Junichi Sugishita | University of Otago (original) (raw)

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Hawai'ian honeycreepers have undergone widespread extinction and population declines due to human... more Hawai'ian honeycreepers have undergone widespread extinction and population declines due to human disturbances, including habitat fragmentation, introduced predatory mammals, alien competitors, and introduced avian diseases. The Hawai'i 'amakihi (Hemignathus virens) is one of seven extant Hawai'ian honeycreepers that, like all other native honey-creepers, vanished from the low-elevation native forests on the island of Hawai'i due to these disturbances. But recent observations indicate that 'amakihi have begun to recolonize low-elevation forests in eastern Hawai'i. In this article we discuss the current abundance of Hawai'ian 'amakihi in a suburban habitat on the island of Hawai'i. We also examine the 'amakihi's relative preference for native or exotic vegetation. Recolonization in low-elevation habitats underscores the importance of the remaining native forests. However, concurrent with this recolonization, eastern Hawai'i is undergoing a residential building boom that has resulted in increased deforestation and forest fragmentation. Thus the future of honeycreepers is uncertain, given the widespread environmental changes taking place in eastern Hawai'i.

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Incidental fisheries bycatch is recognised as a major threat to albatross populations worldwide. ... more Incidental fisheries bycatch is recognised as a major threat to albatross populations worldwide. However, fishery discards and offal produced in large quantities might benefit some scavenging seabirds. Here, we demonstrate an integrated approach to better understand the ecological ramifications of fine-scale overlap between seabirds and fisheries. As a case study, we examined whether foraging in association with a fishing vessel is advantageous for chick provisioning in terms of quantity of food delivered to chicks, in northern royal albatross (Diomedea sanfordi) at Taiaroa Head, New Zealand. Fine-scale overlap between albatrosses and vessels was quantified by integrating GPS tracking and Vessel Monitoring Systems (VMS). Meal size delivered to chicks was measured using custom-designed nest balances, and monitoring of attendance of adults fitted with radio transmitters was used in conjunction with time-lapse photography at the nest allowed us to allocate each feeding event to a specific parent. The combination of these techniques enabled comparison of meal sizes delivered to chicks with parental foraging trip durations with or without fishing vessels association. A total of 45 foraging trips and associated chick feeding events were monitored during the chick-rearing period in 2012. Differences in the meal size and foraging trip duration relative to foraging overlap with fisheries were examined using a linear mixed-effect model, adjusted for chick age. Our results, based on three birds, suggest that foraging in association with vessels does not confer an advantage for chick feeding for this population that demonstrated low rates of overlap while foraging. The integrated research design presented can be applied to other seabird species that are susceptible to bycatch, and offers a valuable approach to evaluate habitat quality by linking habitat use and foraging success in terms of total amount of food delivered to offspring.

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Hawai'ian honeycreepers have undergone widespread extinction and population declines due to human... more Hawai'ian honeycreepers have undergone widespread extinction and population declines due to human disturbances, including habitat fragmentation, introduced predatory mammals, alien competitors, and introduced avian diseases. The Hawai'i 'amakihi (Hemignathus virens) is one of seven extant Hawai'ian honeycreepers that, like all other native honey-creepers, vanished from the low-elevation native forests on the island of Hawai'i due to these disturbances. But recent observations indicate that 'amakihi have begun to recolonize low-elevation forests in eastern Hawai'i. In this article we discuss the current abundance of Hawai'ian 'amakihi in a suburban habitat on the island of Hawai'i. We also examine the 'amakihi's relative preference for native or exotic vegetation. Recolonization in low-elevation habitats underscores the importance of the remaining native forests. However, concurrent with this recolonization, eastern Hawai'i is undergoing a residential building boom that has resulted in increased deforestation and forest fragmentation. Thus the future of honeycreepers is uncertain, given the widespread environmental changes taking place in eastern Hawai'i.

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Incidental fisheries bycatch is recognised as a major threat to albatross populations worldwide. ... more Incidental fisheries bycatch is recognised as a major threat to albatross populations worldwide. However, fishery discards and offal produced in large quantities might benefit some scavenging seabirds. Here, we demonstrate an integrated approach to better understand the ecological ramifications of fine-scale overlap between seabirds and fisheries. As a case study, we examined whether foraging in association with a fishing vessel is advantageous for chick provisioning in terms of quantity of food delivered to chicks, in northern royal albatross (Diomedea sanfordi) at Taiaroa Head, New Zealand. Fine-scale overlap between albatrosses and vessels was quantified by integrating GPS tracking and Vessel Monitoring Systems (VMS). Meal size delivered to chicks was measured using custom-designed nest balances, and monitoring of attendance of adults fitted with radio transmitters was used in conjunction with time-lapse photography at the nest allowed us to allocate each feeding event to a specific parent. The combination of these techniques enabled comparison of meal sizes delivered to chicks with parental foraging trip durations with or without fishing vessels association. A total of 45 foraging trips and associated chick feeding events were monitored during the chick-rearing period in 2012. Differences in the meal size and foraging trip duration relative to foraging overlap with fisheries were examined using a linear mixed-effect model, adjusted for chick age. Our results, based on three birds, suggest that foraging in association with vessels does not confer an advantage for chick feeding for this population that demonstrated low rates of overlap while foraging. The integrated research design presented can be applied to other seabird species that are susceptible to bycatch, and offers a valuable approach to evaluate habitat quality by linking habitat use and foraging success in terms of total amount of food delivered to offspring.

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