Skip to main content
Advanced Search

Filters: Tags: {"type":"LCC Deliverable","name":"publication"} (X) > partyWithName: Pacific Islands Landscape Conservation Cooperative (X)

29 results (26ms)   

Filters
Date Range
Extensions
Types
Contacts
Categories
Tag Schemes
Tags (with Type=LCC Deliverable )
View Results as: JSON ATOM CSV
thumbnail
Our project focuses on understanding patterns and causes of recent population declines in the Haleakala silversword that are associated with decreasing precipitation, increasing temperature, and related climate changes in Hawaii’s high-elevation ecosystems. The Haleakala silversword is an ideal taxon with which to assess impacts from climate change. It forms the foundation of a diverse alpine community and likely reflects wider ecological changes; it is already exhibiting patterns of mortality consistent with an upslope shifting distribution; and its high visibility and symbolic status make it unmatched in educational potential. Building on extensive research infrastructure, we propose to collect the demographic...
We have developed autonomous and high precision sensor arrays to monitor growth of individual native plants along with local environmental conditions, coupled with wireless data loggers that can provide real-time data available to managers and the wider public. We deployed an experimental set of these sensors, integrated with a weather station, 2 webcams, and a live web portal (construction in progress) to showcase how this real time information can be useful to relevant managers while also raising awareness of the challenges of climate change adaptation and Hawaiian plant conservation in general. With the increasing popularity of wildlife web-cams, it has been shown that this type of technology has a strong ability...
thumbnail
Sea-level rise (SLR) is one of the biggest threats to the Hawaiian coastline, and resource managers of coastal wetlands in Hawai‘i must begin planning now for future impacts. The majority of these impacts are expected to occur from 2040 – 2100. PICCC funded research from the University of Hawai’i at Mānoa has provided decision makers with tools to assist in adaptively managing the impacts of SLR at three coastal wetland environments in south Maui, north Maui, and James Campbell National Wildlife Refuge. They also ranked threats on the basis of input from wetland management experts to develop maps of SLR impacts and vulnerability. The researchers concluded that decision makers must quickly act to develop and implement...
Climate velocity is a concept derived from the intersection between ecology and climate change. It attempts to summarize the rate of climate change on a spatial scale as a movement rate (usually in units of kilometer per year) that a species would need to maintain to remain in its current climatological niche in the face of climate change. We now have downscaled climate models for the main Hawaiian Islands. In conjunction with the rainfall atlas of contemporary climate we have the information to calculate climate velocity for Hawaii, providing a useful index of the rate of climate change for conservation and resource managers. The goal of this project was to produce climate velocity maps for the seven main Hawaiian...
As the impacts of global climate change on species are increasingly evident, there is a clear need to adapt conservation efforts worldwide. Species vulnerability assessments (VAs) are increasingly used to summarize all relevant information to determine a species’ potential vulnerability to climate change and are frequently the first step in informing climate adaptation efforts. VAs commonly integrate multiple sources of information by utilizing a framework that distinguishes factors relevant to species exposure, sensitivity, and adaptive capacity. However, this framework was originally developed for human systems, and its use to evaluate species vulnerability has serious practical and theoretical limitations. By...
thumbnail
One of the greatest ecological, social and economic issues of the day is the problem of climate change. Increasing levels of carbon dioxide (CO2) in the atmosphere are increasing global temperatures. Much of the CO2 dissolves in the ocean, creating more acidic conditions and leading to a process known as ocean acidification (OA). Higher temperatures and increased levels of CO2 operating independently are known to be detrimental to corals, but little is known about their effect when operating in unison. Irradiance has a great influence on coral calcification rates and can interact with higher temperature and increased OA to an unknown extent. Therefore, experiments were performed in continuous flow mesocosms under...
Recent studies show that past and ongoing environmental changes have been substantial and have likely already affected conservation efforts in Hawaii. Much of the state has experienced substantial drying, including decreases in mean annual precipitation since the 1920s, longer rainless periods, and decreasing stream flow. Temperatures have been increasing in the state for the last 40 years, especially at higher elevations where most native habitats and species currently persist. Unfortunately there are few long term monitoring efforts that allow us to understand plant species responses to these past, ongoing and future shifts in environmental conditions. Consequently, we know little about how environmental shifts...
