Your search keyword '"coastal environments"' showing total 488 results

1. Dispersed limitation and homogeneous selection drive the eukaryotic microbial community assembly and network stability in the coastal China sea.

Author

Zhuo Chen, Ting Gu, and Jun Sun

Subjects

COASTAL biodiversity, BIOGEOCHEMICAL cycles, ECOLOGICAL models, MICROBIAL communities, OCEANOGRAPHERS

Abstract

Eukaryotic microorganisms were the key components of marine microecosystems and were involved in biogeochemical cycling processes. Although oceanographers have emphasized their importance in open oceans, the current understanding was not comprehensive enough about the assembly processes and co-occurrence network of different fraction eukaryotic microbial communities in the coastal China sea. We used co-occurrence networks and ecological process model to investigate possible ecological interactions in two fractions (small fraction 0.22-3 mm; large fraction 3-200 mm) of eukaryotes throughout different depths and geographical regions of coastal China sea. We found that environmental distance shapes the diversity of the two fractions eukaryotic microorganisms. Dispersal limitation and homogeneous selection processes were the key drivers of eukaryotic microbial community assembly. Co-occurrence network analysis showed that the networks of the 0.2-3 mm eukaryotes more nodes and edges, with more complex interactions between microorganisms, and higher network stability than that of 3-200 mm eukaryotic microorganisms. Temperature, oxygen, salinity, and nutrients play the crucial role in the abundance of two fractions eukaryotic microorganisms. These results crystallize the knowledge of eukaryotic microbes in the coastal China sea, which was essential for addressing the challenges posed by global change. [ABSTRACT FROM AUTHOR]

Published

2024

2. Chemometrics as a tool for monitoring corrosion degradation of the selected alloys in real conditions.

Author

Vastag, Gyöngyi, Apostolov, Suzana, Ivošević, Špiro, and Rudolf, Rebeka

Subjects

*PRINCIPAL components analysis, *ALLOYS, *CORROSION in alloys, *CHEMOMETRICS, *MULTIVARIATE analysis

Abstract

Monitoring of the corrosion process of alloys in real conditions often results in extensive data, which is characterized by complex interdependence, but by a large degree of mutual deviation. First of all, the large dispersion of the obtained results makes it very difficult to draw accurate conclusions about the real influence of the tested parameters on the corrosion behavior of alloys. On the other hand, in many cases, the high interdependence between the corrosion factors can also greatly burden the analyzed system and thus make it significantly difficult to recognize the main influence. Multivariate analysis, especially the principal component analysis, is becoming increasingly popular in processing of this type of data, due to its ability to recognize and eliminate redundant data. The aim of this study was to examine the possibility of using multivariate analysis methods in the processing of the corrosion test results obtained under real conditions. Based on the obtained results, it can be concluded that used multivariate method in combination with energy dispersive spectrometer analysis can be successfully used to identify the most important corrosion factors (type of corrosion environment, exposure time and technological production processes), as well as their influence on the degradation of the tested TiNi alloys under the given conditions. [ABSTRACT FROM AUTHOR]

Published

2024

3. Salt tolerance in a neotropical orchid in the absence of local adaptation to salt spray.

Author

de Lima, Thales M., Silva, Simone F., Ribeiro, Rafael V., Sánchez‐Vilas, Julia, and Pinheiro, Fabio

Subjects

*SALT, *CHLOROPHYLL spectra, *ORCHIDS, *CHLOROPHYLL, *COASTAL plants, *PHALAENOPSIS

Abstract

Premise: Salt tolerance has rarely been investigated regionally in the neotropics and even more rarely in Orchidaceae, one of the largest families. Therefore, investigating local adaptation to salt spray and its physiological basis in Epidendrum fulgens, a neotropical orchid species, brings important new insights. Methods: We assessed the degree of salt tolerance in E. fulgens by testing whether coastal populations are more tolerant to salt, which could point to local adaptation. To understand the physiological basis of such salt tolerance, we exposed wild‐collected individuals to salt spray for 60 days, then measured leaf expansion, osmotic potential, sodium leaf concentration, chlorophyll leaf index, chlorophyll fluorescence, relative growth rate, and pressure–volume curves. Results: There is no local adaptation to salt spray since both inland and coastal plants have a high tolerance to salt stress. This tolerance is explained by the ability to tolerate high concentrations of salt in leaf tissues, which is related to the high succulence displayed by this species. Conclusions: We showed an unprecedented salt tolerance level for an orchid species, highlighting our limited knowledge of that trait beyond the traditional studied groups. Another interesting finding is that salt tolerance in E. fulgens is linked to succulence, is widespread, and is not the result of local adaptation. We suggest that E. fulgens and its allied species could be an interesting group to explore the evolution of important traits related to tolerance to salt stress, like succulence. [ABSTRACT FROM AUTHOR]

Published

2024

4. A Comparative Analysis of Bacterial and Fungal Communities in Coastal and Inland Pecan Plantations.

Author

Zhang, Shijie, Chen, Ting, Chen, Yu, Li, Shucheng, Wang, Wu, Zhao, Yuqiang, and Zhu, Cancan

Subjects

COASTAL zone management, PECAN, SUSTAINABILITY, FOREST health, ECTOMYCORRHIZAL fungi

Abstract

Pecan forests (Carya illinoinensis) are significant contributors to both food and oil production, and thrive in diverse soil environments, including coastal regions. However, the interplay between soil microbes and pecan forest health in coastal environments remains understudied. Therefore, we investigated soil bacterial and fungal diversity in coastal (Dafeng, DF) and inland (Guomei, GM) pecan plantations using high-throughput sequencing. The results revealed a higher microbial diversity in the DF plantation than in the GM plantation, significantly influenced by pH and edaphic factors. The dominant bacterial phyla were Proteobacteria, Acidobacteriota and Bacteroidota in the DF plantation, and Acidobacteriota, Proteobacteria, and Verrucomicrobiota in the GM plantation. Bacillus, Nitrospira and UTCFX1 were significantly more abundant bacterial genera in DF soil, whereas Candidatus Udaeobacter, HSB_OF53-F07 and ADurbBin063-1 were more prevalent in GM soil. Basidiomycota dominated fungal sequences in the GM plantation, with a higher relative abundance of Ascomycota in the DF plantation. Significant differences in fungal genus composition were observed between plantations, with Scleroderma, Hebeloma, and Naucoria being more abundant in DF soil, and Clavulina, Russula, and Inocybe in GM soil. A functional analysis revealed greater carbohydrate metabolism potential in GM plantation bacteria and a higher ectomycorrhizal fungi abundance in DF soil. Significantly positive correlations were detected between certain bacterial and fungal genera and pH and total soluble salt content, suggesting their role in pecan adaptation to coastal environments and saline–alkali stress mitigation. These findings enhance our understanding of soil microbiomes in coastal pecan plantations, and are anticipated to foster ecologically sustainable agroforestry practices and contribute to coastal marshland ecosystem management. [ABSTRACT FROM AUTHOR]

