Details for Harvest Job Id: b4f05016-c02c-40b9-a865-63417fc9765b
Job Info
| Harvest Source: | alaska-division-of-geological-and-geophysical-surveys |
| status: | complete |
| job_type: | harvest |
| date_created: | 2026-04-04 21:37:06.836719 |
| date_finished: | 2026-04-04 21:45:48.397819 |
| records_total: | 1028 |
| records_added: | 0 |
| records_updated: | 0 |
| records_deleted: | 0 |
| records_errored: | 1028 |
| records_unchanged: | 0 |
| records_validated: | 0 |
| id: | b4f05016-c02c-40b9-a865-63417fc9765b |
Job Error Table
No job errors foundRecord Error Details
| Error type | Number of errors |
| ExternalRecordToClass | 27 |
| TransformationException | 1001 |
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Error Message: alaska-division-of-geological-and-geophysical-surveys https://dggs.alaska.gov/webpubs/metadata/RDF2008-1.xml failed to prepare record for harvest :: UnicodeDecodeError('utf-8', b'<?xml version="1.0" encoding="ISO-8859-1"?>\r\n<metadata>\r\n<idinfo>\r\n<citation>\r\n<citeinfo>\r\n<origin>Athey, J.E.</origin>\r\n<origin>Freeman, L.K.</origin>\r\n<origin>Werdon, M.B.</origin>\r\n<origin>Szumigala, D.J.</origin>\r\n<origin>Lessard, R.L.</origin>\r\n<origin>Newberry, R.J.</origin>\r\n<origin>Hansen, S.E.</origin>\r\n<origin>Jing, Liping</origin>\r\n<pubdate>2008</pubdate>\r\n<title>Major-oxide, minor-oxide, and trace-element geochemical data from rocks and stream sediments collected in the northern Fairbanks mining district, Circle quadrangle, Alaska in 2007</title>\r\n<geoform>tabular digital data, report</geoform>\r\n<serinfo>\r\n<sername>Raw Data File</sername>\r\n<issue>RDF 2008-1 v. 1.0.1</issue>\r\n</serinfo>\r\n<pubinfo>\r\n<pubplace>Fairbanks, AK, USA</pubplace>\r\n<publish>State of Alaska, Department of Natural Resources, Division of Geological & Geophysical Surveys</publish>\r\n</pubinfo>\r\n<othercit>41 pp.</othercit>\r\n<onlink>http://dx.doi.org/10.14509/15901</onlink>\r\n</citeinfo>\r\n</citation>\r\n<descript>\r\n<abstract>Mineral-resources personnel from the Alaska Division of Geological & Geophysical Surveys carried out a geological field survey, including mapping and sampling northeast of Fairbanks in the Circle A-4, A-5, B-4, and B-5 quadrangles, Alaska from May 31 to June 28, 2007. The fieldwork provides basic information critical to building an understanding of Alaska geology and is part of an integrated program of airborne geophysical surveys followed by geological mapping. During 2007, 128 rock samples were collected for geochemical trace-element analysis, and 44 rock samples were collected for whole rock (major- and minor-oxide) analysis. Petrogenetically important trace-elements will be analyzed in a subsequent study to be published with the final map and report for this area. In addition, 67 stream sediment samples were collected for geochemical trace-element analysis. The stream sediment geochemical study was conducted over the proposed Mount Ryan Remote Recreational Cabin Staking Area as considered by Alaska's Division of Mining, Land & Water in 2007.</abstract>\r\n<purpose>The analyses in this report were acquired as part of a geologic mapping program, the purpose of which is to provide 1:50,000-scale geologic mapping of a portion of the Northeast Fairbanks airborne geophysical surveys released by DGGS in 2006 (Burns et al., 2006). The geophysical survey (helicopter-based aeromagnetic and electromagnetic data) and geologic mapping are part of the Alaska Airborne Geophysical/Geological Mineral Inventory Program, a special multi-year investment by the State of Alaska to expand Alaska's geologic and mineral resources knowledge base, catalyze future private-sector mineral exploration and development, and guide state planning.</purpose>\r\n<supplinf>\r\nThe data are available in tabular format as comma delimited ascii files organized into three layers each comprised of three tables as described in this metadata file under the "Entity_and_Attribute_Information" section. The layers are as follows:\r\n>Trace-metal rock geochemistry sample locations and descriptions, geochemical data, analytical methods and detection limits (Tables 1, 2, 7)\r\n>Whole-rock major- and minor-oxide geochemistry sample locations and descriptions, geochemical data, analytical methods and detection limits (Tables 3, 4, 8)\r\n>Trace-element stream sediment geochemistry sample locations, geochemical data, analytical methods and detection limits (Tables 5, 6, 9)\r\n</supplinf>\r\n</descript>\r\n<timeperd>\r\n<timeinfo>\r\n<rngdates>\r\n<begdate>200705</begdate>\r\n<enddate>200706</enddate>\r\n</rngdates>\r\n</timeinfo>\r\n<current>ground condition</current>\r\n</timeperd>\r\n<status>\r\n<progress>Complete</progress>\r\n<update>None planned</update>\r\n</status>\r\n<spdom>\r\n<bounding>\r\n<westbc>-146.4743</westbc>\r\n<eastbc>-145.982</eastbc>\r\n<northbc>65.409</northbc>\r\n<southbc>65.2103</southbc>\r\n</bounding>\r\n</spdom>\r\n<keywords>\r\n<theme>\r\n<themekt>ISO 19115 Topic Category</themekt>\r\n<themekey>geoscientificInformation</themekey>\r\n</theme>\r\n<theme>\r\n<themekt>None</themekt>\r\n<themekey>Geochemistry</themekey>\r\n<themekey>Major Oxides</themekey>\r\n<themekey>STATEMAP Project</themekey>\r\n<themekey>Stream Sediments</themekey>\r\n<themekey>Trace Metals</themekey>\r\n</theme>\r\n<place>\r\n<placekt>None</placekt>\r\n<placekey>Alaska, State of</placekey>\r\n<placekey>Chatanika River</placekey>\r\n<placekey>Circle Quadrangle</placekey>\r\n<placekey>Crooked Creek</placekey>\r\n<placekey>Deep Creek</placekey>\r\n<placekey>Fairbanks North Star Borough</placekey>\r\n<placekey>Faith Creek</placekey>\r\n<placekey>Frozenfoot Creek</placekey>\r\n<placekey>Glacier Pup</placekey>\r\n<placekey>Harrington Fork Birch Creek</placekey>\r\n<placekey>Hope Creek</placekey>\r\n<placekey>Idaho Creek</placekey>\r\n<placekey>McManus Creek</placekey>\r\n<placekey>Montana Creek</placekey>\r\n<placekey>Polar Creek</placekey>\r\n<placekey>Pool Creek</placekey>\r\n<placekey>Ruby Creek</placekey>\r\n<placekey>Ryan, Mount</placekey>\r\n<placekey>Smith Creek</placekey>\r\n<placekey>Sourdough Camp</placekey>\r\n<placekey>Sourdough Creek</placekey>\r\n<placekey>Steese Highway</placekey>\r\n<placekey>Tough Luck Creek</placekey>\r\n</place>\r\n</keywords>\r\n<accconst>This report, map, and/or dataset are available directly from the State of Alaska, Department of Natural Resources, Division of Geological & Geophysical Surveys (see contact information below).</accconst>\r\n<useconst>Any hard copies or published datasets utilizing these datasets shall clearly indicate their source. If the user has modified the data in any way, the user is obligated to describe the types of modifications the user has made. User specifically agrees not to misrepresent these datasets, nor to imply that changes made by the user were approved by the State of Alaska, Department of Natural Resources, Division of Geological & Geophysical Surveys.</useconst>\r\n<datacred>This project is part of the Alaska Airborne Geophysical/Geological Mineral Inventory Program funded by the Alaska State Legislature and managed by State of Alaska, Department of Natural Resources, Division of Geological & Geophysical Surveys. Partial funding for the geologic mapping and geochemical analyses was also provided through the U.S. Geological Survey STATEMAP Program under award number 07HQAG0076 and the General Fund.</datacred>\r\n<native>Adobe Acrobat Reader, any spreadsheet program or text editor.</native>\r\n<crossref>\r\n<citeinfo>\r\n<origin>Burns, L.E.</origin>\r\n<origin>Fugro Airborne Surveys</origin>\r\n<origin>Stevens Exploration Management Corp.</origin>\r\n<pubdate>2006</pubdate>\r\n<title>Line, grid, and vector data and plot files for the airborne geophysical survey data of northeast Fairbanks area, Fairbanks and Circle mining districts, Interior Alaska</title>\r\n<geoform>database</geoform>\r\n<serinfo>\r\n<sername>Geophysical Report</sername>\r\n<issue>GPR 2006-3</issue>\r\n</serinfo>\r\n<othercit>1 disk</othercit>\r\n<onlink>http://dx.doi.org/10.14509/14522</onlink>\r\n</citeinfo>\r\n</crossref>\r\n<crossref>\r\n<citeinfo>\r\n<origin>DGGS Staff</origin>\r\n<pubdate>1986</pubdate>\r\n<title>Analytical data for the Steese-White Mountains project</title>\r\n<geoform>map, document</geoform>\r\n<serinfo>\r\n<sername>Public Data File</sername>\r\n<issue>PDF 86-91</issue>\r\n</serinfo>\r\n<othercit>252 p., 6 sheets, scale 1:63,360.</othercit>\r\n<onlink>http://dx.doi.org/10.14509/1292</onlink>\r\n</citeinfo>\r\n</crossref>\r\n<crossref>\r\n<citeinfo>\r\n<origin>Wiltse, M.A.</origin>\r\n<origin>Metz, P.A.</origin>\r\n<origin>Robinson, M.S.</origin>\r\n<origin>Pinney, D.S.</origin>\r\n<pubdate>1994</pubdate>\r\n<title>Geochemical trace-element data for stream sediment samples collected in the Circle mining district, 1983</title>\r\n<geoform>table (non-digital)</geoform>\r\n<serinfo>\r\n<sername>Public Data File</sername>\r\n<issue>PDF 94-30A</issue>\r\n</serinfo>\r\n<pubinfo>\r\n<pubplace>Fairbanks</pubplace>\r\n<publish>Alaska Division of Geological & Geophysical Surveys</publish>\r\n</pubinfo>\r\n<othercit>86 p., 1 sheet, scale 1:63,360</othercit>\r\n<onlink>http://dx.doi.org/10.14509/1655</onlink>\r\n</citeinfo>\r\n</crossref>\r\n<crossref>\r\n<citeinfo>\r\n<origin>Wiltse, M.A.</origin>\r\n<origin>Queen, L.K.</origin>\r\n<origin>Pinney, D.S.</origin>\r\n<pubdate>2007</pubdate>\r\n<title>Geochemical trace-element data for rock samples collected in the Circle mining district, June 1993</title>\r\n<geoform>table (non-digital)</geoform>\r\n<serinfo>\r\n<sername>Public Data File</sername>\r\n<issue>PDF 94-31A</issue>\r\n</serinfo>\r\n<pubinfo>\r\n<pubplace>Fairbanks</pubplace>\r\n<publish>Alaska Division of Geological & Geophysical Surveys</publish>\r\n</pubinfo>\r\n<othercit>33 p., 1 sheet, scale 1:63,360</othercit>\r\n<onlink>http://dx.doi.org/10.14509/1657</onlink>\r\n</citeinfo>\r\n</crossref>\r\n<crossref>\r\n<citeinfo>\r\n<origin>Newberry, R.J.</origin>\r\n<origin>Wiltse, M.A.,</origin>\r\n<origin>Queen, L.K.</origin>\r\n<origin>Pinney, D.S.</origin>\r\n<pubdate>1994</pubdate>\r\n<title>Geochemical major-oxide and trace-element data for rock samples collected in the Circle mining district, June 1993</title>\r\n<geoform>map, document</geoform>\r\n<serinfo>\r\n<sername>Public Data File</sername>\r\n<issue>PDF 94-32A</issue>\r\n</serinfo>\r\n<pubinfo>\r\n<pubplace>Fairbanks</pubplace>\r\n<publish>Alaska Division of Geological & Geophysical Surveys</publish>\r\n</pubinfo>\r\n<othercit>94-32A, 7 p., 1 sheet, scale 1:63,360</othercit>\r\n<onlink>http://dx.doi.org/10.14509/1658</onlink>\r\n</citeinfo>\r\n</crossref>\r\n</idinfo>\r\n<dataqual>\r\n<attracc>\r\n<attraccr>All rock geochemical and whole rock analyses were performed by by ALS Chemex. Stream sediment geochemical analyses were performed by performed by Alaska Assay Laboratories (sample preparation) and Acme Labs (analyses). Rock samples were assayed for gold by inductive coupled plasma-atomic emission spectroscopy following a 30g fire assay fusion (FA-ICP). Trace-element geochemical analyses on rock samples were performed by inductive coupled plasma-atomic emission spectroscopy (ICP-AES) methods after four-acid, near-total digestion. This method of digestion is possibly incomplete for some elements and may result in lower analytical results for these elements. The elements that may be affected by incomplete digestion, analytical methods, and lower and upper reporting limits are tabulated in Table 7. Whole rock analyses (Table 4) were performed by ALS Chemex. Major and minor element oxides were determined by X-ray fluorescence spectrometry following a lithium borate fusion (WEI-GRA06). Analytical methods and detection limits are tabulated in Table 8. Stream sediment samples were assayed for gold by inductively coupled plasma-mass spectrometry (ICP-MS) following Aqua-Regia digestion. Trace element geochemical analyses were performed by ICP-MS methods after four-acid, near-total digestion. Digestion involved heating a 0.25 g split in HNO3-HClO4-HF to fuming and then taking it to dryness. The residue was dissolved in HCl. This method of digestion is possibly incomplete for some elements and may result in lower analytical results for these elements. In addition, some loss of certain elements may result from volatilization during fuming. The elements that may be affected by incomplete digestion and volatilization, analytical methods, and lower and upper detection limits are tabulated in Table 9.