Relevant bibliographies by topics / Marine environmental monitoring

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
  6. Reports

Academic literature on the topic 'Marine environmental monitoring'

Author: Grafiati
Published: 3 June 2025
Last updated: 31 July 2025

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Journal articles on the topic "Marine environmental monitoring"

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McIntyre, A. D. "Overview of marine environmental monitoring." Proceedings of the Royal Society of Edinburgh. Section B. Biological Sciences 103 (1995): 247–58. http://dx.doi.org/10.1017/s0269727000006047.

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SynopsisMonitoring in the marine environment is selectively reviewed and illustrated by examples of programmes covering water, sediments and biota at both global and site-specific levels. Against this background the monitoring work at Sullom Voe is considered, and the optimal approach to oil terminal monitoring is discussed.
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Bresler, Vladimir, Avigdor Abelson, Lev Fishelson, Tamar Feldstein, Michael Rosenfeld, and Ofer Mokady. "Marine molluscs in environmental monitoring." Helgoland Marine Research 57, no. 3-4 (2003): 157–65. http://dx.doi.org/10.1007/s10152-003-0151-5.

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Bresler, Vladimir, Ofer Mokady, Lev Fishelson, Tamar Feldstein, and Avigdor Abelson. "Marine molluscs in environmental monitoring." Helgoland Marine Research 57, no. 3-4 (2003): 206–11. http://dx.doi.org/10.1007/s10152-003-0155-1.

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Feldstein, Tamar, Yoel Kashman, Avigdor Abelson, et al. "Marine molluscs in environmental monitoring." Helgoland Marine Research 57, no. 3-4 (2003): 212–19. http://dx.doi.org/10.1007/s10152-003-0156-0.

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TABATA, Kenji. "Environmental monitoring through marine Photobacterium." Journal of Environmental Conservation Engineering 17, no. 10 (1988): 623–27. http://dx.doi.org/10.5956/jriet.17.623.

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Moore, Michael N. "Lysosomal cytochemistry in marine environmental monitoring." Histochemical Journal 22, no. 4 (1990): 187–91. http://dx.doi.org/10.1007/bf02386003.

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Kang, Min Jie, and Wei Xin Luan. "Marine Environmental Carrying Capacity Monitoring System: A Monitoring Framework to Achieve Marine Environment Adaptive Management." Advanced Materials Research 726-731 (August 2013): 1504–7. http://dx.doi.org/10.4028/www.scientific.net/amr.726-731.1504.

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The marine pollution problem is mainly related to inputs to the ocean directly or indirectly through the atmosphere, from land-based sources or land-based activities of society. The management of this is essentially associated with managing in an adequate way our activities on land. Monitoring, evaluation and adaptation are necessary to ensure that marine management measures are both effective and efficient. Marine environmental carrying capacity monitoring system is a monitoring framework to achieve marine environment adaptive management, the core of the system is monitoring marine environmen
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Yang, Jing, Chao Li, Linus Shing Him Lo, et al. "Artificial Intelligence-Assisted Environmental DNA Metabarcoding and High-Resolution Underwater Optical Imaging for Noninvasive and Innovative Marine Environmental Monitoring." Journal of Marine Science and Engineering 12, no. 10 (2024): 1729. http://dx.doi.org/10.3390/jmse12101729.

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To effectively protect the marine environment, it is crucial to establish effective environ mental monitoring platforms. Traditional marine environmental monitoring methods heavily rely on morphological identification and field expertise, with the sampling process being disruptive and potentially destructive to vulnerable marine environments. In light of emerging biomonitoring needs and biodiversity declines, we reviewed the urgently needed, ongoing advances in developing effective, noninvasive, and innovative monitoring methods and systems to examine the complex marine environment for better
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Hedman, Jenny E., Heinz Rüdel, Jens Gercken, et al. "Eelpout (Zoarces viviparus) in marine environmental monitoring." Marine Pollution Bulletin 62, no. 10 (2011): 2015–29. http://dx.doi.org/10.1016/j.marpolbul.2011.06.028.

