digital geological mapping

{{merge to|Computer cartography|discuss=Talk:Computer_cartography#Merge_proposal_for_geologic_mapping_into_computer_cartography|date=October 2024}}

File:Contour map software screen snapshot of isopach map for 8500ft deep OIL reservoir with a Fault line.jpg in the Erath field, Vermilion Parish, Erath, Louisiana. The left-to-right gap, near the top of the contour map indicates a Fault line. This fault line is between the blue/green contour lines and the purple/red/yellow contour lines. The thin red circular contour line in the middle of the map indicates the top of the oil reservoir. Because gas floats above oil, the thin red contour line marks the gas/oil contact zone.]]

Digital geological mapping is the process by which geological features are observed, analyzed, and recorded in the field and displayed in real-time on a computer or personal digital assistant (PDA). The primary function of this emerging technology is to produce spatially referenced geological maps that can be utilized and updated while conducting field work.{{cite conference |first=John |last=Kramer |title=Digital Mapping Systems for Field Data Collection |book-title=Digital Mapping Techniques '00 -- Workshop Proceedings|id=Open-File Report 00-325 |year=2000 |publisher=U.S. Geological Survey |url=http://pubs.usgs.gov/of/2000/of00-325/kramer.html}}

Traditional geological mapping

Geological mapping is an interpretive process involving multiple types of information, from analytical data to personal observation, all synthesized and recorded by the geologist. Geologic observations have traditionally been recorded on paper, whether on standardized note cards, in a notebook, or on a map.{{Cite book| last1 = Barnes| first1 = John| last2 = Lisle| first2 = Richard | title = Basic Geological Mapping| publisher = John Wiley & Sons Ltd| year = 2004| location = Chichester, West Sussex PO19 8SQ, England| pages = 1–204| isbn =978-0-470-84986-6}}

Mapping in the digital era

In the 21st century, computer technology and software are becoming portable and powerful enough to take on some of the more mundane tasks a geologist must perform in the field, such as precisely locating oneself with a GPS unit, displaying multiple images (maps, satellite images, aerial photography, etc.), plotting strike and dip symbols, and color-coding different physical characteristics of a lithology or contact type (e.g., unconformity) between rock strata. Additionally, computers can now perform some tasks that were difficult to accomplish in the field, for example, handwriting or voice recognition and annotating photographs on the spot.{{Citation | first1 = Douglas | last1 = Sprinkel | first2 = Kent | last2 = Brown | title = Using digital technology in the field | journal = Survey Notes | volume = 40 | issue = 1 | pages = 1–2 | year = 2008 | url = http://geology.utah.gov/surveynotes/snt40-1.pdf}}

Digital mapping has positive and negative effects on the mapping process;{{Citation | first1 = K. | last1 = McCaffrey | first2 = R. | last2 = Jones | first3 = R. | last3 = Holdsworth | first4 = R. | last4 = Wilson| first5 = P. | last5 = Clegg| first6 = J. | last6 = Imber| first7 = N. | last7 = Holliman| first8 = I. | last8 = Trinks | title = Unlocking the spatial dimension- digital technologies and the future of geoscience fieldwork | journal = Journal of the Geological Society, London | volume = 162 | issue = 6| pages = 927–938 | year = 2005 | url = http://geology.utah.gov/surveynotes/snt40-1.pdf | doi=10.1144/0016-764905-017| bibcode = 2005JGSoc.162..927M | citeseerx = 10.1.1.126.8297 | s2cid = 46371739 }} only an assessment of its impact on a geological mapping project as a whole shows whether it provides a net benefit. With the use of computers in the field, the recording of observations and basic data management changes dramatically. The use of digital mapping also affects when data analysis occurs in the mapping process, but does not greatly affect the process itself.{{Citation |first1=Jennifer |last1=Athey |first2=Lawrence |last2=Freeman |first3=Kenneth |last3=Woods |title=The transition from traditional to digital mapping: Maintaining data quality while increasing geologic mapping efficiency in Alaska |work=Newsletter 2008-2 |year=2008 |pages=1–12 |publisher=Alaska Division of Geological & Geophysical Surveys |url=http://www.dggs.dnr.state.ak.us/pubs/pubs?reqtype=citation&ID=17821}}

