Your search keyword '"MARINE sciences"' showing total 15,451 results

1. Untitled.

Subjects

BAROTROPIC equation, TIME series analysis, MARINE sciences, STANDARD deviations, VELOCITY

Abstract

The article in Frontiers in Marine Science discusses the extent of the Ross Gyre through observations and models, comparing data from various sources. It includes figures showing zonal and meridional velocities at different depths, as well as the impact of using climatological data on transport calculations. The document also examines the transport time series of the Ross Gyre from different models and analyzes potential temperature, salinity, and velocity profiles along specific longitudes. [Extracted from the article]

Published

2024

2. The Portofino Promontory: 200 Years of History of Marine Biology.

Author

Bavestrello, Giorgio, Betti, Federico, Bianchi, Carlo Nike, Cappanera, Valentina, Chiantore, Mariachiara, Corradi, Nicola, Montefalcone, Monica, Mariotti, Mauro Giorgio, Morri, Carla, Povero, Paolo, Relini, Giulio, Schiaparelli, Stefano, and Bo, Marzia

Abstract

This paper outlines the history of scientific research developed in the Portofino Promontory, located in the centre of the Ligurian Sea. The chronicles span over two centuries, from the late 18th century to the present day. Portofino is now recognised as one of the best-known areas in the world regarding marine biological communities and their temporal dynamics, particularly in relation to current climate changes. In addition, since 1999, with the establishment of the Marine Protected Area, significant research related to marine environment conservation has developed in Portofino. The role of the University of Genoa, the Natural History Museum, other important institutions, and the researchers involved in the Portofino area has been outlined. [ABSTRACT FROM AUTHOR]

Published

2024

3. INNOVATION AND COMPETENCES IN HIGHER EDUCATION INSTITUTION: A PROPOSAL FOR IMPROVEMENT.

Author

Carrasco-Acosta, Marina, Guerra-Santana, Mónica, Rodríguez-Pulido, Josefa, and Garcia-Jimenez, Pilar

Subjects

COGNITIVE ability, INNOVATIONS in higher education, COGNITIVE analysis, MARINE pollution, UNIVERSITIES & colleges

Abstract

Copyright of Environmental & Social Management Journal / Revista de Gestão Social e Ambiental is the property of Environmental & Social Management Journal and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

4. DEVELOPMENTS IN METOCEAN INFORMATION IN SUPPORT OF US OFFSHORE WIND ENERGY AND THE OCEAN SCIENCES.

Author

Bailey, Bruce H. and Freedman, Jeffrey M.

Subjects

*WIND power, *ENERGY development, *MARINE sciences

Abstract

Strong growth of offshore wind energy development is driving demand for better characterizing meteorological and oceanographic (metocean) conditions where physical data are traditionally sparse. Most offshore wind energy structures extend from the seafloor up through the full water column and into the atmosphere to heights approaching 300 m. This requires a comprehensive understanding of anticipated waves, swells, currents, and weather over the life cycle of offshore wind energy projects. This paper describes the relevance of key metocean parameters and analyses to the offshore wind energy field and examines the opportunities and challenges that may be encountered by metocean initiatives, particularly in the United States where offshore wind energy is in the early stages of development. We also suggest ways in which offshore wind energy driven metocean activities can reap spin-off benefits to broader oceanographic interests. [ABSTRACT FROM AUTHOR]

Published

2024

5. Mapping Topic Evolution across the 40-Year-Old Long-Term Ecological Research MareChiara Site in the Gulf of Naples, Italy.

Author

Russo, Luca, Murano, Carola, and D'Alelio, Domenico

Subjects

*NATURAL history, *BIOTIC communities, *LIFE cycles (Biology), *MARINE ecology, *MARINE sciences

Abstract

The forty-year-old Long-Term Ecological Research MareChiara (LTER-MC) program started on 26 January 1984, with fortnightly oceanographic sampling until 1991 and then, from 1995, with weekly sampling up to the present time. LTER-MC produced >150 publications that have been cited by thousands of other studies. In this scoping review, we analyzed this corpus using a semantic approach based on topic modeling, a machine-driven procedure to identify and map topics and their interactions. Understanding the causes behind the evolution of scientific topics, their emergence, splitting, hybridization, or merging within a scientific community is an important step in science policy in managing collaborative research and bringing it into the future. Across different topics, mainly represented by studies on Natural History, Biodiversity, Phenology, Life Cycles, and Community Ecology, the LTER-MC work expanded the knowledge on planktonic organisms, describing in detail their lifestyles and delineating their relationships with environmental conditions. In presenting these results, the potential strengths, weaknesses, opportunities, and threats connected to the overall scientific dimension of LTER-MC are discussed. Finally, the upcoming effort is envisioned in reinforcing internal collaboration to integrate basic and applied research around scientific investigations suitable for establishing a stronger interaction between science and policy, as indicated by the United Nations Decade of Ocean Science for Sustainable Development. [ABSTRACT FROM AUTHOR]

Published

2024

6. Closing the Loops on Southern Ocean Dynamics: From the Circumpolar Current to Ice Shelves and From Bottom Mixing to Surface Waves.

Author

Bennetts, Luke G., Shakespeare, Callum J., Vreugdenhil, Catherine A., Foppert, Annie, Gayen, Bishakhdatta, Meyer, Amelie, Morrison, Adele K., Padman, Laurie, Phillips, Helen E., Stevens, Craig L., Toffoli, Alessandro, Constantinou, Navid C., Cusack, Jesse M., Cyriac, Ajitha, Doddridge, Edward W., England, Matthew H., Evans, D. Gwyn, Heil, Petra, Hogg, Andrew McC., and Holmes, Ryan M.

Subjects

*PHYSICAL sciences, *OCEANIC mixing, *GRAVITY waves, *OCEAN circulation, *MARINE sciences, *ICE shelves

Abstract

A holistic review is given of the Southern Ocean dynamic system, in the context of the crucial role it plays in the global climate and the profound changes it is experiencing. The review focuses on connections between different components of the Southern Ocean dynamic system, drawing together contemporary perspectives from different research communities, with the objective of closing loops in our understanding of the complex network of feedbacks in the overall system. The review is targeted at researchers in Southern Ocean physical science with the ambition of broadening their knowledge beyond their specific field, and aims at facilitating better‐informed interdisciplinary collaborations. For the purposes of this review, the Southern Ocean dynamic system is divided into four main components: large‐scale circulation; cryosphere; turbulence; and gravity waves. Overviews are given of the key dynamical phenomena for each component, before describing the linkages between the components. The reviews are complemented by an overview of observed Southern Ocean trends and future climate projections. Priority research areas are identified to close remaining loops in our understanding of the Southern Ocean system. Plain Language Summary: The United Nations has identified 2021–2030 as the Decade of Ocean Science, with a goal to improve predictions of ocean and climate change. Improved understanding of the Southern Ocean is crucial to this effort, as it is the central hub of the global ocean. The Southern Ocean is the formation site for much of the dense water that fills the deep ocean, sequesters the majority of anthropogenic heat and carbon, and controls the flux of heat to Antarctica. The large‐scale circulation of the Southern Ocean is strongly influenced by interactions with sea ice and ice shelves, and is mediated by smaller scale processes, including eddies, waves, and mixing. The complex interplay between these dynamic processes remains poorly understood, limiting our ability to understand, model and predict changes to the Southern Ocean, global climate and sea level. This article provides a holistic review of Southern Ocean processes, connecting the smallest scales of ocean mixing to the global circulation and climate. It seeks to develop a common language and knowledge‐base across the Southern Ocean physical science community to facilitate knowledge‐sharing and collaboration, with the aim of closing loops on our understanding of one of the world's most dynamic regions. Key Points: Contemporary perspectives are reviewed on the different components of the Southern Ocean dynamic system from distinct research communitiesKey connections between different components of Southern Ocean dynamics are highlightedCross‐cutting priorities for future Southern Ocean physical science are identified [ABSTRACT FROM AUTHOR]

Published

2024

7. 'Floating things' and methodological drift: Accounting for haunted materialities in the North Pacific Ocean.