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Pearce, Jack B. "A short history of marine environmental monitoring." Marine Pollution Bulletin 37, no. 1-2 (1998): 1–2. http://dx.doi.org/10.1016/s0025-326x(98)00123-4.

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Dissertations / Theses on the topic "Marine environmental monitoring"

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Gong, Weidong. "Ocean sensors, for marine environmental monitoring." Thesis, University of Southampton, 2010. https://eprints.soton.ac.uk/143801/.

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Various sensors and instruments were developed to measure the chemical and physical properties of sea water, but many are expensive and too large to be used on mass deployed vehicles such as the Argo float and submersed gliders. Marine mammal and fish tags require further sensor miniaturisation. This thesis describes the development of new in-situ micro sensor technology for marine environmental monitoring. Nitrite and nitrate are two forms of dissolved inorganic nitrogen in sea water and their availability is a key factor in the regulation of primary productivity in the sea. The in-situ deter
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Osterloff, Jonas [Verfasser]. "Computer Vision for Marine Environmental Monitoring / Jonas Osterloff." Bielefeld : Universitätsbibliothek Bielefeld, 2018. http://d-nb.info/1169314678/34.

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Graffelman, Jan. "Contributions to the multivariate Analysis of Marine Environmental Monitoring." Doctoral thesis, Universitat Politècnica de Catalunya, 2000. http://hdl.handle.net/10803/6525.

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The thesis parts from the view that statistics starts with data, and starts by introducing the data sets studied: marine benthic species counts and chemical measurements made at a set of sites in the Norwegian Ekofisk oil field, with replicates and annually repeated. An introductory chapter details the sampling procedure and shows with reliability calculations that the (transformed) chemical variables have excellent reliability, whereas the biological variables have poor reliability, except for a small subset of abundant species. Transformed chemical variables are shown to be approximately nor
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Francisco, Francisco. "Sonar for environmental monitoring of marine renewable energy technologies." Licentiate thesis, Uppsala universitet, Elektricitetslära, 2016. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-314065.

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Human exploration of the hydrosphere is ever increasing as conventional industries grow and new industries emerge. A new emerging and fast-growing industry is the marine renewable energy. The last decades have been characterized by an accentuated development rate of technologies that can convert the energy contained in stream flows, waves, wind and tides. This growth benefits from the fact that human society has become notably aware of the well-being of the environment that we all live in. This brings a human desire to implement technologies which cope better with the natural environment. Yet,
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Hess, Philipp. "The determination and environmental significance of planar aromatic compounds in the marine environment." Thesis, Robert Gordon University, 1998. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.388494.

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Tsui, Man-leung. "Biological monitoring and its value in assessing the marine environment of Hong Kong /." Hong Kong : University of Hong Kong, 1996. http://sunzi.lib.hku.hk/hkuto/record.jsp?B18040056.

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Swift, Clare. "Marine environmental monitoring of a ship-based seawater scrubber system." Thesis, University of Newcastle Upon Tyne, 2009. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.500933.

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The shipping industry is becoming increasingly visible on the global environmental agenda as air emissions from vessels make an increasingly conspicuous contribution to air quality. With the forecast expansion of world trade; scientists are estimating global emissions to increase by 30% to 1.45 billion tonnes in the next decade. This would make shipping responsible for 6% of global emissions by 2020. The International Marine Organisation (IMO) Annex VI entered into force in 2005 and is currently the most important international treaty governing emissions to air from ocean going vessels. It has
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Cooper, Keith. "Marine aggregate dredging : a new regional approach to environmental monitoring." Thesis, University of East Anglia, 2013. https://ueaeprints.uea.ac.uk/48093/.