=Advantages=

Data entered by a geologist may have fewer errors than data transcribed by a data entry clerk.
Data entry by geologists in the field may take less total time than subsequent data entry in the office, potentially reducing the overall time needed to complete a project.
The spatial extent of real world objects and their attributes can be entered directly into a database with geographic information system (GIS) capability. Features can be automatically color-coded and symbolized based on set criteria.
Multiple maps and imagery (geophysical maps, satellite images, orthophotos, etc.) can easily be carried and displayed on-screen.
Geologists may upload each other's data files for the next day's field work as reference.
Data analysis may start immediately after returning from the field, since the database has already been populated.
Data can be constrained by dictionaries and dropdown menus to ensure that data are recorded systematically and that mandatory data are not forgotten
Labour-saving tools and functionality can be provided in the field e.g. structure contours on the fly, and 3D visualisation
Systems can be wirelessly connected to other digital field equipment (such as digital cameras and sensor webs)

=Disadvantages=

Computers and related items (extra batteries, stylus, cameras, etc.) must be carried in the field.
Field data entry into the computer may take longer than physically writing on paper, possibly resulting in longer field programs.
Data entered by multiple geologists may contain more inconsistencies than data entered by one person, making the database more difficult to query.
Written descriptions convey to the reader detailed information through imagery that may not be communicated by the same data in parsed format.
Geologists may be inclined to shorten text descriptions because they are difficult to enter (either by handwriting or voice recognition), resulting in loss of data.
There are no original, hardcopy field maps or notes to archive. Paper is a more stable medium than digital format.{{Citation | first1 = Deanna | last1 = Marcum | first2 = Amy | last2 = Friedlander | title = Keepers of the Crumbling Culture: What Digital Preservation Can Learn from Library History | journal = D-Lib Magazine | volume = 9 | issue = 5 | date = May 2003| doi = 10.1045/may2003-friedlander| doi-access = free }}

Educational and scientific uses

Some universities and secondary educators are integrating digital geological mapping into class work.{{Cite book| last1 = Berque| first1 = Dave| last2 = Prey| first2 = Jane| last3 = Reed| first3 = Robert| title = Impact of Tablet PC's and Pen-based Technology on Education : Vignettes, Evaluations, And Future Directions| publisher = Purdue University Press| year = 2006| pages = [https://archive.org/details/impactoftabletpc0000unse/page/1 1–200]| isbn = 978-1-55753-434-7| url = https://archive.org/details/impactoftabletpc0000unse/page/1}} For example, The GeoPad project [http://geopad.org] describes the combination of technology, teaching field geology, and geological mapping in programs such as Bowling Green State University’s geology field camp.[http://www.bgsu.edu/departments/geology/page58461.html]

At Urbino University (Italy) :it:Università di Urbino, Field Digital Mapping Techniques are integrated in Earth and Environmental Sciences courses since 2006 [http://www.uniurb.it/ISDA/Eolieweb/index.html] [http://www.uniurb.it/ISDA/sanbartolo/intro.html].

The MapTeach program is designed to provide hands-on digital mapping for middle and high school students.[http://www.mapteach.org/] {{Webarchive|url=https://web.archive.org/web/20090625010412/http://www.mapteach.org/ |date=2009-06-25 }} The SPLINT [http://www.le.ac.uk/geography/splint/] project in the UK is using the BGS field mapping system as part of their teaching curriculum

Digital mapping technology can be applied to traditional geological mapping, reconnaissance mapping, and surveying of geologic features. At international digital field data capture (DFDC) meetings, major geological surveys (e.g., British Geological Survey and Geological Survey of Canada) discuss how to harness and develop the technology.[http://www.bgs.ac.uk/science/dfdc/home.html] Many other geological surveys and private companies are also designing systems to conduct scientific and applied geological mapping of, for example, geothermal springs{{cite conference |mode=cs2 |first1=Mark |last1=Coolbaugh |first2=Chris |last2=Sladek |first3=Chris |last3=Kratt |first4=Gary |last4=Edmondo |title=Digital mapping of structurally controlled geothermal features with GPS units and pocket computers |book-title=Proceedings, Annual Meeting of Geothermal Resources Council Transactions |date=Aug 29 – Sep 1, 2004 |volume=28 |pages=321–325 |location=Palm Springs, CA |url=http://www.unr.edu/Geothermal/pdffiles/CoolbaughDigGRC04.pdf |archive-url=https://web.archive.org/web/20100528142315/http://www.unr.edu/Geothermal/pdffiles/CoolbaughDigGRC04.pdf |archive-date=2010-05-28}}