Published

2024

5. Biogeographic Patterns of Brazilian Rocky Reef Fauna

Author

Cordeiro, Cesar A. M. M., Floeter, Sergio R., Ferreira, Carlos E. L., Turra, Alexander, Series Editor, Coutinho, Ricardo, editor, and Christofoletti, Ronaldo A., editor

Published

2024

6. Affordances of coastal environments to support teaching and learning: outdoor learning at the beach in Scotland.

Author

Barrable, Duncan and Barrable, Alexia

Subjects

OUTDOOR education, NATURAL resources, PRIMARY schools, ADULT learning

Abstract

Outdoor and natural environments have been steadily recognised as conducive to learning and social development. Most practice and research in this field has mostly focused on green spaces, such as forests and parks, and practices such as forest school. This particular paper looks at outdoor learning in a coastal environment, which has not received as much attention. Through the lens of affordance theory, we examine the possibilities for practice in such a space. Interviews with experienced early years and primary-school practitioners provide a rich narrative of ways that the beach environment can support and extend teaching and learning. Findings suggest that space, natural resources and the elements provide a wealth of opportunities for different types of pedagogical approaches and self-directed learning and play. We examine the potential for beach environments to be used more widely for learning in primary settings. [ABSTRACT FROM AUTHOR]

Published

2024

7. Fracture Behaviour of Aluminium Alloys under Coastal Environmental Conditions: A Review.

Author

Alqahtani, Ibrahim, Starr, Andrew, and Khan, Muhammad

Subjects

ALUMINUM alloys, CRACK initiation (Fracture mechanics), FATIGUE crack growth, FRACTURE toughness, CRACK propagation (Fracture mechanics), EVIDENCE gaps

Abstract

Aluminium alloys have been integral to numerous engineering applications due to their favourable strength, weight, and corrosion resistance combination. However, the performance of these alloys in coastal environments is a critical concern, as the interplay between fracture toughness and fatigue crack growth rate under such conditions remains relatively unexplored. This comprehensive review addresses this research gap by analysing the intricate relationship between fatigue crack propagation, fracture toughness, and challenging coastal environmental conditions. In view of the increasing utilisation of aluminium alloys in coastal infrastructure and maritime industries, understanding their behaviour under the joint influences of cyclic loading and corrosive coastal atmospheres is imperative. The primary objective of this review is to synthesise the existing knowledge on the subject, identify research gaps, and propose directions for future investigations. The methodology involves an in-depth examination of peer-reviewed literature and experimental studies. The mechanisms driving fatigue crack initiation and propagation in aluminium alloys exposed to saltwater, humidity, and temperature variations are elucidated. Additionally, this review critically evaluates the impact of coastal conditions on fracture toughness, shedding light on the vulnerability of aluminium alloys to sudden fractures in such environments. The variability of fatigue crack growth rates and fracture toughness values across different aluminium alloy compositions and environmental exposures was discussed. Corrosion–fatigue interactions emerge as a key contributor to accelerated crack propagation, underscoring the need for comprehensive mitigation strategies. This review paper highlights the pressing need to understand the behaviour of aluminium alloys under coastal conditions comprehensively. By revealing the existing research gaps and presenting an integrated overview of the intricate mechanisms at play, this study aims to guide further research and engineering efforts towards enhancing the durability and safety of aluminium alloy components in coastal environments. [ABSTRACT FROM AUTHOR]

Published

2024

8. Changing ecological environment before and after coastline filling designs.

Author

Kahveci, Hilal and Onur, Makbulenur

Abstract

Coastlines are tectonically active places with an impact on physical as well as social and economic restructuring of cities. They play an essential role in the development of urban areas. Furthermore, coastal environments may offer important health benefits. They may also present numerous threats to human health and well-being time to time. With the rapid urbanization in coastal cities, the lack of urban green space and transportation problems have emerged recently, and the cities have grown towards the sea by coastal filling areas as a solution. Especially the construction of highway on the coastline in the Black Sea region of Turkey has adversely impacted relationship between the people and the sea in the city of Trabzon. In this study, initially a literature review was conducted and parameters were specified for coastline usages. A survey study was conducted with 140 individuals who actively use the coastline in the city of Trabzon, in order to specify the past and current coastline usages. The evaluation of the past and current usage shows that people want to meet the sea but feel uncomfortable with the landscape with the fillings. According to the Anova test, the unmodified form of area was chosen to ‘have a more natural landscape (5.77)’ while the modified form of area was preferred ‘to be renovated (4.12)’. This highlights the users’ longing for the past. Therefore, authorities need to address the impact of differences between parameters in depth on the usage of the area on the coastal landscape. Coastal ecology solutions should also be produced with the ecological design approaches. [ABSTRACT FROM AUTHOR]

Published

2024

9. Allochthonous Groundwater Microorganisms Affect Coastal Seawater Microbial Abundance, Activity and Diversity.

Author

Yanuka‐Golub, Keren, Belkin, Natalia, Weber, Nurit, Mayyani, Meor, Levy, Yehuda, Reznik, Itay J., Rubin‐Blum, Maxim, Rahav, Eyal, and Kiro, Yael

Subjects

SALTWATER encroachment, SEAWATER, GROUNDWATER, GROUNDWATER flow, MARINE productivity, ARTIFICIAL seawater, TERRITORIAL waters

