References
- Athens, S. 2011. Latte Period Occupation of Pagan and Sarigan, Northern Mariana Islands. Journal of Coastal and Island Archaeology, 6: 314–330. DOI: 10.1080/15564894.2011.555806
- Bedford, S, Siméoni, P and Lebot, V. 2018. The anthropogenic transformation of an island landscape: Evidence for agricultural development revealed by LiDAR on the island of Efate, Central Vanuatu, South-West Pacific. Archaeology in Oceania, 53(1): 1–14. DOI: 10.1002/arco.5137
- Bewley, RH, Crutchley, SP and Shell, CA. 2005. New light on an ancient landscape: lidar survey in the Stonehenge World Heritage Site. Antiquity, 79(305): 636–647. DOI: 10.1017/S0003598X00114577
- Burley, D and Freeland, T. 2022. Lidar, the Chiefly Sport of Pigeon Snaring, and Political Theater in the Polynesian Kingdom of Tonga. The SAA Archaeological Record, 22(3): 31–38, May 2022.
- Carson, M. 2014a. First Settlement of Remote Oceania Earliest Sites in the Mariana Islands. Springer, NY. DOI: 10.1007/978-3-319-01047-2
- Carson, M. 2014b. Paleo-Terrain Research: Finding the First Settlement Sites of Remote Oceania. Geoarchaeology, 29: 268–275. DOI: 10.1002/gea.21457
- Carson, M, Dixon, B, Peterson, J and Jalandoni, A. 2014.
Site Definitions in a Complex Archaeological Landscape: An Example at Ritidian, Guam . In: Carson, M (ed.), Guam’s Hidden Gem: Archaeological and historical studies at Ritidian, 2663: 105–111. British Archaeological Review International Series. DOI: 10.30861/9781407313054 - Chase, AF, Chase, DZ, Fisher, CT, Leisz, SJ and Weishampel, JF. 2012. Geospatial revolution and remote sensing LiDAR in Mesoamerican archaeology. Proceedings of the National Academy of Sciences, 109(32): 12916–12921. DOI: 10.1073/pnas.1205198109
- Comer, DC, Comer, JA, Dumitru, IA, Ayres, WS, Levin, MJ, Seikel, KA and Harrower, MJ. 2019. Airborne LiDAR Reveals a Vast Archaeological Landscape at the Nan Madol World Heritage Site. Remote Sensing, 11(18): 2152. DOI: 10.3390/rs11182152
- Craft, C and Byerly, D. 2019.
Final—Phase I Archaeological Inventory Survey of Lot 5010-1NEW-NEW for Guam Power Authority New Power Generator Project . Guam: Kleinfelder Inc.. - Davies, P, Turnbull, J and Lawrence, S. 2016. Remote sensing landscapes of water management on the Victorian goldfields, Australia. Journal of Archaeological Science, 76: 48–55. DOI: 10.1016/j.jas.2016.10.009
- Dixon, B, Athens, S, Welch, D, Ward, J, Mangieri, T and Rieth, T. 1999.
Archaeological Inventory Survey of the Sasa Valley and Tenjo Vista Fuel Tank Farms, Piti District, Territory of Guam, Mariana Islands . Honolulu: IARII. - Dixon, B, Bulgrin, L and Kottermair, M. 2021.
Latte Period Cultural Heritage in the Commonwealth of the Northern Mariana Islands . In: I estoria-ta Guam, the Mariana Islands and Chamorro Culture An exhibition of “Let’s turn around the world” Official Program of the Fifth Centenary of the First Round the World, pp. 37–46. Madrid: Museo Nacional de Antropologia. - Dixon, B, Gilda, L and Mangieri, T. 2012. Archaeological Identification of Stone Fish Weirs Mentioned to Freycinet in 1819 on the Island of Guam. Journal of Pacific History, 48(4): 349–368. DOI: 10.1080/00223344.2013.856666
- Dixon, B, Jalandoni, A and Kottermair, M. 2022. Traditional places in conflict and their historic context: Ritidian, Guam. Archaeological Perspectives on Conflict and Warfare in Australia and the Pacific, 54: 89–105. DOI: 10.22459/TA54.2021.05
- Dixon, B, Jones, R and Nelson, I. 2017.