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The subject of this thesis is the marine aggregate dredging industry, and specifically the approach taken to the monitoring of environmental effects on the seabed. The thesis forms the evidence required to allow the author to be examined for a PhD by Publication, and comprises of a list of the author’s publications, a confirmation of the author’s contribution to the multi-authored papers, and a critical analysis of the published work. The critical analysis takes the form of an essay, in which a case for switching to a new system of environmental monitoring is outlined. The essay presents a log
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Michalek, Jeffrey L., Thomas W. Wagner, Joseph J. Luczkovich, and Richard W. Stoffle. "Multispectral Change Vector Analysis for Monitoring Coastal Marine Environments." Photogrammetric Engineering & Remote Sensing, 1993. http://hdl.handle.net/10150/296670.

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Documenting temporal changes to coastal zones is an essen­tial part of understanding and managing these environ­ments. The exclusive use of traditional surveying tools may not be practical for monitoring large, remote, or rapidly changing areas. This paper investigates the utility of multispectral Landsat Thematic Mapper satellite data for docu­menting changes to a Caribbean coastal zone using the change vector analysis processing technique. The area of study was the coastal region near the village of Buen Hombre on the north coast of the Dominican Republic. The primary habitats of interest
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Kruglick, Alex W. "Water Quality Monitoring in a Pilot Marine Integrated Aquaculture System." Scholar Commons, 2012. http://scholarcommons.usf.edu/etd/4110.

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Land based aquaculture systems are growing in popularity, and there is a drive to improve the efficiency of their energy and water systems for both economic and environmental benefit. Recirculating Aquaculture Systems (RAS) generally refer to systems that recycle their wastewater streams to be more or less a zero discharge facility. A more sustainable approach is emerging in the form of Integrated Aquaculture Systems (IAS) where maximum utility is realized from the various components so that fresh water use is reduced, water quality is improved, energy use is reduced, and new markets are creat
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Books on the topic "Marine environmental monitoring"

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Llansó, Roberto J. Marine sediment monitoring program. Washington State Dept. of Ecology, Environmental Investigations and Laboratory Services Program, 1998.

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Llansó, Roberto J. Marine sediment monitoring program. Washington State Dept. of Ecology, Environmental Investigations and Laboratory Services Program, 1998.

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Llansó, Roberto J. Marine sediment monitoring program. Washington State Dept. of Ecology, Environmental Investigations and Laboratory Services Program, 1998.

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Programme, United Nations Environment, Intergovernmental Oceanographic Commission, International Atomic Energy Agency, and Oceans and Coastal Areas Programme Activity Centre., eds. Standard chemical methods for marine environmental monitoring. UNEP, 1988.

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National Research Council (U.S..). Committee on a Systems Assessment of Marine Environmental Monitoring., ed. Managingtroubled waters: The role of marine environmental monitoring. National Academy Press, 1990.

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A, Newton J., and Puget Sound Ambient Monitoring Program., eds. A conceptual model for environmental monitoring of a marine system: Puget Sound Ambient Monitoring Program. The Program?, 2000.

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Woodley, James. Assessing and monitoring floatable debris. Oceans and Coastal Protection Division, Office of Wetlands, Oceans, and Watersheds, Office of Water, U.S. Environmental Protection Agency, 2002.

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Newton, J. A. A conceptual model for environmental monitoring of a marine system. Puget Sound Ambient Monitoring Program, 2000.

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Washington (State). Dept. of Ecology. Ambient Monitoring Section., Puget Sound Ambient Monitoring Program., and Tetra Tech inc, eds. Puget Sound Ambient Monitoring Program 1989: Marine sediment monitoring. Tetra Tech, 1990.

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Janzen, Carol D. Marine water column ambient monitoring plan: Final report. Washington State Dept. of Ecology, Environmental Investigations and Laboratory Services Program, Ambient Monitoring Section, 1992.

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Book chapters on the topic "Marine environmental monitoring"

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Kolios, Stavros, Andrei V. Vorobev, Gulnara R. Vorobeva, and Chrysostomos Stylios. "WebGIS Applications for Weather, Marine, and Atmospheric Environments." In GIS and Environmental Monitoring. Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-53086-4_2.