Author

De Wolff, Kim

Subjects

*MARINE pollution, *MARINE sciences, *ENVIRONMENTAL monitoring, *MATERIALITY (Accounting), *INVISIBILITY

Abstract

In this article I follow the mystery of millions of tons of materials washed out to sea by the March 2011 Japan tsunami: a massive wave of lost materials expected to reach North American shores that never seems to officially arrive. I bring Gordon's conceptualization of haunting together with STS conversations about absence and invisibility to build on feminist approaches that do not take as given what is missing or what should be done. I begin by situating efforts to respectfully distinguish materials survivors call 'floating things' amidst a sea of concern for ocean plastic pollution. These efforts are then contrasted with what I initially perceived as the institutional erasure of floating things at sea, re-counting how some practices work to ensure materials can be ignored, cleaned-up, or used for other kinds of ocean science research. Yet, floating things refuse to disappear completely, as potential traces wash up on beaches, trajectories are modeled back into existence, and individual practices exceed institutional obligations. I argue that attending to hauntings by listening to ghosts and drifting with them is necessary for justice-oriented forms of care for absences. In the case of floating things, this means honoring survivor relations while resisting the perpetuation of Pacific narratives of danger from the outside. [ABSTRACT FROM AUTHOR]

Published

2024

8. Places to go, people to know, things to learn.

Author

Smith, Abigail M

Subjects

*MARINE sciences, *OCEAN, *RETIREMENT, *MENTORS, *COLLEGE teachers

Abstract

Professor Abby Smith grew up in New England loving the ocean, and in due course became a marine scientist. From the vantage point of nearing retirement after over 30 years in the game, she reflects here on where she came from, people who helped along the journey, and what she learned. [ABSTRACT FROM AUTHOR]

Published

2024

9. Temporal volumes and dimensional friction in a coral core laboratory.

Author

McKean, Cameron Allan

Subjects

*CORAL reefs & islands, *CORALS, *CLIMATOLOGY, *MARINE sciences, *TWENTY-first century

Abstract

In the 20th century, Australia's Great Barrier Reef emerged as a political battleground when governing bodies planned to turn its coral territories into a vast mining zone. But in the 21st century, as the temporalisation of the Reef exerts increasing influence on the governance, securitisation and anticipation of planetary futures, coral time has emerged as a new site of political and imaginative conflict. Responding to this shift from territory to temporality, how can we pay closer attention to those skilfully making coral time? In this article, I introduce 'dimensional friction' as a tool for considering how the temporal structure of corals intersects with the temporal structure of global climate science in a coring laboratory. Based on my fieldwork at the Australian Institute of Marine Science, I analyse simultaneously discursive, technical, and imaginative problems that emerge when scientists transform the mineral skeletons of corals into time data. Dimensional friction appears whenever this skeletal matter is manipulated, surfacing the lab-based production of vertical time-depth but also suggesting other ways of temporalising (and corporally appropriating) coral time. Viewed in this way, coral cores might be better understood as 'temporal volumes' rather than chronostratigraphic records amenable to linear timelines and trajectories. [ABSTRACT FROM AUTHOR]

Published

2024

10. Simultaneous invariant normalization of waveform features from bathymetric lidar, SINWav: A Saipan case study.

Author

Jung, Jaehoon, Parrish, Christopher E., Costa, Bryan, and Yoo, Suhong

Subjects

*LIDAR, *ECOLOGICAL assessment, *SPARSE matrices, *MARINE sciences, *ALBEDO, *SUBMARINE topography

Abstract

Over the past two decades, a major advance that enabled airborne bathymetric lidar to benefit a much wider range of marine science applications was the development of procedures for creating seafloor reflectance mosaics from recorded intensity data. It was recognized that intensity data, derived from the amplitudes of laser returns from the seafloor, contained information related to seafloor albedo and composition. However, the raw intensity data were also found to be related to a number of nuisance parameters, such that, when grided, they exhibited discontinuities, seamlines and other artifacts, hindering their use in benthic habitat mapping. These realizations led to the development of tools and workflows for correcting lidar intensity data to produce seamless seafloor reflectance mosaics. At present, an opportunity exists for another major advance in airborne bathymetric lidar by utilizing not only intensity data, but a large suite of waveform features that describe the shape of the return signal from the seafloor, to characterize benthic habitats and perform ecological assessments. However, similar to raw intensity data, other waveform features exhibit salient discontinuities, seamlines, and other artifacts, if uncorrected. Furthermore, in contrast to the case of intensity data, little work has been done on correction of an entire suite of waveform features to create a set of seamless seafloor mosaics. This study aims to address this need through a novel normalization method that integrates two image blending techniques: Gaussian weighted color matching and Laplacian pyramid blending. The proposed approach, Simultaneous Invariant Normalization of Waveform Features (SINWav), is designed to be invariant to the type of input waveform features, such that feature-specific tuning is unnecessary. To handle vast amounts of data efficiently, we developed a memory-efficient sparse matrix representation. The methods were applied to bathymetric lidar data from Saipan containing 16 different waveform features. Both visual assessments and quantitative analyses using quality metrics indicated that the proposed approach outperforms results derived from raw data and conventional linear transform. [ABSTRACT FROM AUTHOR]

Published

2024

11. SAPEVO-PC: Integrating Multi-Criteria Decision-Making and Machine Learning to Evaluate Navy Ships.

Author

Costa, Igor Pinheiro de Araújo, Costa, Arthur Pinheiro de Araújo, Moreira, Miguel Ângelo Lellis, Castro Junior, Marcos Alexandre, Pereira, Daniel Augusto de Moura, Gomes, Carlos Francisco Simões, and Santos, Marcos dos

Subjects

MULTIPLE criteria decision making, PRINCIPAL components analysis, MARINE sciences, OPERATIONS research, DECISION making

Abstract

The selection of a navy ship is essential to guarantee a country's sovereignty, deterrence capabilities, and national security, especially in the face of possible conflicts and diplomatic instability. This paper proposes the integration of concepts related to multi-criteria decision making (MCDM) methodology and machine learning, creating the Simple Aggregation of Preferences Expressed by Ordinal Vectors—Principal Components (SAPEVO-PC) method. The proposed method proposes an evolution of the SAPEVO family, allowing the inclusion of qualitative preferences, and adds concepts from Principal Component Analysis (PCA), aiming to simplify the decision-making process, maintaining precision and reliability. We carried out a case study analyzing 32 warships and ten quantitative criteria, demonstrating the practical application and effectiveness of the method. The generated rankings reflected both subjective perceptions and the quantitative performance data of each ship. This innovative integration of qualitative data with a quantitative machine learning algorithm ensures comprehensive and robust analyses, facilitating informed and strategic decisions. The results showed a high degree of consistency and reliability, with the top and bottom rankings remaining stable across different decision-makers' perspectives. This study highlights the potential of SAPEVO-PC to improve decision-making efficiency in complex, multi-criteria environments, contributing to the field of marine science. [ABSTRACT FROM AUTHOR]

Published

2024

12. ASLO 2024 Award Winners.

Author

Schieler, Brittany Marie, Buttler, Fenina, and Sajdah‐Bey, Nyazia

Subjects

PUBLIC understanding of science, SCIENTIFIC literacy, SCIENTIFIC knowledge, SCIENTIFIC communication, SCIENCE museums, MARINE sciences, PERMAFROST ecosystems, CARBON cycle

Abstract

The Limnology & Oceanography Bulletin article announces the winners of the ASLO 2024 Achievement Awards, which recognize outstanding contributions to the fields of limnology and oceanography. Dr. Elizabeth Kujawinski received the G. Evelyn Hutchinson Award for her research in marine chemistry and metabolomics, while Dr. Richard LaBrie received the Raymond L. Lindeman Award for his paper on deep ocean microbial communities. Other awards were presented for lifetime achievement, solving environmental problems, high-impact research, excellence in education, and early career contributions. The article includes interviews with the award winners, discussing their work and future research directions. The text also covers various topics related to limnology and aquatic science education, highlighting the importance of collaboration, diverse sources of information, and the need for sound environmental policy based on scientific research. It emphasizes the principles of open science and the benefits it brings to the scientific community. [Extracted from the article]

Published

2024

13. Spatial network structure and formation mechanism of China's marine science and technology innovation efficiency from the perspective of innovation value chain.