· Anticipating potential shifts in plant communities has been a major challenge in climate-change ecology. In the State of Hawaii, where conservation efforts tend to be habitat focused, the lack of projections of vegetation shifts under future climate is a major knowledge gap for developing management actions for climate-change mitigation and adaptation.· As a first approximation, we have modeled potential shifts of terrestrial vegetation across the Hawaiian landscape between now and the end of this century. Our approach relies on modeling the relation between current climate and the distribution of broad climatically determined moisture zones (MZs; for example, wet, mesic, and dry areas) that form the...
thumbnail
We analyzed the chemical composition of wood produced by Māmane, a tropical tree growing in Hawai’i, in order to reconstruct changes in climate over the Hawaiian Islands. Specifically, we measured changes in the relative abundance of carbon and oxygen isotopes taken up by the trees during photosynthesis at high elevation sites on Mauna Kea. We found that these isotopes reflect the climatic conditions (precipitation and temperature) under which the trees lived, allowing us to reconstruct relative changes in climate extending back ~130 years. Our results indicate decadal-scale changes in precipitation that correlate well with large-scale atmospheric and ocean circulation patterns that dominate much of the Pacific....
thumbnail
Hawaiian forest birds are imperiled, with fewer than half the original > 40 species remaining extant. Recent studies document ongoing rapid population decline and project complete climate-based range losses for the critically endangered Kaua’i endemics ‘akeke’e (Loxops caeruleirostris) and ‘akikiki (Oreomystis bairdi) by end-of-century due to projected warming. Climate change facilitates the upward expansion of avian malaria into native high elevation forests where disease was historically absent. While intensified conservation efforts attempt to safeguard these species and their habitats, the magnitude of potential loss and the urgency of this situation require all conservation options to be seriously considered....
thumbnail
The objective of this experimental research is to determine if genetic enrichment may enhance survival, growth, and adaptation of important native Hawaiian montane plant species to changing precipitation patterns by relocating conspecifics to more favorable climate regimes at higher elevation. We will collect the seeds of montane plants from low and high eevation sources, conduct outplanting trials in common locations along an elevation gradient, and monitor growth, survival, and vigor over a two_year period to evaluate a potential restoration strategy for mountain parklands of Mauna Kea, on the island of Hawaii.
thumbnail
To anticipate how weather is likely to change as a result of increasing concentrations of greenhouse gases (such as carbon dioxide) in the atmosphere, geophysical and meteorological scientists examined the results of climate models on the fine scale climate patterns of Hawai’i to understand what future climate will look like. Researchers analyzed the relationship of past rainfall with global processes in order to predict future rainfall patterns. They found that the decades-long decrease in rainfall seen in arid and semiarid regions of Hawai‘i during the rainy season (November-April) is likely to continue. The model results show that all of the Hawaiian Islands get drier overall in the 21st century. Of all the islands,...
Hawaiian forest birds are imperiled, with fewer than half the original >40 species remaining extant. Recent studies document ongoing rapid population decline and project complete climate‐based range losses for the critically endangered Kaua’i endemics ‘akeke’e (Loxops caeruleirostris) and ‘akikiki (Oreomystis bairdi) by end‐of‐century due to projected warming. Climate change facilitates the upward expansion of avian malaria into native high elevation forests where disease was historically absent. While intensified conservation efforts attempt to safeguard these species and their habitats, the magnitude of potential loss and the urgency of this situation require all conservation options to be seriously considered....
thumbnail
Islands exhibit the planet’s most unique flora and fauna, but biodiversity on islands is also vulnerable to the impending forces of global change. The Micronesian high island of Pohnpei exemplifies the diversity of oceanic islands, as it is home to the world lowest montane-cloud forest, vast mangrove forests, and 6 endemic bird species. We conducted a survey to assess the status of Pohnpei’s current bird population. We estimated detection rates across elevation zones, habitat-specific occupancy rates for 13 species, and habitat specific densities for 10 species. We coupled results with data from previous surveys to assess the potential impacts of vegetation change on Pohnpei avifauna during the last three decades....
thumbnail
In Hawaiʽi and elsewhere, research efforts have focused on two main approaches to determine the potential impacts of climate change on individual species: estimating species vulnerabilities and projecting responses of species to expected changes. We integrated these approaches by defining vulnerability as the inability of species to exhibit any of the responses necessary for persistence under climate change (i.e., tolerate projected changes, endure in microrefugia, or migrate to new climate-compatible areas, but excluding evolutionary adaptation). To operationalize this response-based definition of species vulnerability within a landscape-based analysis, we used current and future climate envelopes for each species...
thumbnail
Expansion of deadly, mosquito-borne bird diseases such as avian malaria into Hawaiʽi’s high elevation forests as a result of global warming is one of the most significant threats facing the state’s rare native forest birds. Few practical options for control of disease-carrying mosquitoes over large landscapes are available, however. The best hope for remaining species of native birds may be the development of tolerance or resistance to this introduced disease. Therefore, understanding how tolerance and resistance evolve and developing ways to speed this process may be good proactive strategies for addressing impacts of climate change. We evaluated ways to rapidly measure a bird’s natural immunity with the hope that...