Abstract

Submarine groundwater discharge (SGD) is a globally important process supplying nutrients and trace elements to the coastal environment, thus playing a pivotal role in sustaining marine primary productivity. Along with nutrients, groundwater also contains allochthonous microbes that are discharged from the terrestrial subsurface into the sea. Currently, little is known about the interactions between groundwater‐borne and coastal seawater microbial populations, and groundwater microbes' role upon introduction to coastal seawater populations. Here, we investigated seawater microbial abundance, activity and diversity in a site strongly influenced by SGD. In addition, through laboratory‐controlled bottle incubations, we mimicked different mixing scenarios between groundwater and seawater. Our results demonstrate that the addition of 0.1 μm filtered groundwater stimulated heterotrophic activity and increased microbial abundance compared to control coastal seawater, whereas 0.22 μm filtration treatments induced primary productivity and Synechococcus growth. 16S rRNA gene sequencing showed a strong shift from a SAR11‐rich community in the control samples to Rhodobacteraceae dominance in the <0.1 μm treatment, in agreement with Rhodobacteraceae enrichment in the SGD field site. These results suggest that microbes delivered by SGD may affect the abundance, activity and diversity of intrinsic microbes in coastal seawater, highlighting the cryptic interplay between groundwater and seawater microbes in coastal environments, which has important implications for carbon cycling. Plain Language Summary: Submarine groundwater discharge (SGD) is an important process where groundwater flows into the ocean along the coast. When the groundwater mixes with seawater, the microbes from both sources interact with each other, which can impact the diversity, activity, and amount of microbes in the coastal environment. Currently, little is known about how groundwater‐borne microbes affect marine microbial populations. Our research shows that when groundwater microbes are removed before mixing groundwater with seawater, the abundance and activity of certain microbes that consume organic matter significantly increase. Additionally, we noticed a significant difference in the types of microbes present between the sites where SGD occurs versus background (uninfluenced) coastal water, especially in terms of the microbes that consume organic matter. Overall, this study suggests that there is a connection between groundwater and seawater microbes, which can influence the delicate balance between organisms that produce carbon and those that consume it. This has important implications for how carbon cycles globally. Key Points: Groundwater discharge into the coastal zone delivers both nutrients and allochthonous microbesGroundwater microbes interact with seawater populations, by which affecting the delicate autotroph‐heterotroph balanceSubterranean microbial processes are key drivers of food webs, potentially affecting biogenic carbon fluxes in the ocean [ABSTRACT FROM AUTHOR]

Published

2024

10. Influence of Turbidity on Foraging Behaviour in Three-Spined Sticklebacks (Gasterosteus aculeatus).

Author

Lange Jensen, Lasse, Bjørn, Thomas, Hein Korsgaard, Andreas, Pertoldi, Cino, and Madsen, Niels

Subjects

*THREESPINE stickleback, *TURBIDITY, *STICKLEBACKS, *LIGHT absorption, *CAMCORDERS, *LIGHT scattering, *PREDATION

Abstract

Anthropogenic activities increase turbidity in coastal marine environments globally, and turbidity is particularly caused by eutrophication. Turbidity is a measurement of the scattering and absorption of light by suspended matter in water. An increase in turbidity influences visual predators and affects community structures and whole ecosystems. The three-spined stickleback (Gasterosteus aculeatus) is a widespread species in the northern hemispheric Pacific and Atlantic oceans. It is a visual predator and, therefore, a very well-suited species for studying the effects of increasing turbidity on foraging behaviour and activity. Sticklebacks used for this study were from an aquarium in the North Sea Oceanarium. They have been in the aquarium for around two months and were originally collected in a highly eutrophicated marine fjord system. They were individually placed in an observation aquarium, fed with krill, given 10 min to forage, and observed by video cameras. The video films were analysed to study stickleback predation behaviour. Experiments were repeated with four different turbidity treatments, ranging from a mean of 0.034 up to 10 NTU (nephelometric turbidity unit). Bentonite clay was used as a turbidity-increasing substance. A statistically significant difference in foraging behaviour and activity between the turbidity treatments was observed. The test subjects were found to lunge less for prey and had a higher feeding latency with increasing turbidity. Additionally, they were less active with increasing turbidity. The behavioural instability estimated as a variation in feeding latency increased with increasing turbidity but decreased at the highest turbidity value. Our study indicates an effect of turbidity-increasing events on the behaviour of the three-spined stickleback and potentially also other similar visual predators. [ABSTRACT FROM AUTHOR]

Published

2023

11. Tussling with seascape character assessment and assemblage theories.

Author

Jay, Stephen and Acott, Timothy

Abstract

Assemblage theory, based on the work of Manuel DeLanda, has gained in popularity amongst social scientists. However, a very different version of the theory has now been presented by Ian Buchanan, who claims that his version has much stronger roots in the philosophy of Deleuze and Guattari, from which the concept originates. A review of these two reveals the deep differences between them and their incompatibility, especially given the different ontologies upon which they are based. They can broadly be described respectively as systems-oriented and purpose-oriented approaches. These competing versions are explored further in the context of the practice of seascape character assessment. A twin analysis of a seascape character assessment exercise is carried out, which illustrates vividly the different understandings that each assemblage theory offers. However, this also suggests that each has the potential to help develop more progressive approaches to seascape practice. The choice of approach will depend on the aim of incorporating assemblage theory into this area of practice, whether to work within the rationale of, and enhance, existing assessment (DeLanda) or to interrogate the processes by which seascapes may serve particular purposes and then shape those processes (Buchanan). [ABSTRACT FROM AUTHOR]

Published

2023

12. A Comparative Analysis of Bacterial and Fungal Communities in Coastal and Inland Pecan Plantations

Author

Shijie Zhang, Ting Chen, Yu Chen, Shucheng Li, Wu Wang, Yuqiang Zhao, and Cancan Zhu

Subjects

Carya illinoinensis, coastal environments, community diversity and structure, potential functions, soil bacteria and fungi, Biology (General), QH301-705.5