and mine sites.{{Citation | first1 = Irene | last1 = Montero | first2 = George | last2 = Brimhall | first3 = Charles | last3 = Alpers| first4 = Gregg | last4 = Swayze | title = Characterization of waste rock associated with acid drainage at the Penn Mine, California, by ground-based visible to short-wave infrared reflectance spectroscopy assisted by digital mapping | journal = Chemical Geology | volume = 215 | issue = 5 | pages = 453–472| date = 15 February 2005| url = http://digitalcommons.unl.edu/cgi/viewcontent.cgi?article=1355&context=usgsstaffpub| doi=10.1016/j.chemgeo.2004.06.045 | bibcode = 2005ChGeo.215..453M }}

Equipment

The initial cost of digital geologic computing and supporting equipment may be significant. In addition, equipment and software must be replaced occasionally due to damage, loss, and obsolescence. Products moving through the market are quickly discontinued as technology and consumer interests evolve. A product that works well for digital mapping may not be available for purchase the following year; however, testing multiple brands and generations of equipment and software is prohibitively expensive.

=Common essential features=

Some features of digital mapping equipment are common to both survey or reconnaissance mapping and “traditional” comprehensive mapping. The capture of less data-intensive reconnaissance mapping or survey data in the field can be accomplished by less robust databases and GIS programs, and hardware with a smaller screen size.{{Citation | last1 = Clegg | first1 = P. | last2 = Bruciatelli | first2 = L. | last3 = Domingos | first3 = F. | last4 = Jones | first4 = R. | last5 = De Donatis | first5 = M. | last6 = Wilson | first6 = R. | title = Digital geological mapping with tablet PC and PDA: A comparison | journal = Computers & Geosciences | volume = 32 | issue = 10| pages = 1682–1698 | year = 2006 | url = http://www.dur.ac.uk/r.r.jones/Downloads/C&G2006_v32_10_1682_Clegg.pdf | doi = 10.1016/j.cageo.2006.03.007| bibcode = 2006CG.....32.1682C }}

{{cite conference |first=Gary |last=Edmondo |title=Field Digital geologic field mapping using ArcPad |book-title=Digital Mapping Techniques '02 -- Workshop Proceedings |id=Open-File Report 02-370 |year=2002 |pages=129–134 |publisher= U.S. Geological Survey |url=http://pubs.usgs.gov/of/2002/of02-370/edmondo.html}}

Devices and software are intuitive to learn and easy to use
Rugged, as typically defined by military standards (MIL-STD-810) and ingress protection ratings
Waterproof
Screen is easy to read in bright sunlight and on gray sky days
Removable static memory cards can be used to back up data
Memory on board is recoverable
Real-time and post-processing differential correction for GPS locations
Portable battery with at least 9 hours of life at near constant use
Can change batteries in the field
Batteries should have no “memory,” such as with NiCd
Chargeable by unconventional power sources (generators, solar, etc.)
Wireless real-time link to GPS or built-in GPS
Wireless real-time link from computer to camera and other peripherals
USB port(s)

=Features essential to capture traditional geologic observations=

Hardware and software only recently (in 2000) became available that can satisfy most of the criteria necessary for digitally capturing "traditional" mapping data.

Screen about {{convert|5|x|7|in|abbr=on}}—compact but large enough to see map features. In 2009, some traditional mapping is conducted on PDAs.
Lightweight—ideally less than 3 lbs.
Transcription to digital text from handwriting and voice recognition.
Can store paragraphs of data (text fields).
Can store complex relational database with drop-down lists.
Operating system and hardware are compatible with a robust GIS program.
At least 512 MB memory.