Author

Xiaolong Chen, Qianbin Di, Wenhan Jia, Jie Zhang, and Chenlu Liang

Subjects

MARINE engineering, MARINE sciences, VALUE chains, TECHNOLOGICAL innovations, REGIONAL development, SOCIAL network analysis, GRAVITY model (Social sciences)

Abstract

Research on the marine science and technology innovation efficiency (MSTE) from the perspective of innovation value chain is not only an inevitable requirement for in-depth exploration of Marine science and technology innovation activities, but also an important guidance for the sustainable development and optimization of marine economy. Based on the innovation value chain perspective, the marine science and technology innovation process is divided into three phases: basic innovation, applied research and development, and gainful transformation, and the chain network DEA model is used to measure the MSTE of 11 provinces and municipalities along the coast of China from 2007 to 2021; the modified gravity model and social network analysis are used to examine the spatial correlation network characteristics of the marine MSTE at different phases and their influencing factors. The results show that the spatial correlation of China marine MSTE gradually develops from a sparse and dispersed state to a close trend, and the three phases gradually show a development pattern from unicentre, polycentre and networked. There is no strict hierarchical structure in the spatial correlation network of marine MSTE, the applied research and development and revenue transformation phases are more relevant than the basic innovation phase, and the cross-regional collaborative innovation needs to be improved. The high-efficiency provinces have a strong ability to radiate the MSTE to other provinces, and can absorb a large amount of innovation resources. The spatial correlation network of MSTE development has formed four plates of two-way spillover, broker, net spillover and net benefit in all three phases, and the transmission of kinetic energy of regional MSTE development has obvious gradient characteristics. The strength of government support, marine industry structure, and marine management services are conducive to enhancing the spatial correlation of the three phases of innovation development. Through this study, we can not only grasp the overall pattern and development dynamics of China Marine science and technology innovation, but also deeply analyze the internal logic and formation mechanism of its spatial correlation network structure, so as to provide scientific basis for optimizing resource allocation and improving innovation efficiency. [ABSTRACT FROM AUTHOR]

Published

2024

14. The social science side of marine biodiversity monitoring.

Author

Vadrot, Alice B M and Wanneau, Krystel

Subjects

*MARINE biodiversity, *BIODIVERSITY monitoring, *MARINE biodiversity conservation, *MARINE biology, *MARINE sciences, *BIODIVERSITY

Abstract

Marine biodiversity monitoring is a complex task given the vast ocean areas to be covered, the types of data to be integrated, and the large number of possible parameters to consider when measuring biodiversity change. International agreements, such as the Convention on Biological Diversity (CBD) or the recently adopted 'BBNJ treaty'protecting biodiversity beyond national jurisdiction (BBNJ), encourage states to monitor marine life both within and beyond their national waters to foster marine biodiversity conservation and sustainable use. While oceanographers in general, and marine biologists in particular, are aware of the challenges and complexities of measuring biodiversity in the ocean, the politics of marine biodiversity monitoring and the added value of social science perspectives tend to be neglected. This story from the frontline describes our experiences with turning marine biodiversity monitoring into an object of social science inquiry. The MARIPOLDATA project developed an innovative multi-sited approach to capture both the politics and practices of monitoring marine life. During our research, we were confronted with a diversity of perspectives and expectations of what monitoring is, how it works, why it should be done, and whom it should serve. By adopting a mixed-method approach and collecting data at different epistemic sites (negotiation rooms, scientific fields, laboratories, and conferences), we tried to cut through some of the observed ambiguities and trends. We conclude that studying monitoring necessitates a multidisciplinary approach and a sensitivity for the regional, institutional, and cultural specificities and inequalities that shape how we know and govern the ocean. [ABSTRACT FROM AUTHOR]

Published

2024

15. A Review of Pacific Salmon Hatcheries in British Columbia, Canada, and Interactions With Natural Populations.

Author

Riddell, Brian E., Pearsall, Isobel, and Rosenberger, Andrew

Subjects

*PACIFIC salmon, *ONCORHYNCHUS, *MARINE sciences, *INFORMATION sharing, *SALMON

Abstract

Pacific salmon Oncorhynchus spp. hatcheries in British Columbia (BC) have been the major activity of the Salmonid Enhancement Program since 1977. However, the present diminished abundance of Pacific salmon and loss of fisheries in BC called for a review of hatchery effectiveness. The Pacific Salmon Foundation conducted a review resulting in 15 reports publicly available on the Pacific Salmon Foundation marine science website. The review includes evaluations of effectiveness of hatchery production, evidence of interactions with natural salmon populations (including rebuilding natural populations with hatchery‐produced salmon), and future opportunities via genomics. Beyond the estimation of juvenile production and contribution to catches and spawning escapements, the ability to assess effectiveness was limited. The assessments of interactions provided a few examples of positive outcomes, but most were negative. The lack of comparative assessments in purely wild populations seriously limits interpretations of hatchery–wild interactions. Future evaluations of the hatchery effectiveness require more quantitative and integrated assessments of hatchery and wild salmon, open data sharing for public review or research, and related studies could benefit from application of new genomic technologies. This paper presents recommendations to address these needs and calls for regularized reviews of the Salmonid Enhancement Program and its net value to sustainability of BC's Pacific salmon. [ABSTRACT FROM AUTHOR]

Published

2024

16. An Evolving Blue Economy: Exploring the Future for Marine Renewable Energy.

Author

Chang, Grace, Schmaus, Carrie, Kendall, James J., Kohut, Josh T., Kramer, Sharon, and Perry, Ruth

Subjects

BLUE economy, WIND power, RENEWABLE energy sources, MARINE sciences, ECONOMIC forecasting

Abstract

Offshore energy generation is one of the fastest-growing U.S. marine sectors, ranging from expanding deployment of offshore wind to rapid development and testing of technologies for energy conversion from waves, tides, ocean currents, and gradients in temperature, salinity, and pressure. Generating energy from the offshore environment creates expanded opportunities to improve upon the collection of ocean and coastal-derived data and information that will support economic and maritime growth, the management of resources, and solutions to address societal and climate issues. Despite its many promises and challenges, barriers remain for widespread implementation of offshore energy generation technologies that address the nation’s energy needs and climate change. A town hall was convened to present a vision of the changing ocean-scape through the lens of marine renewable technologies and to explore innovative solutions that these technologies might offer to support the New Blue Economy. [ABSTRACT FROM AUTHOR]

Published

2024

17. A Step by Step Shoreline Attribute Analysis for Selected Waterbodies in the Gulf of Mexico to Promote the Use of Living Shorelines.

Author

BOYD, CHRISTOPER, XUTONG NIU, and HORN, TAYLOR R.