Abstract

Pecan forests (Carya illinoinensis) are significant contributors to both food and oil production, and thrive in diverse soil environments, including coastal regions. However, the interplay between soil microbes and pecan forest health in coastal environments remains understudied. Therefore, we investigated soil bacterial and fungal diversity in coastal (Dafeng, DF) and inland (Guomei, GM) pecan plantations using high-throughput sequencing. The results revealed a higher microbial diversity in the DF plantation than in the GM plantation, significantly influenced by pH and edaphic factors. The dominant bacterial phyla were Proteobacteria, Acidobacteriota and Bacteroidota in the DF plantation, and Acidobacteriota, Proteobacteria, and Verrucomicrobiota in the GM plantation. Bacillus, Nitrospira and UTCFX1 were significantly more abundant bacterial genera in DF soil, whereas Candidatus Udaeobacter, HSB_OF53-F07 and ADurbBin063-1 were more prevalent in GM soil. Basidiomycota dominated fungal sequences in the GM plantation, with a higher relative abundance of Ascomycota in the DF plantation. Significant differences in fungal genus composition were observed between plantations, with Scleroderma, Hebeloma, and Naucoria being more abundant in DF soil, and Clavulina, Russula, and Inocybe in GM soil. A functional analysis revealed greater carbohydrate metabolism potential in GM plantation bacteria and a higher ectomycorrhizal fungi abundance in DF soil. Significantly positive correlations were detected between certain bacterial and fungal genera and pH and total soluble salt content, suggesting their role in pecan adaptation to coastal environments and saline–alkali stress mitigation. These findings enhance our understanding of soil microbiomes in coastal pecan plantations, and are anticipated to foster ecologically sustainable agroforestry practices and contribute to coastal marshland ecosystem management.

Published

2024

13. Transport of POPs from Source to Sea

Author

Nizzetto, Luca, Grung, Merete, Nøklebye, Emmy, Hashmi, Muhammad Zaffar, Series Editor, Strezov, Vladimir, Series Editor, Chakraborty, Paromita, editor, Nizzetto, Luca, editor, Bharat, Girija, editor, Steindal, Eirik, editor, and Sinha, Satish, editor

Published

2023

14. Introduction: The Relevance of Anthropogenic Factors to Coral Reef Conservation in the Coastal Areas of the East China Sea

Author

Takeuchi, Ichiro, Riegl, Bernhard M., Series Editor, Dodge, Richard E., Series Editor, Takeuchi, Ichiro, editor, and Yamashiro, Hideyuki, editor

Published

2023

15. Mangrove Swamps of Brazil: Current Status and Impact of Sea-Level Changes

Author

e Souza-Filho, Pedro Walfir Martins, Diniz, Cesar Guerreiro, e Souza-Neto, Pedro Walfir Martins, Lopes, João Paulo Nobre, da Nascimento Júnior, Wilson Rocha, Cortinhas, Luiz, Asp, Nils Edvin, Fernandes, Marcus Emanuel Barroncas, Dominguez, José Maria Landim, Correia Dantas, Eustógio W., Series Editor, Rabassa, Jorge, Series Editor, Dominguez, José Maria Landim, editor, Kikuchi, Ruy Kenji Papa de, editor, Filho, Moacyr Cunha de Araújo, editor, Schwamborn, Ralf, editor, and Vital, Helenice, editor

Published

2023

16. Low-cost mapping of coastal geomorphology by remote sensing in Angels Cove, Arraial do Cabo, Brazil

Author

Ruan Vargas, Julio Cesar de Faria Alvin Wasserman, Camila Américo dos Santos, Agenor Cunha da Silva, and Fábio Ferreira Dias

Subjects

Satellite-Derived Bathymetry, coastal environments, beach, environmental monitoring, Geology, QE1-996.5

Abstract

Bathymetry is a crucial information for understanding coastal geomorphological processes. This study aims to evaluate the applicability of Satellite-Derived Bathymetry (SDB) as a low-cost alternative for coastal geomorphological mapping in Angels Cove. Sentinel-2B images were used for generation of SDBs of coastal environments by two empirical methodologies. Depths were measured in situ by echo sounding for calibration and validation of the models. The models of Angels Beach calibrated with 100% and 50% of the control points were evaluated for cost and time reduction. All SDBs of Angels Beach presented similar geomorphological features and statistics results, with correlations of r ≅ 0.94 both in calibration and validation. When considering half of the control points for model calibration, the total cost for the mapping is estimated to reduce by approximately 50%. A SDB of a submerged sandbar was also mapped with a correlation of r ≅ 0.98 with depth field data. SDB can be used for a quick and low-cost assessment of the geomorphology in Angels Cove. New SDB models can be evaluated from higher spatial resolution satellites to reduce errors.

Published

2023

17. Investigation of the Combined Influence of Temperature and Humidity on Fatigue Crack Growth Rate in Al6082 Alloy in a Coastal Environment.

Author

Alqahtani, Ibrahim, Starr, Andrew, and Khan, Muhammad

Subjects

*FATIGUE crack growth, *FRACTURE toughness, *FATIGUE life, *HUMIDITY, *LIFE cycles (Biology), *ALUMINUM alloys, *EMBRITTLEMENT

Abstract

The fatigue crack growth rate (FCGR) of aluminium alloys under the combined influence of temperature and humidity remains a relatively unexplored area, receiving limited attention due to its intricate nature and challenges in predicting the combined impact of these factors. The challenge was to investigate and address the specific mechanisms and interactions between temperature and humidity, as in coastal environment conditions, on the FCGR of aluminium alloy. The present study conducts a comprehensive investigation into the combined influence of temperature and humidity on the FCGR of the Al6082 alloy. The fatigue pre-cracked compact tension specimens were corroded for 7 days and then subjected to various temperature and humidity conditions in a thermal chamber for 3 days to simulate coastal environments. The obtained data were analysed to determine the influence of temperature and humidity on the FCGR of the Al6082 alloy. An empirical model was also established to precisely predict fatigue life cycle values under these environmental conditions. The correlation between FCGR and fracture toughness models was also examined. The Al6082 alloy exhibits a 34% increase in the Paris constant C, indicating reduced FCGR resistance due to elevated temperature and humidity levels. At the same time, fatigue, corrosion, moisture-assisted crack propagation, and hydrogen embrittlement lead to a 27% decrease in threshold fracture toughness. The developed model exhibited accurate predictions for fatigue life cycles, and the correlation between fracture toughness and FCGR showed an error of less than 10%, indicating a strong relationship between these parameters. [ABSTRACT FROM AUTHOR]

