This report documents the UH monitoring network which provides hydrologic parameters, such as precipitation, streamflow, and aquifer response, in small island developing communities like Tutuila, American Samoa, where water resources are limited. It highlights the collaborative efforts between the University of Hawaii's Water Resources Research Center and the American Samoa Power Authority to establish a new monitoring network for weather, stream gauging, and aquifer data, providing essential information for sustainable water resource management and various applications
This report focuses on addressing the critical challenges of sustainable water resources management on Tutuila, the main island in the Territory of American Samoa. It presents an updated conceptual hydrogeological model of the island's groundwater and surface water resources by integrating existing hydrological information with recently acquired subsurface datasets, shedding light on the complex nature of Tutuila's hydrogeology, which varies significantly across different locations on the island.
This report focuses on addressing the critical challenges of sustainable water resources management on Tutuila, the main island in the Territory of American Samoa. It presents an updated conceptual hydrogeological model of the island's groundwater and surface water resources by integrating existing hydrological information with recently acquired subsurface datasets, shedding light on the complex nature of Tutuila's hydrogeology, which varies significantly across different locations on the island.
This report documents the UH monitoring network which provides hydrologic parameters, such as precipitation, stream flow, and aquifer response, in small island developing communities like Tutuila, American Samoa, where water resources are limited. It highlights the collaborative efforts between the University of Hawaii's Water Resources Research Center and the American Samoa Power Authority to establish a new monitoring network for weather, stream gauging, and aquifer data, providing essential information for sustainable water resource management and various applications
Soil Survey and analysis by Hawaii State Office, Soil Conservation Service, US Department of Agriculture, Honolulu, Hawaii. The field survey was completed in November 1981.
The Integrated Feasibility Report and Environmental Assessment (IFR/EA) is a study led by the Honolulu District of the Pacific Ocean Division of USACE, with the American Samoa Government as the non-Federal sponsor. It focuses on addressing flood risk in the Tafuna-Leone Plain of Tutuila Island, which is densely populated and vulnerable to frequent flooding due to heavy rainfall, shallow stream channels, and various development-related factors.
This report focuses on addressing the critical challenges of sustainable water resources management on Tutuila, the main island in the Territory of American Samoa. It presents an updated conceptual hydrogeological model of the island's groundwater and surface water resources by integrating existing hydrological information with recently acquired subsurface datasets, shedding light on the complex nature of Tutuila's hydrogeology, which varies significantly across different locations on the island.
This paper presents over 100 radiocarbon dating results for Tutuila and Manu'a in American Samoa, contributing to various aspects of Samoan archaeology.
This report presents findings from the analysis of radiocarbon dates and volcanic stratigraphy in the Leone Volcanics region of Tutuila Island, American Samoa, shedding light on the timing and spatial distribution of late-Holocene volcanic events. Key insights include identifying a distinct reddish ash stratum dating to approximately AD 650-750 as the most recent eruptive event, along with observations on the source and sequence of ash deposits, suggesting multiple eruptive events from both seaward and inland craters, potentially continuing as recently as AD 1300.
Pacific Island Developing Countries (PIDCs) contribute a minuscule 0.03 percent to global carbon dioxide emissions, with residents producing only a quarter of the world's average emissions per person. However, despite their minimal emissions, these nations are expected to face some of the earliest and harshest consequences of climate change, with a particular focus on its impact on freshwater resources. This chapter delves into the potential threats posed by climate change to the already stressed freshwater supplies in PIDCs.
In response to climate change impacts like rising sea levels, efforts are being made in the Pacific Islands region to assess and adapt to the effects on mangroves. This includes improving management practices, reducing stress on mangroves, and integrating climate data into land-use planning to minimize risks to coastal ecosystems and human safety.
Following the 2009 Samoa-Tonga earthquake, the Samoan islands, including Savai'i, Upolu, and Tutuila, have experienced accelerated sea-level rise, driven by subsidence and gravity changes, with American Samoa witnessing a 5 times faster rate than the global average. A viscoelastic model predicts a continued sea-level rise of 30-40 cm, intensifying coastal flooding.
This chapter explores the complex interactions within the climate system, emphasizing the significance of understanding climate's physical and social impacts at various scales. It underscores the importance of assessing vulnerability to climate conditions, focusing on sensitivity, exposure, and resilience, especially in Pacific Island communities facing climate-related challenges.
This chapter discusses advances in climate change impact, adaptation, and vulnerability assessment methods, emphasizing the growing use of risk management frameworks, stakeholder involvement, and diverse scenario approaches. These developments aim to provide policy-relevant information for effective decision-making in the face of climate change, recognizing the importance of considering non-climate factors and regional-scale scenarios.
The U.S. Geological Survey (USGS) has developed regression equations for estimating flood-peak discharges, essential for designing infrastructure and managing flood plains. This Fact Sheet focuses on the application of the updated National Flood-Frequency (NFF) Program to rural areas on the island of Tutuila, American Samoa, while noting that new equations have been developed for various regions across the United States.
This report, part of the Pacific Islands Regional Climate Assessment (PIRCA), discusses climate change indicators and their impacts on key sectors in American Samoa. PIRCA, a collaborative effort involving various stakeholders, aims to inform and prioritize actions in response to climate change in the US-Affiliated Pacific Islands and the Hawaiian archipelago.
The U.S.-Affiliated Pacific Islands (USAPI) are meteorologically characterized by tropical latitudes, consistently warm temperatures, high humidity, and frequent extreme weather events influenced by factors like the El Niño–Southern Oscillation (ENSO) and tropical cyclones. Climate change effects, including rising sea levels and temperature, are impacting these islands, potentially leading to more severe droughts and intense precipitation events, particularly affecting freshwater resources and local ecosystems.
This project focuses on assessing American Samoa's vulnerability to natural hazards and the impacts of climate change. It engaged with the community through an online survey, interviews, and a preparedness workshop in Pago Pago. The goal is to help residents and professionals in American Samoa prepare for future hazard events and climate change impacts, providing information, stories, and guidance on disaster and climate change preparedness
The absence of historical sea-level data for the Pacific over the past 1,000 years hinders our understanding of late Neogene sea-level changes. Data from tectonically stable sites in various Pacific locations suggest that sea level was close to its present level around 1,000 years ago, rose to approximately 0.9 meters above present levels around 700 years ago during the Little Climatic Optimum, then fell during the Little Ice Age before gradually rising again over the past 200 years. Tags: Pacific, sea-level change, historical data, Little Climatic Optimum, Little Ice Age.
Climate services, which provide actionable information about climate impacts, are crucial for Pacific Islands' policy, planning, and decision-making. NOAA, in collaboration with regional partners, has undertaken projects to enhance climate services through capacity building, engagement with users, and tailored information delivery, resulting in better-informed decisions and increased regional coordination.