Archaeological Monitoring in Support of Remedial Investigation at Orote Point (Spanish Steps) Trap and Skeet Range, Naval Base Guam . Prepared for: AECOM Technical Services, Inc. Honolulu, Hawaii, Prepared by TEC, Guam. - Dixon, B, Rudolph, T, Jones, R, Welch, D and Nelson, I. 2017.
Archaeological Data Recovery in Support of the J-011B Utilities and Site Improvements at Naval Base Guam Telecommunications Site, Guam . Cardno, Guam. - Dixon, B, Schaefer, R and McCurdy, T. 2010. Traditional Farming Innovations during the Spanish and Philippine Contact Period on Northern Guam. Philippine Quarterly of Culture & Society, 38(4): 291–321.
- Dixon, B, Walker, S, Schaefer, R, Whippy, J and Walker, C. 2010.
Archaeological Investigations Conducted in the Territory of Guam Supporting the Joint Guam Build-up Environmental Impact Statement: Threshold Report No. 3 . Prepared for Department of the Navy Naval Facilities Engineering Command, Pacific Pearl Harbor, Hawai‘i. Prepared by TEC, Guam. - Driver, M and Brunal-Perry, O. 1994. Architectural Sketches of the Spanish Era Forts of Guam from the Holdings of the Servicio Historico Militar, Madrid. MARC, Mangilao, Guam.
- Evans, D and Fletcher, R. 2015. The landscape of Angkor Wat redefined. Antiquity, 89(348): 1402–1419. DOI: 10.15184/aqy.2015.157
- Fox, A. 2020. Amateur Archaeologists Studying Aerial Maps of the U.K. Spot Dozens of Hidden Historical Structures. Smithsonian Magazine. Available at
https://www.smithsonianmag.com/smart-news/amateur-archaeologists-make-discoveries-during-lockdown-180974886/ Last accessed 25 May 2020 - Freeland, T, Brandon, H, Burley, DV, Clark, G and Knudby, A. 2016. Automated Feature Extraction for Prospection and Analysis of Monumental Earthworks from Aerial LiDAR in the Kingdom of Tonga. Journal of Archaeological Science, 69: 64–74. DOI: 10.1016/j.jas.2016.04.011
- Freycinet, LC. 1825. Voyage autor du monde par ordre du Roi, sur les corvettes de sa Majesté l’Uranie et La Physicienne, pendant les années 1817–1820. Paris: Chez Pillet Aîné, Imprimeur-libraire, 1. DOI: 10.5962/bhl.title.15862
- Gilmore, K, Leclerc, E, Hille, P, Kurashina, H and Carucci, J. 2018. “Illuminating the Obscure: Using Legacy LiDAR Data to Define and Interpret a WWII Airfield on the Island of Tinian, Commonwealth of the Northern Mariana Islands (CNMI).” Society for American Archaeology Conference Presentation in Washington DC,
11–15 April 2018 . DOI: 10.13140/RG.2.2.13407.10406 - Gosser, D, Dixon, B, Gilda, L and Torres, T. 2004.
Cultural Resources Survey and Limited Subsurface Excavations at Naval Ordnance Annex and Waterfront Annex, Territory of Guam . AMEC/Ogden Environmental and Energy Services Co., Inc., Honolulu. - Highness, D and Leap, L. 1992.
Archaeological Inventory Survey Sigua Community Development Yona Municipality Territory of Guam . Prepared by PRHI, Guam. - Jalandoni, A. 2011a.
Casa real or not real? A Jesuit mission house in Guam . Unpublished Master Thesis from the University of the Philippines. Manuscript on file, Micronesian Area Research Center, University of Guam, Mangilao. - Jalandoni, A. 2011b. The Casa Real site in Ritidian, northern Guam: A historical context. Philippine Quarterly of Culture and Society, 39(1): 27–53.
