How successful has wetland mitigation been? : an examination of wetland compensatory mitigation success in the Coos Watershed, Oregon

Shaffer, Laura Jean, 1972-

January 1999

Typescript. Includes vita and abstract. Bibliography: Includes bibliographical references (leaves 208-216). Description: xiv, 216 leaves : maps ; 29 cm.

Coos Bay Watershed (Or.)

The Oregon Nearshore Research Inventory Project : the importance of science and the scientific research community in marine spatial planning

Sherman, Kate (Katherine Joanna Hav)

31 May 2012

The purpose of Oregon's Nearshore Research Inventory (NRI) project was to inventory and map the current and future use of Oregon's nearshore environment by the scientific research community for use in Oregon's marine spatial planning process. Spatial and qualitative data on the use of Oregon's ocean and coast by the scientific research community was collected using ethnographic research methods, including the geographic distribution of research, the people who are conducting scientific research, timeline for scientific research, and more. Through the NRI project, Oregon's Territorial Sea amendment process became the first marine spatial planning process in the world, other than through ocean zoning (e.g. Australia's Great Barrier Reef and China), to comprehensively recognize the scientific community as a stakeholder. This thesis contains the methods used to create the NRI database, interview the scientific community, and includes future recommendations for managers and the scientific community based on the results of the NRI. As new uses, such as wave energy extraction, get proposed along coastlines and in the ocean, marine spatial planning (MSP) can be a tool to reduce conflict and find compatible uses of ocean and coastal space. Sound science needs to be used to understand social, ecological, and economic components to ocean and coastal resources and make tradeoff decisions about ocean and coastal space use in the MSP process. The results of the NRI project demonstrate the need to recognize that the scientific research community as a stakeholder in the MSP process. Their use of ocean and coastal space helps provide the sound scientific information that is needed to make ecosystem-based management decisions. Interruptions in long-term scientific research and monitoring could limit the availability of scientific information for use in future management decisions. There are also other values to comprehensively inventorying use of the ocean and coast by the scientific community. Spatial data about where people conduct scientific research provides information for potential collaboration amongst the scientific community and between scientists and non-scientists. It also identifies data gaps, which can then be filled to help have a more comprehensive understanding of ocean and coastal issues. The NRI can act as a template for other states to include the scientific community as a stakeholder in a MSP process, and as a template for a regional inventory of scientific research which can be useful for ecosystem based approaches to management. Overall, there should be value placed on sound scientific information for management decisions and the scientific community as a stakeholder in the marine spatial planning process, as demonstrated through the NRI. / Graduation date: 2013

marine spatial planning

wave energy

science in management decisions

stakeholders

territorial sea plan

Marine resources -- Oregon

Marine resources -- Oregon -- Management

Coastal zone management -- Oregon

Marine sciences -- Research -- Oregon

Marine ecosystem management -- Oregon

Assessment of the potential for conflict between existing ocean space use and renewable energy development off the coast of Oregon

Sullivan, Colleen M. (Colleen Marie)

05 June 2012

Oregon's ocean waters are a potential source of wind, wave, and tidal energy; of interest to renewable energy entrepreneurs and to the U.S. government as it seeks to bolster energy security. In order to install technology to capture this energy, however, it may be necessary to mitigate conflict with existing ocean space users. The objective of this research was to construct a conflict analysis model in a GIS to answer the following research questions: (1) Within the study area off the coast of Oregon, where are stakeholders currently using ocean space and how many uses overlap? (2) To what extent might existing ocean space use present potential for conflict with renewable energy development? (3) How do various types of uncertainty affect analysis results? (4) What are the implications of these findings for ecosystem based management of the ocean? All available spatial information on ocean space usage by commercial fishing, commercial non-fishing, recreational, Native American, and scientific communities was gathered. Stakeholder outreach with these communities was used to vet the collected data and allow each to contribute knowledge not previously available through GIS data clearinghouses maintained by government or interest groups. The resulting data were used as inputs to a conflict visualization model written in Python and imported to an ArcGIS tool. Results showed extensive coverage and overlap of existing ocean space uses; specifically that 99.7% of the 1-nm² grid cells of the study area are occupied by at least 6 different categories of ocean space use. The six uses with the greatest coverage were: Fishing – Trolling, Habitat, Military, Fishing - Closure Areas, Protected, and Marine Transportation - Low Intensity. An uncertainty analysis was also completed to illustrate the margin for error and therefore the necessity of appropriate stakeholder outreach during the renewable energy siting process, as opposed to relying only on a GIS. Ranking of each category by its potential for conflict with renewable energy development demonstrated which areas of the ocean may be particularly contentious. Because rankings are subjective, a tool was created to allow users to input their own rankings. For the purpose of this report, default rankings were assigned to each as justified by the literature. Results under these assumptions showed that space use and potential for conflict were highest between the coast and approximately 30 nm at sea. This is likely because certain space use is limited by depth (e.g., recreational use); there is increased shipping density as vessels approach and depart major ports; and increased fuel costs associated with traveling further from shore. Two potential applications of model results were demonstrated. First, comparison with existing wave energy permit sites highlighted relative potential for conflict among the sites and the input data detailed the specific uses present. Second, comparison with areas determined most suitable for development by the wave energy industry illustrated that areas of high suitability often also had high rankings for potential for conflict. It appeared that the factors that determined development suitability were often the same factors that drew current ocean space users to those locations. Current support at the state, regional and federal level under the National Ocean Policy for the use of marine spatial planning as a tool to implement ecosystem based management of the oceans requires that tools such as the one developed in this research are used, to ensure that all components of the marine ecosystem are considered prior to implementation of a management plan. The addition of renewable energy to the current social landscape of the ocean will reduce the resource base for many categories of ocean space use. Model results demonstrated that mitigation of conflict between development and existing space use is not merely a best practice supported by current policy, but a necessity. Results presented a visualization of the social landscape of the ocean that could help managers determine which stakeholders to engage during the initial stage of choosing a site for development. / Graduation date: 2012

Marine spatial planning

GIS

Renewable energy