</attraccr>\r\n</attracc>\r\n<logic>No topologic relationships are present in data.</logic>\r\n<complete>This dataset contains all of the analyses for samples collected for trace-element rock geochemistry, whole rock major and minor oxide geochemistry, and trace element stream sediment geochemistry in the northeast Fairbanks project area in the summer of 2007. Whole-rock trace element analyses for rock samples will be determined by the Advanced Instrumentation Laboratory at the University of Alaska Fairbanks (UAF) and will be released at a later date.</complete>\r\n<posacc>\r\n<horizpa>\r\n<horizpar>Location data were downloaded from Garmin 12XL GPS units into an Access database.</horizpar>\r\n<qhorizpa>\r\n<horizpav>6</horizpav>\r\n<horizpae>A value of estimated position error in meters was calculated by Garmin 12XL GPS units and recorded for each sample location. Estimated position error calculated by Garmin 12XL units was not better than 3 meters and averaged approximately 6 meters. The GPS system suffers from calculation and geometric error. This error results from items such as error in satellite positions, mathematical error introduced by the formulas used by the GPS unit for calculating position, and errors caused by narrow satellite alignments. Estimated position error is a value determined by the GPS manufacturer for the calculation and geometric error as a whole. 'Selective availability', a deliberate degradation of GPS data managed by the U.S. government, was not operating during the time period these samples were collected.</horizpae>\r\n</qhorizpa>\r\n</horizpa>\r\n</posacc>\r\n<lineage>\r\n<procstep>\r\n<procdesc>Fieldwork - Rock samples of visibly mineralized rock, or rock exhibiting features associated with mineralization, were preferentially collected and analyzed for geochemical trace elements. Spatially these rocks were collected randomly. Unweathered or minimally weathered rock samples were preferentially selected for analysis.</procdesc>\r\n<procdate>200706</procdate>\r\n</procstep>\r\n<procstep>\r\n<procdesc>Fieldwork - Rock samples collected for major-oxide, minor-oxide, and trace elements include samples representative of a typical lithology, igneous or possible meta-igneous samples in order to determine composition, and samples whose petrogenetically important trace-elements could indicate their original tectonic setting. Unweathered or minimally weathered rock samples were preferentially selected for analysis. Spatially these rocks were collected randomly.</procdesc>\r\n<procdate>2007</procdate>\r\n</procstep>\r\n<procstep>\r\n<procdesc>Fieldwork - Stream sediment samples were collected from first-order streams just above the confluence with second-order streams, except for sample 07Z440.1B that was taken from a second-order stream. Silt- and clay-sized (-80 mesh) sediment was preferentially sampled from active stream channels, at or below water level. Samples were collected from gravel and sand bars where possible, and obvious coarse sand, organic-rich material, and loess were avoided. Pebbles and large organic debris was removed from the sample using a \xbc inch sieve. Samples were collected over a 15- to 30-meter stretch of the stream. Sample size was generally half or more of a 7-inch by 11-inch sample bag containing sand-sized or finer material.</procdesc>\r\n<procdate>200706</procdate>\r\n</procstep>\r\n<procstep>\r\n<procdesc>Sample Preparation - Rock samples were crushed with a Terminator oscillating jaw crusher with chrome steel alloy plates so that at least 70 percent of the material passes through a -10 mesh (2 mm) screen. Representative aliquots of 250 grams each were taken using a stainless steel riffle splitter. These samples were then pulverized in a chrome steel ring mill so that 85 percent of the sample passed through a -200 mesh (75 micron) screen. Trace-element analyses, the whole rock major element analyses and the gold analyses were performed using representative splits of each 250 gram pulp. Sample preparation was conducted at the ALS Chemex sample preparation facility in Fairbanks, Alaska.</procdesc>\r\n<procdate>2007</procdate>\r\n</procstep>\r\n<procstep>\r\n<procdesc>Sample Preparation - Sediment samples were dried and sieved to -80 mesh (2 mm) material by stainless steel screens. Representative aliquots of 250 grams were taken using a stainless steel riffle splitter. These samples were then pulverized in a chrome steel ring mill so that 85 percent of the sample passed through a -200 (75 micron) mesh screen. Most trace-element analyses were performed on a 0.25 gram split while gold analyses were performed on a 15 gram representative split. Sample preparation was conducted by Alaska Assay Laboratories at Fairbanks, Alaska.</procdesc>\r\n<procdate>2007</procdate>\r\n</procstep>\r\n<procstep>\r\n<procdesc>Analysis - Initially, all rock samples for trace element geochemistry (Table 2) were assayed for gold by inductive coupled plasma-atomic emission spectroscopy following a 30g fire assay fusion (FA-ICP). Trace-element geochemical analyses were performed by inductive coupled plasma-atomic emission spectroscopy (ICP-AES) methods after four-acid, near-total digestion. This method of digestion is possibly incomplete for some elements and may result in lower analytical results for these elements. The elements that may be affected by incomplete digestion, analytical methods, and lower and upper reporting limits are tabulated in Table 7. All rock trace metal analyses were performed by ALS Chemex.</procdesc>\r\n<procdate>2007</procdate>\r\n</procstep>\r\n<procstep>\r\n<procdesc>Analysis - All whole rock analyses (Table 4) were performed by ALS Chemex. Major and minor element oxides were determined by X-ray fluorescence spectrometry following a lithium borate fusion (WEI-GRA06). Analytical methods and detection limits are tabulated in Table 8.</procdesc>\r\n<procdate>2007</procdate>\r\n</procstep>\r\n<procstep>\r\n<procdesc>Analysis - Stream sediment samples (Table 6) were assayed for gold by inductively coupled plasma-mass spectrometry (ICP-MS) following Aqua-Regia digestion. Trace element geochemical analyses were performed by ICP-MS methods after four-acid, near-total digestion. Digestion involved heating a 0.25 g split in HNO3-HClO4-HF to fuming and then taking it to dryness. The residue was dissolved in HCl. This method of digestion is possibly incomplete for some elements and may result in lower analytical results for these elements. In addition, some loss of certain elements may result from volatilization during fuming. The elements that may be affected by incomplete digestion and volatilization, analytical methods, and lower and upper detection limits are tabulated in Table 9. Analyses of stream sediment samples where conducted by Acme Labs of Vancouver, B.C. Canada.</procdesc>\r\n<procdate>2007</procdate>\r\n</procstep>\r\n</lineage>\r\n</dataqual>\r\n<spdoinfo>\r\n<direct>Point</direct>\r\n</spdoinfo>\r\n<spref>\r\n<horizsys>\r\n<planar>\r\n<gridsys>\r\n<gridsysn>Universal Transverse Mercator</gridsysn>\r\n<utm>\r\n<utmzone>6</utmzone>\r\n<transmer>\r\n<sfctrmer>0.9996</sfctrmer>\r\n<longcm>-147</longcm>\r\n<latprjo>0</latprjo>\r\n<feast>500000</feast>\r\n<fnorth>0</fnorth>\r\n</transmer>\r\n</utm>\r\n</gridsys>\r\n<planci>\r\n<plance>coordinate pair</plance>\r\n<coordrep>\r\n<absres>1</absres>\r\n<ordres>1</ordres>\r\n</coordrep>\r\n<plandu>meters</plandu>\r\n<pclname>Data</pclname>\r\n</planci>\r\n</planar>\r\n<geodetic>\r\n<horizdn>North American Datum of 1927</horizdn>\r\n<ellips>Clarke 1866</ellips>\r\n<semiaxis>6378137</semiaxis>\r\n<denflat>298.25722210088</denflat>\r\n</geodetic>\r\n</horizsys>\r\n</spref>\r\n<eainfo>\r\n<detailed>\r\n<enttyp>\r\n<enttypl>Table1.csv</enttypl>\r\n<enttypd>Location and description of rock samples collected for trace-element geochemical analyses in the northern Fairbanks mining district, Circle quadrangle, Alaska</enttypd>\r\n<enttypds>Alaska Division of Geological & Geophysical Surveys</enttypds>\r\n<ealname>Trace-element rock geochemistry</ealname>\r\n</enttyp>\r\n<attr>\r\n<attrlabl>Sample Number</attrlabl>\r\n<attrdef>Unique sample identifier</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys</attrdefs>\r\n<attrdomv>\r\n<udom>Generic example of unique sample identifier: 20YYAAA9999X: YY=last two digits of year, AAA=geologist's initials (one to three characters), 9999=unique station number, X=unique alpha character designating a sample was taken at the field station. Geologists' initials represent the following: 'JEA' = Jen Athey; 'MBW' = Melanie Werdon; 'RN' = Rainer Newberry; 'LF' = Larry Freeman; 'Z' = David Szumigala; "SEH" = Sharon Hansen; "RL" = Richard Lessard.</udom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Latitude</attrlabl>\r\n<attrdef>Latitude</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys</attrdefs>\r\n<attrdomv>\r\n<udom>Latitude in degrees for UTM Zone 3, NAD 27</udom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Longitude</attrlabl>\r\n<attrdef>Longitude</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys</attrdefs>\r\n<attrdomv>\r\n<udom>Longitude in degrees for UTM Zone 3, NAD 27</udom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>UTM E</attrlabl>\r\n<attrdef>Easting</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys</attrdefs>\r\n<attrdomv>\r\n<udom>Easting for UTM Zone 6, NAD 27</udom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>UTM N</attrlabl>\r\n<attrdef>Northing</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys</attrdefs>\r\n<attrdomv>\r\n<udom>Northing for UTM Zone 6, NAD 27</udom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Zone</attrlabl>\r\n<attrdef>UTM Zone</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys</attrdefs>\r\n<attrdomv>\r\n<udom>06W is UTM zone for all samples in this data set</udom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Description</attrlabl>\r\n<attrdef>Brief rock description</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys</attrdefs>\r\n<attrdomv>\r\n<udom>Brief rock description</udom>\r\n</attrdomv>\r\n</attr>\r\n</detailed>\r\n<detailed>\r\n<enttyp>\r\n<enttypl>Table2.csv</enttypl>\r\n<enttypd>Trace-element geochemical analyses for rocks collected in the Solomon Quadrangle, Seward Peninsula, Alaska. Elements that were not analyzed for a particular sample are denoted by '-'.</enttypd>\r\n<enttypds>Alaska Division of Geological & Geophysical Surveys and ALS Chemex.</enttypds>\r\n<ealname>Trace-element rock geochemistry</ealname>\r\n</enttyp>\r\n<attr>\r\n<attrlabl>Sample Number</attrlabl>\r\n<attrdef>Unique sequential sample identifier</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex</attrdefs>\r\n<attrdomv>\r\n<udom>Generic example of unique sample identifier: 20YYAAA9999X: YY=last two digits of year, AAA=geologist's initials (one to three characters), 9999=unique station number, X=unique alpha character designating a sample was taken at the field station. Geologists' initials represent the following: 'JEA' = Jen Athey; 'MBW' = Melanie Werdon; 'RN' = Rainer Newberry; 'LF' = Larry Freeman; 'Z' = David Szumigala; "SEH" = Sharon Hansen; "RL" = Richard Lessard.</udom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Au</attrlabl>\r\n<attrdef>Gold values acquired by analysis with inductive coupled plasma-atomic emission spectroscopy following a 30g fire assay fusion (FA-ICP-AES) and shown in parts per million (ppm).