Published

2023

18. Observation of the Coastal Areas, Estuaries and Deltas from Space.

Author

Laignel, Benoit, Vignudelli, Stefano, Almar, Rafael, Becker, Mélanie, Bentamy, Abderrahim, Benveniste, Jérôme, Birol, Florence, Frappart, Frédéric, Idier, Deborah, Salameh, Edward, Passaro, Marcello, Menende, Melisa, Simard, Marc, Turki, Emma Imen, and Verpoorter, Charles

Subjects

*STORM surges, *ESTUARIES, *COASTS, *VERTICAL motion, *SUSPENDED sediments, *INDUSTRIAL tourism

Abstract

Coastal regions (including estuaries and deltas) are very complex environments with diverse hydrodynamic and bio-geomorphological contexts and with important socio-economic and ecological problems. These systems are among the most affected by human impact through urbanization and port activities, industrial and tourism activities. They are directly affected by the impact of climate change on sea level, storm surges frequency and strength, as well as recurrence of coastal river floods. A sustainable future for coastal zones depends on our capacity to implement systematic monitoring with focus on: (1) forcings affecting coastal zones at different spatio-temporal scales (sea level rise, winds and waves, offshore and coastal currents, tides, storm surges, river runoff in estuaries and deltas, sediment supply and transport, vertical land motions and land use); (2) morphological response (e.g., shoreline migration, topographical changes). Over the last decades, remote sensing observations have contributed to major advances in our understanding of coastal dynamics. This paper provides an overview of these major advances to measure the main physical parameters for monitoring the coastal, estuarine and delta environments and their evolution, such as the water level and hydrodynamics near the shoreline, water/sediment contact (i.e., shoreline), shoreline position, topography, bathymetry, vertical land motion, bio-physical characteristics of sediments, water content, suspended sediment, vegetation, and land use and land cover. [ABSTRACT FROM AUTHOR]

Published

2023

19. Non-targeted tandem mass spectrometry enables the visualization of organic matter chemotype shifts in coastal seawater

Author

Petras, Daniel, Minich, Jeremiah J, Cancelada, Lucia B, Torres, Ralph R, Kunselman, Emily, Wang, Mingxun, White, Margot E, Allen, Eric E, Prather, Kimberly A, Aluwihare, Lihini I, and Dorrestein, Pieter C

Subjects

Analytical Chemistry, Environmental Sciences, Chemical Sciences, Life Below Water, Chromatography, Liquid, Ecosystem, Oceans and Seas, Seawater, Tandem Mass Spectrometry, Dissolved organic matter, Tandem mass spectrometry, Non-targeted screening, Molecular networking, Coastal environments, Anthropogenic pollution, Meteorology & Atmospheric Sciences

Abstract

Urbanization along coastlines alters marine ecosystems including contributing molecules of anthropogenic origin to the coastal dissolved organic matter (DOM) pool. A broad assessment of the nature and extent of anthropogenic impacts on coastal ecosystems is urgently needed to inform regulatory guidelines and ecosystem management. Recently, non-targeted tandem mass spectrometry approaches are gaining momentum for the analysis of global organic matter composition (chemotypes) including a wide array of natural and anthropogenic compounds. In line with these efforts, we developed a non-targeted liquid chromatography tandem mass spectrometry (LC-MS/MS) workflow that utilizes advanced data analysis approaches such as feature-based molecular networking and repository-scale spectrum searches. This workflow allows the scalable comparison and mapping of seawater chemotypes from large-scale spatial surveys as well as molecular family level annotation of unknown compounds. As a case study, we visualized organic matter chemotype shifts in coastal environments in northern San Diego, USA, after notable rain fall in winter 2017/2018 and highlight potential anthropogenic impacts. The observed seawater chemotype, consisting of 4384 LC-MS/MS features, shifted significantly after a major rain event. Molecular drivers of this shift could be attributed to multiple anthropogenic compounds, including pesticides (Imazapyr and Isoxaben), cleaning products (Benzyl-tetradecyl-dimethylammonium) and chemical additives (Hexa (methoxymethyl)melamine) and potential degradation products. By expanding the search of identified xenobiotics to other public tandem mass spectrometry datasets, we further contextualized their possible origin and show their importance in other ecosystems. The mass spectrometry and data analysis pipelines applied here offer a scalable framework for future molecular mapping and monitoring of marine ecosystems, which will contribute to a deliberate assessment of how chemical pollution impacts our oceans.

Published

2021

20. Sustaining Coastal and Marine environments in the Anthropocene: Guest editors

Author

Woodroffe, Colin D. and Stancheva, Margarita

Published

2024

21. Fracture Behaviour of Aluminium Alloys under Coastal Environmental Conditions: A Review

Author

Ibrahim Alqahtani, Andrew Starr, and Muhammad Khan

Subjects

fatigue crack growth, fracture toughness, aluminium alloys, coastal environments, temperature, humidity, Mining engineering. Metallurgy, TN1-997

Abstract

Aluminium alloys have been integral to numerous engineering applications due to their favourable strength, weight, and corrosion resistance combination. However, the performance of these alloys in coastal environments is a critical concern, as the interplay between fracture toughness and fatigue crack growth rate under such conditions remains relatively unexplored. This comprehensive review addresses this research gap by analysing the intricate relationship between fatigue crack propagation, fracture toughness, and challenging coastal environmental conditions. In view of the increasing utilisation of aluminium alloys in coastal infrastructure and maritime industries, understanding their behaviour under the joint influences of cyclic loading and corrosive coastal atmospheres is imperative. The primary objective of this review is to synthesise the existing knowledge on the subject, identify research gaps, and propose directions for future investigations. The methodology involves an in-depth examination of peer-reviewed literature and experimental studies. The mechanisms driving fatigue crack initiation and propagation in aluminium alloys exposed to saltwater, humidity, and temperature variations are elucidated. Additionally, this review critically evaluates the impact of coastal conditions on fracture toughness, shedding light on the vulnerability of aluminium alloys to sudden fractures in such environments. The variability of fatigue crack growth rates and fracture toughness values across different aluminium alloy compositions and environmental exposures was discussed. Corrosion–fatigue interactions emerge as a key contributor to accelerated crack propagation, underscoring the need for comprehensive mitigation strategies. This review paper highlights the pressing need to understand the behaviour of aluminium alloys under coastal conditions comprehensively. By revealing the existing research gaps and presenting an integrated overview of the intricate mechanisms at play, this study aims to guide further research and engineering efforts towards enhancing the durability and safety of aluminium alloy components in coastal environments.