=Technology=

==History==

class="wikitable"
Year(s) available ! Field system name ! Base software ! Hardware used ! Reference
1989–1992 \| MERLIN \| BGS Custom \| EPSON EHT400E Handheld computer
1991-1999? \| FIELDLOG \| AutoCAD, Fieldworker \| Apple Newton PDA \| {{cite conference \|first=Boyan \|last=Brodaric \|title=Field data capture and manipulation using GSC FIELDLOG v3.0 \|book-title=Digital Mapping Techniques '97 \|id=Open-File Report 97-269 \|year=1997 \|pages=77–81 \|publisher=U.S. Geological Survey \|url=http://pubs.usgs.gov/of/1997/of97-269/brodaric.html}} {{cite journal \|first=Boyan \|last=Brodaric \|title=The design of GSC FieldLog: ontology-based software for computer-aided geological field mapping \|date=February 2004 \|volume=30 \|issue=1 \|pages=5–20 \|doi=10.1016/j.cageo.2003.08.009 \|journal=Computers & Geosciences\|bibcode=2004CG.....30....5B }}
1998–2000 \| G-Map \| Esri Arc-View \| PC & Web Based \| Eni-Temars
2000–Present \| GeoEditor \| Esri Arc-View \| PC \| Walker, J.D., and Black, R.A, 2000, Mapping the outcrop: Geotimes, vol. 45, no. 11, p. 28-31. {{cite web \|url=http://www.geo.ku.edu/programs/tectonics/digitalmapping/mappingwebpage.html \|title=Digital Field Mapping, Department of Geology, University of Kansas \|access-date=2013-08-05 \|url-status=dead \|archive-url=https://web.archive.org/web/20080828074812/http://www.geo.ku.edu/programs/tectonics/digitalmapping/mappingwebpage.html \|archive-date=2008-08-28 }}
2001?–2002? \| GeoLink \| Geolink \| unknown \|
2002–2010 \| MIDAS \| ESRI's ArcPAD and BGS bespoke database \| iPAQ PDAs \| {{cite conference \|vauthors=Jordan CJ, Bee EJ, Smith NA, Lawley RS, Ford J, Howard AS, Laxton JL \|date=2005 \|title=The development of Digital Field Data Collection systems to fulfil the British Geological Survey mapping requirements \|book-title=GIS and Spatial Analysis : Annual Conference of the International Association for Mathematical Geology \|location=Toronto \|volume=2 \|pages=886–891 \|url=http://nora.nerc.ac.uk/8434}}
2002–Present \| Geopad \| ESRI's ArcGIS, Microsoft OneNote, etc. \| Rugged Tablet PCs and Tablet PCs \| {{cite book \|last1=Knoop \|first1=Peter A. \|last2=van der Pluijm \|first2=Ben \|date=2006 \|chapter=GeoPad: Tablet PC-enabled Field Science Education. \|title=The Impact of Pen-based Technology of Education: Vignettes, Evaluations, and Future Directions \|editor-first=Dave \|editor-last=Berque \|editor-first2=Jane \|editor-last2=Prey \|editor-first3=Rob \|editor-last3=Reed \|publisher=Purdue University Press \|chapter-url=https://ben.earth.lsa.umich.edu/Publications/06_GeoPad.pdf}}
2004–Present \| Geomapper \| ESRI's ArcGIS \| Rugged Tablet PCs and Tablet PCs \|
2004–2008 \| Map IT (not longer available) \| Map IT \| Ruggedized Tablet PC \| {{cite conference \|first1=M. \|last1=De Donatis \|first2=L. \|last2=Bruciatelli \|first3=S. \|last3=Susini \|title=MAP IT- a GIS/GPS software solution for digital mapping \|book-title=Digital Mapping Techniques '05—Workshop Proceedings \|id=Open-File Report 2005-1428 \|year=2005 \|pages=97–101 \|publisher=U.S. Geological Survey \|url=http://pubs.usgs.gov/of/2005/1428/dedonatis1/index.html}} {{Citation \|first1=Mauro \|last1=De Donatis \|first2=L. \|last2=Bruciatelli \|title=MAP IT: the GIS software for field mapping with tablet pc \|journal=Computers & Geosciences \|date=June 2006 \|pages=673–680 \|volume=32 \|issue=5 \|doi=10.1016/j.cageo.2005.09.003\|bibcode=2006CG.....32..673D }} [http://www.uniurb.it/ISDA/MAPIT/] {{cite conference \|first1=Kent \|last1=Brown \|first2=Douglas \|last2=Sprinkel \|title=Geologic Field Mapping Using a Rugged Tablet Computer \|book-title=Digital Mapping Techniques '07 - Workshop Proceedings \|editor-first=David R. \|editor-last=Soller \|id=Open-File Report 2008-1385 \|year=2008 \|pages=53–58 \|publisher=U.S. Geological Survey \|url=http://pubs.usgs.gov/of/2008/1385/pdf/brown.pdf}}