</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex.</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>0.001</rdommin>\r\n<rdommax>10</rdommax>\r\n<attrunit>ppm</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Ag</attrlabl>\r\n<attrdef>Silver values acquired by analysis with inductively coupled plasma-atomic emission spectroscopy (ICP-AES) and shown in parts per million (ppm).</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex.</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>0.5</rdommin>\r\n<rdommax>100</rdommax>\r\n<attrunit>ppm</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Al</attrlabl>\r\n<attrdef>Aluminum values acquired by analysis with inductively coupled plasma-atomic emission spectroscopy (ICP-AES) and shown in percent.</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex.</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>0.01</rdommin>\r\n<rdommax>50</rdommax>\r\n<attrunit>%</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>As</attrlabl>\r\n<attrdef>Arsenic values acquired by analysis with inductively coupled plasma-atomic emission spectroscopy (ICP-AES) and shown in parts per million (ppm).</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex.</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>5</rdommin>\r\n<rdommax>10000</rdommax>\r\n<attrunit>ppm</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Ba</attrlabl>\r\n<attrdef>Barium values acquired by analysis with inductively coupled plasma-atomic emission spectroscopy (ICP-AES) and shown in parts per million (ppm). Possibly incomplete digestion for this element, depending on mineralogy of sample, may result in lower analytical results.</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex.</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>10</rdommin>\r\n<rdommax>10000</rdommax>\r\n<attrunit>ppm</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Be</attrlabl>\r\n<attrdef>Beryllium values acquired by analysis with inductively coupled plasma-atomic emission spectroscopy (ICP-AES) and shown in parts per million (ppm).</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex.</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>0.5</rdommin>\r\n<rdommax>1000</rdommax>\r\n<attrunit>ppm</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Bi</attrlabl>\r\n<attrdef>Bismuth values acquired by analysis with inductively coupled plasma-atomic emission spectroscopy (ICP-AES) and shown in parts per million (ppm).</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex.</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>2</rdommin>\r\n<rdommax>10000</rdommax>\r\n<attrunit>ppm</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Ca</attrlabl>\r\n<attrdef>Calcium values acquired by analysis with inductively coupled plasma-atomic emission spectroscopy (ICP-AES) and shown in percent.</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex.</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>0.01</rdommin>\r\n<rdommax>50</rdommax>\r\n<attrunit>%</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Cd</attrlabl>\r\n<attrdef>Cadmium values acquired by analysis with inductively coupled plasma-atomic emission spectroscopy (ICP-AES) and shown in parts per million (ppm).</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex.</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>0.5</rdommin>\r\n<rdommax>1000</rdommax>\r\n<attrunit>ppm</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Co</attrlabl>\r\n<attrdef>Cobalt values acquired by analysis with inductively coupled plasma-atomic emission spectroscopy (ICP-AES) and shown in parts per million (ppm).</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex.</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>1</rdommin>\r\n<rdommax>10000</rdommax>\r\n<attrunit>ppm</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Cr</attrlabl>\r\n<attrdef>Chromium values acquired by analysis with inductively coupled plasma-atomic emission spectroscopy (ICP-AES) and shown in parts per million (ppm). Possibly incomplete digestion for this element, depending on mineralogy of sample, may result in lower analytical results.</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex.</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>1</rdommin>\r\n<rdommax>10000</rdommax>\r\n<attrunit>ppm</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Cu</attrlabl>\r\n<attrdef>Copper values acquired by analysis with inductively coupled plasma-atomic emission spectroscopy (ICP-AES) and shown in parts per million (ppm).</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex.</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>1</rdommin>\r\n<rdommax>10000</rdommax>\r\n<attrunit>ppm</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Fe</attrlabl>\r\n<attrdef>Iron values acquired by analysis with inductively coupled plasma-atomic emission spectroscopy (ICP-AES) and shown in percent.</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex.</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>0.01</rdommin>\r\n<rdommax>50</rdommax>\r\n<attrunit>%</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Ga</attrlabl>\r\n<attrdef>Gallium values acquired by analysis with inductively coupled plasma-atomic emission spectroscopy (ICP-AES) and shown in parts per million (ppm).</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex.</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>10</rdommin>\r\n<rdommax>10000</rdommax>\r\n<attrunit>ppm</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>K</attrlabl>\r\n<attrdef>Potassium values acquired by analysis with inductively coupled plasma-atomic emission spectroscopy (ICP-AES) and shown in percent.</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex.</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>0.01</rdommin>\r\n<rdommax>10</rdommax>\r\n<attrunit>%</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>La</attrlabl>\r\n<attrdef>Lanthanum values acquired by analysis with inductively coupled plasma-atomic emission spectroscopy (ICP-AES) and shown in parts per million (ppm).</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex.</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>10</rdommin>\r\n<rdommax>1000</rdommax>\r\n<attrunit>ppm</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Mg</attrlabl>\r\n<attrdef>Magnesium values acquired by analysis with inductively coupled plasma-atomic emission spectroscopy (ICP-AES) and shown in percent.</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex.</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>0.01</rdommin>\r\n<rdommax>50</rdommax>\r\n<attrunit>%</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Mn</attrlabl>\r\n<attrdef>Manganese values acquired by analysis with inductively coupled plasma-atomic emission spectroscopy (ICP-AES) and shown in parts per million (ppm).</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex.</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>5</rdommin>\r\n<rdommax>100000</rdommax>\r\n<attrunit>ppm</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Mo</attrlabl>\r\n<attrdef>Molybdenum values acquired by analysis with inductively coupled plasma-atomic emission spectroscopy (ICP-AES) and shown in parts per million (ppm).</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex.</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>1</rdommin>\r\n<rdommax>10000</rdommax>\r\n<attrunit>ppm</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Na</attrlabl>\r\n<attrdef>Sodium values acquired by analysis with inductively coupled plasma-atomic emission spectroscopy (ICP-AES) and shown in percent.</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex.</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>0.01</rdommin>\r\n<rdommax>10</rdommax>\r\n<attrunit>ppm</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Ni</attrlabl>\r\n<attrdef>Nickel values acquired by analysis with inductively coupled plasma-atomic emission spectroscopy (ICP-AES) and shown in parts per million (ppm).</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex.</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>1</rdommin>\r\n<rdommax>10000</rdommax>\r\n<attrunit>ppm</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>P</attrlabl>\r\n<attrdef>Phosphorus values acquired by analysis with inductively coupled plasma-atomic emission spectroscopy (ICP-AES) and shown in parts per million (ppm).</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex.</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>10</rdommin>\r\n<rdommax>10000</rdommax>\r\n<attrunit>ppm</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Pb</attrlabl>\r\n<attrdef>Lead values acquired by analysis with inductively coupled plasma-atomic emission spectroscopy (ICP-AES) and shown in parts per million (ppm).</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex.</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>2</rdommin>\r\n<rdommax>10000</rdommax>\r\n<attrunit>ppm</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>S</attrlabl>\r\n<attrdef>Sulfur values acquired by analysis with inductively coupled plasma-atomic emission spectroscopy (ICP-AES) and shown in percent.</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex.</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>0.01</rdommin>\r\n<rdommax>10</rdommax>\r\n<attrunit>%</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Sb</attrlabl>\r\n<attrdef>Antimony values acquired by analysis with inductively coupled plasma-atomic emission spectroscopy (ICP-AES) and shown in parts per million (ppm).</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex.</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>5</rdommin>\r\n<rdommax>10000</rdommax>\r\n<attrunit>ppm</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Sc</attrlabl>\r\n<attrdef>Scandium values acquired by analysis with inductively coupled plasma-atomic emission spectroscopy (ICP-AES) and shown in parts per million (ppm).</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex.</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>1</rdommin>\r\n<rdommax>10000</rdommax>\r\n<attrunit>ppm</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Sr</attrlabl>\r\n<attrdef>Strontium values acquired by analysis with inductively coupled plasma-atomic emission spectroscopy (ICP-AES) and shown in parts per million (ppm).</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex.</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>1</rdommin>\r\n<rdommax>10000</rdommax>\r\n</rdom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Th</attrlabl>\r\n<attrdef>Thorium values acquired by analysis with inductively coupled plasma-atomic emission spectroscopy (ICP-AES) and shown in parts per million (ppm).</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>20</rdommin>\r\n<rdommax>10000</rdommax>\r\n<attrunit>ppm</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Ti</attrlabl>\r\n<attrdef>Titanium values acquired by analysis with inductively coupled plasma-atomic emission spectroscopy (ICP-AES) and shown in percent. Possibly incomplete digestion for this element, depending on mineralogy of sample, may result in lower analytical results.</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex.</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>0.01</rdommin>\r\n<rdommax>10</rdommax>\r\n<attrunit>%</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Tl</attrlabl>\r\n<attrdef>Thallium values acquired by analysis with inductively coupled plasma-atomic emission spectroscopy (ICP-AES) and shown in parts per million (ppm).</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex.</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>10</rdommin>\r\n<rdommax>10000</rdommax>\r\n<attrunit>ppm</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>U</attrlabl>\r\n<attrdef>Uranium values acquired by analysis with inductively coupled plasma-atomic emission spectroscopy (ICP-AES) and shown in parts per million (ppm).