Community-Based Monitoring for Rapid Assessment of Nearshore Coral Reefs Amid Disturbances in Teahupo’o, Tahiti

John H.R. Burns; Kailey H. Pascoe; Haunani H. Kane; Joseph W.P. Nakoa; Makoa Pascoe; Sophia R. Pierucci; Riley E. Sokol; Krista A. Golgotiu; Manuela Cortes; Aralyn Hacker; Lorenzo Villela; Brianna K. Ninomoto; Kainalu Steward; Cindy Otcenasek; Clifford Kapono

doi:10.3390/rs16050853

Community-Based Monitoring for Rapid Assessment of Nearshore Coral Reefs Amid Disturbances in Teahupo’o, Tahiti

John H.R. Burns, Kailey H. Pascoe, Haunani H. Kane, Joseph W.P. Nakoa, Makoa Pascoe, Sophia R. Pierucci, Riley E. Sokol, Krista A. Golgotiu, Manuela Cortes, Aralyn Hacker, Lorenzo Villela, Brianna K. Ninomoto, Kainalu Steward, Cindy Otcenasek, Clifford Kapono

Research output: Contribution to journal › Article › peer-review

Abstract

Nearshore coral reefs at Teahupo’o, Tahiti, are currently threatened by destruction from proposed plans to build a new judging tower in the reef lagoon for the 2024 Olympic surfing event. Local community members were trained to utilize 3D photogrammetry techniques to create high-resolution habitat maps of three sites that will be impacted by dredging and tower construction. The resulting orthomosaics were analyzed to quantify and characterize the coral community structure at each study site. Species diversity, coral colony count, coral colony size, and percent cover of live coral and living benthos were extracted from all survey plots. The resulting data show these sites support healthy and diverse coral communities that contribute to the ecological function of the larger reef system at Teahupo’o. The Hawai’i State Division of Aquatic Resources Penalty Matrix was used to estimate the USD value of the live corals and algae identified among the study sites and the total area that will be impacted by the planned development project. This study highlights the utility of 3D photogrammetry for effective citizen science as well as the large economic and ecological impacts that may occur if this proposed construction occurs.

Original language	English (US)
Article number	853
Journal	Remote Sensing
Volume	16
Issue number	5
DOIs	https://doi.org/10.3390/rs16050853
State	Published - Mar 2024

Keywords

citizen science
community-based research
coral reefs
corals
nearshore development
photogrammetry
remote sensing

ASJC Scopus subject areas

General Earth and Planetary Sciences

Access to Document

10.3390/rs16050853

Cite this

Burns, J. H. R., Pascoe, K. H., Kane, H. H., Nakoa, J. W. P., Pascoe, M., Pierucci, S. R., Sokol, R. E., Golgotiu, K. A., Cortes, M., Hacker, A., Villela, L., Ninomoto, B. K., Steward, K., Otcenasek, C., & Kapono, C. (2024). Community-Based Monitoring for Rapid Assessment of Nearshore Coral Reefs Amid Disturbances in Teahupo’o, Tahiti. Remote Sensing, 16(5), Article 853. https://doi.org/10.3390/rs16050853

Burns, JHR, Pascoe, KH, Kane, HH, Nakoa, JWP, Pascoe, M, Pierucci, SR, Sokol, RE, Golgotiu, KA, Cortes, M, Hacker, A, Villela, L, Ninomoto, BK, Steward, K, Otcenasek, C & Kapono, C 2024, 'Community-Based Monitoring for Rapid Assessment of Nearshore Coral Reefs Amid Disturbances in Teahupo’o, Tahiti', Remote Sensing, vol. 16, no. 5, 853. https://doi.org/10.3390/rs16050853

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abstract = "Nearshore coral reefs at Teahupo{\textquoteright}o, Tahiti, are currently threatened by destruction from proposed plans to build a new judging tower in the reef lagoon for the 2024 Olympic surfing event. Local community members were trained to utilize 3D photogrammetry techniques to create high-resolution habitat maps of three sites that will be impacted by dredging and tower construction. The resulting orthomosaics were analyzed to quantify and characterize the coral community structure at each study site. Species diversity, coral colony count, coral colony size, and percent cover of live coral and living benthos were extracted from all survey plots. The resulting data show these sites support healthy and diverse coral communities that contribute to the ecological function of the larger reef system at Teahupo{\textquoteright}o. The Hawai{\textquoteright}i State Division of Aquatic Resources Penalty Matrix was used to estimate the USD value of the live corals and algae identified among the study sites and the total area that will be impacted by the planned development project. This study highlights the utility of 3D photogrammetry for effective citizen science as well as the large economic and ecological impacts that may occur if this proposed construction occurs.",

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AU - Pascoe, Kailey H.

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AU - Nakoa, Joseph W.P.

AU - Pascoe, Makoa

AU - Pierucci, Sophia R.

AU - Sokol, Riley E.

AU - Golgotiu, Krista A.

AU - Cortes, Manuela

AU - Hacker, Aralyn

AU - Villela, Lorenzo

AU - Ninomoto, Brianna K.

AU - Steward, Kainalu

AU - Otcenasek, Cindy

AU - Kapono, Clifford

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AB - Nearshore coral reefs at Teahupo’o, Tahiti, are currently threatened by destruction from proposed plans to build a new judging tower in the reef lagoon for the 2024 Olympic surfing event. Local community members were trained to utilize 3D photogrammetry techniques to create high-resolution habitat maps of three sites that will be impacted by dredging and tower construction. The resulting orthomosaics were analyzed to quantify and characterize the coral community structure at each study site. Species diversity, coral colony count, coral colony size, and percent cover of live coral and living benthos were extracted from all survey plots. The resulting data show these sites support healthy and diverse coral communities that contribute to the ecological function of the larger reef system at Teahupo’o. The Hawai’i State Division of Aquatic Resources Penalty Matrix was used to estimate the USD value of the live corals and algae identified among the study sites and the total area that will be impacted by the planned development project. This study highlights the utility of 3D photogrammetry for effective citizen science as well as the large economic and ecological impacts that may occur if this proposed construction occurs.

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KW - nearshore development

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Community-Based Monitoring for Rapid Assessment of Nearshore Coral Reefs Amid Disturbances in Teahupo’o, Tahiti

Abstract

Keywords

ASJC Scopus subject areas

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