Published

2024

22. Trend of Pathogenic Vibrio parahaemolyticus Occurrences in Bivalve Molluscs Harvested in Sardinian Coastal Environments Between 2011 and 2018

Author

Giuseppe Tedde, Giuseppa Lorenzoni, Domenico Meloni, Sara Salza, Rita Melillo, Riccardo Bazzardi, Simona Cau, Tiziana Tedde, Gabriella Piras, Maria Teresa Uda, Francesca Leoni, Giuseppe Esposito, Sebastiano Virgilio, and Alessandro Graziano Mudadu

Subjects

Coastal environments, Grooved carpet shells, Mussels, Oysters, Vibrio parahaemolyticus, Food processing and manufacture, TP368-456, Nutrition. Foods and food supply, TX341-641

Abstract

The aim of the present study was to evaluate Vibrio parahaemolyticus occurrences in bivalve molluscs harvested from Sardinian coastal environments between 2013 and 2015. The prevalence of pathogenic V. parahaemolyticus isolates is based on the detection of the two major virulence genes thermostable direct hemolysin (tdh) and thermolabile hemolysin (trh) To assess changes between 2011 and 2018 in the prevalence of V. parahaemolyticus in bivalve molluscs, we compared our results with those of previous investigations. In total, 2,933 samples were collected: 1,079 in 2013, 1,288 in 2014, and 566 in 2015. The mean prevalence of V. parahaemolyticus in shellfish was 3.5% in 2013, 1.7% in 2014, and 3.5% in 2015. The highest percentage of positive samples in 2013 and 2014 was observed in clams (3.5% and 2.7%, respectively), whereas in 2015, it was reported in oysters (15.1%). By comparing the sampling period of 2011–2014 with that of 2015–2018, an increase in the prevalence of V. parahaemolyticus was observed in shellfish (p

Published

2023

23. A sediment transport theory based on distortion-free-boundary nonhomogeneous fluid flows

Author

Arno Roland Ndengna Ngatcha and Boniface Nkonga

Subjects

Sediment transport phenomena, Distortion-free-boundary nonhomogeneous fluid flows, Approximation of long wave theory, Phase-lag, Sediment transport model, Coastal environments, Engineering (General). Civil engineering (General), TA1-2040

Abstract

Over the last 50 years several sediment transport models in coastal environments based on Shallow Water(SW) type models have been developed in the literature. The water flow over an abrupt moving topography quickly spatially variable becomes accelerated and strongly varied arising the turbulence (distortion). The acceleration and strong variation of the flow facilitate the transport of a large quantity of sediments present at the bottom while modifying it. The mathematical models based on SW type models widely used to describe the sediment transport phenomena do not account the distortion effects. Indeed, it is well-known that the SW models are derived from first order approximation of long wave theory. The acceleration and strong variation of the water flow near the bottom is due to the distortion of the horizontal velocity profile along the vertical direction. One can regard distortion as a combination of strain and rotation. The effect of the rotational component is to weaken the effect of the strain somewhat. In this work, we put in place a king theory of sediment transport derived from the second order approximation of long wave theory that can describe sediment transport processes in distortion-free-boundary nonhomogeneous fluid flows. The derived model accounts the distortion (fluctuation with great correlation lengths) that creates the turbulence. Moreover, the model differentiates the fluid velocity from sediment velocity (phase-lag) near the sediment bed. The proposed theory significantly reduces the modeling errors observed in several sediment transport models based on nonhomogeneous shallow water equations and has a great potential to increase the predictive power of sediment transport models in rivers, lakes, coastal flows, ocean basins and so on. The proposed theory improves several existing sediment transport theories recently developed in the literature and can be apply with some degree confidence.

Published

2023

24. Coastal Environments: Mine Discharges and Infringements on Indigenous Peoples' Rights.

Author

Kerfoot, W. Charles, Swain, Gary, Verissimo, Luis M., Johnston, Erin, MacLennan, Carol A., Schneider, Daniel, and Urban, Noel R.

Subjects

INDIGENOUS peoples, BEACHES, NATIVE American reservations, COPPER, AERIAL photography, COPPER mining

Abstract

Over a century ago, copper mills on the Keweenaw Peninsula of Lake Superior sluiced 64 million metric tonnes (MMT) of tailings into coastal waters, creating a metal-rich "halo". Here we show that relatively small discharges can spread widely in time and space. Mass Mill (2.9 MMT) dumping into Lake Superior also illustrates the complexity of interactions with Indigenous Peoples. A combination of aerial photos, LiDAR, and a microscope technique for distinguishing end-member particles traces the migration of tailings. The clay fraction spread rapidly across Keweenaw Bay and curled into terminal L'Anse Bay, within tribal Reservation boundaries. The coarse stamp sand fraction moved more slowly southward as a beach sand deposit onto Sand Point, a sacred burial ground. Despite the partial recovery of northern beaches and southern sediments, concerns continue about chemical contamination. Mass Mill provides an excellent example of Indigenous Peoples' territorial and resource issues with mining. A major difficulty with "legacy" discharges is that there are no longer any "responsible parties". Initially, federal and state officials were fearful that treaty rights might warrant reparations. Recently, multiple agency/state funding programs supported international (IJC) award-winning restoration efforts by tribal members, illustrating how Indigenous Peoples and governments can work together to safeguard treaty rights. [ABSTRACT FROM AUTHOR]

Published

2023

25. Coupled Effects of Temperature and Humidity on Fracture Toughness of Al–Mg–Si–Mn Alloy.

Author

Alqahtani, Ibrahim, Starr, Andrew, and Khan, Muhammad

Subjects

*FRACTURE toughness, *TEMPERATURE effect, *HUMIDITY, *ALLOYS, *SCANNING electron microscopy

