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A cocktail of land-based sources of pollution threatens coral reef ecosystems, and addressing these has become a key management and policy challenge in the State of Hawaii, other US territories, and globally. In West Maui, Hawai'i, nearly one quarter of all living corals were lost between 1995 and 2008. Onsite disposal systems (OSDS) for sewage leak contaminants into drinking water sources and nearshore waters. In recognition of this risk, the Hawaii State Department of Health (DOH) is prioritizing areas for cesspool upgrades. Independently, we applied a decision analysis process to identify priority areas to address sewage pollution from OSDS in West Maui, with the objective of reducing nearshore coral reef exposure...
Reducing coral reef vulnerability to climate change requires that managers understand and support the natural resilience of coral reefs. We define coral reef resilience as: the capacity of a reef to resist and/or recover from disturbance given its probable exposure regime, and maintain provision of ecosystem goods and services. Spatial variation in exposure to disturbance and the resilience of reefs in the face of those disturbances will determine the fate of coral reefs within management jurisdictions. This project sought to: (1) undertake ecological resilience assessments in the Commonwealth of the Northern Mariana Islands (CNMI), which is in the west Pacific near Guam, and (2) collaboratively develop a decision-support...
This Project Snapshot provides a brief overview of the project "Coral reef resilience to climate change in the Commonwealth of the Northern Mariana Islands".
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Coral ecosystems of West Maui support a vibrant tourism industry and provide tangible economic benefits to the community. Hawaiian nearshore reefs generate about $800 million in annual revenue, not including the ecosystem services they provide - such as critical habitat for diverse fish species and buffering coasts from storm surges. The Hawaiian economy depends on healthy coral ecosystems, yet reefs are currently facing multiple threats, including changing climate conditions, local land-based pollution, and sediment erosion. Erosion of soils into nearshore coastal zones is a chief concern facing land managers in West Maui. Intermittent rainfall can carry sediment from sources such as dirt roads, agricultural fields,...
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Ecosystems such as coral reefs and mangroves provide an effective first line of defense against coastal hazards and represent a promising nature-based solution to adapt to sea-level rise. In many areas, coral reefs cause waves to break and lose energy, allowing for sediment to accumulate on the inshore portion of reef flats (i.e. the shallowest, flattest part of a reef) and mangroves to establish. Mangroves cause further attenuation (i.e. energy loss) waves and storm surge as water moves through roots and trunks of the trees. Together, these ecosystems provide valuable protection from coastal flooding, but is unclear how this protection may be affected by sea-level rise. An assessment of future sea-level rise vulnerability...
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The conditions of coral reefs in the Hawaiian Islands are predicted to decline significantly from climate change over the next 100 years. To better prepare for the impacts of climate change on Hawaiian reefs, the research team uses a system of models to simulate ocean waves and circulation, rainfall and storm run-off, and coral reef community dynamics through the year 2100. These models will identify reef areas that are either vulnerable or resilient to the many stressors that the future may hold for reefs. The team’s hope is that this work can identify areas that might benefit from management actions to minimize local stressors such as land-based pollution. Through a collaborative partnership with state and federal...
Abstract: To design effective marine reserves and support fisheries, more information on fishing patterns and impacts for targeted species is needed, as well as better understanding of their key habitats. However, fishing impacts vary geographically and are difficult to disentangle from other factors that influence targeted fish distributions. We developed a set of fishing effort and habitat layers at high resolution and employed machine learning techniques to create regional‐scale seascape models and predictive maps of biomass and body length of targeted reef fishes for the main Hawaiian Islands. Spatial patterns of fishing effort were shown to be highly variable and seascape models indicated a low threshold beyond...
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ArcGIS layer package of relative classifications (low to high) for six resilience indicators and two anthropogenic stressors and a map of final relative resilience scores for 78 sites in the Commonwealth of the Northern Mariana Islands. The six resilience indicators are: bleaching resistance, coral diversity, coral recruitment, herbivore biomass, macroalgae cover and temperature variability. The two anthropogenic stressors are fishing access and nutrients and sediments. The resilience score map compares sites across all four of the surveyed islands: Saipan, Tinian, Aguijan, and Rota.
