVµg/kgEbeling, AnnaElement analysis grain size fraction <20 microns via ICP-MS (total digest)measured in sediment, <20 µm
80 Vanadium, limit of detectionV LODµg/kgEbeling, Anna
81 Vanadium, limit of quantificationV LOQµg/kgEbeling, Anna
82 Vanadium, uncertaintyV unc±Ebeling, Anna
83 GalliumGaµg/kgEbeling, AnnaElement analysis grain size fraction <20 microns via ICP-MS (total digest)measured in sediment, <20 µm
84 Gallium, limit of detectionGa LODµg/kgEbeling, Anna
85 Gallium, limit of quantificationGa LOQµg/kgEbeling, Anna
86 Gallium, uncertaintyGa unc±Ebeling, Anna
87 GermaniumGeµg/kgEbeling, AnnaElement analysis grain size fraction <20 microns via ICP-MS (total digest)measured in sediment, <20 µm
88 Germanium, limit of detectionGe LODµg/kgEbeling, Anna
89 Germanium, limit of quantificationGe LOQµg/kgEbeling, Anna
90 Germanium, uncertaintyGe uncµg/kgEbeling, Anna
91 NiobiumNbµg/kgEbeling, AnnaElement analysis grain size fraction <20 microns via ICP-MS (total digest)measured in sediment, <20 µm
92 Niobium, limit of detectionNb LODµg/kgEbeling, Anna
93 Niobium, limit of quantificationNb LOQµg/kgEbeling, Anna
94 Niobium, uncertaintyNb unc±Ebeling, Anna
95 MolybdenumMoµg/kgEbeling, AnnaElement analysis grain size fraction <20 microns via ICP-MS (total digest)measured in sediment, <20 µm
96 Molybdenum, limit of detectionMo LODµg/kgEbeling, Anna
97 Molybdenum, limit of quantificationMo LOQµg/kgEbeling, Anna
98 Molybdenum, uncertaintyMo unc±Ebeling, Anna
99 IndiumInµg/kgEbeling, AnnaElement analysis grain size fraction <20 microns via ICP-MS (total digest)measured in sediment, <20 µm
100 Indium, limit of detectionIn LODµg/kgEbeling, Anna
101 Indium, limit of quantificationIn LOQµg/kgEbeling, Anna
102 Indium, uncertaintyIn unc±Ebeling, Anna
103 LanthanumLaµg/kgEbeling, AnnaElement analysis grain size fraction <20 microns via ICP-MS (total digest)measured in sediment, <20 µm
104 Lanthanum, limit of detectionLa LODµg/kgEbeling, Anna
105 Lanthanum, limit of quantificationLa LOQµg/kgEbeling, Anna
106 Lanthanum, uncertaintyLa unc±Ebeling, Anna
107 CeriumCeµg/kgEbeling, AnnaElement analysis grain size fraction <20 microns via ICP-MS (total digest)measured in sediment, <20 µm
108 Cerium, limit of detectionCe LODµg/kgEbeling, Anna
109 Cerium, limit of quantificationCe LOQµg/kgEbeling, Anna
110 Cerium, uncertaintyCe unc±Ebeling, Anna
111 PraseodymiumPrµg/kgEbeling, AnnaElement analysis grain size fraction <20 microns via ICP-MS (total digest)measured in sediment, <20 µm
112 Praseodymium, limit of detectionPr LODµg/kgEbeling, Anna
113 Praseodymium, limit of quantificationPr LOQµg/kgEbeling, Anna
114 Praseodymium, uncertaintyPr unc±Ebeling, Anna
115 NeodymiumNdµg/kgEbeling, AnnaElement analysis grain size fraction <20 microns via ICP-MS (total digest)measured in sediment, <20 µm
116 Neodymium, limit of detectionNd LODµg/kgEbeling, Anna
117 Neodymium, limit of quantificationNd LOQµg/kgEbeling, Anna
118 Neodymium, uncertaintyNd unc±Ebeling, Anna
119 SamariumSmµg/kgEbeling, AnnaElement analysis grain size fraction <20 microns via ICP-MS (total digest)measured in sediment, <20 µm
120 Samarium, limit of detectionSm LODµg/kgEbeling, Anna
121 Samarium, limit of quantificationSm LOQµg/kgEbeling, Anna
122 Samarium, uncertaintySm unc±Ebeling, Anna
123 EuropiumEuµg/kgEbeling, AnnaElement analysis grain size fraction <20 microns via ICP-MS (total digest)measured in sediment, <20 µm
124 Europium, limit of detectionEu LODµg/kgEbeling, Anna
125 Europium, limit of quantificationEu LOQµg/kgEbeling, Anna
126 Europium, uncertaintyEu unc±Ebeling, Anna
127 GadoliniumGdµg/kgEbeling, AnnaElement analysis grain size fraction <20 microns via ICP-MS (total digest)measured in sediment, <20 µm
128 Gadolinium, limit of detectionGd LODµg/kgEbeling, Anna
129 Gadolinium, limit of quantificationGd LOQµg/kgEbeling, Anna
130 Gadolinium, uncertaintyGd unc±Ebeling, Anna
131 TerbiumTbµg/kgEbeling, AnnaElement analysis grain size fraction <20 microns via ICP-MS (total digest)measured in sediment, <20 µm
132 Terbium, limit of detectionTb LODµg/kgEbeling, Anna
133 Terbium, limit of quantificationTb LOQµg/kgEbeling, Anna
134 Terbium, uncertaintyTb unc±Ebeling, Anna
135 DysprosiumDyµg/kgEbeling, AnnaElement analysis grain size fraction <20 microns via ICP-MS (total digest)measured in sediment, <20 µm
136 Dysprosium, limit of detectionDy LODµg/kgEbeling, Anna
137 Dysprosium, limit of quantificationDy LOQµg/kgEbeling, Anna
138 Dysprosium, uncertaintyDy unc±Ebeling, Anna
139 HolmiumHoµg/kgEbeling, AnnaElement analysis grain size fraction <20 microns via ICP-MS (total digest)measured in sediment, <20 µm
