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NOAA Technical Memorandum CRCP 11. Identifies goals, objectives, and approaches to guide NOAA's research, management, and international cooperation activities on deep-sea coral and sponge ecosystems for fiscal years 2010 through 2019. Integrates research and conservation needs and is intended to be a flexible, evolving document that allows NOAA and its partners to address new management challenges and priorities as appropriate. The primary goal of this Strategic Plan is to improve the understanding, conservation, and management of deep-sea coral and sponge ecosystems.
Interrelationships Between Corals and Fisheries is derived from a workshop held by the Gulf of Mexico Fishery Management Council in Tampa, Florida in May 2013, where world authorities came together to discuss the current problems in managing tropical fisheries and offered suggestions for future directions for both researchers and environmental reso
The ocean covers more than 70% of the Earth’s surface and encompasses 99% of its habitable volume, yet is largely unexplored. However, new technologies, approaches, and a growing recognition of the ocean’s role in sustaining the health, wealth, and security of modern society has spurred a rapid acceleration in ocean exploration and discovery. Past ocean exploration efforts have fundamentally impacted our view of the bounds of life on the planet, the human-ocean relationship, and the Earth’s inner workings, and many more discoveries yet remain. The varied stakeholders for ocean exploration are exemplified in many of the UN Ocean Decade challenges that require generating baseline knowledge to expose ocean regions and processes not yet constrained. As more of the deep ocean is explored, we gain important insight into scientifically and societally relevant questions including the distribution of ocean organisms and ecosystems, seafloor mineralization, chemical cycling, and the role of the oceans in global climate. Ocean exploration benefits from deep integration across disciplinary boundaries and careful coordination between stakeholders and explorers. This volume brings together scientists, engineers, and educators across disciplinary boundaries towards the common goal of mapping and characterizing unknown parts of the ocean. To meet the tremendous challenge of exploring the world's oceans will require the incorporation of new technologies and approaches that enhance the efficiency of exploration, adopt the latest developments in autonomy, and recognize the value of ocean exploration for society’s benefit. This current topic provides an overview of the latest data, results, and innovations along with an assessment of the current gaps in ocean exploration in order to focus the community’s efforts and enhance the spread of current innovations. We invite contributions that describe advances in ocean exploration including, but not limited to: • Assessments of and novel approaches to identifying exploration gaps and targets • Descriptions of novel vehicle systems that utilize autonomy and artificial intelligence to enhance ocean exploration. • Development of new sensors and samplers that offer opportunities for scaling up ocean exploration and minimizing impact to ocean environments. • Approaches to accessing difficult-to-reach and challenging subsea environments for exploration. • The synergies of combining uncrewed systems with human expertise. • New methods for analyzing and interpreting ocean data that create new scientific outcomes and enhance data use. • Approaches to engaging a more diverse ocean exploration community including the indigenous communities adjacent to ocean exploration targets. • Evaluations of ocean exploration impact on issues of high societal relevance.
This book focuses on how marine systems respond to natural and anthropogenic perturbations (ENSO, overfishing, pollution, tourism, invasive species, climate-change). Authors explain in their chapters how this information can guide management and conservation actions to help orient and better manage, restore and sustain the ecosystems services and goods that are derived from the ocean, while considering the complex issues that affect the delicate nature of the Islands. This book will contribute to a new understanding of the Galapagos Islands and marine ecosystems.​
This circular stems from a study carried out for FAO projects “Sustainable Fisheries Management and Biodiversity Conservation of Deep-Sea Living Marine Resources and Ecosystems in the Areas Beyond National Jurisdiction” (GCP/GLO/366/GFF) and “Deep-Sea Sponge Grounds Ecosystems of the North Atlantic: An Integrated Approach Towards their Preservation and Sustainable Exploitation” (GCP/GLO/679/EC). These projects included outputs related to the economic valuation of goods and services provided by the deep seas in areas beyond national jurisdiction. This study compiled an estimate of the total economic value (TEV) of the deep seas, which considered the provision of deep-water fish, the harvest of precious corals, the use of substances of marine origin as pharmaceuticals, the extraction of deep and ultra-deep oil and the potential mining of mineral resources from the seafloor, carbon sequestration carried out by the deep seas, the importance of scientific research in the deep seas, and touristic activities with submersibles to visit sites such as the Titanic shipwreck. Comprehensively, the TEV assessed for the deep-sea ecosystem as a whole is estimated at USD 267 billion per year. Ninety two percent of the economic value originates from abiotic resources (oil and minerals), 5 percent from biotic resources (fish, corals and pharmaceuticals of marine origin), 2 percent from cultural services (scientific research and tourism/recreation), and 1 percent from carbon sequestration.