Subjects

BODIES of water, SHORELINES, CITY managers, MARINE sciences, EROSION

Abstract

Living Shorelines are being promoted by coastal extension professionals as a more resilient naturebased solution to control shoreline erosion. The Virginia Institute of Marine Sciences Living Shorelines Suitability Model was run in selected waterbodies within the Gulf of Mexico. The locations of the selected water bodies, coastal data sets used, and shoreline protection recommendations generated by the Model are presented. A stepby- step statistical analysis conducted through ArcGIS Pro from these selected coastal shorelines will illustrate how extension professionals with novice GIS experience can use the model output to promote living shorelines to coastal property owners, city managers, and developers. [ABSTRACT FROM AUTHOR]

Published

2024

18. Homogeneity Detection and Adjustment of Sea Surface Salinity along the Coast of the Northern South China Sea.

Author

Huang, Jingyi, You, Dawei, and Li, Yan

Subjects

HYDROLOGICAL stations, MARINE sciences, SALINITY, HOMOGENEITY, CLIMATE research, TIME series analysis, COASTS

Abstract

In this study, we applied the penalized maximum F test (PMF) method in the Relative Homogenization test V4 (RHtestV4) package without reference series to improve the reliability of monthly mean long-term sea surface salinity (SSS) data. The data were obtained from six coastal hydrological stations along the coast of the northern SCS, spanning from January 1960 to December 2018. Based on the detailed metadata, taking the influence of regional climate change factors into full account, the inhomogeneity of these SSS data was detected and adjusted. The findings indicate that all six coastal hydrological stations exhibited breakpoints, and among them, 22 breakpoints were identified in total, which were the causes of inhomogeneity in the monthly SSS time series. The primary factors contributing to these breakpoints were human-related and, specifically, related to changes in instruments. The average adjustment of monthly quantile matching (QM) of the salinity series ranged from around −4.25 to 3.33‰. The quality of the adjusted annual mean SSS time series was greatly improved. Notably, the annual mean SSS of the NZU and ZPO coastal hydrological stations in Guangdong Province exhibited a significant downward trend, indicating a trend of seawater freshening. Conversely, the WZU, BHI, HKO and QLN coastal hydrological stations in the Guangxi and Hainan coastal areas displayed an upward trend in SSS. This study fills the gap in current research on inhomogeneity detection and adjustment of SSS along the coast of the northern SCS. It also provides reliable and accurate first-hand information for research on climate change and marine science along the coast of the northern SCS. [ABSTRACT FROM AUTHOR]

Published

2024

19. Broadening inclusivity at sea.

Author

Lu Wang, Adams, Caitlin, Fundis, Allison, Hsiao, Janet, Machado, Casey, Malik, Mashkoor, Quadara, Rachel, Rodriguez, Coralie, Soule, Adam, Suhre, Kelley, Liang Wu, and Elmore, Aurora C.

Subjects

MARINE sciences, PEOPLE with disabilities, COMMUNITY safety, SCIENTIFIC community, PEOPLE of color, SEAS

Abstract

Ocean sciences in the U.S. remains a field with one of the lowest rates of diversity, having disproportionately low representation from marginalized groups, including Black, Asian, LatinX, Indigenous, and other people of color; LGBTQIA + individuals; disabled persons; women; those with neurological differences; and those from low-income groups. With equity and inclusion in mind, recent efforts have been made to increase the number of ocean science professionals from marginalized groups through multiple entry points, including internships. However, there still exists a large gap between the diversity found in the general population and the diversity within ocean sciences. Perhaps one reason why this field continues to have lower diversity owes to the unique component of many oceanographic careers, which continues to present an especially high barrier for marginalized groups: participating in sea-going research expeditions. Herein, we have synthesized possible ways to prioritize the physical and emotional safety of marginalized ocean science professionals participating in a research expedition, including guidance on preparation, implementation, and providing support post-cruise. These suggestions are intended to be useful for the broader oceanographic research community to consider the safety and well-being of individuals from marginalized groups at sea, since the field of ocean sciences - like all fields - would greatly benefit from increased representation and diversity. [ABSTRACT FROM AUTHOR]

Published

2024

20. The need for interdisciplinary research in marine sciences – A MERry outlook.

Author

von Hellfeld, Rebecca, Sujiwo, Aryo Sahid, Seeram, Salomi, Olatunji, Paul Oluwatimileyin, Martinez, Karla Parga, Menon, Anjaly Govindankutty, Beckmann, Clara, mez, Ionan Marigó, and Soto, Manu

Subjects

MARINE sciences, MARINE ecosystem health, INTERDISCIPLINARY research, MARINE habitats, MARINE resources, MARINE ecology, MARINE biodiversity

Abstract

The global oceans are facing a plethora of pressures, leading to cross-national impacts on marine ecosystems, wildlife, and resource users. Interdisciplinarity is integrating knowledge and methods from different disciplines to generate a comprehensive output. Due to the trans-boundary nature of marine habitats and stressors, interdisciplinary research forms the basis to addressing pressing matters in ocean health and conservation. To this end, the Marine Environment and Resources (MER) master programme was developed at the beginning of the century, enabling students to develop a well-rounded understanding of ocean science. The programme has since become a recognised Erasmus Mundus degree and has had almost 400 graduates. In September 2022, the first MER community summit was held, being a landmark for the building of a long-lasting global community to discuss and deal with priority challenges of the UN Decade of Oceans Science. This summit has highlighted that to understand the state of the oceans and improve conservation efforts, international collaboration is required (including those out with the academic realm). The following article aims to highlight the successes of the programme in aiding the development and training of interdisciplinary researchers from a plethora of backgrounds, uniquely suitable for addressing current problems. [ABSTRACT FROM AUTHOR]

Published

2024

21. Pre-Launch Assessment of PACE OCI's Polarization Sensitivity.

Author

McIntire, Jeff, Waluschka, Eugene, Meister, Gerhard, Knuble, Joseph, and Cook, William B.

Subjects

*OCEAN color, *MUELLER calculus, *MARINE sciences, *ORBITS (Astronomy), *DATA science, *HYPERSPECTRAL imaging systems

Abstract

To provide ongoing continuity for the ocean, cloud, and aerosol science data records, NASA will launch the Plankton, Aerosol, Cloud, ocean Ecosystem (PACE) mission on 8 February 2024. The Ocean Color Instrument (OCI) is the primary sensor onboard PACE and will provide ocean color science data to continue the data sets collected by heritage sensors MODIS, SeaWiFS, and VIIRS, but with increased spectral coverage and improved accuracy. The OCI is a grating spectrometer with hyperspectral coverage from the ultraviolet (about 315 nm) to near-infrared (about 900 nm), with additional filtered channels in the short-wave infrared (940 nm–2260 nm). A rigorous ground test program was conducted to calibrate the instrument and ensure that the calibration can be transferred to on-orbit operations in order to achieve the high levels of accuracy demanded by the science community. Some calibration parameters, such as polarization sensitivity, can only be measured during pre-launch testing. Tests were performed to measure the Mueller matrix components necessary to correct polarized scenes encountered on orbit. Measurements covered all spectral bands and a series of telescope scan angles encompassing the expected on-orbit scan range. The sensitivity (linear diattenuation) was measured above 340 nm to be below 0.6%, except at wavelengths, and was characterized as better than 0.1%. Below 340 nm, the sensitivity can be much higher, but this is not expected to affect the science data significantly. These results indicate that any polarized scenes encountered on orbit can be corrected with a high degree of confidence. [ABSTRACT FROM AUTHOR]

Published

2024

22. Marine Science Can Contribute to the Search for Extra-Terrestrial Life.

Author

Aguzzi, Jacopo, Cuadros, Javier, Dartnell, Lewis, Costa, Corrado, Violino, Simona, Canfora, Loredana, Danovaro, Roberto, Robinson, Nathan Jack, Giovannelli, Donato, Flögel, Sascha, Stefanni, Sergio, Chatzievangelou, Damianos, Marini, Simone, Picardi, Giacomo, and Foing, Bernard