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Vladimirov, V. L., V. G. Lyubartsev, and V. V. Miroshnichenko. "Integrated Multidisciplinary Marine Environmental Databases." In Integrated Technologies for Environmental Monitoring and Information Production. Springer Netherlands, 2003. http://dx.doi.org/10.1007/978-94-010-0231-8_18.

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Carmona, José Alhama, Carmen Michán Doña, and Juan López-Barea. "New Trends in Aquatic Pollution Monitoring." In Environmental Problems in Marine Biology. CRC Press, 2017. http://dx.doi.org/10.1201/9781315119113-8.

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Holmer, Marianne, Pia Kupka Hansen, Ioannis Karakassis, Joseph A. Borg, and Patrick J. Schembri. "Monitoring of Environmental Impacts of Marine Aquaculture." In Aquaculture in the Ecosystem. Springer Netherlands, 2008. http://dx.doi.org/10.1007/978-1-4020-6810-2_2.

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De Simone, Michela, Anna Di Cosmo, Ornella Nonnis, et al. "Analysis of the amphipod syntaxon on hard bottoms anti-trawling structures." In Monitoring of Mediterranean Coastal Areas: Problems and Measurement Techniques. Firenze University Press, 2024. https://doi.org/10.36253/979-12-215-0556-6.16.

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This work is part of an environmental monitoring project conducted by Ispra since 2008, with the installation of two marine cables between the Lazio coast and Sardinia. Following the deployment of anti-trawl tripods, since 2017, a new Ispra monitoring plan was established to assess the integrity of the marine environment. The anti-trawl tripods have been periodically analyzed to examine various aspects of the marine area where they have been installed, including any changes in faunal and algal biodiversity resulting from the introduction of artificial structures. This study involves observing
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Malone, Thomas C., and Anthony H. Knap. "Integrated Coastal Zone Monitoring in Support of Ecosystem-Based Management of Marine Ecosystem Services." In Environmental Management of Marine Ecosystems. CRC Press, 2018. http://dx.doi.org/10.1201/9781315153933-1.

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Butt, Faiza, and Naima Hamid. "Monitoring of the Environmental Indicators in the Marine Ecosystem." In Recent Trends in Marine Toxicological Assessment. Springer Nature Switzerland, 2025. https://doi.org/10.1007/978-3-031-75713-6_2.

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Diviacco, Paolo, Massimiliano Iurcev, Rodrigo Carbajales, et al. "Citizen science based marine environmental monitoring. The MOANA60 Experience." In Ninth International Symposium “Monitoring of Mediterranean Coastal Areas: Problems and Measurement Techniques”. Firenze University Press, 2022. http://dx.doi.org/10.36253/979-12-215-0030-1.40.

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Sea water quality monitoring is extremely demanding and expensive. This results in the sea being largely under-sampled. To solve this OGS developed innovative technologies to be used within a citizen science approach. The simultaneous installation of remote sensing devices on boats of opportunity allows to build a monitoring infrastructure able to acquire, process, validate and display in real-time georeferenced data on a web portal. This work reports on a survey done in collaboration with the Moana 60 Lab initiative in the South Thyrrenian Sea.
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Mikhailov, N. N., and A. A. Vorontsov. "Dbms/Gis Applications in Integrated Marine Data Management." In Integrated Technologies for Environmental Monitoring and Information Production. Springer Netherlands, 2003. http://dx.doi.org/10.1007/978-94-010-0231-8_26.

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Suresha, H. S., D. N. Sumithra, J. N. Renuka, B. N. Deepika, and N. B. Meghana. "Application of Swarm Robotics Systems to Marine Environmental Monitoring." In Lecture Notes in Electrical Engineering. Springer Singapore, 2021. http://dx.doi.org/10.1007/978-981-16-3690-5_102.