- Jalandoni, A and May, SK. 2020. How 3D models (photogrammetry) of rock art can improve recording veracity: a case study from Kakadu National Park, Australia. Australian Archaeology, 86(2): 137–146. DOI: 10.1080/03122417.2020.1769005
- Jalandoni, A, Zhang, Y and Zaidi, NA. 2022. On the use of Machine Learning methods in rock art research with application to automatic painted rock art identification. Journal of Archaeological Science, 144:
105629 . DOI: 10.1016/j.jas.2022.105629 - Kaur, A. 2020. Senator calls for halt to buildup construction after three more burials disturbed. Pacific Daily News. 22 July. Available at
https://www.Guampdn.com/story/news/2020/07/22/senator-calls-stop-buildup-construction-after-3-burials-disturbed/5484267002/ [Last accessed 22 July 2020]. - Lozić, E and Štular, B. 2021. Documentation of archaeology-specific workflow for airborne LiDAR data processing. Geosciences, 11(1): 26. DOI: 10.3390/geosciences11010026
- Madrid, C. 2014.
Vigía: The Network of Lookout Points in Spanish Guam . Pacific Asia Inquiry, Volume 5, Number 1, Fall 2014. Mangilao, Guam: Richard Flores Taitano Micronesian Area Research Center. - Montón-Subías, S and Dixon, B. 2021. Margins are central: identity and indigenous resistance to colonial globalization in Guam. World Archaeology, 53(3): 419–434. DOI: 10.1080/00438243.2021.1999851
- Morgan, W. 1988. Prehistoric Architecture in Micronesia. Austin, Texas: University of Texas Press. DOI: 10.7560/765061
- National Oceanic and Atmospheric Administration (NOAA). 2021. 2020 NOAA NGS Topobathy Lidar: Guam. Digital Coast Data Access Viewer. Charleston, SC: NOAA Office for Coastal Management. Available at
https://coast.noaa.gov/dataviewer . [Last accessed Jul 19, 2021]. - Parton, P, Clark, G, Reepmeyer, C and Burley, D. 2018. The field of war: Lidar identification of earthwork defences on Tongatapu Island, Kingdom of Tonga. Journal of Pacific Archaeology, 9(1): 11–24.
- Pacific National Historic Park Guam. July 1992. Fifth Naval Construction Brigade Area Allocations Map, 1945, No. 99.
- Pingel, TJ, Clarke, K and Ford, A. 2015. Bonemapping: A LiDAR processing and visualization technique in support of archaeology under the canopy. Cartography and Geographic Information Science, 42(sup1): 18–26. DOI: 10.1080/15230406.2015.1059171
- Quintus, S, Day, SS and Smith, NJ. 2017. The efficacy and analytical importance of manual feature extraction using lidar datasets. Advances in Archaeological Practice, 5(4): 351–364. DOI: 10.1017/aap.2017.13
- Russell, S. 1998. Tiempon I Manmofo`ona: Ancient Chamorro Culture and History of the Northern Mariana Islands. Micronesian Archaeological Survey Report 32, Saipan: CNMI Division of Historic Preservation.
- Štular, B, Kokalj, Ž, Oštir, K and Nuninger, L. 2012. Visualization of lidar-derived relief models for detection of archaeological features. Journal of archaeological science, 39(11): 3354–3360. DOI: 10.1016/j.jas.2012.05.029
- Taitano, KM and Liston, J. 2021.
Latte in the Marianas by the community for the community . Published by The Latte in the Marianas: Art, Icon, and Archaeology Project, Guam. - Tomonari-Tuggle, M, Rieth, T, Tuggle, D, Bell, M and Knecht, D. 2018.
A synthesis of archaeological inventory and evaluation efforts on the island of Guam . Volume II: AD 1521–1950. Prepared by International Archaeology LLC, Honolulu. - U.S. Navy. 2017.
High-resolution ortho-corrected aerial imagery of Guam . Collected by Hawai’i Resource Mapping. Hawai’i: Hawai’i International Environmental Services, Inc., 2016–2017. - Yokoyama, R, Shirasawa, M and Pike, RJ. 2002. Visualizing topography by openness: A new application of image processing to digital elevation models. Photogrammetric engineering and remote sensing, 68(3): 257–266.