Subjects

*EXTRATERRESTRIAL life, *MARINE sciences, *SOLAR system, *MARTIAN atmosphere, *ASTROBIOLOGY, *LIFE on Mars, *OCEAN

Abstract

Life on our planet likely evolved in the ocean, and thus exo-oceans are key habitats to search for extraterrestrial life. We conducted a data-driven bibliographic survey on the astrobiology literature to identify emerging research trends with marine science for future synergies in the exploration for extraterrestrial life in exo-oceans. Based on search queries, we identified 2592 published items since 1963. The current literature falls into three major groups of terms focusing on (1) the search for life on Mars, (2) astrobiology within our Solar System with reference to icy moons and their exo-oceans, and (3) astronomical and biological parameters for planetary habitability. We also identified that the most prominent research keywords form three key-groups focusing on (1) using terrestrial environments as proxies for Martian environments, centred on extremophiles and biosignatures, (2) habitable zones outside of "Goldilocks" orbital ranges, centred on ice planets, and (3) the atmosphere, magnetic field, and geology in relation to planets' habitable conditions, centred on water-based oceans. [ABSTRACT FROM AUTHOR]

Published

2024

23. THE OpenCTD.

Author

Thaler, Andrew, Sturdivant, S. Kersey, Neches, Russell Y., and Levenson, J. Jacob

Subjects

*OCEANOGRAPHIC instruments, *MARINE sciences, *OCEANOGRAPHY, *STEM education, *ERROR rates, *OCEAN energy resources

Abstract

CTDs, devices that measure salinity (via conductivity), temperature, and depth in the ocean, are essential for almost all marine scientific research, whether oceanography, ecology, conservation, or management. But CTDs are often cost-prohibitive, making this essential tool of ocean science inaccessible to the majority of ocean knowledge seekers. The OpenCTD is a low-cost, open-source oceanographic instrument, built from relatively accessible components, that allows ocean knowledge seekers to collect data on salinity, temperature, and depth in waters as deep as 140 m, with depth accurate to <1 cm, temperature to ±0.1°C, and a salinity error rate of 1%, with a 90% response time of 1 second. The OpenCTD is an open, adaptable platform that allows users to integrate other sensors (e.g., dissolved oxygen, pH) to fit their specific needs or questions. The utility of the OpenCTD for both STEM education and community oceanography is demonstrated in real-world case studies. The OpenCTD offers researchers, community groups, educators, managers, and other ocean knowledge seekers the ability to collect baseline data about their local waters at a fraction of the cost of commercial alternatives and, for most use cases, with comparable data quality. [ABSTRACT FROM AUTHOR]

Published

2024

24. Coordination Mechanism and Empirical Research on Marine Science Technology Innovation and Marine Eco-civilization: A Case Study of Coastal Areas of China.

Author

Chen, Xiaolong, Liang, Chenlu, and Di, Qianbin

Subjects

*MARINE engineering, *MARINE sciences, *EMPIRICAL research, *SUSTAINABLE development

Abstract

Marine science technology innovation provides power and guarantees for marine eco-civilization construction, which provides direction and material support for marine science technology innovation. Therefore, the coordinated development of the two is of great significance to the marine economy sustainable development in China's coastal areas. On the basis of clarifying the connotations of marine science technology innovation and marine eco-civilization in China's coastal areas from 2006 to 2019, the mechanism for their coordinated development was analysed. A comprehensive indicator system based on the connotation of the two was constructed, and the coordinated development relationship was empirically tested using the coupled coordination model and the panel vector autoregressive (PVAR) model. The results show that: 1) the level of China's coastal marine science technology innovation continues to improve, gradually forming the core of the development of marine science technology innovation in the north, east and south of Shandong, Shanghai and Guangdong; the level of marine eco-civilization development fluctuating upward trend, showing obvious spatial differentiation characteristics. 2) The degree of coordination of marine science technology innovation and marine eco-civilization is growing over time. There is no causal relationship between marine science technology innovation and marine eco-civilization in the northern marine economic circle, but there is a two-way causal relationship between the two in the eastern and southern marine economic circles. 3) Marine eco-civilization shows a significant positive and continuous impact on marine science technology innovation, and marine science technology innovation shows a long-term, continuous, fluctuating, and lagging impact on marine eco-civilization. The overall role of marine eco-civilization on marine science technology innovation is dominant, and there are significant differences in the impact effects of the two major marine economic circles. [ABSTRACT FROM AUTHOR]

Published

2024

25. Building Bridges for Ocean Sustainability: The Evolution and Impact of the Early Career Ocean Professional (ECOP) Programme.

Author

Roman, Raphael, Kostianaia, Evgeniia, Bowes, Ashley, Satterthwaite, Erin, Savage, Conor, Ilosvay, Xochitl Edua Elias, Fox, Natalie, Boujmil, Ines, Nocito, Emily, Mohamed Santamaria, Sara, Maggioni, Tecla, Ndah, Anthony, Onwubiko, Chinomso, Higa, Karina, Akoko Juma, Gabriel, Nyambura Mwangi, Pauline, Offei-Darko, Lord, Khatib, Laura, Elegbede, Isa, and Oguguah, Ngozi

Subjects

CAREER development, CAPACITY building, NON-self-governing territories, MARINE sciences, SUSTAINABILITY, INFORMATION sharing

Abstract

Since its endorsement as a global network Programme in June 2021, the Early Career Ocean Professional (ECOP) Programme has been instrumental in supporting ocean professionals worldwide through funding, training, networking opportunities, and career development initiatives. Rooted in the vision of elevating diverse perspectives, the ECOP Programme fosters knowledge exchange between experienced professionals and ECOPs to promote ocean sustainability. As the UN Decade of Ocean Science for Sustainable Development (2021-2030) enters its fourth year of implementation, the ECOP Programme has grown and diversified to a formidable extent, both geographically and thematically. With over 5,200 ECOPs from 151 countries and overseas territories, the global ECOP community is currently dispersed across five regional nodes and more than 40 national hubs. This commentary brings some of the most active ECOP nodes into the limelight, amplifying their collective efforts to better understand, engage, and empower the next generation of ocean professionals across different cultural contexts. This is also an opportunity to showcase the successes, milestones, and challenges that ECOP nodes have encountered over the past 2 years, including on thematic priorities such as communications and outreach, capacity development, and ocean literacy. Moving forward, the ECOP Programme aims to further expand geographically, enhance funding capacities, deepen capacity development efforts, and promote greater awareness of the UN Ocean Decade ecosystem and its vast portfolio of endorsed Actions. As the next generation of ocean professionals will inherit our interconnected ocean beyond 2030, building trust, transferring knowledge, and taking true ownership of the global ocean agenda are paramount. [ABSTRACT FROM AUTHOR]

Published

2024

26. Corrigendum: Microplastics in sea surface waters in the Southern Bight of the North Sea.

Subjects

MARINE debris, FISHING nets, SEAWATER, MARINE sciences, FISHERY sciences, PLASTIC marine debris

Abstract

The document is a corrigendum for an article titled "Microplastics in sea surface waters in the Southern Bight of the North Sea." It corrects errors in the unit of measurement used for microplastics in the original publication, changing "mm" to "μm" throughout the text. The corrections were made in the Introduction, Materials and Methods, Results, Discussion, and Conclusion sections of the article. The authors emphasize that these corrections do not alter the scientific conclusions of the study. [Extracted from the article]

Published

2024

27. Editorial: Biogeochemical responses to physical processes in the North Pacific and its adjacent marginal seas.

Author

Wen-Zhou Zhang, Wei-Dong Zhai, and Hongjie Wang

Subjects

ENVIRONMENTAL sciences, EARTH sciences, COASTAL ecology, MARINE sciences, RED tide, TYPHOONS

Abstract

This document is an editorial published in the journal Frontiers in Marine Science. It discusses the biogeochemical responses to physical processes in the North Pacific and its adjacent marginal seas. The editorial highlights the importance of understanding the effects of physical processes, such as wind-driven mixing, boundary currents, and upwelling, on ocean chemical compounds, primary productivity, and carbon sequestration. The document also mentions eight research articles included in the special volume, which cover various aspects of biogeochemical responses to physical processes, including the impact of tropical cyclones on nutrient supply and phytoplankton blooms, the influence of mesoscale eddies on biological activity, and the driving factors of red tides. The editorial concludes by emphasizing the complexity of marine biogeochemical responses to physical processes and the need for further research in this field. [Extracted from the article]

Published

2024

28. $100M Gift to Establish William & Mary's Batten School of Coastal and Marine Sciences.