2006–2008 \| Geologic Data Assistant (GDA) \| customized ArcPad 6.0.3 (ESRI) \| Ruggedized PDA \| {{Citation \|first1=Evan \|last1=Thoms \|first2=Ralph \|last2=Haugerud \|title=GDA (Geologic Data Assistant), an ArcPad extension for geological mapping: Code, prerequisites, and instructions \|id=Open-File Report 2006-1097 \|year=2006 \|pages=1–23 \|journal=USGS Report \|series=Open-File Report \|doi=10.3133/ofr20061097 \|bibcode=2006usgs.rept...13E \|url=http://pubs.usgs.gov/of/2006/1097/}}
2001–2010 \| ArcPad \| ESRI's ArcPad \| Ruggedized PDA or Tablet PC \|
2002?–2010 \| GeoMapper \| PenMap [http://www.Penmap.com] \| Ruggedized PDA or Tablet PC \| {{cite conference \|first1=George \|last1=Brimhall \|first2=Abel \|last2=Vanegas \|title=Removing Science Workflow Barriers to Adoption of Digital Geological Mapping by Using the GeoMapper Universal Program and Visual User Interface \|book-title=Digital Mapping Techniques '01 -- Workshop Proceedings \|id=Open-File Report 01-223 \|year= 2001 \|publisher=U.S. Geological Survey \|url=http://pubs.usgs.gov/of/2001/of01-223/brimhall.html}} {{cite conference \|first1=G. \|last1=Brimhall \|first2=A. \|last2=Vanegas \|first3=D. \|last3=Lerch \|title=GeoMapper program for paperless field mapping with seamless map production in ESRI ArcMap and GeoLogger for drill-hole data capture: applications in geology, astronomy, environmental remediation, and raised-relief models \|book-title=Digital Mapping Techniques '02 -- Workshop Proceedings \|id=Open-File Report 02-370 \|year=2002 \|pages=141–152 \|publisher=U.S. Geological Survey \|url=http://pubs.usgs.gov/of/2002/of02-370/brimhall.html}}
2006?–2010 \| SAIC GeoRover \| Extension for ESRI's ArcGIS \| Ruggedized PDA or Tablet PC \| [https://web.archive.org/web/20111126225710/http://www.esri.com/industries/defense/pdfs/georover.pdf]
2003–2010 \| GAFAG GeoRover (name protected in Europe) \| Mobile geological information system \| Ruggedized PDA, Tablet PC, Desktop PC, Laptop \| [https://web.archive.org/web/20110719030556/http://www.gaf.de/sites/default/files/content/portfolio_software_gaf_product/GeoRover/GeoRover_0.pdf]
2000?–2010 \| BGS-SIGMAmobile [http://www.bgs.ac.uk/science/3dmodelling/sigma.html] \| Customized ArcGIS, MS Access, InfiNotes \| Ruggedized Tablet PC \| [http://www.bgs.ac.uk/science/3dmodelling/sigma.html] {{cite conference \|first=Colm \|last=Jordan \|title=SIGMAmobile, the British Geological Survey digital field mapping system in action \|book-title=Digital Mapping Techniques '09 \|date=May 10–13, 2009 \|place=Morgantown, West Virginia \|url=http://ngmdb.usgs.gov/Info/dmt/docs/DMT09_Jordan.pdf}}
2008–Present \| BeeGIS \| Built on top of uDig [https://web.archive.org/web/20100902041742/http://jgrass.wiki.software.bz.it/jgrass/BeeGIS] \| Tablet PC (ruggized or not), Desktop PC, Laptop (Win, Mac or Linux Systems) \| [http://www.beegis.org/] {{cite conference \|first=Mauro \|last=De Donatis \|title=BeeGIS: a new open source and multiplatform field GIS \|book-title=Digital Mapping Techniques '09 \|date=May 10–13, 2009 \|place=Morgantown, West Virginia \|url=https://pubs.usgs.gov/of/2010/1335/pdf/usgs_of2010-1335_DeDonatis.pdf}}
2011–Present \| FieldMove [http://www.mve.com/software/fieldmove/] \| Midland Valley's Move \| Tablet PC (ruggized or not), Desktop PC, Laptop (Windows XP or later) \| {{cite web \|first1=Clare \|last1=Bond \|first2=S. \|last2=Clelland \|first3=R. \|last3=Butler \|title=Applying Digital Mapping Techniques to Classic Geological Areas in North West Scotland and the French Alps - Aiding Structural Geology Prediction Through 3D visualisation and Model Building \|website=2010 GSA Denver Annual Meeting \|type=Abstract \|date=31 October – 3 November 2010 \|place=Denver, Colorado \|url=http://gsa.confex.com/gsa/2010AM/finalprogram/abstract_179600.htm}}
??-Present \|QField \|QGIS \|Tablet or Smartphone \|https://qfield.org/
?? - Present \|Mergin Maps \|QGIS \|Tablet, Smartphone, Desktop PC, Laptop \|https://merginmaps.com/