For many species the threats of climate change occur in a context of multiple existing threats. Given the current focus of global change ecology in identifying and understanding species vulnerable to climate change, we performed a global analysis to characterize the multi-threat context for species threatened by climate change. Utilizing 30,053 species from the International Union for Conservation of Nature’s (IUCN) Red List of Threatened Species, we sought to evaluate if species threatened by climate change are more likely threatened by a greater number of non-climatic threats than species not threatened by climate change. Our results show that species threatened by climate change are generally impacted by 21%...
thumbnail
Past analysis has shown that temperature-dependent avian malaria is likely to reduce overall available Hawaiian forest bird habitat with temperature increases. We used a comprehensive database of forest bird sightings (over 42,000 points), the most up to date regional climate projections and state-of-the-art ensemble species distribution models to project shifts in distribution of all Hawaiian forest bird species due to climate change. Our results show that all forest bird species are expected to suffer large range losses by end of this century with single island endemics at a greater risk than more widespread species. Because most species require structurally complex forest habitat that may take decades to develop,...
Besides coral, Hawaiian forest birds are arguably one of the clearest examples of species vulnerable to climate change. A wealth of studies has recently detailed how both ongoing and projected warming allows for avian malaria to spread at higher elevation areas where most remaining native bird species persist. Temperature is a critical factor for the development of both the disease (Plasmodium relictum) and its vector (Culex quinquefasciatus). As such, their distribution and abundance across the landscape seem to vary across the landscape in response to changing monthly, seasonal and annual conditions. Standard and novel vector control options are increasingly being considered to safeguard forest birds from the...
thumbnail
The specific objectives of this contract are to identify and categorize key differences and similarities between islands and continental systems that are relevant to achieving sustainable landscapes/seascapes at regional scales; to develop a conservation framework that integrates planning processes for both terrestrial and marine resources that is consistent with the LCC Network Vision and Mission, and that connects landscape conservation design efforts for islands and mainland LCCs and to develop LCD guidelines, definitions, and goals appropriate for islands that are consistent with the SIAS metrics for LCD.
map background search result map search result map Reconstructing past Hawaiian precipitation using stable carbon isotope analysis of Māmane trees Climate Change Impacts on Critical Ecosystems in Hawai‘i and US Pacific Islands Territories Temporal and Spatial Pattern of Sea-level Rise Impacts to Coastal Wetlands and Other Ecosystems Immunological Markers for Tolerance to Avian Malaria: Tools for Identifying Disease-Tolerant Individuals for Translocations and Captive Propagation Synergistic Impacts of Global Warming and Ocean Acidification on Coral Reefs Effects of Landscape Change on Island Birds Understanding how climate change is affecting Hawaii's high-elevation ecosystems: an assessment of the long-term viability of Haleakala silverswords and associated biological communities A landscape-based assessment of climate change vulnerability for native Hawaiian plants Facilitating Adaptation in Montane Plants to Changing Precipitation along an Elevation Gradient Development of an integrated, island-relevant concept of Landscape Conservation Design for the LCC network Shifting Hawaiian forest bird distribution under climate change and the need to consider novel conservation strategies Assessing the potential of translocating vulnerable forest birds by searching for novel and enduring climatic ranges Understanding how climate change is affecting Hawaii's high-elevation ecosystems: an assessment of the long-term viability of Haleakala silverswords and associated biological communities Effects of Landscape Change on Island Birds Facilitating Adaptation in Montane Plants to Changing Precipitation along an Elevation Gradient Reconstructing past Hawaiian precipitation using stable carbon isotope analysis of Māmane trees Immunological Markers for Tolerance to Avian Malaria: Tools for Identifying Disease-Tolerant Individuals for Translocations and Captive Propagation Development of an integrated, island-relevant concept of Landscape Conservation Design for the LCC network Climate Change Impacts on Critical Ecosystems in Hawai‘i and US Pacific Islands Territories Temporal and Spatial Pattern of Sea-level Rise Impacts to Coastal Wetlands and Other Ecosystems Synergistic Impacts of Global Warming and Ocean Acidification on Coral Reefs A landscape-based assessment of climate change vulnerability for native Hawaiian plants Shifting Hawaiian forest bird distribution under climate change and the need to consider novel conservation strategies Assessing the potential of translocating vulnerable forest birds by searching for novel and enduring climatic ranges