Author

Wall, Jennifer Page

Subjects

*COMMUNITY-school relationships, *MARINE sciences, *BUSINESS schools, *SCIENCE education, *HIGHER education & state

Published

2024

29. Technologically Sensing the Underwater World

Author

Rodineliussen, Rasmus and Rodineliussen, Rasmus

Published

2024

30. Interlude: Connecting the Parts

Author

Rodineliussen, Rasmus and Rodineliussen, Rasmus

Published

2024

31. IN MEMORIAM ROBERT M. INGLE 1917-1997

Author

Geiger, Stephen P.

Subjects

Marine sciences, Wildlife conservation, Natural resources, Research institutes, Biological sciences, Zoology and wildlife conservation, National Shellfisheries Association

Abstract

Visitors to the headquarters of the Fish and Wildlife Research Institute (FWRI) in St. Petersburg, FL, the Research Division of the Florida Fish and Wildlife Conservation Commission, typically enter through [...]

Published

2023

32. Researchers at Sun Yat-sen University Release New Data on Life Science (Exploration and Characterization of Antimicrobial Peptides From Shrimp litopenaeus Vannamei By a Genomic and Transcriptomic Approach)

Subjects

Marine sciences, Peptides, Physical fitness, Health

Abstract

2024 SEP 14 (NewsRx) -- By a News Reporter-Staff News Editor at Obesity, Fitness & Wellness Week -- Data detailed on Life Science have been presented. According to news originating [...]

Published

2024

33. Giant waves, monster winds and Earth's strongest current: here's why the Southern Ocean is a global engine room.

Author

Bennetts, Luke, Shakespeare, Callum, and Vreugdenhil, Catherine

Subjects

ROGUE waves, MARINE sciences, OCEAN, ENGINES

Abstract

The scientific and broader community must join together to advance Southern Ocean science and protect this vital natural asset. [ABSTRACT FROM AUTHOR]

Published

2024

34. 30 by 30: How do we get there? RESEARCHERS CONTRIBUTE TO A BOLD INITIATIVE TO CONSERVE THE GLOBAL OCEAN.

Author

Nevala, Amy E.

Subjects

*RESEARCH personnel, *OCEAN, *OCEAN mining, *DEEP-sea corals, *MESOPELAGIC zone, *GREEN turtle, *MARINE sciences

Abstract

The article focuses on the "30 by 30" initiative to conserve 30 Percent of the global ocean by 2030, addressing biodiversity loss, sustainable fisheries, and the use of advanced technologies like artificial intelligence and robotics in ocean conservation efforts. It highlights international collaboration and the scientific push to understand and protect marine ecosystems, emphasizing the urgency and challenges of achieving this ambitious conservation goal.

Published

2024

35. The biophysics of water in cell biology: perspectives on a keystone for both marine sciences and cancer research.

Author

Pouliquen, Daniel L.

Subjects

AQUATIC biology, CYTOLOGY, BIOPHYSICS, MARINE sciences, MARINE biology, PROTEIN-ligand interactions, MOLECULAR diagnosis

Abstract

The biophysics of water, has been debated over more than a century. Although its importance is still underestimated, significant breakthroughs occurred in recent years. The influence of protein condensation on water availability control was documented, new findings on water-transport proteins emerged, and the way water molecules rearrange to minimize free energy at interfaces was deciphered, influencing membrane thermodynamics. The state of knowledge continued to progress in the field of deep-sea marine biology, highlighting unknown effects of high hydrostatic pressure and/or temperature on interactions between proteins and ligands in extreme environments, and membrane structure adaptations. The role of osmolytes in protein stability control under stress is also discussed here in relation to fish egg hydration/buoyancy. The complexity of water movements within the cell is updated, all these findings leading to a better view of their impact on many cellular processes. The way water flow and osmotic gradients generated by ion transport work together to produce the driving force behind cell migration is also relevant to both marine biology and cancer research. Additional common points concern water dynamic changes during the neoplastic transformation of cells and tissues, or embryo development. This could improve imaging techniques, early cancer diagnosis, and understanding of the molecular and physiological basis of buoyancy for many marine species. [ABSTRACT FROM AUTHOR]

Published

2024

36. Editorial: Deep learning for marine science.

Author

Haiyong Zheng, Hongsheng Bi, Xuemin Cheng, and Benfield, Mark C.

Subjects

DEEP learning, MARINE sciences, ARTIFICIAL neural networks, CONVOLUTIONAL neural networks, UNDERWATER imaging systems, CORAL trout, GENERATIVE adversarial networks

Abstract

This document is an editorial published in the journal Frontiers in Marine Science, discussing the application of deep learning technology in marine science research. It highlights the potential of deep learning in various research fields, including biology, ecosystems, climate, energy, and physical and chemical interactions. The document also provides a summary of 39 research papers published in the journal, covering topics such as marine image enhancement, underwater visual recognition, dataset and labeling, and marine process prediction. The papers explore different methods and techniques to improve the quality and analysis of underwater images and data. The studies aim to enhance our understanding of marine life and ecosystems while also addressing challenges in data collection and analysis. [Extracted from the article]

Published

2024

37. Characterization of ocean and coastal features using EOS-04 and application in deciphering its spatio-temporal dynamics.

Author

Ramakrishnan, Ratheesh, Bhowmick, Suchandra Aich, Arun Kumar, S. V. V., Mandal, Anup Kumar, Seemanth, M., and Chaudhary, Aditya

Subjects

*INTERNAL waves, *OCEAN, *MARINE sciences, *EARTH sciences, *GENETIC algorithms, *TEMPORAL databases, *COASTAL zone management

Abstract

Here we discuss various coastal and ocean science applications of the Earth Observation Satellite-04 (EOS04) mission by the Indian Space Research Organisation. Automated oil spill detection using EOS-04, Medium Resolution ScanSAR data is carried out that involves segmenting of dark regions and classification of oil spills from look-alikes using a rank based algorithm. Lagrangian forecasting model is then used to predict the oil spill track. Genetic algorithm is employed to convert backscatter from EOS-04 into Significant Wave Height and wave spectra. The wavelength and propagation direction of ocean internal solitary waves are estimated using EOS-04 data. High resolution data in Fine Resolution Stripmap mode is used to estimate coastal bathymetry based on wave shoaling effect. The unique ability of EOS-04, with a range of spatial resolutions and various modes of operation form an essential ocean observation dataset that enables the scientific community to improve the understanding of complex coastal ocean processes. [ABSTRACT FROM AUTHOR]

Published

2024

38. Advances in life‐history knowledge for 35 seahorse species from community science.

Author

Camins, Elsa, Stanton, Lily M., Correia, Miguel, Foster, Sarah J., Koldewey, Heather J., and Vincent, Amanada C. J.