</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex.</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>10</rdommin>\r\n<rdommax>10000</rdommax>\r\n<attrunit>ppm</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>V</attrlabl>\r\n<attrdef>Vanadium values acquired by analysis with inductively coupled plasma-atomic emission spectroscopy (ICP-AES) and shown in parts per million (ppm).</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex.</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>1</rdommin>\r\n<rdommax>10000</rdommax>\r\n<attrunit>ppm</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>W</attrlabl>\r\n<attrdef>Tungsten values acquired by analysis with inductively coupled plasma-atomic emission spectroscopy (ICP-AES) and shown in parts per million (ppm). Possibly incomplete digestion for this element, depending on mineralogy of sample, may result in lower analytical results.</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex.</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>10</rdommin>\r\n<rdommax>10000</rdommax>\r\n<attrunit>ppm</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Zn</attrlabl>\r\n<attrdef>Zinc values acquired by analysis with inductively coupled plasma-atomic emission spectroscopy (ICP-AES) and shown in parts per million (ppm).</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex.</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>2</rdommin>\r\n<rdommax>10000</rdommax>\r\n<attrunit>ppm</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n</attr>\r\n</detailed>\r\n<detailed>\r\n<enttyp>\r\n<enttypl>Table3.csv</enttypl>\r\n<enttypd>Location and description of rock samples collected for whole-rock major- and minor-oxide analyses in the northern Fairbanks mining district, Circle quadrangle, Alaska</enttypd>\r\n<enttypds>Alaska Division of Geological & Geophysical Surveys</enttypds>\r\n<ealname>Whole-rock major- and minor-oxide geochemistry</ealname>\r\n</enttyp>\r\n<attr>\r\n<attrlabl>Sample Number</attrlabl>\r\n<attrdef>Unique sample identifier</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys</attrdefs>\r\n<attrdomv>\r\n<udom>Generic example of unique sample identifier: 20YYAAA9999X: YY=last two digits of year, AAA=geologist's initials (one to three characters), 9999=unique station number, X=unique alpha character designating a sample was taken at the field station. Geologists' initials represent the following: 'JEA' = Jen Athey; 'MBW' = Melanie Werdon; 'RN' = Rainer Newberry; 'LF' = Larry Freeman; 'Z' = David Szumigala; "RL" = Richard Lessard.</udom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Latitude</attrlabl>\r\n<attrdef>Latitude</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys</attrdefs>\r\n<attrdomv>\r\n<udom>Latitude in degrees for UTM Zone 3, NAD 27</udom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Longitude</attrlabl>\r\n<attrdef>Longitude</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys</attrdefs>\r\n<attrdomv>\r\n<udom>Longitude in degrees for UTM Zone 3, NAD 27</udom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>UTM E</attrlabl>\r\n<attrdef>Easting</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys</attrdefs>\r\n<attrdomv>\r\n<udom>Easting for UTM Zone 6, NAD 27</udom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>UTM N</attrlabl>\r\n<attrdef>Northing</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys</attrdefs>\r\n<attrdomv>\r\n<udom>Northing for UTM Zone 6, NAD 27</udom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Zone</attrlabl>\r\n<attrdef>UTM Zone</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys</attrdefs>\r\n<attrdomv>\r\n<udom>06W is UTM zone for all samples in this data set</udom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Description</attrlabl>\r\n<attrdef>Brief rock description</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys</attrdefs>\r\n<attrdomv>\r\n<udom>Brief rock description</udom>\r\n</attrdomv>\r\n</attr>\r\n</detailed>\r\n<detailed>\r\n<enttyp>\r\n<enttypl>Table4.csv</enttypl>\r\n<enttypd>Major-oxide, minor-oxide, and trace-element analyses for rocks collected in the northern Fairbanks mining district, Circle Quadrangle, Alaska. Elements that were not analyzed for a particular sample are denoted by '-'.</enttypd>\r\n<enttypds>Alaska Division of Geological & Geophysical Surveys</enttypds>\r\n<ealname>Whole-rock major- and minor-oxide geochemistry</ealname>\r\n</enttyp>\r\n<attr>\r\n<attrlabl>Sample</attrlabl>\r\n<attrdef>Unique sample identifier</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys</attrdefs>\r\n<attrdomv>\r\n<udom>Generic example of unique sample identifier: 20YYAAA9999X, where YY=last two digits of year, AAA=geologist's initials (one to three characters), 9999=unique station number, X=unique alpha character designating a sample was taken at the field station</udom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>SiO2</attrlabl>\r\n<attrdef>SiO2 values acquired by analysis with lithium borate fusion and X-ray fluorescence spectrometry (LBF-XRF) and shown in percent.</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex.</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>0.01</rdommin>\r\n<rdommax>100</rdommax>\r\n<attrunit>%</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Al2O3</attrlabl>\r\n<attrdef>Al2O3 values acquired by analysis with lithium borate fusion and X-ray fluorescence spectrometry (LBF-XRF) and shown in percent.</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex.</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>0.01</rdommin>\r\n<rdommax>100</rdommax>\r\n<attrunit>%</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Fe2O3</attrlabl>\r\n<attrdef>Fe2O3 values acquired by analysis with lithium borate fusion and X-ray fluorescence spectrometry (LBF-XRF) and shown in percent. All iron is expressed as Fe2O3.</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex.</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>0.01</rdommin>\r\n<rdommax>100</rdommax>\r\n<attrunit>%</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>CaO</attrlabl>\r\n<attrdef>CaO values acquired by analysis with lithium borate fusion and X-ray fluorescence spectrometry (LBF-XRF) and shown in percent.</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex.</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>0.01</rdommin>\r\n<rdommax>100</rdommax>\r\n<attrunit>%</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>MgO</attrlabl>\r\n<attrdef>MgO values acquired by analysis with lithium borate fusion and X-ray fluorescence spectrometry (LBF-XRF) and shown in percent.</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex.</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>0.01</rdommin>\r\n<rdommax>100</rdommax>\r\n<attrunit>%</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Na2O</attrlabl>\r\n<attrdef>Na2O values acquired by analysis with lithium borate fusion and X-ray fluorescence spectrometry (LBF-XRF) and shown in percent.</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex.</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>0.01</rdommin>\r\n<rdommax>100</rdommax>\r\n<attrunit>%</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>K2O</attrlabl>\r\n<attrdef>K2O values acquired by analysis with lithium borate fusion and X-ray fluorescence spectrometry (LBF-XRF) and shown in percent.</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex.</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>0.01</rdommin>\r\n<rdommax>100</rdommax>\r\n<attrunit>%</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Cr2O3</attrlabl>\r\n<attrdef>Cr2O3 values acquired by analysis with lithium borate fusion and X-ray fluorescence spectrometry (LBF-XRF) and shown in percent.</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex.</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>0.01</rdommin>\r\n<rdommax>100</rdommax>\r\n<attrunit>%</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>TiO2</attrlabl>\r\n<attrdef>TiO2 values acquired by analysis with lithium borate fusion and X-ray fluorescence spectrometry (LBF-XRF) and shown in percent.</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex.</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>0.01</rdommin>\r\n<rdommax>100</rdommax>\r\n<attrunit>%</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>MnO</attrlabl>\r\n<attrdef>MnO values acquired by analysis with lithium borate fusion and X-ray fluorescence spectrometry (LBF-XRF) and shown in percent.</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex.</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>0.01</rdommin>\r\n<rdommax>100</rdommax>\r\n<attrunit>%</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>P2O5</attrlabl>\r\n<attrdef>P2O5 values acquired by analysis with lithium borate fusion and X-ray fluorescence spectrometry (LBF-XRF) and shown in percent.</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex.</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>0.01</rdommin>\r\n<rdommax>100</rdommax>\r\n<attrunit>%</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>SrO</attrlabl>\r\n<attrdef>SrO values acquired by analysis with lithium borate fusion and X-ray fluorescence spectrometry (LBF-XRF) and shown in percent.</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex.</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>0.01</rdommin>\r\n<rdommax>100</rdommax>\r\n<attrunit>%</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>BaO</attrlabl>\r\n<attrdef>BaO values acquired by analysis with lithium borate fusion and X-ray fluorescence spectrometry (LBF-XRF) and shown in percent.</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex.</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>0.01</rdommin>\r\n<rdommax>100</rdommax>\r\n<attrunit>%</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>LOI</attrlabl>\r\n<attrdef>Loss on ignition (LOI) values expressing loss of mass determined by gravimetric measurement after heating to 1000 degrees Celsius and shown in percent.</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex.</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>0.01</rdommin>\r\n<rdommax>100</rdommax>\r\n<attrunit>%</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Total</attrlabl>\r\n<attrdef>Calculated total for oxides in sample. Shown in percent.</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex.</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>0.01</rdommin>\r\n<rdommax>105</rdommax>\r\n<attrunit>%</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n</attr>\r\n</detailed>\r\n<detailed>\r\n<enttyp>\r\n<enttypl>Table5.csv</enttypl>\r\n<enttypd>Location of stream sediment samples collected for trace-element geochemical analyses in the northern Fairbanks mining district, Circle quadrangle, Alaska</enttypd>\r\n<enttypds>Alaska Division of Geological & Geophysical Surveys</enttypds>\r\n<ealname>Trace-element stream sediment geochemistry</ealname>\r\n</enttyp>\r\n<attr>\r\n<attrlabl>Sample Number</attrlabl>\r\n<attrdef>Unique sample identifier</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys</attrdefs>\r\n<attrdomv>\r\n<udom>Generic example of unique sample identifier: 20YYAAA9999X: YY=last two digits of year, AAA=geologist's initials (one to three characters), 9999=unique station number, X=unique alpha character designating a sample was taken at the field station. Geologists' initials represent the following: 'JEA' = Jen Athey; 'MBW' = Melanie Werdon; 'RN' = Rainer Newberry; 'LF' = Larry Freeman; 'Z' = David Szumigala; "SEH" = Sharon Hansen; "RL" = Richard Lessard.