140 Holmium, limit of detectionHo LODµg/kgEbeling, Anna
141 Holmium, limit of quantificationHo LOQµg/kgEbeling, Anna
142 Holmium, uncertaintyHo unc±Ebeling, Anna
143 ErbiumErµg/kgEbeling, AnnaElement analysis grain size fraction <20 microns via ICP-MS (total digest)measured in sediment, <20 µm
144 Erbium, limit of detectionEr LODµg/kgEbeling, Anna
145 Erbium, limit of quantificationEr LOQµg/kgEbeling, Anna
146 Erbium, uncertaintyEr unc±Ebeling, Anna
147 ThuliumTmµg/kgEbeling, AnnaElement analysis grain size fraction <20 microns via ICP-MS (total digest)measured in sediment, <20 µm
148 Thulium, limit of detectionTm LODµg/kgEbeling, Anna
149 Thulium, limit of quantificationTm LOQµg/kgEbeling, Anna
150 Thulium, uncertaintyTm unc±Ebeling, Anna
151 YtterbiumYbµg/kgEbeling, AnnaElement analysis grain size fraction <20 microns via ICP-MS (total digest)measured in sediment, <20 µm
152 Ytterbium, limit of detectionYb LODµg/kgEbeling, Anna
153 Ytterbium, limit of quantificationYb LOQµg/kgEbeling, Anna
154 Ytterbium, uncertaintyYb unc±Ebeling, Anna
155 LutetiumLuµg/kgEbeling, AnnaElement analysis grain size fraction <20 microns via ICP-MS (total digest)measured in sediment, <20 µm
156 Lutetium, limit of detectionLu LODµg/kgEbeling, Anna
157 Lutetium, limit of quantificationLu LOQµg/kgEbeling, Anna
158 Lutetium, uncertaintyLu unc±Ebeling, Anna
159 TantalumTaµg/kgEbeling, AnnaElement analysis grain size fraction <20 microns via ICP-MS (total digest)measured in sediment, <20 µm
160 Tantalum, limit of detectionTa LODµg/kgEbeling, Anna
161 Tantalum, limit of quantificationTa LOQµg/kgEbeling, Anna
162 Tantalum, uncertaintyTa unc±Ebeling, Anna
163 MagnesiumMgµg/kgEbeling, AnnaElement analysis grain size fraction <20 microns via ICP-MS (total digest)measured in sediment, <20 µm
164 Magnesium, limit of detectionMg LODµg/kgEbeling, Anna
165 Magnesium, limit of quantificationMg LOQµg/kgEbeling, Anna
166 Magnesium, uncertaintyMg unc±Ebeling, Anna
167 PotassiumKµg/kgEbeling, AnnaElement analysis grain size fraction <20 microns via ICP-MS (total digest)measured in sediment, <20 µm
168 Potassium, limit of detectionK LODµg/kgEbeling, Anna
169 Potassium, limit of quantificationK LOQµg/kgEbeling, Anna
170 Potassium, uncertaintyK unc±Ebeling, Anna
171 ChromiumCrµg/kgEbeling, AnnaElement analysis grain size fraction <20 microns via ICP-MS (total digest)measured in sediment, <20 µm
172 Chromium, limit of detectionCr LODµg/kgEbeling, Anna
173 Chromium, limit of quantificationCr LOQµg/kgEbeling, Anna
174 Chromium, uncertaintyCr unc±Ebeling, Anna
175 CobaltCoµg/kgEbeling, AnnaElement analysis grain size fraction <20 microns via ICP-MS (total digest)measured in sediment, <20 µm
176 Cobalt, limit of detectionCo LODµg/kgEbeling, Anna
177 Cobalt, limit of quantificationCo LOQµg/kgEbeling, Anna
178 Cobalt, uncertaintyCo unc±Ebeling, Anna
179 CadmiumCdµg/kgEbeling, AnnaElement analysis grain size fraction <20 microns via ICP-MS (total digest)measured in sediment, <20 µm
180 Cadmium, limit of detectionCd LODµg/kgEbeling, Anna
181 Cadmium, limit of quantificationCd LOQµg/kgEbeling, Anna
182 Cadmium, uncertaintyCd unc±Ebeling, Anna
183 AluminiumAlµg/kgEbeling, AnnaElement analysis grain size fraction <20 microns via ICP-MS (total digest)measured in sediment, <20 µm
184 Aluminium, limit of detectionAl LODµg/kgEbeling, Anna
185 Aluminium, limit of quantificationAl LOQµg/kgEbeling, Anna
186 Aluminium, uncertaintyAl unc±Ebeling, Anna
187 CalciumCaµg/kgEbeling, AnnaElement analysis grain size fraction <20 microns via ICP-MS (total digest)measured in sediment, <20 µm
188 Calcium, limit of detectionCa LODµg/kgEbeling, Anna
189 Calcium, limit of quantificationCa LOQµg/kgEbeling, Anna
190 Calcium, uncertaintyCa unc±Ebeling, Anna
191 ManganeseMnµg/kgEbeling, AnnaElement analysis grain size fraction <20 microns via ICP-MS (total digest)measured in sediment, <20 µm
192 Manganese, limit of detectionMn LODµg/kgEbeling, Anna
193 Manganese, limit of quantificationMn LOQµg/kgEbeling, Anna
194 Manganese, uncertaintyMn unc±Ebeling, Anna
195 BariumBaµg/kgEbeling, AnnaElement analysis grain size fraction <20 microns via ICP-MS (total digest)measured in sediment, <20 µm
196 Barium, limit of detectionBa LODµg/kgEbeling, Anna
197 Barium, limit of quantificationBa LOQµg/kgEbeling, Anna
198 Barium, uncertaintyBa unc±Ebeling, Anna
199 IronFeµg/kgEbeling, AnnaElement analysis grain size fraction <20 microns via ICP-MS (total digest)measured in sediment, <20 µm
200 Iron, limit of detectionFe LODµg/kgEbeling, Anna
201 Iron, limit of quantificationFe LOQµg/kgEbeling, Anna