class="wikitable"

Year(s) available

! Field system name

! Base software

! Hardware used

! Reference

1989–1992

| MERLIN

| BGS Custom

| EPSON EHT400E Handheld computer

1991-1999?

| FIELDLOG

| AutoCAD, Fieldworker

| Apple Newton PDA

| {{cite conference |first=Boyan |last=Brodaric |title=Field data capture and manipulation using GSC FIELDLOG v3.0 |book-title=Digital Mapping Techniques '97 |id=Open-File Report 97-269 |year=1997 |pages=77–81 |publisher=U.S. Geological Survey |url=http://pubs.usgs.gov/of/1997/of97-269/brodaric.html}}

{{cite journal |first=Boyan |last=Brodaric |title=The design of GSC FieldLog: ontology-based software for computer-aided geological field mapping |date=February 2004 |volume=30 |issue=1 |pages=5–20 |doi=10.1016/j.cageo.2003.08.009 |journal=Computers & Geosciences|bibcode=2004CG.....30....5B }}

1998–2000

| G-Map

| Esri Arc-View

| PC & Web Based

| Eni-Temars

2000–Present

| GeoEditor

| Esri Arc-View

| PC

| Walker, J.D., and Black, R.A, 2000, Mapping the outcrop: Geotimes, vol. 45, no. 11, p. 28-31. {{cite web |url=http://www.geo.ku.edu/programs/tectonics/digitalmapping/mappingwebpage.html |title=Digital Field Mapping, Department of Geology, University of Kansas |access-date=2013-08-05 |url-status=dead |archive-url=https://web.archive.org/web/20080828074812/http://www.geo.ku.edu/programs/tectonics/digitalmapping/mappingwebpage.html |archive-date=2008-08-28 }}

2001?–2002?

| GeoLink

| Geolink

| unknown

2002–2010

| MIDAS

| ESRI's ArcPAD and BGS bespoke database

| iPAQ PDAs

| {{cite conference |vauthors=Jordan CJ, Bee EJ, Smith NA, Lawley RS, Ford J, Howard AS, Laxton JL |date=2005 |title=The development of Digital Field Data Collection systems to fulfil the British Geological Survey mapping requirements |book-title=GIS and Spatial Analysis : Annual Conference of the International Association for Mathematical Geology |location=Toronto |volume=2 |pages=886–891 |url=http://nora.nerc.ac.uk/8434}}

2002–Present

| Geopad

| ESRI's ArcGIS, Microsoft OneNote, etc.

| Rugged Tablet PCs and Tablet PCs

| {{cite book |last1=Knoop |first1=Peter A. |last2=van der Pluijm |first2=Ben |date=2006 |chapter=GeoPad: Tablet PC-enabled Field Science Education. |title=The Impact of Pen-based Technology of Education: Vignettes, Evaluations, and Future Directions |editor-first=Dave |editor-last=Berque |editor-first2=Jane |editor-last2=Prey |editor-first3=Rob |editor-last3=Reed |publisher=Purdue University Press |chapter-url=https://ben.earth.lsa.umich.edu/Publications/06_GeoPad.pdf}}

