Invasive Species
Benefit-cost analysis of watershed conservation on Hawai‘i Island
In landscapes around the world, growing attention is being paid to the link between forest structure and water resources. More clarity is vital for informed decision making, especially as water scarcity continues to increase in many regions across the globe. The objective of this study is to estimate the volume of freshwater yield saved per […]
Read MoreAssessing the Costs of Priority HISC Species in Hawaii
Over the past decade, funding for the Hawaii Invasive Species Council (HISC) has ranged from less than $2 million per year in the three years following the recent economic downturn, up to almost $6 million in FY2015. The HISC website provides total award amounts for past projects, but it is difficult to attribute exact dollar […]
Read MoreCost-Effectiveness of Controlling Invasive Miconia via Herbicide Ballistic Technology
By Kimberly Burnett and Christopher Wada Miconia calvescens is an invasive tree native to South and Central America that grows up to 50 feet with shallow root systems that promote erosion. The trees form thick monotypic stands, shading out native plants and threatening the watershed function of Hawaii’s forests. The quick growing miconia can mature […]
Read MoreExpensive Exotics: Snakes in Hawaii
Last month a juvenile ornate tree snake (Chrysopelea ornate) was captured by military personnel near the airfield at Hickam Air Force Base. Inspectors from the Hawaii Department of Agriculture were notified and took custody of the foot-long snake. Ornate tree snakes are mildly venomous and are related to the brown tree snake (Boiga irregularis), which […]
Read MoreAn economic approach to assessing import policies designed to prevent the arrival of invasive species: the case of Puccinia psidii in Hawai‘i
Since its first documented introduction to Hawai‘i in 2005, the rust fungus Puccinia psidii has already severely damaged Syzygium jambos (Indian rose apple) trees and the federally endangered Eugenia koolauensis (nioi). Fortunately, the particular strain has yet to cause serious damage to Metrosideros polymorpha (‘ōhi‘a). However, the introduction of more virulent strains and the genetic […]
Read MoreEconomic Analysis of the Proposed Rule to Prevent Arrival of New Genetic Strains of the Rust Fungus Puccinia psidii in Hawai‘i
Since its first documented introduction to Hawai‘i in 2005, the rust fungus P. psidii has already severely damaged Syzygium jambos (Indian rose apple) trees and the federallyendangered Eugenia koolauensis (nioi). Fortunately, the particular strain has yet to cause serious damage to ‘ōhi‘a, which comprises roughly 80% of the state’s native forests and covers 400,000 ha. Although the rust has affected less […]
Read MorePublication: Spatial Economic Analysis of Early Detection and Rapid Response Strategies for an Invasive Species
Economic impacts from invasive species, conveyed as expected damages to assets from invasion and expected costs of successful prevention and/or removal, may vary significantly across spatially differentiated landscapes. We develop a spatial–dynamic model for optimal early detection and rapid response (EDRR) policies, commonly exploited in the management of potential invaders around the world, and apply […]
Read MoreAn Economic Assessment of Biological Control for Miconia calvescens in Hawaii
Biocontrol, the introduction of organisms to control an unwanted species, has been cited as a powerful method to manage the invasive species Miconia calvescens in Hawaii. In addition to ecological advantages, biocontrol is often regarded as less costly than traditional methods despite the large initial investment. Currently, miconia in Hawaii is treated through aerial and manual operations, […]
Read MoreSpatial Economic Analysis of Early Detection and Rapid Response Strategies for an Invasive Species
Economic impacts from invasive species, conveyed as expected damages to assets from invasion and expected costs of successful prevention and/or removal, may vary significantly across spatially differentiated landscapes. We develop a spatial-dynamic model for optimal early detection and rapid response (EDRR) policies, commonly exploited in the management of potential invaders around the world, and apply […]
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