202 Iron, uncertaintyFe unc±Ebeling, Anna
203 Event labelEventEbeling, Anna
License:
Creative Commons Attribution 4.0 International (CC-BY-4.0)
Status:
Curation Level: Enhanced curation (CurationLevelC)
Size:
4620 data points

Data

Download dataset as tab-delimited text — use the following character encoding:


Event
Sample label
IGSN
Station
Depth sed [m]
Latitude
Longitude
Date/Time
Method/Device		10 
Elevation [m]		11 
Li [µg/kg]
(measured in sediment, <20 µm)		12 
Li LOD [µg/kg]		13 
Li LOQ [µg/kg]		14 
Li unc [±]		15 
Be [µg/kg]
(measured in sediment, <20 µm)		16 
Be LOD [µg/kg]		17 
Be LOQ [µg/kg]		18 
Be unc [±]		19 
Sr [µg/kg]
(measured in sediment, <20 µm)		20 
Sr LOD [µg/kg]		21 
Sr LOQ [µg/kg]		22 
Sr unc [±]		23 
Y [µg/kg]
(measured in sediment, <20 µm)		24 
Y LOD [µg/kg]		25 
Y LOQ [µg/kg]		26 
Y unc [±]		27 
Ni [µg/kg]
(measured in sediment, <20 µm)		28 
Ni LOD [µg/kg]		29 
Ni LOQ [µg/kg]		30 
Ni unc [±]		31 
Zn [µg/kg]
(measured in sediment, <20 µm)		32 
Zn LOD [µg/kg]		33 
Zn LOQ [µg/kg]		34 
Zn unc [±]		35 
As [µg/kg]
(measured in sediment, <20 µm)		36 
As LOD [µg/kg]		37 
As LOQ [µg/kg]		38 
As unc [±]		39 
Rb [µg/kg]
(measured in sediment, <20 µm)		40 
Rb LOD [µg/kg]		41 
Rb LOQ [µg/kg]		42 
Rb unc [±]		43 
Cs [µg/kg]
(measured in sediment, <20 µm)		44 
Cs LOD [µg/kg]		45 
Cs LOQ [µg/kg]		46 
Cs unc [±]		47 
W [µg/kg]
(measured in sediment, <20 µm)		48 
W LOD [µg/kg]		49 
W LOQ [µg/kg]		50 
W unc [±]		51 
Tl [µg/kg]
(measured in sediment, <20 µm)		52 
Tl LOD [µg/kg]		53 
Tl LOQ [µg/kg]		54 
Tl unc [±]		55 
Pb [µg/kg]
(measured in sediment, <20 µm)		56 
Pb LOD [µg/kg]		57 
Pb LOQ [µg/kg]		58 
Pb unc [±]		59 
Bi [µg/kg]
(measured in sediment, <20 µm)		60 
Bi LOD [µg/kg]		61 
Bi LOQ [µg/kg]		62 
Bi unc [±]		63 
Th [µg/kg]
(measured in sediment, <20 µm)		64 
Th LOD [µg/kg]		65 
Th LOQ [µg/kg]		66 
Th unc [±]		67 
U [µg/kg]
(measured in sediment, <20 µm)		68 
U LOD [µg/kg]		69 
U LOQ [µg/kg]		70 
U unc [±]		71 
Sc [µg/kg]
(measured in sediment, <20 µm)		72 
Sc LOD [µg/kg]		73 
Sc LOQ [µg/kg]		74 
Sc unc [±]		75 
Ti [µg/kg]
(measured in sediment, <20 µm)		76 
Ti LOD [µg/kg]		77 
Ti LOQ [µg/kg]		78 
Ti unc [±]		79 
V [µg/kg]
(measured in sediment, <20 µm)		80 
V LOD [µg/kg]		81 
V LOQ [µg/kg]		82 
V unc [±]		83 
Ga [µg/kg]
(measured in sediment, <20 µm)		84 
Ga LOD [µg/kg]		85 
Ga LOQ [µg/kg]		86 
Ga unc [±]		87 
Ge [µg/kg]
(measured in sediment, <20 µm)		88 
Ge LOD [µg/kg]		89 
Ge LOQ [µg/kg]		90 
Ge unc [µg/kg]		91 
Nb [µg/kg]
(measured in sediment, <20 µm)		92 
Nb LOD [µg/kg]		93 
Nb LOQ [µg/kg]		94 
Nb unc [±]		95 
Mo [µg/kg]
(measured in sediment, <20 µm)		96 
Mo LOD [µg/kg]		97 
Mo LOQ [µg/kg]		98 
Mo unc [±]		99 
In [µg/kg]
(measured in sediment, <20 µm)		100 
In LOD [µg/kg]		101 
In LOQ [µg/kg]		102 
In unc [±]		103 
La [µg/kg]
(measured in sediment, <20 µm)		104 
La LOD [µg/kg]		105 
La LOQ [µg/kg]		106 
La unc [±]		107 
Ce [µg/kg]
(measured in sediment, <20 µm)		108 
Ce LOD [µg/kg]		109 
Ce LOQ [µg/kg]		110 
Ce unc [±]		111 
Pr [µg/kg]
(measured in sediment, <20 µm)		112 
Pr LOD [µg/kg]		113 
Pr LOQ [µg/kg]		114 
Pr unc [±]		115 
Nd [µg/kg]
(measured in sediment, <20 µm)		116 
Nd LOD [µg/kg]		117 
Nd LOQ [µg/kg]		118 
Nd unc [±]		119 
Sm [µg/kg]
(measured in sediment, <20 µm)		120 
Sm LOD [µg/kg]		121 
Sm LOQ [µg/kg]		122 
Sm unc [±]		123 
Eu [µg/kg]
(measured in sediment, <20 µm)		124 
Eu LOD [µg/kg]		125 
Eu LOQ [µg/kg]		126 
Eu unc [±]		127 
Gd [µg/kg]
(measured in sediment, <20 µm)		128 
Gd LOD [µg/kg]		129 
Gd LOQ [µg/kg]		130 
Gd unc [±]		131 
Tb [µg/kg]
(measured in sediment, <20 µm)		132 
Tb LOD [µg/kg]		133 
Tb LOQ [µg/kg]		134 
Tb unc [±]		135 
Dy [µg/kg]
(measured in sediment, <20 µm)		136 
Dy LOD [µg/kg]		137 
Dy LOQ [µg/kg]		138 
Dy unc [±]		139 
Ho [µg/kg]
(measured in sediment, <20 µm)		140 
Ho LOD [µg/kg]		141 
Ho LOQ [µg/kg]		142 
Ho unc [±]		143 
Er [µg/kg]
(measured in sediment, <20 µm)		144 
Er LOD [µg/kg]		145 
Er LOQ [µg/kg]		146 
Er unc [±]		147 
Tm [µg/kg]
(measured in sediment, <20 µm)		148 
Tm LOD [µg/kg]		149 
Tm LOQ [µg/kg]		150 
Tm unc [±]		151 
Yb [µg/kg]
(measured in sediment, <20 µm)		152 
Yb LOD [µg/kg]		153 
Yb LOQ [µg/kg]		154 
Yb unc [±]		155 
Lu [µg/kg]
(measured in sediment, <20 µm)		156 
Lu LOD [µg/kg]		157 
Lu LOQ [µg/kg]		158 
Lu unc [±]		159 
Ta [µg/kg]
(measured in sediment, <20 µm)		160 
Ta LOD [µg/kg]		161 
Ta LOQ [µg/kg]		162 
Ta unc [±]		163 
Mg [µg/kg]
(measured in sediment, <20 µm)		164 
Mg LOD [µg/kg]		165 
Mg LOQ [µg/kg]		166 
Mg unc [±]		167 
K [µg/kg]
(measured in sediment, <20 µm)		168 
K LOD [µg/kg]		169 
K LOQ [µg/kg]		170 
K unc [±]		171 
Cr [µg/kg]