Subjects

*SEA horses, *MARINE resources conservation, *SPECIES, *SCIENCE projects, *MARINE sciences

Abstract

Marine community science presents an important route to gather valuable scientific information while also influencing local management and policy, thus contributing to marine conservation efforts. Because seahorses are cryptic but charismatic species, they are good candidates for engaging diverse people to help overcome the many gaps in biological knowledge. We have synthesized information contributed to the community science project iSeahorse from October 2013 to April 2022 for 35 of 46 known seahorse species. We then compared the obtained results with information in existing IUCN Red List assessments, executed from 2014 to 2017, to explore the potential of iSeahorse in expanding seahorse knowledge. Our results show updated geographic ranges for 7 seahorse species, new habitats described for 24 species, observations outside the previously recorded depth range for 14 species, and new information on sex ratio for 15 species and on pregnancy seasonality for 11 species. As one example of the power of iSeahorse, contributed observations on Coleman's pygmy seahorse (Hippocampus colemani) indicated that its geographic range is thousands of square kilometers larger, its habitat more diverse, and its depth range shallower than previously known. It is clear that iSeahorse is expanding knowledge on seahorses to a level that will help improve IUCN Red List assessments. The power of community science for marine conservation in general needs to be fully explored. [ABSTRACT FROM AUTHOR]

Published

2024

39. A Review of Path Planning Methods for Marine Autonomous Surface Vehicles.

Author

Wu, Yubing, Wang, Tao, and Liu, Shuo

Subjects

AUTONOMOUS robots, AUTONOMOUS vehicles, MARINE sciences, MACHINE learning, ENVIRONMENTAL protection, SAILBOATS

Abstract

A marine autonomous surface vehicle (ASV) is a kind of autonomous marine robot with intelligent and flexible use advantages. They are mainly divided into two categories: unmanned vessels and unmanned sailboats. Marine ASVs are essential in marine science, industry, environmental protection, and national defense. One of the primary challenges faced by marine ASVs is autonomously planning paths in an intricate marine environment. Numerous research findings have surfaced in recent years, including the combination with popular machine learning. However, a systematic literature review is still lacking, primarily a comprehensive comparison of two types of ASV path planning methods. This review first introduces the problem and evaluation indicators of path planning for ASVs. Then, aiming at unmanned vessels and sailboats, respectively, it sorts out various path planning algorithms proposed in the existing literature, including the advantages and limitations of both kinds of ASVs, and discusses them in combination with evaluation indicators. Also, this paper explores how marine environmental factors affect path planning and its corresponding treatment methods. Finally, this review summarizes the challenges of unmanned ship path planning, proposes potential technical solutions and future development directions, and aims to provide references for further development in this field. [ABSTRACT FROM AUTHOR]

Published

2024

40. An Underwater Organism Image Dataset and a Lightweight Module Designed for Object Detection Networks.

Author

Huang, Jiafeng, Zhang, Tianjun, Zhao, Shengjie, Zhang, Lin, and Zhou, Yicong

Subjects

OBJECT recognition (Computer vision), DEEP learning, ACOUSTIC imaging, COMPUTER vision, EVIDENCE gaps, COMPUTER performance, ECHO, MARINE sciences

Abstract

Long-term monitoring and recognition of underwater organism objects are of great significance in marine ecology, fisheries science and many other disciplines. Traditional techniques in this field, including manual fishing-based ones and sonar-based ones, are usually flawed. Specifically, the method based on manual fishing is time-consuming and unsuitable for scientific researches, while the sonar-based one, has the defects of low acoustic image accuracy and large echo errors. In recent years, the rapid development of deep learning and its excellent performance in computer vision tasks make vision-based solutions feasible. However, the researches in this area are still relatively insufficient in mainly two aspects. First, to our knowledge, there is still a lack of large-scale datasets of underwater organism images with accurate annotations. Second, in consideration of the limitation on hardware resources of underwater devices, an underwater organism detection algorithm that is both accurate and lightweight enough to be able to infer in real time is still lacking. As an attempt to fill in the aforementioned research gaps to some extent, we established the Multiple Kinds of Underwater Organisms (MKUO) dataset with accurate bounding box annotations of taxonomic information, which consists of 10,043 annotated images, covering eighty-four underwater organism categories. Based on our benchmark dataset, we evaluated a series of existing object detection algorithms to obtain their accuracy and complexity indicators as the baseline for future reference. In addition, we also propose a novel lightweight module, namely Sparse Ghost Module, designed especially for object detection networks. By substituting the standard convolution with our proposed one, the network complexity can be significantly reduced and the inference speed can be greatly improved without obvious detection accuracy loss. To make our results reproducible, the dataset and the source code are available online at https://cslinzhang.github.io/MKUO-and-Sparse-Ghost-Module/. [ABSTRACT FROM AUTHOR]

Published

2024

41. Sea Surface Height Wavenumber Spectrum from Airborne Interferometric Radar Altimeter.

Author

He, Jinchao, Xu, Yongsheng, Sun, Hanwei, Jiang, Qiufu, Yang, Lei, Kong, Weiya, and Liu, Yalong

Subjects

*RADAR in aeronautics, *ALTIMETERS, *MARINE sciences, *WAVENUMBER, *SPECTRUM analysis, *RADAR

Abstract

The proposed "Guanlan" ocean science satellite, led by China's Laoshan Laboratory, includes an interferometric radar altimeter (IRA) as a key payload. As an integral part of its development, an airborne IRA experiment was conducted on 6 November 2021, with a flight path of approximately 90 km in the South China Sea. This study investigates the IRA's ability to observe ocean sea surface height (SSH) across scales ranging from meters to mesoscale. The sea surface height anomaly (SSHA) of the IRA is aligned with the SSHA of the AVISO at scales greater than 30 km, but also demonstrates the ability to capture small-scale SSHA changes in two dimensions. We analyzed wavenumber spectra of SSHA obtained from the airborne IRA, ICESat-2, and SARAL/AltiKa satellite for this region. The results show a good agreement in power spectral density (PSD) levels between ICESat-2, SARAL/AltiKa and IRA at scales larger than 30 km. Within the submesoscale range of 1–10 km, the IRA SSHA spectrum exhibits a distinctly negative slope and the lowest energy level. The minimum PSD level of the IRA fell in the range of 10−4–10−3 m2/cycle/km, at scales around 1 km, which is more than an order of magnitude lower than that of ICESat-2, forming a spectral gap that is in agreement with the theoretical expectation. Furthermore, IRA-derived wave direction and significant wave height matched well with the MFWAM wave data. The results of this study underscore the considerable potential of airborne IRA in capturing SSHA across a range of scales, from oceanic waves to submesoscale. [ABSTRACT FROM AUTHOR]

Published

2024

42. A personal reflection on changes in marine science education over the past sixty years.

Author

Brusca, Richard C

Subjects

*SCIENCE education, *STUDENT publications, *SCIENCE students, *UNIVERSITY faculty, *MARINE sciences

Abstract

Changes and needs in marine science (and natural science in general) training over the past six decades are discussed. Among these are: new technological advances; the loss of -ology courses; the loss of field courses and sense of place opportunities for students; the need for a more interdisciplinary approach to training natural science students; a need to better expose our students to threats to Earth's biocultural diversity; a need to include more humanities in our student training, including addressing diminished readership and appreciation of the great books; the nature of creativity; the perils of the internet; and university emphasis on faculty overhead dollars and high-profile publications at the expense of student training and more creative research. [ABSTRACT FROM AUTHOR]

Published

2024

43. Bernabé Segundo Santelices González: Miradas pasadas y de futuro para trabajar desde el mar.

Author

Marcos Espinoza-Concha, Pablo

Subjects

MARINE biology, OCEANOGRAPHY, PERIODICAL articles, SCIENTIFIC development, NATURALISTS, MARINE sciences

