Litcius/Paper detail

The role of indigenous practices in expanding waterbird habitat in the face of rising seas

Kristen Harmon, Kāwika B. Winter, Natalie Kurashima, Charles H. Fletcher, Haunani H. Kane, Melissa R. Price

2021Anthropocene23 citationsDOIOpen Access PDF

Abstract

In Hawai‘i, as is the case globally, sea level rise threatens the availability of suitable habitat for waterbirds and other coastal species. This study examines Hawaiian wetland agro-ecosystems (loʻi) as social-ecological systems that may meet human needs while expanding nesting habitat of endangered waterbirds, if restored under an Indigenous Resource Management paradigm. We applied spatial analysis to project: (1) the area of existing waterbird habitat likely lost to sea level rise by the end of the century (2100); and (2) the area of waterbird habitat potentially gained through restoration of lo‘i systems. Results show that, if loʻi offer similar or equivalent habitat value to Hawaiian waterbirds as conventionally managed wetlands, the restoration of loʻi would not only compensate for projected losses of wetland habitat due to sea level rise, but substantially contribute toward the recovery of endangered waterbirds that are currently habitat-limited. This study demonstrates capacity for contemporary Indigenous land management to address conservation and food-security needs in the Hawaiian Islands, as well as challenges of multi-objective land use and habitat restoration for endangered wetland-dependent fauna. This research further contributes toward a growing number of studies suggesting that Indigenous practices based on social-ecological frameworks offer potential to achieve sustainability and biodiversity goals simultaneously.

Topics & Concepts

HabitatEndangered speciesWetlandGeographyIndigenousEcologyHabitat conservationBiodiversityRestoration ecologyHabitat destructionCritical habitatFisheryEnvironmental resource managementEnvironmental scienceBiologyWildlife Ecology and ConservationClimate Change, Adaptation, MigrationSpecies Distribution and Climate Change