(measured in sediment, <20 µm)		172 
Cr LOD [µg/kg]		173 
Cr LOQ [µg/kg]		174 
Cr unc [±]		175 
Co [µg/kg]
(measured in sediment, <20 µm)		176 
Co LOD [µg/kg]		177 
Co LOQ [µg/kg]		178 
Co unc [±]		179 
Cd [µg/kg]
(measured in sediment, <20 µm)		180 
Cd LOD [µg/kg]		181 
Cd LOQ [µg/kg]		182 
Cd unc [±]		183 
Al [µg/kg]
(measured in sediment, <20 µm)		184 
Al LOD [µg/kg]		185 
Al LOQ [µg/kg]		186 
Al unc [±]		187 
Ca [µg/kg]
(measured in sediment, <20 µm)		188 
Ca LOD [µg/kg]		189 
Ca LOQ [µg/kg]		190 
Ca unc [±]		191 
Mn [µg/kg]
(measured in sediment, <20 µm)		192 
Mn LOD [µg/kg]		193 
Mn LOQ [µg/kg]		194 
Mn unc [±]		195 
Ba [µg/kg]
(measured in sediment, <20 µm)		196 
Ba LOD [µg/kg]		197 
Ba LOQ [µg/kg]		198 
Ba unc [±]		199 
Fe [µg/kg]
(measured in sediment, <20 µm)		200 
Fe LOD [µg/kg]		201 
Fe LOQ [µg/kg]		202 
Fe unc [±]		203 
Event
LP20200629_Stat_001_Kugelbake_KBA_Sed s_LP20200629_Stat_001_Kugelbake_KBA_Sed_1Lhttps://doi.org/10.60510/GFHER99839Stat_001_Kugelbake053.88468.69712020-07-22T07:28:00Box corer-752000110180500025003179200155000150310600032000300710.0200037000140280100010500050001300070002400013001600100013300050707000110005371500144037818049014885024000802101000<6602406609304.619.052.0312.4270013.031.0100155001229900540000021004300500000121000556000211001745800190072073040019000140019002000290031077010007041110380009183000770001530700095000.81.8400330003.79.5200067004.00010.00060012000.420.9210052004115006700.340.344039009.0025.002007702.506.3030220011.0031.001003200.950.951021008162003102.106.00501000501302001700000012000210001200000300000001100024000200000095000140035001100010700132912001703.78.15067000000120002400030000002200000050000130000100000091000090020003000024000013030030000LP20200629_Stat_001_Kugelbake_KBA_Sed
LP20200629_Stat_002_Lt_Vogelsand_KBA_Sed s_LP20200629_Stat_002_Lt_Vogelsand_KBA_Sed_1Lhttps://doi.org/10.60510/GFHERBB9B2Stat_002_Lt_Vogelsand053.96668.49682020-07-22T08:49:00Box corer-12670001101805000340031793003650001503101700037000300710.0200051000140280200035000050001300014000410001300160010001400005070700011400537150020403781120510148860820008021070007002406606012218.419.052.0872.8250013.031.02001930012297005300000210043006000001520005550002000017456002400720730300180001400190020001900310770100013041120480009185000100000153011000127000.81.81400440003.79.5500087004.00010.00090016000.420.9220068004119009500.340.3411053009.0025.0020010102.506.3050290011.0031.003004300.950.9570310081615003902.106.0010110050130200191000001200021000110000028000000110002400020000001380001400350080001480013298003903.78.1907700000012000240003000000640000005000013000020000002060000900200010000027000013030040000LP20200629_Stat_002_Lt_Vogelsand_KBA_Sed
LP20200629_Stat_003_CuxSyl01_KBA_Sed s_LP20200629_Stat_003_CuxSyl01_KBA_Sed_1Lhttps://doi.org/10.60510/GFHER7DE8EStat_003_CuxSyl01054.11808.47702020-07-22T11:01:00Box corer-10670001101803000300031792002370001503101500031000300710.0200042000140280200027100050001300015000350001300160020001480005070600013100537150018503781170530148850810008021050007902406609010020.419.052.0408.2230013.031.0100182001229800540000021004300500000156000558000211001745500220072073060019000140019002000130031077050012041120390009183000760001530600097000.81.8800340003.79.5200067004.00010.00060013000.420.9210053004116007300.340.344042009.0025.002008202.506.3070240011.0031.004003500.950.952023008161003302.106.002010005013040019700000120002100019000003000000011000240002000000121000140035001100012300132912004203.78.1907600000012000240005000000370000005000013000020000001550000900200010000026000013030030000LP20200629_Stat_003_CuxSyl01_KBA_Sed
LP20200629_Stat_004_CuxSyl02_KBA_Sed s_LP20200629_Stat_004_CuxSyl02_KBA_Sed_1Lhttps://doi.org/10.60510/GFHERC5469Stat_004_CuxSyl02054.22588.43272020-07-22T11:45:00Box corer-1361000110180600027003179200246000150310600033000300710.0200038000140280200029700050001300024000440001300160030001360005070500011800537150019303781120470148850650008021030007402406605011983.319.052.0423.8260013.031.02001720012294005600000210043003000001510005550001850017456002100720730700190001400190020001200310770300110411104200091830008400015307000107000.81.8800370003.79.5300076004.00010.00050014000.420.9210060004115008400.340.3416046009.0025.003008902.506.3060260011.0031.001003800.950.952026008162003702.106.002011005013040019700000120002100080000028000000110002400020000001140001400350070001230013295003403.78.11007100000012000240004000000380000005000013000020000001470000900200011000027000013030050000LP20200629_Stat_004_CuxSyl02_KBA_Sed