Abstract

Copyright of Revista de Biologia Marina y Oceanografía (RBMO) is the property of Universidad de Valparaiso, Facultad de Ciencias del Mar and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

44. State of the Art on Fe Precipitation in Porous Media: Hydrogeochemical Processes and Evolving Parameters.

Author

Cao, Wenran, Yan, Guanxi, Hofmann, Harald, and Scheuermann, Alexander

Subjects

POROUS materials, POROSITY, REGIONAL development, EVIDENCE gaps, INTERTIDAL zonation, MARINE sciences

Abstract

The mixing of terrestrial groundwater and seawater creates dynamic reaction zones in intertidal areas, where land-derived Fe(II) is oxidized to Fe(III) and then precipitates as Fe hydroxides at the groundwater–seawater interface. These hydrogeochemical processes contribute to the formation of iron bands at the saltwater wedge (SW) and beneath the upper saline plume (USP). This study provides a comprehensive review of physical and geochemical processes at field scale in coastal areas, explores the impact of mineral precipitation on pore structure at pore scale, and synthesizes reactive transport modeling (RTM) approaches for illustrating continuum-scale soil physio-chemical parameters during the evolution of porous media. Upon this review, knowledge gaps and research needs are identified. Additionally, challenges and opportunities are presented. Therefore, we reach the conclusion that the incorporation of observational data into a comprehensive physico-mathematical model becomes imperative for capturing the pore-scale processes in porous media and their influence on groundwater flow and solute transport at large scales. Additionally, a synergistic approach, integrating pore-scale modeling and non-invasive imaging, is equally essential for providing detailed insights into intricate fluid–pore–solid interactions for future studies, as well as facilitating the development of regional engineering-scale models and physio-chemical coupled models with diverse applications in marine science and engineering. [ABSTRACT FROM AUTHOR]

Published

2024

45. Global spatial dataset of mangrove genus distribution in seaward and riverine margins.

Author

Twomey, Alice and Lovelock, Catherine

Subjects

MANGROVE plants, WETLANDS, WETLAND ecology, COASTAL engineering, SPECIES distribution, MARINE sciences

Abstract

Mangroves are nature-based solutions for coastal protection however their ability to attenuate waves and stabilise and accrete sediment varies with their species-specific architecture and frontal area. Hydrodynamic models are typically used to predict and assess the protection afforded by mangroves, but without species or genus distribution information, the results can be significantly different from reality. Data on the frontal genus of mangroves exposed to waves and tides can provide information that can be used in hydrodynamic models to more accurately forecast the protection benefit provided by mangroves. Globally, frontal species were identified from existing mangrove zonation diagrams to create a global mangrove genus distribution map. This dataset aims to improve the accuracy of hydrodynamic models. Data may be of interest to researchers in coastal engineering, marine science, wetland ecology and blue carbon. [ABSTRACT FROM AUTHOR]

Published

2024

46. APPLIED EDUCATION PROGRAMMING: Four Exemplars in Environmental Literacy and Teacher Professional Development.

Author

Bruno, Barbara C., Cackowski, Celia, Frederick, John Adam, Vincent, Robert, Bennett, Andrew, Böttjer-Wilson, Daniela, Engels, Jennifer, Flight, Chris, Lang, Amy, Lawrence, Lisa Ayers, Smith, Bethany, and Takacs, Jacqueline

Subjects

*TEACHER development, *ENVIRONMENTAL literacy, *SCIENTIFIC communication, *TEACHER training, *MARINE sciences, *COMPUTER literacy

Abstract

This paper shares four Sea Grant-funded projects from across the United States. The Hawai'i project integrates Western science and Hawaiian culture in placeand community-based teaching. The Maryland program takes a project-based learning approach to aquaculture education in the formal education system. The Massachusetts (MIT) project focuses on state-of-the-art technology in engineering, robotics, and ocean science. The Virginia project emphasizes science communication and lesson plan design. What all four projects have in common is their focus on environmental literacy and teacher professional development in formal education. This approach aims to raise the quality of STEM instruction by expanding teachers' knowledge, skills, and resources. Training teachers also efficiently utilizes resources by maximizing the number of students we ultimately reach, thereby creating sustainability. [ABSTRACT FROM AUTHOR]

Published

2024

47. Reflections on international ocean science and ocean governance: Can our global structures rise to the occasion?

Author

Hill, Katherine Louise

Subjects

MARINE sciences, UNITED Nations Convention on the Law of the Sea (1982), SUSTAINABILITY

Abstract

There is increasing awareness that the ocean touches all aspects of our lives and that a healthy ocean is central to a healthy planet and sustainable future. The ocean is a highly connected system and ocean science is characterized by voluntary international collaboration supported by an enthusiastic and engaged community. Increasingly, it is being recognized that international structures and instruments need to be stronger and more holistic than the current arrangements. This article outlines some perspectives on this, drawing on experience in ocean science and scientists at national, international and intergovernmental levels. [ABSTRACT FROM AUTHOR]

Published

2024

48. AI2ES: The NSF AI Institute for Research on Trustworthy AI for Weather, Climate, and Coastal Oceanography.

Author

McGovern, Amy, Ebert‐Uphoff, Imme, Barnes, Elizabeth A., Bostrom, Ann, Cains, Mariana G., Davis, Phillip, Demuth, Julie L., Diochnos, Dimitrios I., Fagg, Andrew H., Tissot, Philippe, Williams, John K., and Wirz, Christopher D.

Subjects

TRUST, ARTIFICIAL intelligence, RESEARCH institutes, MARINE sciences, ATMOSPHERIC sciences, OCEANOGRAPHY

Abstract

The NSF AI Institute for Research on Trustworthy AI in Weather, Climate, and Coastal Oceanography (AI2ES) focuses on creating trustworthy AI for a variety of environmental and Earth science phenomena. AI2ES includes leading experts from AI, atmospheric and ocean science, risk communication, and education, who work synergistically to develop and test trustworthy AI methods that transform our understanding and prediction of the environment. Trust is a social phenomenon, and our integration of risk communication research across AI2ES activities provides an empirical foundation for developing user‐informed, trustworthy AI. AI2ES also features activities to broaden participation and for workforce development that are fully integrated with AI2ES research on trustworthy AI, environmental science, and risk communication. [ABSTRACT FROM AUTHOR]

Published

2024

49. Editorial: Frontiers in marine sciences, social sciences and engineering research related to marine (renewable) energy development

Author

Shengjie Rui, Zhen Guo, Zefeng Zhou, Zhenkui Wang, Guanqiong Ye, and Dongfang Ma

Subjects

marine sciences, marine social sciences, marine engineering, marine energy, renewable energy, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Published

2024

50. MSEAS 2024: Workshop for ECOPs - "An Evening with the Global Ocean".

Author

Matsubara, Hana, Thébaud, Olivier, Rice, Jake, Frusher, Stewart, and Buchholzer, Hélène

Subjects

CAREER development, MARINE resource management, BLUE economy, COASTAL zone management, CORPORATION secretaries, MARINE sciences

Abstract

The article discusses the MSEAS 2024 workshop for Early Career Ocean Professionals (ECOPs) and their active participation in discussions and presentations. The workshop included an ECOP Evening Event with panelists from international organizations discussing global ocean policy. The article also highlights key issues discussed during open discussions, including the science-policy interface, international collaboration, interdisciplinary research, and career development. The importance of stepping out of one's comfort zone and strengthening mutual benefits between ECOPs and international organizations is emphasized. The article concludes by providing information on organizations that support ECOPs and encourages contact with researchers in these organizations. [Extracted from the article]

Published

2024