</udom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Latitude</attrlabl>\r\n<attrdef>Latitude</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys</attrdefs>\r\n<attrdomv>\r\n<udom>Latitude in degrees for UTM Zone 3, NAD 27</udom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Longitude</attrlabl>\r\n<attrdef>Longitude</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys</attrdefs>\r\n<attrdomv>\r\n<udom>Longitude in degrees for UTM Zone 3, NAD 27</udom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>UTM E</attrlabl>\r\n<attrdef>Easting</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys</attrdefs>\r\n<attrdomv>\r\n<udom>Easting for UTM Zone 6, NAD 27</udom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>UTM N</attrlabl>\r\n<attrdef>Northing</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys</attrdefs>\r\n<attrdomv>\r\n<udom>Northing for UTM Zone 6, NAD 27</udom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Zone</attrlabl>\r\n<attrdef>UTM Zone</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys</attrdefs>\r\n<attrdomv>\r\n<udom>06W is UTM zone for all samples in this data set</udom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Description</attrlabl>\r\n<attrdef>Brief rock description</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys</attrdefs>\r\n<attrdomv>\r\n<udom>Brief rock description</udom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Description</attrlabl>\r\n<attrdef>Brief rock description</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys</attrdefs>\r\n<attrdomv>\r\n<udom>Brief rock description</udom>\r\n</attrdomv>\r\n</attr>\r\n</detailed>\r\n<detailed>\r\n<enttyp>\r\n<enttypl>Table6.csv</enttypl>\r\n<enttypd>Concentrations of trace elements in stream sediment samples collected in the northern Fairbanks mining district, Circle quadrangle, Alaska</enttypd>\r\n<enttypds>Alaska Division of Geological & Geophysical Surveys</enttypds>\r\n<ealname>Trace-element stream sediment geochemistry</ealname>\r\n</enttyp>\r\n<attr>\r\n<attrlabl>Sample Number</attrlabl>\r\n<attrdef>Unique sample identifier</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys</attrdefs>\r\n<attrdomv>\r\n<udom>Generic example of unique sample identifier: 20YYAAA9999X: YY=last two digits of year, AAA=geologist's initials (one to three characters), 9999=unique station number, X=unique alpha character designating a sample was taken at the field station. Geologists' initials represent the following: 'JEA' = Jen Athey; 'MBW' = Melanie Werdon; 'RN' = Rainer Newberry; 'LF' = Larry Freeman; 'Z' = David Szumigala; "SEH" = Sharon Hansen; "RL" = Richard Lessard. Samples that include the text "rerun" indicate that a second, and in one instance a third Au analysis was done on the sample pulp at DGGS' request</udom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Au</attrlabl>\r\n<attrdef>Gold values acquired by analysis with inductively coupled plasma-mass spectrometry (ICP-MS) and shown in parts per billion (ppb).</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and Acme Labs</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>.5</rdommin>\r\n<rdommax>10000</rdommax>\r\n<attrunit>ppb</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Ag</attrlabl>\r\n<attrdef>Silver values acquired by analysis with inductively coupled plasma-mass spectrometry (ICP-MS) and shown in parts per million (ppm).</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and Acme Labs</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>.1</rdommin>\r\n<rdommax>200</rdommax>\r\n<attrunit>ppm</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n<attrdomv>\r\n<edom>\r\n<edomv>---</edomv>\r\n<edomvd>Not analyzed</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys and Acme Labs.</edomvds>\r\n</edom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Al</attrlabl>\r\n<attrdef>Aluminum values acquired by analysis with inductively coupled plasma-mass spectrometry (ICP-MS) and shown in weight percent (%). Possibly incomplete digestion for this element, dependent on mineralogy of this sample, may result in lower analytical results.</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and Acme Labs</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>.01</rdommin>\r\n<rdommax>20</rdommax>\r\n<attrunit>%</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n<attrdomv>\r\n<edom>\r\n<edomv>---</edomv>\r\n<edomvd>Not analyzed</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys and Acme Labs.</edomvds>\r\n</edom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>As</attrlabl>\r\n<attrdef>Arsenic values acquired by analysis with inductively coupled plasma-mass spectrometry (ICP-MS) and shown in parts per million (ppm). Possible volatilization during fuming may result in some loss of this element and in lower analytical results.</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and Acme Labs</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>1</rdommin>\r\n<rdommax>10000</rdommax>\r\n<attrunit>ppm</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n<attrdomv>\r\n<edom>\r\n<edomv>---</edomv>\r\n<edomvd>Not analyzed</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys and Acme Labs.</edomvds>\r\n</edom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Ba</attrlabl>\r\n<attrdef>Barium values acquired by analysis with inductively coupled plasma-mass spectrometry (ICP-MS) and shown in parts per million (ppm). Possibly incomplete digestion for this element, dependent on mineralogy of this sample, may result in lower analytical results.</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and Acme Labs</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>1</rdommin>\r\n<rdommax>10000</rdommax>\r\n<attrunit>ppm</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n<attrdomv>\r\n<edom>\r\n<edomv>---</edomv>\r\n<edomvd>Not analyzed</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys and Acme Labs.</edomvds>\r\n</edom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Be</attrlabl>\r\n<attrdef>Beryllium values acquired by analysis with inductively coupled plasma-mass spectrometry (ICP-MS) and shown in parts per million (ppm). Possibly incomplete digestion for this element, dependent on mineralogy of this sample, may result in lower analytical results.</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and Acme Labs</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>1</rdommin>\r\n<rdommax>1000</rdommax>\r\n<attrunit>ppm</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n<attrdomv>\r\n<edom>\r\n<edomv>---</edomv>\r\n<edomvd>Not analyzed</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys and Acme Labs.</edomvds>\r\n</edom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Bi</attrlabl>\r\n<attrdef>Bismuth values acquired by analysis with inductively coupled plasma-mass spectrometry (ICP-MS) and shown in parts per million (ppm).</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and Acme Labs</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>.1</rdommin>\r\n<rdommax>4000</rdommax>\r\n<attrunit>ppm</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n<attrdomv>\r\n<edom>\r\n<edomv>---</edomv>\r\n<edomvd>Not analyzed</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys and Acme Labs.</edomvds>\r\n</edom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Ca</attrlabl>\r\n<attrdef>Calcium values acquired by analysis with inductively coupled plasma-mass spectrometry (ICP-MS) and shown in weight percent (%).</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and Acme Labs</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>.01</rdommin>\r\n<rdommax>40</rdommax>\r\n<attrunit>%</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n<attrdomv>\r\n<edom>\r\n<edomv>---</edomv>\r\n<edomvd>Not analyzed</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys and Acme Labs.</edomvds>\r\n</edom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Cd</attrlabl>\r\n<attrdef>Cadmium values acquired by analysis with inductively coupled plasma-mass spectrometry (ICP-MS) and shown in parts per million (ppm).</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and Acme Labs</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>.1</rdommin>\r\n<rdommax>4000</rdommax>\r\n<attrunit>ppm</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n<attrdomv>\r\n<edom>\r\n<edomv>---</edomv>\r\n<edomvd>Not analyzed</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys and Acme Labs.</edomvds>\r\n</edom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Ce</attrlabl>\r\n<attrdef>Cerium values acquired by analysis with inductively coupled plasma-mass spectrometry (ICP-MS) and shown in parts per million (ppm).</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and Acme Labs</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>1</rdommin>\r\n<rdommax>2000</rdommax>\r\n<attrunit>ppm</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n<attrdomv>\r\n<edom>\r\n<edomv>---</edomv>\r\n<edomvd>Not analyzed</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys and Acme Labs.</edomvds>\r\n</edom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Co</attrlabl>\r\n<attrdef>Cobalt values acquired by analysis with inductively coupled plasma-mass spectrometry (ICP-MS) and shown in parts per million (ppm).</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and Acme Labs</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>.2</rdommin>\r\n<rdommax>4000</rdommax>\r\n<attrunit>ppm</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n<attrdomv>\r\n<edom>\r\n<edomv>---</edomv>\r\n<edomvd>Not analyzed</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys and Acme Labs.</edomvds>\r\n</edom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Cr</attrlabl>\r\n<attrdef>Chromium values acquired by analysis with inductively coupled plasma-mass spectrometry (ICP-MS) and shown in parts per million (ppm). Possibly incomplete digestion for this element, dependent on mineralogy of this sample, may result in lower analytical results.</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and Acme Labs</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>1</rdommin>\r\n<rdommax>10000</rdommax>\r\n<attrunit>ppm</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n<attrdomv>\r\n<edom>\r\n<edomv>---</edomv>\r\n<edomvd>Not analyzed</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys and Acme Labs.</edomvds>\r\n</edom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Cu</attrlabl>\r\n<attrdef>Copper values acquired by analysis with inductively coupled plasma-mass spectrometry (ICP-MS) and shown in parts per million (ppm).</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and Acme Labs</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>.1</rdommin>\r\n<rdommax>10000</rdommax>\r\n<attrunit>ppm</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n<attrdomv>\r\n<edom>\r\n<edomv>---</edomv>\r\n<edomvd>Not analyzed</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys and Acme Labs.</edomvds>\r\n</edom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Fe</attrlabl>\r\n<attrdef>Iron values acquired by analysis with inductively coupled plasma-mass spectrometry (ICP-MS) and shown in weight percent (%). Possibly incomplete digestion for this element, dependent on mineralogy of this sample, may result in lower analytical results.</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and Acme Labs</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>.01</rdommin>\r\n<rdommax>60</rdommax>\r\n<attrunit>%</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n<attrdomv>\r\n<edom>\r\n<edomv>---</edomv>\r\n<edomvd>Not analyzed</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys and Acme Labs.</edomvds>\r\n</edom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Hf</attrlabl>\r\n<attrdef>Hafnium values acquired by analysis with inductively coupled plasma-mass spectrometry (ICP-MS) and shown in parts per million (ppm). Possibly incomplete digestion for this element, dependent on mineralogy of this sample, may result in lower analytical results.</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and Acme Labs</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>.1</rdommin>\r\n<rdommax>1000</rdommax>\r\n<attrunit>ppm</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n<attrdomv>\r\n<edom>\r\n<edomv>---</edomv>\r\n<edomvd>Not analyzed</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys and Acme Labs.