LP20200629_Stat_005_KS11_KBA_Sed s_LP20200629_Stat_005_KS11_KBA_Sed_1Lhttps://doi.org/10.60510/GFHER36F93Stat_005_KS11054.07118.12952020-07-22T13:22:00Box corer-19610001101803000250031793002340001503101000030000300710.0300035000140280100022000050001300011000370001300160010001350005070500011600537140019403781140570148840710008021020007802406605011486.019.052.0383.5280013.031.0100167001229600580000021004300500000122000555000177001745900200072073040019000140019001000<770310770100411104200091830008400015304000107000.81.8900370003.79.5200073004.00010.00060014000.420.9210057004114007800.340.343044009.0025.003008602.506.3060250011.0031.001003700.950.953025008162003602.106.0020120050130300178000001200021000100000028000000110002400020000001070001400350060001000013297005003.78.111075000000120002400060000004500000050000130000200000093000090020005000030000013030070000LP20200629_Stat_005_KS11_KBA_Sed
LP20200629_Stat_008_AMWE22_KBA_Sed s_LP20200629_Stat_008_AMWE22_KBA_Sed_1Lhttps://doi.org/10.60510/GFHERA8592Stat_008_AMWE22054.52167.84332020-07-23T11:28:00Box corer640001101806000300031792001960001503101200031000300710.040005200014028030004690005000130004500072000130016006000140000507090001260053718002280378119049014885012700080210800088024066010012259.519.052.0675.5260013.031.0200166001229130042000002100430060000022800055180001860017452500230072073070017000140019003000250031077080017041120370009182000730001530900091000.81.81000320003.79.5300068004.00010.00080014000.420.9210058004118008200.340.344047009.0025.004009202.506.3070260011.0031.002003800.950.952026008163003802.106.00501100501304002010000012000210001900000270000001100024000300000013300014003500800018600132912003503.78.1707500000012000240006000000220000005000013000020000003380000900200021000024000013030040000LP20200629_Stat_008_AMWE22_KBA_Sed
LP20200629_Stat_009_AMWE21_KBA_Sed s_LP20200629_Stat_009_AMWE21_KBA_Sed_1Lhttps://doi.org/10.60510/GFHER9F925Stat_009_AMWE21054.52297.79622020-07-23T11:46:00Box corer740001101807000330031794002050001503102200036000300710.040005900014028070005660005000130002600010700013001600100001510005070140001360053711200294037813305501488604200008021041000105024066014017021.519.052.01587.1340013.031.0300190001229180049000002100430070000031200055320001930017452200240072073070020000140019003000280031077010002704117043000918700089000153014000112000.81.81900400003.79.5700084004.00010.000150017000.420.923007300411130010800.340.3412063009.0025.0070012202.506.30130350011.0031.004005200.950.956035008165005002.106.006012005013030021800000120002100022000002700000011000240003000000171000140035002000026400132930002903.78.16084000000120002400010000000180000005000013000020000003780000900200045000026000013030030000LP20200629_Stat_009_AMWE21_KBA_Sed
LP20200629_Stat_012_AMWE15_KBA_Sed s_LP20200629_Stat_012_AMWE15_KBA_Sed_1Lhttps://doi.org/10.60510/GFHER69998Stat_012_AMWE15054.57517.70932020-07-23T10:48:00Box corer-2267000110180400031003179400163000150310500031000300710.01000530001402801000477000500013000290006300013001600300014600050703000131005371300204037811505201488301480008021050008902406604012983.419.052.0369.4330013.031.02001670012294004700000210043005000002430005550001940017457002100720730500190001400190020003200310770110020041170380009184000770001530600098000.81.8900350003.79.5300071004.00010.00060014000.420.9220061004115008500.340.344050009.0025.002009602.506.3020280011.0031.002004200.950.953028008163004002.106.0020120050130400205000001200021000900000280000001100024000200000015600014003500900016500132910005103.78.1708100000012000240006000000110000005000013000010000001520000900200010000022000013030030000LP20200629_Stat_012_AMWE15_KBA_Sed
LP20200629_Stat_013_AMWE23_KBA_Sed s_LP20200629_Stat_013_AMWE23_KBA_Sed_1Lhttps://doi.org/10.60510/GFHER2E5D2Stat_013_AMWE23054.56487.70562020-07-23T10:36:00Box corer-2269000110180200030003179300191000150310400030000300710.02000520001402801000400000500013000210005600013001600200015100050705000135005371100213037811005601488401320008021050008102406604012649.919.052.0447.2320013.031.010017000122960045000002100430050000022300055700019200174514002200720730700170001400190020002700310770100016041120380009185000760001530800097000.81.81100340003.79.5400069004.00010.00090014000.420.9220058004116008500.340.345050009.0025.004009502.506.3060270011.0031.001004300.950.958027008162004002.106.00201100501303001970000012000210008000002700000011000240001000000149000140035001000017100132910003803.78.11008300000012000240006000000190000005000013000010000001460000900200010000024000013030050000LP20200629_Stat_013_AMWE23_KBA_Sed