2004–Present

| Geomapper

| ESRI's ArcGIS

| Rugged Tablet PCs and Tablet PCs

2004–2008

| Map IT (not longer available)

| Map IT

| Ruggedized Tablet PC

| {{cite conference |first1=M. |last1=De Donatis |first2=L. |last2=Bruciatelli |first3=S. |last3=Susini |title=MAP IT- a GIS/GPS software solution for digital mapping |book-title=Digital Mapping Techniques '05—Workshop Proceedings |id=Open-File Report 2005-1428 |year=2005 |pages=97–101 |publisher=U.S. Geological Survey |url=http://pubs.usgs.gov/of/2005/1428/dedonatis1/index.html}}

{{Citation |first1=Mauro |last1=De Donatis |first2=L. |last2=Bruciatelli |title=MAP IT: the GIS software for field mapping with tablet pc |journal=Computers & Geosciences |date=June 2006 |pages=673–680 |volume=32 |issue=5 |doi=10.1016/j.cageo.2005.09.003|bibcode=2006CG.....32..673D }}

[http://www.uniurb.it/ISDA/MAPIT/]

{{cite conference |first1=Kent |last1=Brown |first2=Douglas |last2=Sprinkel |title=Geologic Field Mapping Using a Rugged Tablet Computer |book-title=Digital Mapping Techniques '07 - Workshop Proceedings

|editor-first=David R. |editor-last=Soller |id=Open-File Report 2008-1385 |year=2008 |pages=53–58 |publisher=U.S. Geological Survey |url=http://pubs.usgs.gov/of/2008/1385/pdf/brown.pdf}}

2006–2008

| Geologic Data Assistant (GDA)

| customized ArcPad 6.0.3 (ESRI)

| Ruggedized PDA

| {{Citation |first1=Evan |last1=Thoms |first2=Ralph |last2=Haugerud |title=GDA (Geologic Data Assistant), an ArcPad extension for geological mapping: Code, prerequisites, and instructions |id=Open-File Report 2006-1097 |year=2006 |pages=1–23 |journal=USGS Report |series=Open-File Report |doi=10.3133/ofr20061097 |bibcode=2006usgs.rept...13E |url=http://pubs.usgs.gov/of/2006/1097/}}

2001–2010

| ArcPad

| ESRI's ArcPad

| Ruggedized PDA or Tablet PC

2002?–2010

| GeoMapper

| PenMap [http://www.Penmap.com]

| Ruggedized PDA or Tablet PC

{{cite conference |first1=George |last1=Brimhall |first2=Abel |last2=Vanegas |title=Removing Science Workflow Barriers to Adoption of Digital Geological Mapping by Using the GeoMapper Universal Program and Visual User Interface |book-title=Digital Mapping Techniques '01 -- Workshop Proceedings |id=Open-File Report 01-223 |year= 2001 |publisher=U.S. Geological Survey |url=http://pubs.usgs.gov/of/2001/of01-223/brimhall.html}}

{{cite conference |first1=G. |last1=Brimhall |first2=A. |last2=Vanegas |first3=D. |last3=Lerch |title=GeoMapper program for paperless field mapping with seamless map production in ESRI ArcMap and GeoLogger for drill-hole data capture: applications in geology, astronomy, environmental remediation, and raised-relief models |book-title=Digital Mapping Techniques '02 -- Workshop Proceedings |id=Open-File Report 02-370 |year=2002 |pages=141–152 |publisher=U.S. Geological Survey |url=http://pubs.usgs.gov/of/2002/of02-370/brimhall.html}}

2006?–2010

| SAIC GeoRover

| Extension for ESRI's ArcGIS

| Ruggedized PDA or Tablet PC

| [https://web.archive.org/web/20111126225710/http://www.esri.com/industries/defense/pdfs/georover.pdf]

2003–2010

| GAFAG GeoRover (name protected in Europe)

| Mobile geological information system

| Ruggedized PDA, Tablet PC, Desktop PC, Laptop

| [https://web.archive.org/web/20110719030556/http://www.gaf.de/sites/default/files/content/portfolio_software_gaf_product/GeoRover/GeoRover_0.pdf]