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This project was designed to use climate models to produce projections of changes in sea temperatures and ocean chemistry for coastal marine areas in Micronesia as well as reports that describe the outlook of culturally important marine sites in Guam and CNMI. The projections and maps were expected show what the current state of climate science suggests the future holds for marine areas in Micronesia if we continue to use fossil fuels aggressively. These projections of sea conditions will become the foundation of outlook reports for Tumon Bay in Guam, Lao Lao Bay and Saipan Lagoon in Saipan, and northern Tinian Island. The selected areas are among the most important sites for recreation in Guam and CNMI and, as...
This webinar was conducted on April 16, 2015. Reducing coral reef vulnerability to climate change requires that managers understand and support the natural resilience of coral reefs. To assist these managers, a team of researchers, supported by the Pacific Islands Climate Science Center (PI CSC) undertook a project to: 1) assess ecological resilience in the Commonwealth of the Northern Mariana Islands (CNMI), which is in the west Pacific near Guam, and 2) collaboratively develop a decision-support framework with local management partners for resilience-based management. The team used an approach that included surveys of 78 sites along reefs surrounding the most populated islands in CNMI (Saipan, Tinian/Aguijan,...
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Coral reefs provide numerous ecosystem goods and services critical to human well-being (e.g., protection from storms and floods, food, income, recreation, and cultural practices), but they are threatened by growing human pressures and climate change. Resource managers must make complex decisions when developing adaptation plans that are cost-effective and maintain coral reef functions while still allowing for human use and development. Through this project, scientists developed a decision-support tool for managers to (1) identify the areas that provide the most critical coral reef services (i.e., supply the most value to humans) as well as the areas of reef most threatened, and (2) compare the effects of reef management...
Abstract (from PLOS One): Declining natural resources have led to a cultural renaissance across the Pacific that seeks to revive customary ridge-to-reef management approaches to protect freshwater and restore abundant coral reef fisheries. Effective ridge-to-reef management requires improved understanding of land-sea linkages and decision-support tools to simultaneously evaluate the effects of terrestrial and marine drivers on coral reefs, mediated by anthropogenic activities. Although a few applications have linked the effects of land cover to coral reefs, these are too coarse in resolution to inform watershed-scale management for Pacific Islands. To address this gap, we developed a novel linked land-sea modeling...
Episodic runoff carries suspended sediment to the nearshore, where it blocks light used for photosynthesis, smothers corals, inhibits coral recruitment, and triggers increases in macroalgae. Even small rainfalls create visible plumes over a few hours. Sediment affects coastal user enjoyment by deteriorating both ecosystem quality and visibility. Sources of erosion include unimproved roads, fallow and active agricultural fields, disturbed forests, local development, and streambanks. In this project, USGS used mapping, field experiments and monitoring, and analysis of recent (July 19–20, 2014) and historic rainfall to estimate sources of land-based pollution for watersheds in West Maui, Hawaii. USGS constructed an...
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Maps of relative classifications (low to high) for six resilience indicators and two anthropogenic stressors and a map of final relative resilience scores for 78 sites in the Commonwealth of the Northern Mariana Islands. The six resilience indicators are: bleaching resistance, coral diversity, coral recruitment, herbivore biomass, macroalgae cover and temperature variability. The two anthropogenic stressors are fishing access and nutrients and sediments. The resilience score map compares sites across all four of the surveyed islands: Saipan, Tinian, Aguijan, and Rota.
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Pacific Island societies value, depend on, and actively manage terrestrial and marine ecosystems for the multiple benefits they provide, including those associated with plant and animal abundance, resilience to natural disasters, and the flow of water, soil, and nutrients. New ecosystem service models developed for Pacific Island landscapes now integrate land-to-sea connections, allowing us to assess how land-based management actions and threats (e.g. changes to climate and land cover) affect ecosystem benefits, from ridge to reef. Affecting actual change on the ground, however, depends on how scientific information is accessed and used by managers and other decision makers who have the capacity to influence ecosystem...