LP20200629_Stat_014_AMWE20_KBA_Sed s_LP20200629_Stat_014_AMWE20_KBA_Sed_1Lhttps://doi.org/10.60510/GFHERC8C48Stat_014_AMWE20054.49257.70312020-07-23T09:46:00Box corer-2870000110180300027003179300246000150310500026000300710.01000450001402802000410000500013000260003800013001600200014500050705000135005371500194037811305901488501300008021060008902406608011806.319.052.0655.2360013.031.02001710012294004000000210043003000002030005590001630017451200200072073060015000140019002000200031077050013041110360009182000710001530500091000.81.8700330003.79.5200066004.00010.00050014000.420.9210056004117008600.340.349048009.0025.003009302.506.3040260011.0031.002003900.950.952027008162003902.106.0040110050130400190000001200021000900000250000001100024000200000012900014003500600018200132910004603.78.112079000000120002400060000004000000050000130000300000093000090020009000025000013030040000LP20200629_Stat_014_AMWE20_KBA_Sed
LP20200629_Stat_015_AMWE24_KBA_Sed s_LP20200629_Stat_015_AMWE24_KBA_Sed_1Lhttps://doi.org/10.60510/GFHER8452CStat_015_AMWE24054.52417.63092020-07-24T08:45:00Box corer71000110180400029003179300174000150310500027000300710.040005100014028020005070005000130002100061000130016003000150000507040001410053716002230378119058014885027500080210170009202406608014155.819.052.0631.7360013.031.02001670012294004200000210043004000002430005570001680017456002300720730800160001400190020002200310770100018041120360009183000700001530600091000.81.81000320003.79.5300067004.00010.0006007000.420.9210057004115008800.340.343051009.0025.002009802.506.3040290011.0031.002004200.950.954029008162004102.106.003011005013040018600000120002100090000024000000110002400010000001540001400350060001930013299005603.78.1608000000012000240006000000170000005000013000010000002220000900200013000023000013030030000LP20200629_Stat_015_AMWE24_KBA_Sed
LP20200629_Stat_016_AMWE19_KBA_Sed s_LP20200629_Stat_016_AMWE19_KBA_Sed_1Lhttps://doi.org/10.60510/GFHER2A342Stat_016_AMWE19054.52507.58282020-07-24T09:08:00Box corer66000110180200026003179400185000150310400028000300710.010005800014028020004600005000130003000081000130016003000146000507040001300053715002710378118058014884024500080210120009302406605015140.119.052.0431.5350013.031.01001760012294004500000210043004000002500005570001570017457001800720730500170001400190020002400310770100027041130380009183000770001530600097000.81.8800340003.79.5300070004.00010.00050014000.420.9210061004114009800.340.344058009.0025.0030011502.506.30140330011.0031.001004900.950.953033008162004902.106.003013005013030017400000120002100090000023000000110002400020000001660001400350070002060013298004403.78.1120790000001200024000200000019000000500001300001000000164000090020008000027000013030030000LP20200629_Stat_016_AMWE19_KBA_Sed
LP20200629_Stat_021_NOST35_KBA_Sed s_LP20200629_Stat_021_NOST35_KBA_Sed_1Lhttps://doi.org/10.60510/GFHER7DD94Stat_021_NOST35054.45277.87562020-07-23T07:21:00Box corer-18560001101803000170031792002250001503101000019000300710.0100042000140280200040400050001300021000930001300160050001240005070300011800537150030803781250630148870189000802101000011402406608018316.319.052.0774.3380013.031.020015700122950032000002100430030000022100055900086001745500200072073090014000140019002000<77031077017041130350009183000710001530700094000.81.8700340003.79.5300073004.00010.00070015000.420.92200640041160011500.340.346067009.0025.0020012902.506.3050370011.0031.001005700.950.952038008163005402.106.0030120050130400138000001200021000700000130000001100024000100000012000014003500400021800132915003103.78.11105800000012000240004000000340000005000013000030000002110000900200018000027000013030060000LP20200629_Stat_021_NOST35_KBA_Sed
LP20200629_Stat_022_NOAH_E_5_KBA_Sed s_LP20200629_Stat_022_NOAH_E_5_KBA_Sed_1Lhttps://doi.org/10.60510/GFHER96DF9Stat_022_NOAH_E_5054.43827.42482020-07-24T10:09:00Box corer590002106301200022009264001800003952100002600025.1200056000190440700028000010001100200006200030008100500014000090220100001200012030070020005014030063020575012700016161300082018438011900.02.75.6500.031003.75.13001800092320004400000600001500002000002400005012030000174007163002000190510300150002300590030003000230490200024010164038000511300076000616700096000.51.4700290003.79.5100068000.0910.09190014000.701.6010059004118008800.340.3413053000.370.378008600.280.774030000.120.127004500.140.147027008164004100.360.946011004010050017000000150003800010000002100000060001000010000001230002205707000247005013030007006.016.0300700000003400790010000000300000001900032000200000021100004001000230000300000100025001000061800000350096003000000LP20200629_Stat_022_NOAH_E_5_KBA_Sed