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Conference papers on the topic "Marine environmental monitoring"

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Xin, Wenhui, Yixin He, Jie Yao, Shichun Li, and Dengxin Hua. "High-repetition-frequency lidar echo signal acquisition technology for enhanced fire monitoring." In Third Conference on Space, Atmosphere, Marine, and Environmental Optics (SAME 2025), edited by Yue Yang, Shuo Shi, and Dong Liu. SPIE, 2025. https://doi.org/10.1117/12.3071209.

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Qian, Yihua, Yaohong Zhao, Dating Pei, Chao Wang, Zhi Li та Qing Wang. "Ultra-sensitive CH4 monitoring using QEPAS and a 3.3-μm interband cascade laser". У Third Conference on Space, Atmosphere, Marine, and Environmental Optics (SAME 2025), редактори Yue Yang, Shuo Shi та Dong Liu. SPIE, 2025. https://doi.org/10.1117/12.3071764.

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Van Wyngaarden, Mallory, Nicholas W. Jeffery, Edward Horne, et al. "Evaluating an Autonomous eDNA Sampler for Marine Environmental Monitoring: Short- and Long-Term Applications." In OCEANS 2024 - Halifax. IEEE, 2024. http://dx.doi.org/10.1109/oceans55160.2024.10753841.

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Agnew, Liam, Brandi Clark, Victoria Avance, and Fritz Friedersdorf. "Atmospheric Environment Severity Monitoring for Corrosion Management." In CONFERENCE 2023. AMPP, 2023. https://doi.org/10.5006/c2023-19464.

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Abstract Environment and corrosivity monitoring devices generate data that can be used to enhance asset corrosion management practices. Best practices and analysis methods are needed to simplify extraction of actionable conclusions from these datasets. The devices monitor multiple parameters through time to enable environmental severity characterization of locations, mapping of severity within a region, and evaluation of material response. Conclusions can be drawn from this data to inform material selection in design and maintenance actions in sustainment, decreasing corrosion costs over the a
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Friedersdorf, Fritz J., Jeff Demo, Conrad Andrews, and Mateja Putic. "Sensor Suite for Monitoring Atmospheric Corrosion." In CORROSION 2012. NACE International, 2012. https://doi.org/10.5006/c2012-01450.

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Abstract Corrosion of aircraft and rotorcraft costs the U.S. Department of Defense billions of dollars annually, and is the largest maintenance cost driver for the Navy and Marine Corps.1,2 Localized corrosion, such as pitting, crevice, exfoliation, and environment assisted cracking, is difficult to detect and degrades structural integrity. Currently, corrosion control is based on costly schedule based maintenance and inspection practices. To enable more efficient condition based maintenance, a wireless corrosion monitoring system has been developed that can support embedded diagnostics and pr
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Kessler, Richard J., Rodney G. Powers, and Ivan R. Lasa. "Implementation of Advanced Electronic Techniques for Remote Monitoring of Cathodic Protection, Scour and Environmental Conditions for Marine Bridges in Florida." In CORROSION 2008. NACE International, 2008. https://doi.org/10.5006/c2008-08300.

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Abstract For over 20 years, the State of Florida has been using remote monitoring to verify the correct operation of cathodic protection systems. The demonstrated advantages of using remote monitoring have promoted the expansion of these systems to similarly monitor other conditions on the bridges on an “as needed” basis. Improvements in monitoring components, advancements in telemetry devices, and the expanding wireless communication coverage areas for faster data transmission speeds have allowed the internet to become a useful platform where the data can be transported, displayed and viewed
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Vasquez-Charcape, Yury, Gustavo Jamanca-Lino, David Sanchez-Perez, and Bruno Cevallos. "FISHER-X: AN ENGINEERING CONCEPT TO MONITOR WATER ENVIRONMENTS USING ROBOTIC BIOMIMICRY." In 24th SGEM International Multidisciplinary Scientific GeoConference 2024. STEF92 Technology, 2024. https://doi.org/10.5593/sgem2024/3.1/s12.12.