Abstract

The combined effect of temperature and humidity on the fracture toughness of aluminium alloys has not been extensively studied, and little attention has been paid due to its complexity, understanding of its behaviour, and difficulty in predicting the effect of the combined factors. Therefore, the present study aims to address this knowledge gap and improve the understanding of the interdependencies between the coupled effects of temperature and humidity on the fracture toughness of Al–Mg–Si–Mn alloy, which can have practical implications for the selection and design of materials in coastal environments. Fracture toughness experiments were carried out by simulating the coastal environments, such as localised corrosion, temperature, and humidity, using compact tension specimens. The fracture toughness increased with varying temperatures from 20 to 80 °C and decreased with variable humidity levels between 40% and 90%, revealing Al–Mg–Si–Mn alloy is susceptible to corrosive environments. Using a curve-fitting approach that mapped the micrographs to temperature and humidity conditions, an empirical model was developed, which revealed that the interaction between temperature and humidity was complex and followed a nonlinear interaction supported by microstructure images of SEM and collected empirical data. [ABSTRACT FROM AUTHOR]

Published

2023

26. The ebb and flow of capital in Indonesian coastal production systems.

Author

Rahmat, Yunie N. and Neilson, Jeff

Subjects

*CAPITAL movements, *SMALL-scale fisheries, *RESOURCE exploitation, *NATURAL resources, *SUBSISTENCE economy, *COMMUNITIES

Abstract

The global fisheries sector has undergone both rapid industrialization and considerable resource depletion. Unlike fisheries in the Northern Hemisphere, the Indonesian (and indeed Southeast Asian) sector is still largely dominated by small‐scale producers, who are partially embedded within a subsistence economy. Changes in the nature of production and livelihoods in the fisheries sector appear similar to those in land‐based agriculture but have received far less attention in the literature and demand further analysis given the distinct characteristics of the natural resource base. Using national datasets complemented by insights from a two‐month period of fieldwork in South Sulawesi, this paper presents the process of capital intensification underpinning national fisheries growth and how it is transforming small‐scale production systems. Despite increasing market integration, we found that smallholders have persisted across coastal production systems to an even stronger degree than land‐based agriculture. We suggest some reasons why this is so. However, we also observed evidence of internal class differentiation within coastal communities. Such differentiation, combined with resource degradation and depletion, exposes the poorest in the community to enhanced livelihood vulnerability. [ABSTRACT FROM AUTHOR]

Published

2023

27. Global distribution and richness of terrestrial mammals in tidal marshes.

Author

Canepuccia, Alejandro D., Fanjul, María Sol, and Iribarne, Oscar O.

Subjects

*SALT marshes, *SPECIES diversity, *SPECIES distribution, *MAMMALS, *HABITATS, *INTRODUCED species, *SURFACE area

Abstract

Aim: Understanding the determinants of species distribution and richness is key to explaining global ecological patterns. We examined the current knowledge about terrestrial mammals in tidal marshes and evaluated whether species richness increased with the marsh surface area and/or with their proximity to the equator and whether species distribution ranges decreased with latitude. Location: Global. Methods: We reviewed the existing literature on terrestrial mammals in tidal marshes. We examined their ecological characteristics (e.g. habitat specialists, native or alien), predicted their variation in species richness and range size along latitude, and explored factors, such as surface area, underlying the global patterns found. Results: We found 962 records, describing 125 mammalian species using tidal marshes worldwide, also including several alien species. Most species (95%) were not marsh specialized, and some (18%) were of conservation concern. There were information gaps in South America, Africa, Australia and Asia, and a lack of information about mammalian ecological roles worldwide. We found that species richness increased with surface area, and showed a bimodal pattern peaked between 40° and 50° latitude in each hemisphere. We found no relationship between latitude and species range size. Main conclusions: Our worldwide findings revealed a broader range of tidal marshes inhabited by terrestrial mammals, and higher values of species richness than previously reported. The bimodal pattern of species richness was consistent with the species–area hypothesis, but it also suggested that further studies of species distribution in relation to historical and environmental factors will yield significant insights about variables driving richness in tidal marshes. Despite terrestrial mammal ubiquitous distribution in these ecosystems, there are considerable geographic gaps as regards knowledge about their functional importance and the impact of alien species on tidal marsh functioning. Consequently, extending our research efforts is key to planning the conservation of these coastal ecosystems. [ABSTRACT FROM AUTHOR]

Published

2023

28. Benthic Foraminiferal Mn/Ca as Low‐Oxygen Proxy in Fjord Sediments.

Author

Brinkmann, Inda, Barras, Christine, Jilbert, Tom, Paul, K. Mareike, Somogyi, Andrea, Ni, Sha, Schweizer, Magali, Bernhard, Joan M., and Filipsson, Helena L.

Subjects

FJORDS, OXYGENATION (Chemistry), CHEMICAL reduction, X-ray fluorescence, COASTS, TRACE elements, MANGANESE