LP20200629_Stat_023_NOST43_KBA_Sed s_LP20200629_Stat_023_NOST43_KBA_Sed_1Lhttps://doi.org/10.60510/GFHERFABC9Stat_023_NOST43054.43737.61362020-07-24T08:03:00Box corer650002106301200026009265002000003952200003300025.16000590001904405000440000100011006000095000300081001300014000090220200001140012030011002500501405006402057110162000161620000910184312017800.02.75.62500.040003.75.15002000092330005000000600001500006000003300005012050000195007162500230019051040017000230059004000400023049030002501016304600051170009300061612000117000.51.41600310003.79.5300086000.0910.091160018000.701.602007600411120011600.340.3422070000.370.37120010300.280.7711039000.120.127006000.140.149037008165005500.360.9490130040100500190000001500038000300000021000000600010000300000015800022057024000370005013033007006.016.0200800000003400790020000000250000001900032000300000038300004001000380000290000100025003000078900000350096007300000LP20200629_Stat_023_NOST43_KBA_Sed
LP20200629_Stat_024_NOST42_KBA_Sed s_LP20200629_Stat_024_NOST42_KBA_Sed_1Lhttps://doi.org/10.60510/GFHERD2299Stat_024_NOST42054.43547.57392020-07-24T10:46:00Box corer67000210630600024009265002100003952300002900025.1400051000190440800042000010001100200008400030008100110001600009022020000116001203001700240050140100070020571101620001616120001010184312015900.02.75.61900.040003.75.13001300092340004200000600001500008000002000005012040000194007161100280019051090017000230059004000300023049030001801016404300051140008700061610000108000.51.4900270003.79.5500054000.0910.091170016000.701.60100470041114007000.340.3423040000.370.3715008000.280.7713023000.120.129003300.140.1413029008163003200.360.9411012004010060018000000150003800030000002200000060001000010000001390002205706000274005013039006006.016.02009000000034007900200000002900000019000320005000000160000040010002100002700001000250040000681000003500960012400000LP20200629_Stat_024_NOST42_KBA_Sed
LP20200629_Stat_027_MEWI36_KBA_Sed s_LP20200629_Stat_027_MEWI36_KBA_Sed_1Lhttps://doi.org/10.60510/GFHER2C7C5Stat_027_MEWI36054.41097.78612020-07-23T12:57:00Box corer64000110180100014003179100237000150310500014000300710.010003800014028020002020005000130007000320001300160030001480005070100001430053711000243037812308801488701290008021017000102024066012015730.119.052.01629.6550013.031.050017000122990034000002100430040000013500055800089001745300150072073070013000140019002000<77031077012041130350009184000680001530700091000.81.8800320003.79.5300065004.00010.00060013000.420.92200550041160010100.340.349058009.0025.0040011002.506.30100310011.0031.002004900.950.953033008165004802.106.0040130050130400128000001200021000600000130000001100024000100000011100014003500800014500132911004003.78.110066000000120002400060000005000000050000130000200000043000090020004000033000013030060000LP20200629_Stat_027_MEWI36_KBA_Sed
LP20200629_Stat_028_MEWI37_KBA_Sed s_LP20200629_Stat_028_MEWI37_KBA_Sed_1Lhttps://doi.org/10.60510/GFHERABEDFStat_028_MEWI37054.41157.82552020-07-23T12:41:00Box corer610002106301300023009263002100003952100002900025.11000420001904402000780000100011003000093000300081008000120000902201000082001203003001900501405005502057402440001616150001070184310015500.02.75.61300.035003.75.1200160009233000360000060000150000200000240000501204000016500716100025001905105001500023005900300020002304902000180101630410005111000840006166000109000.51.4400240003.79.5100075000.0910.091150017000.701.601006700411140010400.340.3423062000.370.3713008200.280.775036000.120.128005100.140.1413034008163004700.360.949011004010050019000000150003800010000001700000060001000010000001190002205707000364005013017007006.016.0300700000003400790020000000260000001900032000200000044800004001000160000230000100025001000079200000350096002900000LP20200629_Stat_028_MEWI37_KBA_Sed
LP20200629_Stat_030_MEWI41_KBA_Sed s_LP20200629_Stat_030_MEWI41_KBA_Sed_1Lhttps://doi.org/10.60510/GFHER4499CStat_030_MEWI41054.37487.57772020-07-24T11:24:00Box corer570002106301200018009262002100003952300002500025.13000340001904401000250000100011003000037000300081005000130000902201000088001203001200140050140400610205790171000161620000860184310013900.02.75.61600.037003.75.14001600092330003500000600001500006000001700005012030000174007162300200019051050013000230059003000200023049020001401016304100051150008400061613000105000.51.41400210003.79.5200065000.0910.091100015000.701.6020055004119008300.340.3414049000.370.377006400.280.778028000.120.126004000.140.146029008165003900.360.94601000401004001600000015000380002000000180000006000100002000000960002205701300016900501304006006.016.0200700000003400790020000000330000001900032000100000013200004001000170000230000100025003000035600000350096001400000LP20200629_Stat_030_MEWI41_KBA_Sed