</edomvds>\r\n</edom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>K</attrlabl>\r\n<attrdef>Potassium values acquired by analysis with inductively coupled plasma-mass spectrometry (ICP-MS) and shown in weight percent (%).</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and Acme Labs</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>.01</rdommin>\r\n<rdommax>10</rdommax>\r\n<attrunit>%</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n<attrdomv>\r\n<edom>\r\n<edomv>---</edomv>\r\n<edomvd>Not analyzed</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys and Acme Labs.</edomvds>\r\n</edom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>La</attrlabl>\r\n<attrdef>Lanthanum values acquired by analysis with inductively coupled plasma-mass spectrometry (ICP-MS) and shown in parts per million (ppm).</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and Acme Labs</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>.1</rdommin>\r\n<rdommax>2000</rdommax>\r\n<attrunit>ppm</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n<attrdomv>\r\n<edom>\r\n<edomv>---</edomv>\r\n<edomvd>Not analyzed</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys and Acme Labs.</edomvds>\r\n</edom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Li</attrlabl>\r\n<attrdef>Lithium values acquired by analysis with inductively coupled plasma-mass spectrometry (ICP-MS) and shown in parts per million (ppm).</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and Acme Labs</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>.1</rdommin>\r\n<rdommax>2000</rdommax>\r\n<attrunit>ppm</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n<attrdomv>\r\n<edom>\r\n<edomv>---</edomv>\r\n<edomvd>Not analyzed</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys and Acme Labs.</edomvds>\r\n</edom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Mg</attrlabl>\r\n<attrdef>Magnesium values acquired by analysis with inductively coupled plasma-mass spectrometry (ICP-MS) and shown in weight percent (%). Possibly incomplete digestion for this element, dependent on mineralogy of this sample, may result in lower analytical results.</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and Acme Labs</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>.01</rdommin>\r\n<rdommax>30</rdommax>\r\n<attrunit>%</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n<attrdomv>\r\n<edom>\r\n<edomv>---</edomv>\r\n<edomvd>Not analyzed</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys and Acme Labs.</edomvds>\r\n</edom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Mn</attrlabl>\r\n<attrdef>Manganese values acquired by analysis with inductively coupled plasma-mass spectrometry (ICP-MS) and shown in parts per million (ppm). Possibly incomplete digestion for this element, dependent on mineralogy of this sample, may result in lower analytical results.</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and Acme Labs</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>1</rdommin>\r\n<rdommax>10000</rdommax>\r\n<attrunit>ppm</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n<attrdomv>\r\n<edom>\r\n<edomv>---</edomv>\r\n<edomvd>Not analyzed</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys and Acme Labs.</edomvds>\r\n</edom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Mo</attrlabl>\r\n<attrdef>Molybdenum values acquired by analysis with inductively coupled plasma-mass spectrometry (ICP-MS) and shown in parts per million (ppm).</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and Acme Labs</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>.1</rdommin>\r\n<rdommax>4000</rdommax>\r\n<attrunit>ppm</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n<attrdomv>\r\n<edom>\r\n<edomv>---</edomv>\r\n<edomvd>Not analyzed</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys and Acme Labs.</edomvds>\r\n</edom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Na</attrlabl>\r\n<attrdef>Sodium values acquired by analysis with inductively coupled plasma-mass spectrometry (ICP-MS) and shown in weight percent (%).</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and Acme Labs</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>.001</rdommin>\r\n<rdommax>10</rdommax>\r\n<attrunit>%</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n<attrdomv>\r\n<edom>\r\n<edomv>---</edomv>\r\n<edomvd>Not analyzed</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys and Acme Labs.</edomvds>\r\n</edom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Nb</attrlabl>\r\n<attrdef>Niobium values acquired by analysis with inductively coupled plasma-mass spectrometry (ICP-MS) and shown in parts per million (ppm).</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and Acme Labs</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>.1</rdommin>\r\n<rdommax>2000</rdommax>\r\n<attrunit>ppm</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n<attrdomv>\r\n<edom>\r\n<edomv>---</edomv>\r\n<edomvd>Not analyzed</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys and Acme Labs.</edomvds>\r\n</edom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Ni</attrlabl>\r\n<attrdef>Nickel values acquired by analysis with inductively coupled plasma-mass spectrometry (ICP-MS) and shown in parts per million (ppm).</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and Acme Labs</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>.1</rdommin>\r\n<rdommax>10000</rdommax>\r\n<attrunit>ppm</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n<attrdomv>\r\n<edom>\r\n<edomv>---</edomv>\r\n<edomvd>Not analyzed</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys and Acme Labs.</edomvds>\r\n</edom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>P</attrlabl>\r\n<attrdef>Phosphorous values acquired by analysis with inductively coupled plasma-mass spectrometry (ICP-MS) and shown in weight percent (%).</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and Acme Labs</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>.001</rdommin>\r\n<rdommax>5</rdommax>\r\n<attrunit>%</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n<attrdomv>\r\n<edom>\r\n<edomv>---</edomv>\r\n<edomvd>Not analyzed</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys and Acme Labs.</edomvds>\r\n</edom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Na</attrlabl>\r\n<attrdef>Sodium values acquired by analysis with inductively coupled plasma-mass spectrometry (ICP-MS) and shown in weight percent (%).</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and Acme Labs</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>.001</rdommin>\r\n<rdommax>10</rdommax>\r\n<attrunit>%</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n<attrdomv>\r\n<edom>\r\n<edomv>---</edomv>\r\n<edomvd>Not analyzed</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys and Acme Labs.</edomvds>\r\n</edom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Pb</attrlabl>\r\n<attrdef>Lead values acquired by analysis with inductively coupled plasma-mass spectrometry (ICP-MS) and shown in parts per million (ppm).</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and Acme Labs</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>.1</rdommin>\r\n<rdommax>10000</rdommax>\r\n<attrunit>ppm</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n<attrdomv>\r\n<edom>\r\n<edomv>---</edomv>\r\n<edomvd>Not analyzed</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys and Acme Labs.</edomvds>\r\n</edom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Rb</attrlabl>\r\n<attrdef>Rubidium values acquired by analysis with inductively coupled plasma-mass spectrometry (ICP-MS) and shown in parts per million (ppm).</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and Acme Labs</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>.1</rdommin>\r\n<rdommax>2000</rdommax>\r\n<attrunit>ppm</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n<attrdomv>\r\n<edom>\r\n<edomv>---</edomv>\r\n<edomvd>Not analyzed</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys and Acme Labs.</edomvds>\r\n</edom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>S</attrlabl>\r\n<attrdef>Sulfur values acquired by analysis with inductively coupled plasma-mass spectrometry (ICP-MS) and shown in weight percent (%).</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and Acme Labs</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>.01</rdommin>\r\n<rdommax>10</rdommax>\r\n<attrunit>%</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n<attrdomv>\r\n<edom>\r\n<edomv>---</edomv>\r\n<edomvd>Not analyzed</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys and Acme Labs.</edomvds>\r\n</edom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Sb</attrlabl>\r\n<attrdef>Antimony values acquired by analysis with inductively coupled plasma-mass spectrometry (ICP-MS) and shown in parts per million (ppm). Possible volatilization during fuming may result in some loss of this element and in lower analytical results.</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and Acme Labs</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>.1</rdommin>\r\n<rdommax>4000</rdommax>\r\n<attrunit>ppm</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n<attrdomv>\r\n<edom>\r\n<edomv>---</edomv>\r\n<edomvd>Not analyzed</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys and Acme Labs.</edomvds>\r\n</edom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Sc</attrlabl>\r\n<attrdef>Scandium values acquired by analysis with inductively coupled plasma-mass spectrometry (ICP-MS) and shown in parts per million (ppm).</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and Acme Labs</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>1</rdommin>\r\n<rdommax>200</rdommax>\r\n<attrunit>ppm</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n<attrdomv>\r\n<edom>\r\n<edomv>---</edomv>\r\n<edomvd>Not analyzed</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys and Acme Labs.</edomvds>\r\n</edom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Sn</attrlabl>\r\n<attrdef>Tin values acquired by analysis with inductively coupled plasma-mass spectrometry (ICP-MS) and shown in parts per million (ppm). Possibly incomplete digestion for this element, dependent on mineralogy of this sample, may result in lower analytical results.</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and Acme Labs</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>.1</rdommin>\r\n<rdommax>2000</rdommax>\r\n<attrunit>ppm</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n<attrdomv>\r\n<edom>\r\n<edomv>---</edomv>\r\n<edomvd>Not analyzed</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys and Acme Labs.</edomvds>\r\n</edom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Sr</attrlabl>\r\n<attrdef>Strontium values acquired by analysis with inductively coupled plasma-mass spectrometry (ICP-MS) and shown in parts per million (ppm).</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and Acme Labs</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>1</rdommin>\r\n<rdommax>10000</rdommax>\r\n<attrunit>ppm</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n<attrdomv>\r\n<edom>\r\n<edomv>---</edomv>\r\n<edomvd>Not analyzed</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys and Acme Labs.</edomvds>\r\n</edom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Ta</attrlabl>\r\n<attrdef>Tantalum values acquired by analysis with inductively coupled plasma-mass spectrometry (ICP-MS) and shown in parts per million (ppm). Possibly incomplete digestion for this element, dependent on mineralogy of this sample, may result in lower analytical results.</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and Acme Labs</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>.1</rdommin>\r\n<rdommax>2000</rdommax>\r\n<attrunit>ppm</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n<attrdomv>\r\n<edom>\r\n<edomv>---</edomv>\r\n<edomvd>Not analyzed</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys and Acme Labs.