Satellite measurement of ocean turbulence

Turbulence and mixing in the surface layer of the ocean is a significant element in the combined ocean-atmosphere system, and plays a considerable role in the transfer of heat, gas and momentum across the air-sea boundary. Furthermore, improving knowledge of the evolution of energy within the ocean system, both globally and locally, holds importance for improving our understanding of the dynamics of the ocean at large- and small-scales. As such, insight into turbulence and turbulent flows at the ocean surface is becoming increasingly important for its role in ocean-atmosphere exchange and, from a wider perspective, climate change.A research project was initiated to understand the role that spacecraft remote-sensing may play in improving observation of “turbulence” (in a broad sense) in the ocean, and for identifying how steps towards such observation may be made. An initial, exploratory study identified the potential benefit of Synthetic Aperture Radar in “bridging the gap” between in-situ and remote observations o

Advances in Sonar Technology

The demand to explore the largest and also one of the richest parts of our planet, the advances in signal processing promoted by an exponential growth in computation power and a thorough study of sound propagation in the underwater realm, have lead to remarkable advances in sonar technology in the last years.The work on hand is a sum of knowledge of several authors who contributed in various aspects of sonar technology. This book intends to give a broad overview of the advances in sonar technology of the last years that resulted from the research effort of the authors in both sonar systems and their applications. It is intended for scientist and engineers from a variety of backgrounds and even those that never had contact with sonar technology before will find an easy introduction with the topics and principles exposed here

A Multidisciplinary Analysis of Coastal Storms in Western Britain, 1800-2020

This multidisciplinary study combines environmental science and environmental history to improve storm understanding in Western Britain from 1800 to 2020. Storms have persistently impacted coastal communities, infrastructure and environments in this region and climate change is predicted to increase storm threats and impacts. A sedimentological study analysed saltmarsh storm impacts in Carmarthen Bay. High magnitude storm surge deposition in 1954, 1977 and 1981 was identified through sedimentological, meteorological and tidal gauge analyses. The results show storm surges irregularly contributed to sustaining saltmarsh elevation suggesting the value of continued research into saltmarsh storm impacts. An archival newspaper analysis produced a comprehensive original storm database from 1800 to 2020. Three environmental history investigations followed. The first investigation analysed a major storm using the concept of storm subcultures. The 1859 Royal Charter Storm and the ensuing developments in storm prediction were analysed. Storm catastrophes were shown to evoke long-term social, political and cultural responses. The event changed storm understanding and prediction with long-term community and governance implications. The analysis highlighted the importance of inclusive decision making and adaptive storm subcultures. The second study employed statistical and qualitative newspaper analyses of written storm representations from 1800 to 1953. Rapidly declining religious storm interpretations and progressively increasing scientific interpretations reflected changing beliefs in Britain. The analysis showed that epistemological change profoundly affected public storm representations and understandings. A contemporary study analysed meteorological, tidal gauge and newspaper data from Storms Ciara and Dennis. While the storms were climate anomalies and the short-term response was effective, shortcomings in long-term climate change-related government policies likely enhanced vulnerability and therefore policy adaptation was recommended. Multidisciplinary research ultimately improves the understanding of the often interconnected community and environmental storm impacts and can inform inclusive and effective response. Further multidisciplinary research can therefore contribute towards enhancing resilience to increasing storm threats

Proceedings of the Second Technical Seminar on Marine Fishery Resources Survey in the South China Sea, Area II: Sarawak, Sabah and Brunei Darussalam Waters, 14-15 December 1998, Kuala Lumpur, Malaysia

Due to gross over-exploitation and a paucity of adequate information on fishery oceanographic, environmental and biological conditions that sustain the fisheries of the South China Seas region, the fisheries have become greatly impoverished. The deficiency in scientific intelligence has also circumscribed all attempts at substantive and tangible planning or management of fisheries throughout the region. The NAGA Oceanographic Expedition of 1959-1961, organized jointly by the United States of America, The Kingdom of Thailand and the erstwhile Republic of Vietnam, achieved pioneering oceanographic work in the Gulf of Thailand and the South China Seas. This invaluable scientific data acquisition was not pursued for a number of reasons, and thus, a holistic and dependable profile of oceanographic conditions and their seasonal variations and patterns failed to develop. Perceiving the vital importance and the deficiency of fundamental information and data for fisheries planning and management, the SEAFDEC Training Department (TD) and the Marine Fisheries Resources Development and Management Department (MFRDMD), jointly launched an inter-Department Collaborative Research program in 1995, to evaluate the fisheries resources of the South china Sea as a basal objective in the development of sustainable fisheries