This Project Snapshot provides an overview of the project "Valuing Climate Change Impacts on Coral Reef Ecosystem Services".
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Episodic runoff carries suspended sediment to the nearshore environment, where it blocks light used for photosynthesis, smothers corals, inhibits coral recruitment, and triggers increases in macroalgae. Even small rainfalls create visible plumes over a few hours. Sediment affects coastal user enjoyment by deteriorating both ecosystem quality and visibility. Sources of erosion include unimproved roads, fallow and active agricultural fields, disturbed forests, local development, and streambanks. This is the primary output dataset from this project, which mapped bank erosion hotspots, constructed a reconnaissance sediment budget for the West Maui watersheds, and constructed a calibrated decision-support model capable...
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Coral reefs are sometimes called “rainforests of the sea” because of their immense biological diversity and economic value. While coral reefs are sensitive to changes in their environment such as altered temperature or pollution, some reefs are more resilient, or able to recover from disturbance more quickly, than others. The overarching objective of this project was to gather information on coral reef resilience and vulnerability to climate change that could inform coastal management decision-making in the Commonwealth of the Northern Mariana Islands (CNMI). Scientists collaborated with local managers to survey reefs at 78 locations throughout the CMNI and evaluate indicators of resilience, such as numbers of juvenile...
Coral reefs provide numerous ecosystem goods and services critical to human well-being (e.g., protection from storms and floods, food, income, recreation, and cultural practices), but those ecosystems are under serious threat due to growing human pressures, including overfishing, land-based pollution, and global climate change. Managers facing complex problems require decision-support tools that can guide costeffective action across the entire watershed, from ridge to reef. This project built a pilot tool for coral reef management that can map, assess, and value key goods and services from the reef environment. It provides important information to managers on the areas supplying the most value to humans, as well...
Abstract (from http://www.nrcresearchpress.com/doi/abs/10.1139/cjfas-2016-0200#.WhM1YdenGUk): We demonstrated a possible future wherein coral reefs shift to an algae-dominated state that retains low coral cover and a functional biomass of herbivorous fishes that sustains a reef fish fishery. We evaluate the effect of no-take marine protected areas (MPAs) and increased coastal nutrients under two Intergovernmental Panel on Climate Change climate scenarios for years 2000–2100, which are implemented as coral bleaching events. Coral mortality from bleaching events drove a lagged increase in herbivorous fish populations via a shift from coral-dominated to algae-dominated habitats. Biomass and catch of piscivorous fish...
map background search result map search result map Projections of Future Coral Reef Communities in DOI-Managed Coastal Areas in the Hawaiian Islands Coral Reef Resilience to Climate Change in the Commonwealth of the Northern Mariana Islands Valuing Climate Change Impacts on Coral Reef Ecosystem Services Coral Reef Resilience to Climate Change in CNMI results Resilience Indicator Summaries and Resilience Scores CNMI Excel database Assessing the Sustainability of Culturally Important Marine Sites in Guam and CNMI Understanding Sediment Transport to Coastal Waters and Coral Reefs in West Maui Data for Mapping and Environmental Science to Support Clean Reefs of West Maui, Hawai'i Linking Models to Outcomes – How do Hawaiʻi Stakeholders Use and Contribute to Land-to-Sea Ecosystem Service Analyses The Impact of Sea-Level Rise on Coral Reef and Mangrove Interactions and the Resulting Coastal Flooding Hazards Understanding Sediment Transport to Coastal Waters and Coral Reefs in West Maui Coral Reef Resilience to Climate Change in CNMI results Resilience Indicator Summaries and Resilience Scores CNMI Excel database The Impact of Sea-Level Rise on Coral Reef and Mangrove Interactions and the Resulting Coastal Flooding Hazards Assessing the Sustainability of Culturally Important Marine Sites in Guam and CNMI Projections of Future Coral Reef Communities in DOI-Managed Coastal Areas in the Hawaiian Islands Linking Models to Outcomes – How do Hawaiʻi Stakeholders Use and Contribute to Land-to-Sea Ecosystem Service Analyses