</edomvds>\r\n</edom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Th</attrlabl>\r\n<attrdef>Thorium values acquired by analysis with inductively coupled plasma-mass spectrometry (ICP-MS) and shown in parts per million (ppm).</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and Acme Labs</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>.1</rdommin>\r\n<rdommax>4000</rdommax>\r\n<attrunit>ppm</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n<attrdomv>\r\n<edom>\r\n<edomv>---</edomv>\r\n<edomvd>Not analyzed</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys and Acme Labs.</edomvds>\r\n</edom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Ti</attrlabl>\r\n<attrdef>Titanium values acquired by analysis with inductively coupled plasma-mass spectrometry (ICP-MS) and shown in weight percent (%).</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and Acme Labs</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>.001</rdommin>\r\n<rdommax>10</rdommax>\r\n<attrunit>%</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n<attrdomv>\r\n<edom>\r\n<edomv>---</edomv>\r\n<edomvd>Not analyzed</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys and Acme Labs.</edomvds>\r\n</edom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>U</attrlabl>\r\n<attrdef>Uranium values acquired by analysis with inductively coupled plasma-mass spectrometry (ICP-MS) and shown in parts per million (ppm).</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and Acme Labs</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>.1</rdommin>\r\n<rdommax>4000</rdommax>\r\n<attrunit>ppm</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n<attrdomv>\r\n<edom>\r\n<edomv>---</edomv>\r\n<edomvd>Not analyzed</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys and Acme Labs.</edomvds>\r\n</edom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>V</attrlabl>\r\n<attrdef>Vanadium values acquired by analysis with inductively coupled plasma-mass spectrometry (ICP-MS) and shown in parts per million (ppm).</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and Acme Labs</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>1</rdommin>\r\n<rdommax>10000</rdommax>\r\n<attrunit>ppm</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n<attrdomv>\r\n<edom>\r\n<edomv>---</edomv>\r\n<edomvd>Not analyzed</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys and Acme Labs.</edomvds>\r\n</edom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>W</attrlabl>\r\n<attrdef>Tungsten values acquired by analysis with inductively coupled plasma-mass spectrometry (ICP-MS) and shown in parts per million (ppm). Possibly incomplete digestion for this element, dependent on mineralogy of this sample, may result in lower analytical results.</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and Acme Labs</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>1</rdommin>\r\n<rdommax>200</rdommax>\r\n<attrunit>ppm</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n<attrdomv>\r\n<edom>\r\n<edomv>---</edomv>\r\n<edomvd>Not analyzed</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys and Acme Labs.</edomvds>\r\n</edom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Y</attrlabl>\r\n<attrdef>Yttrium values acquired by analysis with inductively coupled plasma-mass spectrometry (ICP-MS) and shown in parts per million (ppm).</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and Acme Labs</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>.1</rdommin>\r\n<rdommax>2000</rdommax>\r\n<attrunit>ppm</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n<attrdomv>\r\n<edom>\r\n<edomv>---</edomv>\r\n<edomvd>Not analyzed</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys and Acme Labs.</edomvds>\r\n</edom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Zn</attrlabl>\r\n<attrdef>Zinc values acquired by analysis with inductively coupled plasma-mass spectrometry (ICP-MS) and shown in parts per million (ppm).</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and Acme Labs</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>1</rdommin>\r\n<rdommax>10000</rdommax>\r\n<attrunit>ppm</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n<attrdomv>\r\n<edom>\r\n<edomv>---</edomv>\r\n<edomvd>Not analyzed</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys and Acme Labs.</edomvds>\r\n</edom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Zr</attrlabl>\r\n<attrdef>Zirconium values acquired by analysis with inductively coupled plasma-mass spectrometry (ICP-MS) and shown in parts per million (ppm). Possibly incomplete digestion for this element, dependent on mineralogy of this sample, may result in lower analytical results.</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and Acme Labs</attrdefs>\r\n<attrdomv>\r\n<rdom>\r\n<rdommin>.1</rdommin>\r\n<rdommax>2000</rdommax>\r\n<attrunit>ppm</attrunit>\r\n</rdom>\r\n</attrdomv>\r\n<attrdomv>\r\n<edom>\r\n<edomv>---</edomv>\r\n<edomvd>Not analyzed</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys and Acme Labs.</edomvds>\r\n</edom>\r\n</attrdomv>\r\n</attr>\r\n</detailed>\r\n<detailed>\r\n<enttyp>\r\n<enttypl>Table7.csv</enttypl>\r\n<enttypd>Detection limits and geochemical methods for trace-element analyses of rock samples.</enttypd>\r\n<enttypds>Alaska Division of Geological & Geophysical Surveys and ALS Chemex</enttypds>\r\n<ealname>Trace-element rock geochemistry</ealname>\r\n</enttyp>\r\n<attr>\r\n<attrlabl>Element</attrlabl>\r\n<attrdef>Chemical symbol of element analyzed</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex</attrdefs>\r\n<attrdomv>\r\n<codesetd>\r\n<codesetn>Chemical symbol</codesetn>\r\n<codesets>Periodic Table of the Elements, National Institute of Standards and Technology NIST SP 966 (September 2003)</codesets>\r\n</codesetd>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Units</attrlabl>\r\n<attrdef>Chemical composition units (by weight)</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex</attrdefs>\r\n<attrdomv>\r\n<edom>\r\n<edomv>ppm</edomv>\r\n<edomvd>Parts per million</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys</edomvds>\r\n</edom>\r\n</attrdomv>\r\n<attrdomv>\r\n<edom>\r\n<edomv>%</edomv>\r\n<edomvd>percent</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys</edomvds>\r\n</edom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Lower Detection Limit</attrlabl>\r\n<attrdef>The lowest concentration at which the element can be detected</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex</attrdefs>\r\n<attrdomv>\r\n<udom>Detection limit is a a number that is either the maximum or the minimum that a geochemical determination can be reliably made.</udom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Upper Detection Limit</attrlabl>\r\n<attrdef>Value above which concentrations can not be accurately determined.</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex</attrdefs>\r\n<attrdomv>\r\n<udom>Detection limit is a a number that is either the maximum or the minimum that a geochemical determination can be reliably made.</udom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Analytical Method</attrlabl>\r\n<attrdef>Instrumental method used by laboratory to determine concentration values.</attrdef>\r\n<attrdefs>Alaska Division of Geological &Geophysical Surveys and ALS Chemex</attrdefs>\r\n<attrdomv>\r\n<edom>\r\n<edomv>FA-ICP-AES</edomv>\r\n<edomvd>Inductive coupled plasma-atomic emission spectroscopy following a 30g fire assay fusion.</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys and ALS Chemex</edomvds>\r\n</edom>\r\n</attrdomv>\r\n<attrdomv>\r\n<edom>\r\n<edomv>ICP-AES</edomv>\r\n<edomvd>Inductive coupled plasma-atomic emission spectroscopy</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys and ALS Chemex</edomvds>\r\n</edom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Digestion</attrlabl>\r\n<attrdef>Method used to get the sample into a form that is used by the analytical method to determine geochemical concentrations.</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex</attrdefs>\r\n<attrdomv>\r\n<edom>\r\n<edomv>4 Acid</edomv>\r\n<edomvd>four-acid, near-total digestion</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys and Acme Labs and ALS Chemex.</edomvds>\r\n</edom>\r\n</attrdomv>\r\n</attr>\r\n</detailed>\r\n<detailed>\r\n<enttyp>\r\n<enttypl>Table8.csv</enttypl>\r\n<enttypd>Detection limits geochemical methods for for major- and minor-oxide analyses of whole-rock samples</enttypd>\r\n<enttypds>Alaska Division of Geological & Geophysical Surveys and ALS Chemex</enttypds>\r\n<ealname>Whole-rock major- and minor-oxide geochemistry</ealname>\r\n</enttyp>\r\n<attr>\r\n<attrlabl>Element</attrlabl>\r\n<attrdef>Chemical formula of element analyzed</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex</attrdefs>\r\n<attrdomv>\r\n<codesetd>\r\n<codesetn>Major and minor oxide chemical formulas</codesetn>\r\n<codesets>Alaska Division of Geological & Geophysical Surveys and ALS Chemex</codesets>\r\n</codesetd>\r\n</attrdomv>\r\n<attrdomv>\r\n<edom>\r\n<edomv>Fe2O3</edomv>\r\n<edomvd>Total iron content calculated as ferric iron</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys and ALS Chemex</edomvds>\r\n</edom>\r\n</attrdomv>\r\n<attrdomv>\r\n<edom>\r\n<edomv>LOI</edomv>\r\n<edomvd>Loss on ignition, difference after heating to 1000 degrees Celsius determined by gravimetric measurement</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys and ALS Chemex</edomvds>\r\n</edom>\r\n</attrdomv>\r\n<attrdomv>\r\n<edom>\r\n<edomv>Total</edomv>\r\n<edomvd>Sum of the concentrations of all the oxides and LOI</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys and ALS Chemex</edomvds>\r\n</edom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Units</attrlabl>\r\n<attrdef>Chemical composition units (by weight)</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex</attrdefs>\r\n<attrdomv>\r\n<edom>\r\n<edomv>%</edomv>\r\n<edomvd>percent</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys</edomvds>\r\n</edom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Lower Detection Limit</attrlabl>\r\n<attrdef>The lowest concentration at which the element can be detected</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex</attrdefs>\r\n<attrdomv>\r\n<udom>Detection limit is a a number that is either the maximum or the minimum that a geochemical determination can be reliably made.</udom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Upper Detection Limit</attrlabl>\r\n<attrdef>Value above which concentrations can not be accurately determined.</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex</attrdefs>\r\n<attrdomv>\r\n<udom>Detection limit is a a number that is either the maximum or the minimum that a geochemical determination can be reliably made.</udom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Analytical Method</attrlabl>\r\n<attrdef>Instrumental method used by laboratory to determine concentration values.</attrdef>\r\n<attrdefs>Alaska Division of Geological &Geophysical Surveys and ALS Chemex</attrdefs>\r\n<attrdomv>\r\n<edom>\r\n<edomv>LBF-XRF</edomv>\r\n<edomvd>lithium borate fusion, X-ray fluorescence spectrometry</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys and ALS Chemex</edomvds>\r\n</edom>\r\n</attrdomv>\r\n<attrdomv>\r\n<edom>\r\n<edomv>gravimetric</edomv>\r\n<edomvd>A value determined by gravimetric measurement</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys and ALS Chemex</edomvds>\r\n</edom>\r\n</attrdomv>\r\n<attrdomv>\r\n<edom>\r\n<edomv>calculation</edomv>\r\n<edomvd>A value determined by computation</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys and ALS Chemex</edomvds>\r\n</edom>\r\n</attrdomv>\r\n</attr>\r\n</detailed>\r\n<detailed>\r\n<enttyp>\r\n<enttypl>Table9.csv</enttypl>\r\n<enttypd>Detection limits and geochemical methods for trace-element analyses of stream sediment samples.