2000?–2010

| BGS-SIGMAmobile [http://www.bgs.ac.uk/science/3dmodelling/sigma.html]

| Customized ArcGIS, MS Access, InfiNotes

| Ruggedized Tablet PC

| [http://www.bgs.ac.uk/science/3dmodelling/sigma.html]

{{cite conference |first=Colm |last=Jordan |title=SIGMAmobile, the British Geological Survey digital field mapping system in action |book-title=Digital Mapping Techniques '09 |date=May 10–13, 2009 |place=Morgantown, West Virginia |url=http://ngmdb.usgs.gov/Info/dmt/docs/DMT09_Jordan.pdf}}

2008–Present

| BeeGIS

| Built on top of uDig [https://web.archive.org/web/20100902041742/http://jgrass.wiki.software.bz.it/jgrass/BeeGIS]

| Tablet PC (ruggized or not), Desktop PC, Laptop (Win, Mac or Linux Systems)

| [http://www.beegis.org/]

{{cite conference |first=Mauro |last=De Donatis |title=BeeGIS: a new open source and multiplatform field GIS |book-title=Digital Mapping Techniques '09 |date=May 10–13, 2009 |place=Morgantown, West Virginia |url=https://pubs.usgs.gov/of/2010/1335/pdf/usgs_of2010-1335_DeDonatis.pdf}}

2011–Present

| FieldMove [http://www.mve.com/software/fieldmove/]

| Midland Valley's Move

| Tablet PC (ruggized or not), Desktop PC, Laptop (Windows XP or later)

{{cite web |first1=Clare |last1=Bond |first2=S. |last2=Clelland |first3=R. |last3=Butler |title=Applying Digital Mapping Techniques to Classic Geological Areas in North West Scotland and the French Alps - Aiding Structural Geology Prediction Through 3D visualisation and Model Building |website=2010 GSA Denver Annual Meeting |type=Abstract |date=31 October – 3 November 2010 |place=Denver, Colorado |url=http://gsa.confex.com/gsa/2010AM/finalprogram/abstract_179600.htm}}

??-Present

|QField

|QGIS

|Tablet or Smartphone

|https://qfield.org/

?? - Present

|Mergin Maps

|QGIS

|Tablet, Smartphone, Desktop PC, Laptop

|https://merginmaps.com/

==Software==

Since every geological mapping project covers an area with unique lithologies and complexities, and every geologist has a unique style of mapping, no software is perfect for digital geological mapping out of the box. The geologist can choose to either modify their mapping style to the available software, or modify the software to their mapping style, which may require extensive programming. {{as of|2009}}, available geological mapping software requires some degree of customization for a given geological mapping project. Some digital-mapping geologists/programmers have chosen to highly customize or extend ESRI's ArcGIS instead. At digital field data capture meetings such as at the British Geological Survey in 2002 [http://www.bgs.ac.uk/science/dfdc/abstracts.html] some organisations agreed to share development experiences, and some software systems are now available to download for free.

References

External links

Bowling Green State University [https://web.archive.org/web/20081010123828/http://personal.bgsu.edu/~conasch/Digital_Mapping/Digital_Mapping_Home.htm digital geologic mapping]
[http://www.dggs.dnr.state.ak.us/pubs/pubs?reqtype=citation&ID=17821 Digital geologic mapping program] at the [http://www.dggs.dnr.state.ak.us/ Alaska Division of Geological & Geophysical Surveys (DGGS)]
[http://ngmdb.usgs.gov/Info/dmt/ Proceedings] of Digital Mapping Techniques workshop
The System for Integrated Geoscience Mapping (SIGMA) [http://www.bgs.ac.uk/science/3dmodelling/sigma.html] within the Earth and Planetary Observation and Monitoring Team] [http://www.bgs.ac.uk/research/technologies_epo.html] of the British Geological Survey
[https://web.archive.org/web/20080828074812/http://www.geo.ku.edu/programs/tectonics/digitalmapping/mappingwebpage.html] - Digital Geologic Mapping at the University of Kansas Geology
[http://geopad.org/ Geopad Project] - Information Technology for Field Science Education and Research

Richardson Geological Consulting

[http://richardson-geoscience.com/ GIS Mapping] - GIS mapping information for mineral exploration

Category:Geologic maps

Category:Applications of geographic information systems

he:מפה גאולוגית#מפה דיגיטלית