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Ph.D. Hinojosa-Toledo, Ivan
Research Outputs
Resting dynamics and diel activity of the green turtle (Chelonia mydas) in Rapa Nui, Chile
2020, Ph.D. Hinojosa-Toledo, Ivan, Petit, Ignacio, González, Camila, Gusmao, Joao, Álvarez-Varas, Rocío
Understanding animals' daily activity patterns such as foraging and resting is key to the effective conservation of individuals, populations, and species. Expanding habitat usage by humans today is likely one of the major factors influencing animal habitat use and behavior. Rapa Nui, a remote Chilean island located at the easternmost corner of the Polynesian Triangle, hosts a population of green turtles, Chelonia mydas, that have been monitored by citizen scientists since 2010. Through the collaborative work of divers from the local community and professional scientists, we describe C. mydas daily underwater resting and foraging patterns in Rapa Nui. We identified 15 individuals by monitoring 19 specific resting locations within the Rapa Nui coral reef. A high level of spatial fidelity for specific resting sites was observed in 12 turtles that used the same location for as long as 5 yrs. Moreover, we observed a clear temporal pattern in the daily use of resting habitats, with 79% of resting activity occurring during low tide. In contrast, the daily peak in feeding activity was associated with high tides. Abiotic characteristics (depth and cardinal orientation) of resting sites did not show significant relationships. The information from this study will inform management of the Rapa Nui Multiple Uses Coastal Marine Protected Area to increase the protection of marine turtles residing at this isolated Pacific Island.
Spatio-temporal variation of anthropogenic marine debris on Chilean beaches
2018, Hidalgo-Ruz, Valeria, Honorato-Zimmer, Daniela, Gatta-Rosemary, Magdalena, Nuñez, Paloma, Hinojosa-Toledo, Ivan, Thiel, Martin
We examined the hypothesis that in an emerging economy such as Chile the abundances of Anthropogenic Marine Debris (AMD) on beaches are increasing over time. The citizen science program Científicos de la Basura (“Litter Scientists”) conducted three national surveys (2008, 2012 and 2016) to determine AMD composition, abundance, spatial patterns and temporal trends. AMD was found on all beaches along the entire Chilean coast. Highest percentages of AMD in all surveys were plastics and cigarette butts, which can be attributed to local sources (i.e. beach users). The Antofagasta region in northern Chile had the highest abundance of AMD compared with all other zones. Higher abundances of AMD were found at the upper stations from almost all zones. No significant tendency of increasing or decreasing AMD densities was observed during the 8 years covered by our study, which suggests that economic development alone cannot explain temporal trends in AMD densities.
Inter-hemispherical shoreline surveys of anthropogenic marine debris - A binational citizen science project with schoolchildren
2019, Honorato Zimmer, Daniela, Kruse, Katrin, Knickmeier, Katrin, Weinmann, Anna, Hinojosa-Toledo, Ivan, Thiel, Martin
Anthropogenic marine debris (AMD) is a global problem and the identification of its sources is essential for adequate mitigation strategies. Herein we examined whether AMD density and composition differed between two countries with contrasting socio-economic backgrounds and marine litter sources (i.e. Chile and Germany). In nationwide beach litter surveys, we used a citizen science approach with schoolchildren and their teachers. Litter densities were substantially higher in Chile than in Germany. The different geographic zones surveyed in both countries showed strong grouping tendencies according to their main economic activities (tourism, shipping, fisheries/aquaculture), major litter sources, and AMD composition, in terms of dominance and diversity of AMD types. The results suggest that beach litter composition can be used as a simple proxy to identify AMD sources, and also that law enforcement and education can help mitigate the problem; however, for efficient solutions, production and consumption of plastics must be reduced.
Establishing the ecological basis for conservation of shallow marine life using Reef Life Survey
2020, Ph.D. Hinojosa-Toledo, Ivan, Edgar, Graham, Cooper, Antonia, Baker, Susan, Barker, William, Barrett, Neville, Becerro, Mikel, Bates, Amanda, Brock, Danny, Ceccarelli, Daniela, Clausius, Ella, Davey, Marlene, Davis, Tom, Day, Paul, Green, Andrew, Griffiths, Samuel, Hicks, Jamie, Jones, Ben, Kininmonth, Stuart, Larkin, Meryl, Lazzari, Natali, Lefcheck, Jonathan, Ling, Scott, Mooney, Peter, Oh, Elizabeth, Pérez-Matus, Alejandro, Pocklington, Jacqueline, Riera, Rodrigo, Sanabria-Fernandez, Jose, Seroussi, Yanir, Shaw, Ian, Shields, Derek, Shields, Joe, Smith, Margo, Soler, German, Stuart-Smith, Jemina, Turnbull, John, Stuart-Smith, Rick
Reef Life Survey (RLS) provides a new model for ecological monitoring through training experienced recreational divers in underwater visual census methods to the level of skilled scientists. Detail produced is similar to that of programs with professional scientific teams, at low cost to allow global coverage. RLS differs from most other citizen science initiatives in its emphasis on rigorous training and data quality rather than open participation, selectively involving the most skilled and committed members. Volunteers participate primarily because they appreciate the close relationship with scientists, other divers, and managers, and see their efforts directly contributing to improved environmental outcomes. RLS works closely with Australian management agencies, scheduling annual events at core monitoring sites associated with 10 inshore marine protected areas Australia wide. Surveys of 12 offshore Australian Marine Parks (AMPs) are realized through 2–4 week voyages in a sailing catamaran crewed by volunteers. Across the AMP network, RLS surveys have quantified densities of fishes, mobile invertebrates, macroalgae and corals at 350 shallow coral reef sites (180 sites surveyed on two or more occasions), providing an understanding of (i) population changes amongst threatened species including sea snakes, (ii) responses of fish and invertebrate populations following fisheries closures, (iii) ecosystem-wide impacts of marine heat-waves, and (iv) the extent that AMPs spanning the network comprehensively encompass national coral reef biodiversity. This scientist/volunteer/manager collaboration could be greatly expanded globally (presently 3537 sites in 53 countries).