</enttypd>\r\n<enttypds>Alaska Division of Geological & Geophysical Surveys and Acme Labs</enttypds>\r\n<ealname>Trace-element stream sediment geochemistry</ealname>\r\n</enttyp>\r\n<attr>\r\n<attrlabl>Element</attrlabl>\r\n<attrdef>Chemical symbol of element analyzed</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex</attrdefs>\r\n<attrdomv>\r\n<codesetd>\r\n<codesetn>Chemical symbol</codesetn>\r\n<codesets>Periodic Table of the Elements, National Institute of Standards and Technology NIST SP 966 (September 2003)</codesets>\r\n</codesetd>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Units</attrlabl>\r\n<attrdef>Chemical composition units (by weight)</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex</attrdefs>\r\n<attrdomv>\r\n<edom>\r\n<edomv>ppb</edomv>\r\n<edomvd>parts per billion</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys</edomvds>\r\n</edom>\r\n</attrdomv>\r\n<attrdomv>\r\n<edom>\r\n<edomv>ppm</edomv>\r\n<edomvd>Parts per million</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys</edomvds>\r\n</edom>\r\n</attrdomv>\r\n<attrdomv>\r\n<edom>\r\n<edomv>%</edomv>\r\n<edomvd>percent</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys</edomvds>\r\n</edom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Lower Detection Limit</attrlabl>\r\n<attrdef>The lowest concentration at which the element can be detected</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex</attrdefs>\r\n<attrdomv>\r\n<udom>Detection limit is a a number that is either the maximum or the minimum that a geochemical determination can be reliably made.</udom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Upper Detection Limit</attrlabl>\r\n<attrdef>Value above which concentrations can not be accurately determined.</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex</attrdefs>\r\n<attrdomv>\r\n<udom>Detection limit is a a number that is either the maximum or the minimum that a geochemical determination can be reliably made.</udom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Analytical Method</attrlabl>\r\n<attrdef>Instrumental method used by laboratory to determine concentration values.</attrdef>\r\n<attrdefs>Alaska Division of Geological &Geophysical Surveys and ALS Chemex</attrdefs>\r\n<attrdomv>\r\n<edom>\r\n<edomv>ICP-MS</edomv>\r\n<edomvd>inductive coupled plasma-mass spectrometry</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys and Acme Labs</edomvds>\r\n</edom>\r\n</attrdomv>\r\n</attr>\r\n<attr>\r\n<attrlabl>Digestion</attrlabl>\r\n<attrdef>Method used to get the sample into a form that is used by the analytical method to determine geochemical concentrations.</attrdef>\r\n<attrdefs>Alaska Division of Geological & Geophysical Surveys and ALS Chemex</attrdefs>\r\n<attrdomv>\r\n<edom>\r\n<edomv>Aqua-Regia</edomv>\r\n<edomvd>Aqua-Regia digestion</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys and Acme Labs</edomvds>\r\n</edom>\r\n</attrdomv>\r\n<attrdomv>\r\n<edom>\r\n<edomv>4 Acid</edomv>\r\n<edomvd>four-acid, near-total digestion</edomvd>\r\n<edomvds>Alaska Division of Geological & Geophysical Surveys and Acme Labs and ALS Chemex.</edomvds>\r\n</edom>\r\n</attrdomv>\r\n</attr>\r\n</detailed>\r\n<overview>\r\n<eaover>\r\nRDF 2008-1 has nine entities containing attributes that need to be defined. The entities are grouped in three thematic layers; each layer contains a sample location and description table (Tables 1, 3, and 5), a geochemical analysis data table (Tables 2, 4, and 6), and table describing analytical methods and detection limits (Tables 7, 8, and 9).\r\nThe values in the "Sample Number" columns in tables 1, 4, and 7 correspond with the "Sample Number" columns in in tables 2, 5, and 8, respectively. Each row in tables 3, 6, an 9 give detection limits and methods for each of the columns in tables 2, 6, and 8 respectively.\r\n</eaover>\r\n<eadetcit>This report</eadetcit>\r\n</overview>\r\n</eainfo>\r\n<distinfo>\r\n<distrib>\r\n<cntinfo>\r\n<cntorgp>\r\n<cntorg>State of Alaska, Department of Natural Resources, Division of Geological & Geophysical Surveys</cntorg>\r\n</cntorgp>\r\n<cntaddr>\r\n<addrtype>mailing and physical</addrtype>\r\n<address>3354 College Road</address>\r\n<city>Fairbanks</city>\r\n<state>AK</state>\r\n<postal>99709-3707</postal>\r\n<country>USA</country>\r\n</cntaddr>\r\n<cntvoice>907-451-5020</cntvoice>\r\n<cnttdd>None available</cnttdd>\r\n<cntfax>907-451-5050</cntfax>\r\n<cntemail>dggspubs@alaska.gov</cntemail>\r\n<hours>8 am to 4:30 pm, Monday through Friday, except State holidays</hours>\r\n<cntinst>Please view our web site (http://www.dggs.alaska.gov) for the latest information on available data. Please contact us using the e-mail address provided above when possible.</cntinst>\r\n</cntinfo>\r\n</distrib>\r\n<resdesc>Raw Data File 2008-1 v. 1.0.1</resdesc>\r\n<distliab>The State of Alaska makes no express or implied warranties (including warranties of merchantability and fitness) with respect to the character, function, or capabilities of the electronic services or products or their appropriateness for any user's purposes. In no event will the State of Alaska be liable for any incidental, indirect, special, consequential, or other damages suffered by the user or any other person or entity whether from the use of the electronic services or products, any failure thereof, or otherwise, and in no event will the State of Alaska's liability to the requester or anyone else exceed the fee paid for the electronic service or product.</distliab>\r\n<stdorder>\r\n<nondig>Current publication is available on paper. To purchase this or other printed reports and maps, contact DGGS by phone (907-451-5020), e-mail (dggspubs@alaska.gov), or fax (907-451-5050). Payment accepted: Cash, check, money order, VISA, or MasterCard.</nondig>\r\n<fees>Printed publication can be purchased for $5.00 (contact information below) plus shipping if mailed.</fees>\r\n</stdorder>\r\n<stdorder>\r\n<digform>\r\n<digtinfo>\r\n<formname>PDF</formname>\r\n<formvern>1.6</formvern>\r\n<filedec>No compression applied</filedec>\r\n</digtinfo>\r\n<digtopt>\r\n<onlinopt>\r\n<computer>\r\n<networka>\r\n<networkr>http://dx.doi.org/10.14509/15901</networkr>\r\n</networka>\r\n</computer>\r\n</onlinopt>\r\n</digtopt>\r\n</digform>\r\n<digform>\r\n<digtinfo>\r\n<formname>CSV</formname>\r\n<formverd>2007</formverd>\r\n<filedec>No compression applied</filedec>\r\n</digtinfo>\r\n<digtopt>\r\n<onlinopt>\r\n<computer>\r\n<networka>\r\n<networkr>http://dx.doi.org/10.14509/15901</networkr>\r\n</networka>\r\n</computer>\r\n</onlinopt>\r\n<offoptn>\r\n<offmedia>CD-ROM</offmedia>\r\n<recfmt>Joliet</recfmt>\r\n</offoptn>\r\n</digtopt>\r\n</digform>\r\n<fees>Digital files on CD-ROM are available for $10.00 (contact information below). No fees charged for downloaded files.</fees>\r\n<ordering>Order by phone (907-451-5020), e-mail (dggspubs@alaska.gov), or fax (907-451-5050). The DGGS web site (http://www.dggs.alaska.gov/) has a list of electronic data available and an order form that can be printed. Payment accepted: Cash, check, money order, VISA, or MasterCard.</ordering>\r\n<turnarnd>Digital downloads: less than 30 minutes for most files. Offline CD/DVD-ROMs: 1-2 weeks unless special arrangements are made and an express fee is paid.</turnarnd>\r\n</stdorder>\r\n<techpreq>CSV (Comma Separated Value) files can be imported and formatted with Microsoft Excel, OpenOffice.org Calc, or most spreadsheet and text editor programs.</techpreq>\r\n</distinfo>\r\n<metainfo>\r\n<metd>20080506</metd>\r\n<metrd>20080506</metrd>\r\n<metfrd>20091218</metfrd>\r\n<metc>\r\n<cntinfo>\r\n<cntorgp>\r\n<cntorg>State of Alaska, Department of Natural Resources, Division of Geological & Geophysical Surveys</cntorg>\r\n<cntper>Lawrence Freeman</cntper>\r\n</cntorgp>\r\n<cntpos>Geologist in the DGGS Minerals Section</cntpos>\r\n<cntaddr>\r\n<addrtype>mailing and physical address</addrtype>\r\n<address>3354 College Road</address>\r\n<city>Fairbanks</city>\r\n<state>AK</state>\r\n<postal>99709-3707</postal>\r\n<country>USA</country>\r\n</cntaddr>\r\n<cntvoice>907-451-5020</cntvoice>\r\n<cnttdd>None available.</cnttdd>\r\n<cntfax>907-451-5050</cntfax>\r\n<cntemail>dggspubs@alaska.gov</cntemail>\r\n<hours>8:00 am to 4:30 pm, Monday through Friday, except State holidays.</hours>\r\n<cntinst>Please contact us through the e-mail address given above whenever possible.</cntinst>\r\n</cntinfo>\r\n</metc>\r\n<metstdn>FGDC Content Standard for Digital Geospatial Metadata</metstdn>\r\n<metstdv>FGDC-STD-001-1998</metstdv>\r\n<metac>none</metac>\r\n<metuc>If the user has modified the data in any way the user is obligated to describe the types of modifications the user has performed in the supporting metadata file. User specifically agrees not to imply that changes made by the user were approved by the State of Alaska, Department of Natural Resources, Division of Geological & Geophysical Surveys.</metuc>\r\n</metainfo>\r\n</metadata>\r\n', 14402, 14403, 'invalid start byte')
Type: ExternalRecordToClass
Date Created: 2026-04-04 21:39:46.037643
27755f28-5fc1-4d7c-8a0f-861355faedf4
Identifier: https://dggs.alaska.gov/webpubs/metadata/RDF2011-3G_be.xml
Title: N/A
Harvest Record ID: 80d8db18-1f9f-4b5f-9f7b-d39c99466606
Error Message: record failed to transform: structure messages: validation messages: ERROR: ISO 19115-2 file did not contain a gmi:MI_Metadata | gmd:MD_Metadata tag
Type: TransformationException
Date Created: 2026-04-04 21:40:28.872435
721bbeb3-add1-4508-a9b9-4f7e055821a5
Identifier: https://dggs.alaska.gov/webpubs/metadata/GPR2015-2.xml
Title: N/A
Harvest Record ID: 8633104b-0e56-4da9-abc2-eb1ed1523ee8
Error Message: record failed to transform: structure messages: validation messages: ERROR: ISO 19115-2 file did not contain a gmi:MI_Metadata | gmd:MD_Metadata tag
Type: TransformationException
Date Created: 2026-04-04 21:38:03.758114
cfb384ac-4964-433e-9315-cb351daa8953
Identifier: https://dggs.alaska.gov/webpubs/metadata/RDF2023-23.xml
Title: N/A
Harvest Record ID: 21b3c51a-5f3f-411f-aac8-041da0260bac
Error Message: record failed to transform: structure messages: validation messages: ERROR: ISO 19115-2 file did not contain a gmi:MI_Metadata | gmd:MD_Metadata tag
Type: TransformationException
Date Created: 2026-04-04 21:43:42.399427
60413de0-5b64-4fbd-8ad1-bc0b47acbd29
Identifier: https://dggs.alaska.gov/webpubs/metadata/RDF2018-4.xml
Title: N/A
Harvest Record ID: 8537ce4c-bdbf-4428-bb86-e204cbe33485
Error Message: record failed to transform: structure messages: validation messages: ERROR: ISO 19115-2 file did not contain a gmi:MI_Metadata | gmd:MD_Metadata tag
Type: TransformationException
Date Created: 2026-04-04 21:42:54.091638
85d5a004-bdf5-4799-a737-c77fefd96fef
Identifier: https://dggs.alaska.gov/webpubs/metadata/RDF2011-3S_in.xml
Title: N/A
Harvest Record ID: be748237-f75d-4617-ac23-7247e20f4a5a
Error Message: record failed to transform: structure messages: validation messages: ERROR: ISO 19115-2 file did not contain a gmi:MI_Metadata | gmd:MD_Metadata tag
Type: TransformationException
Date Created: 2026-04-04 21:41:44.858512
3cb82659-bd60-4c15-b7a5-672de71b746c
Identifier: https://dggs.alaska.gov/webpubs/metadata/RDF2011-3L_veg_dsm.xml
Title: N/A
Harvest Record ID: 21083db5-851d-49b8-a17f-3e6e8f2dd124
Error Message: record failed to transform: structure messages: validation messages: ERROR: ISO 19115-2 file did not contain a gmi:MI_Metadata | gmd:MD_Metadata tag
Type: TransformationException
Date Created: 2026-04-04 21:41:04.568662
dd8b7375-8d39-4efe-a6b3-927cc8f2ce45
Identifier: https://dggs.alaska.gov/webpubs/metadata/RDF2011-3H_hs.xml
Title: N/A
Harvest Record ID: 5fcf7932-4bc6-43f3-bd0e-5b8afc9f4844
Error Message: record failed to transform: structure messages: validation messages: ERROR: ISO 19115-2 file did not contain a gmi:MI_Metadata | gmd:MD_Metadata tag
Type: TransformationException
Date Created: 2026-04-04 21:40:37.328647