LP20200629_Stat_031_MEWI40_KBA_Sed s_LP20200629_Stat_031_MEWI40_KBA_Sed_1Lhttps://doi.org/10.60510/GFHER25559Stat_031_MEWI40054.36837.61972020-07-24T11:37:00Box corer-10540002106301100017009263001900003952200002300025.12000310001904404000210000100011002000023000300081003000130000902201000081001203009001200501404006302057401170001616700090018437013700.02.75.61000.042003.75.1300160009233000300000060000150000400000140000501203000017000716140019001905103001200023005900300020002304903000110101640390005113000840006167000102000.51.4900180003.79.5200063000.0910.091110015000.701.6010053004118008100.340.3412048000.370.377005400.280.776027000.120.124004000.140.148028008163003800.360.94601000401004001400000015000380001000000160000006000100002000000840002205709000137005013017007006.016.02007000000034007900200000003400000019000320003000000460000400100050000220000100025002000030500000350096004200000LP20200629_Stat_031_MEWI40_KBA_Sed
LP20200629_Stat_033_MEWI38_KBA_Sed s_LP20200629_Stat_033_MEWI38_KBA_Sed_1Lhttps://doi.org/10.60510/GFHER7CB4DStat_033_MEWI38054.34187.73002020-07-24T06:28:00Box corer680002106301800019009268002100003952300002100025.120004800019044015000320000100011004000044000300081004000130000902202000012800120300800220050140600570205780121000161644000890184323012600.02.75.64200.031003.75.11100180009232000420000060000150000130000017000050120300001390071684001800190510300140002300590020002000230490200015010166035000511300069000616800086000.51.4100300003.79.5200063000.0910.09150013000.701.6010054004116008500.340.3417049000.370.379009200.280.7723027000.120.126004200.140.1411026008169004000.360.949011004010040018000000150003800050000001900000060001000020000001030002205709000239005013065006006.016.020060000000340079001000000051000000190003200014000000163000040010002100003400001000250030000600000003500960025100000LP20200629_Stat_033_MEWI38_KBA_Sed
LP20200629_Stat_055_GOWI29_KBA_Sed s_LP20200629_Stat_055_GOWI29_KBA_Sed_1Lhttps://doi.org/10.60510/GFHER6499AStat_055_GOWI29054.07527.17582020-07-25T08:26:00Box corer-35700002106301000023009263003000003952100002200025.110006100019044020001600001000110010000230003000810060001400009022030000138001203005002300501407006302057506800016164000570184316011400.02.75.62900.035003.75.19002200092330005700000600001500007000001700005012020000180007168001900190510500160002300590020003000230490200011010162037000511200075000616400095000.51.4500350003.79.5100070000.0910.09190013000.701.6010055004116007900.340.3412046000.370.377008700.280.7713025000.120.123003900.140.145022008162003600.360.9440110040100400190000001500038000300000025000000600010000700000012800022057034000180005013014005006.016.020080000000340079001000000082000000190003200010000000530000400100020000420000100025001000053900000350096004500000LP20200629_Stat_055_GOWI29_KBA_Sed
LP20200629_Stat_063_NOAH_D_5_KBA_Sed s_LP20200629_Stat_063_NOAH_D_5_KBA_Sed_1Lhttps://doi.org/10.60510/GFHERF735FStat_063_NOAH_D_5054.09037.35512020-07-25T07:38:00Box corer-3567000210630900023009265002800003952300002200025.130005300019044050001600001000110020000240003000810040001400009022020000135001203001200200050140400640205780710001616800061018439011100.02.75.61400.035003.75.1400200009234000560000060000150000600000160000501203000017800716210019001905105001600023005900300020002304902000120101620380005115000770006161000096000.51.41200340003.79.5400069000.0910.091140013000.701.60200540041111007700.340.3416045000.370.378008300.280.7712025000.120.125003800.140.147022008163003600.360.9450100040100400190000001500038000200000024000000600010000300000011800022057015000173005013016005006.016.02008000000034007900200000007900000019000320009000000520000400100050000400000100025003000052400000350096005400000LP20200629_Stat_063_NOAH_D_5_KBA_Sed
LP20200629_Stat_042_GOWI27_KBA_Sed s_LP20200629_Stat_042_GOWI27_KBA_Sed_1Lhttps://doi.org/10.60510/GFHER9E4F9Stat_042_GOWI27054.07237.08122020-07-25T08:58:00Box corer76000210630700023009264003200003952300002400025.12000590001904405000170000100011002000024000300081001000140000902201000014600120300200220050140500650205770750001616600061018434012200.02.75.6500.040003.75.1300220009234000570000060000150000700000180000501203000019600716190018001905104001700023005900300020002304902000120101640400005113000810006166000106000.51.4400350003.79.5400073000.0910.091140014000.701.60100570041111008300.340.3416048000.370.378009200.280.775027000.120.125004100.140.149025008163003900.360.9480100040100400200000001500038000200000023000000600010000300000011800022057015000193005013020005006.016.01008000000034007900200000008900000019000320009000000490000400100050000430000100025005000056900000350096006500000LP20200629_Stat_042_GOWI27_KBA_Sed