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Human activities have significantly impacted aquatic ecosystems worldwide, especially in developing countries. Acid mine drainage from mineral extraction and wastewater containing xenobiotics pose substantial threats for lakes and marine ecosystems, introducing heavy metals and increasing antibiotic resistance in pathogenic microbes. Despite the urgent need for effective solutions, many environmental liabilities remain without an adequate mapping unmapped or remediation plan, exacerbating risks for environmental health. To address these challenges, our team proposes FISHER-X, a biomimetic robo
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Ooi, Bee-Hong. "Marine Environmental Monitoring Program." In SPE Health, Safety and Environment in Oil and Gas Exploration and Production Conference. Society of Petroleum Engineers, 1994. http://dx.doi.org/10.2118/27166-ms.

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Mizaikoff, Boris, Manfred Karlowatz, and Martin Kraft. "Mid-infrared sensors for marine monitoring." In Environmental and Industrial Sensing, edited by Brian Culshaw, James A. Harrington, Michael A. Marcus, and Mohammed Saad. SPIE, 2001. http://dx.doi.org/10.1117/12.417418.

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Arthur, E. B., and B. Graham. "Jubilee Field Marine Environmental Monitoring Survey." In SPE African Health, Safety, Security, Environment, and Social Responsibility Conference and Exhibition. Society of Petroleum Engineers, 2016. http://dx.doi.org/10.2118/183575-ms.

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Reports on the topic "Marine environmental monitoring"

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Douglas, Kristin, Eugenia Naro-Maciel, Ana Porzecanski, and Patrick Shea. What’s in the Water? Using environmental DNA for Marine Monitoring and Planning. American Museum of Natural History, 2020. http://dx.doi.org/10.5531/cbc.ncep.0011.

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Coral reefs, the most biodiverse of all marine ecosystems, are of high ecological, cultural, and financial importance, yet they are declining on a global scale due to several anthropogenic factors. Current threats to coral reefs highlight the urgent need for effective research, monitoring, and management of these ecosystems. In this case study-based exercise, students will compare and contrast biodiversity information about Hawaiian reefs between traditional diver surveys and eDNA based applications, consider the benefits and limitations of each method for coral reef fish monitoring, and use t
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Przeslawski, R., B. Bruce, A. Carroll, et al. Marine Seismic Survey Impacts on Fish and Invertebrates: Final Report for the Gippsland Marine Environmental Monitoring Project. Geoscience Australia, 2016. http://dx.doi.org/10.11636/record.2016.035.

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Hasselman, Daniel J., David R. Barclay, Robert Carvagnaro, et al. Chapter 10 Supplement. Environmental Monitoring Technologies and Techniques for Detecting Interactions of Marine Animals with Marine Renewable Energy Devices. Office of Scientific and Technical Information (OSTI), 2020. http://dx.doi.org/10.2172/1633203.

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Copping, Andrea. 2020 State of the Science Report, Chapter 2: Marine Renewable Energy: Environmental Effects and Monitoring Strategies. Office of Scientific and Technical Information (OSTI), 2020. http://dx.doi.org/10.2172/1632880.

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Fu, Michelle, Lenaig Hemery, and Nichole Sather. Cost Efficiency of Environmental DNA as Compared to Conventional Methods for Biodiversity Monitoring Purposes at Marine Energy Sites. Office of Scientific and Technical Information (OSTI), 2021. http://dx.doi.org/10.2172/1984522.

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Hasselman, Daniel, David Barclay, Robert Cavagnaro, et al. 2020 State of the Science Report, Chapter 10: Environmental Monitoring Technologies and Techniques for Detecting Interactions of Marine Animals with Turbines. Office of Scientific and Technical Information (OSTI), 2020. http://dx.doi.org/10.2172/1633202.

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Keller, Mareike, Aaron J. Becker, Nikolaj Diller, et al. Monitoring ecological consequences of marine munition in the Baltic Sea 2024 - Cruise No. AL622, 14th – 21st October 2024, Kiel (Germany) – Kiel (Germany), „POST-Clear“. GEOMAR Helmholtz Centre for Ocean Research Kiel, Germany, 2024. https://doi.org/10.3289/cr_al622.

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ALKOR cruise AL622 took place as part of the project CONMAR (https://conmarmunition.eu/) which is part of the DAM mission sustainMare (https://www.sustainmare.de/). It was the continuation of the munition monitoring started within the BMBF‐funded project UDEMM (Environmental Monitoring for the Delaboration of Munition in the Sea; https://udemm.geomar.de/), the EMFF (European Maritime and Fisheries Fund) ‐funded projects BASTA (Boost Applied munition detection through Smart data detection in and AI workflows; https://www.basta‐munition.eu) and ExPloTect (Ex‐situ, near‐real‐time detection compou
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Lips, Urmas, Oliver Samlas, Vasily Korabel, Jun She, Stella-Theresa Stoicescu, and Caroline Cusack. Demonstration of annual/quarterly assessments and description of the production system. EuroSea, 2022. http://dx.doi.org/10.3289/eurosea_d6.2.

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This task set out to increase communication between the ocean monitoring and modelling communities in the Baltic Sea area. Through these improved communications, the goal was to advance and improve the HELCOM marine environmental assessments. To gain confidence in the numerical model outputs, an effort was undertaken to ensure ocean observing in-situ data, collected by multiple nations in the Baltic Sea, was assimilated into a numerical model. Here, we report on the development of indicators, as requested by our stakeholders, and we discuss if the Baltic Sea numerical modelling efforts are rea
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Keller, Mareike, Aaron J. Beck, Nikolaj Diller, et al. Monitoring ecological consequences of marine munition in the Baltic Sea 2024 - Cruise No. AL615, 2nd – 12th July 2024, Kiel (Germany) – Kiel (Germany), „MecoMM-BS I - III“. GEOMAR Helmholtz Centre for Ocean Research Kiel, Germany, 2025. https://doi.org/10.3289/cr_al615.

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ALKOR cruise AL615 took place as part of the project CONMAR (https://conmarmunition.eu/) which is part of the DAM mission sustainMare (https://www.sustainmare.de/). It was the continuation of the munition monitoring started within the BMBF‐funded project UDEMM (Environmental Monitoring for the Delaboration of Munition in the Sea; https://udemm.geomar.de/), the EMFF (European Maritime and Fisheries Fund) ‐funded projects BASTA (Boost Applied munition detection through Smart data detection in and AI workflows; https://www.basta‐munition.eu) and ExPloTect (Ex‐situ, near‐real‐time detection compou
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Kampmeier, Mareike, and Jens Greinert. AL590 Cruise Report - Monitoring ecological consequences of marine munition in the Baltic Sea 2023; 17th – 31st March 2023, Kiel (Germany) – Kiel (Germany), „MecoMM-BS - I“. Alkor-Berichte AL590. GEOMAR Helmholtz Centre for Ocean Research Kiel, Germany, 2023. http://dx.doi.org/10.3289/cr_al590.

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Abstract:
ALKOR cruise AL590 took place as part of the project CONMAR (https://conmarmunition.eu/) which is part of the DAM mission sustainMare (https://www.sustainmare.de/). It was the continuation of the munition monitoring started within the BMBF‐funded project UDEMM (Environmental Monitoring for the Delaboration of Munition in the Sea; https://udemm.geomar.de/), the EMFF (European Maritime and Fisheries Fund) ‐funded projects BASTA (Boost Applied munition detection through Smart data detection in and AI workflows; https://www.basta‐munition.eu) and ExPloTect (Ex‐situ, near‐real‐time detection compou
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