Abstract

Fjord systems are typically affected by low‐oxygen conditions, which are increasing in extent and severity, forced by ongoing global changes. Fjord sedimentary records can provide high temporal resolution archives to aid our understanding of the underlying mechanisms and impacts of current deoxygenation. However, such archives can only be interpreted with well‐calibrated proxies. Bottom‐water oxygen conditions determine redox regime and availability of redox‐sensitive trace elements such as manganese, which in turn may be recorded by manganese‐to‐calcium ratios (Mn/Ca) in biogenic calcium carbonates (e.g., benthic foraminifera tests). However, biological influences on Mn incorporation (e.g., species‐specific Mn fractionation, ontogeny, living and calcification depths) are still poorly constrained. We analyzed Mn/Ca of living benthic foraminifera (Bulimina marginata, Nonionellina labradorica), sampled at low‐ to well‐oxygenated conditions over a seasonal gradient in Gullmar Fjord, Swedish West coast (71–217 μmol/L oxygen (O2)), by laser‐ablation ICP‐MS. High pore‐water Mn availability in the fjord supported Mn incorporation by foraminifera. B. marginata recorded contrasting Mn redox regimes sensitively and demonstrated potential as proxy for low‐oxygen conditions. Synchrotron‐based scanning X‐ray fluorescence nanoimaging of Mn distributions across B. marginata tests displayed Mn/Ca shifts by chambers, reflecting bottom‐water oxygenation history and/or ontogeny‐driven life strategy preferences. In contrast, Mn/Ca signals of N. labradorica were extremely high and insensitive to environmental variability. We explore potential biologically controlled mechanisms that could potentially explain this species‐specific response. Our data suggest that with the selection of sensitive candidate species, the Mn/Ca proxy has potential to be further developed for quantitative oxygen reconstructions in the low‐oxygen range. Plain Language Summary: One of the impacts of global change on fjords and coastal zones is the decline of oxygen levels in seawater ("deoxygenation"), with serious environmental consequences. Important insights into the processes and consequences of deoxygenation can be gained through indicator records of past oxygen variability in seawater. An emerging indicator is the trace element manganese (Mn) due to its reduction and oxidation chemistry. We investigated the effects of low‐ to well‐oxygenated seawater on Mn concentrations, measured as manganese‐to‐calcium ratio (Mn/Ca) in shells of marine micro‐organisms (i.e., foraminifera), in a seasonal field‐study of two sites in GF, Swedish west coast. We found that foraminiferal Mn/Ca varied with oxygen and Mn levels in the seawater. However, also dependent on biological factors. Of the two investigated candidate species (Bulimina marginata and Nonionellina labradorica), one showed promise as indicator of low‐oxygen conditions. Our research shows that the foraminiferal Mn/Ca indicator can be used to better understand changes in oxygen levels in coastal environments. Key Points: The Mn/Ca oxygen proxy is explored in the context of pore‐water redox‐ and variable bottom‐water oxygen conditions in a fjordForaminiferal Mn/Ca is promising as low‐oxygen proxy at up to 130 μmol/L [O2], but insensitive at well‐oxygenated conditionsForaminiferal in‐sediment migration and biological processes can significantly alter Mn/Ca, causing species‐specific proxy limitations [ABSTRACT FROM AUTHOR]

Published

2023

29. A Review of Pumice Raft Formation Environments, Saturation, and Dispersal Mechanisms.

Author

Redick, Nathalie R.

Subjects

*PUMICE, *INTRODUCED species

Abstract

Pumice rafting events are a common result of volcanic eruptions occurring near or beneath bodies of water. Such events are frequently associated with hazards such as tsunamis, and drift pumice is known to cause local economic disruptions, damage ships, impede naval traffic, devastate marine populations, and distribute potentially invasive species over long distances. However, our current understanding of the mechanisms that drive the formation and dispersal of drift pumice are extremely limited. This article reviews historical and characteristic pumice raft-forming eruptions, how interactions with water factor into macro-and micro- scale controls on pumice clast formation and dispersal, and current methods for detection and analysis to better track and mitigate hazards associated with explosive volcanic eruptions and pumice rafts. [ABSTRACT FROM AUTHOR]

Published

2023

30. Reporting Climate Change Impacts on Coastal Ports (NW Iberian Peninsula): A Review of Flooding Extent.

Author

Ribeiro, Américo Soares, Lopes, Carina Lurdes, Sousa, Magda Catarina, Gómez-Gesteira, Moncho, Vaz, Nuno, and Dias, João Miguel

Subjects

CLIMATE change, STORM surges, FLOOD risk, SEA level, PENINSULAS, TOPOGRAPHY, FLOODS

Abstract

Ports significantly impact the economic activity in coastal areas. Future climate change projections indicate that the frequency and intensity of extreme sea levels (ESL) will increase, putting several port facilities at risk of flooding with impacts on the port's reliability and operability. The northwest Iberian Peninsula (NWIP) coast is crossed by one of the most important and busiest shipping lanes in the Atlantic Ocean and features several ports that provide an essential gateway to Europe. In this context, the main aim of this study is to present a review of the extent of flooding under future climatic scenarios in selected NWIP ports, considered representative of the diversity of the coastal areas in this region. The ports of Aveiro (lagoon), Lisbon (estuary), Vigo (Ria) and A Coruña Outer Port (marine) are considered in this study due to their location in different coastal environments, which brings distinct challenges related to climate change local impact. For each port area, the risk of flooding was assessed under climate change scenarios using CMIP5 RCP8.5 for the climate periods between 1979–2005, 2026–2045 and 2081–2099, considering the return periods of 10, 25 and 100 years for storm surges, riverine input and wave regime. The flood pattern varies significantly according to the location of the ports. The ports in lagoons and estuaries are more prone to floods by ESL due to their location in low and flat topography regions. Rias, with a funnel-shaped valley and irregular topography, make the ports in this environment resilient to a sea level rise. Marine environments are exposed to harsh oceanic drivers, however, the ports in these areas are usually built to withstand significant wave conditions with return periods of a hundred years, making them resilient to climate change impacts. [ABSTRACT FROM AUTHOR]

Published

2023

31. Status of mangroves land use on the Brazilian Amazon coast from RapidEye imagery and GEOBIA approach

Author

SANAE N. HAYASHI, PEDRO WALFIR M. SOUZA-FILHO, WILSON R. NASCIMENTO JR, and MARCUS E.B. FERNANDES

Subjects

Remote sensing, coastal environments, Salt flat, Brazil, Science

Abstract

Abstract Given the ecological and socioeconomic importance of the mangroves of the Brazilian Amazon coast, RapidEye satellite images were analyzed to recognize mangrove forest and salt flat changes to different land use through human activities. Results show that mangroves are still very well preserved, with less than 1% of the total converted to other uses, primarily urban areas and roads. These human activities have been the principal causes of use in the mangrove forest, driven by local anthropogenic pressures resulting from human settlements in the transition zone between the mainland and tidal flats. In contrast, aquaculture, the principal driver of the loss of mangroves in other regions of South America and in Asian countries, plays only a secondary role in habitat conversion on the Amazon coast. However, these human activities demand more attention and policies need to be supported by Brazilian legislation.

Published

2023

32. Influence of Turbidity on Foraging Behaviour in Three-Spined Sticklebacks (Gasterosteus aculeatus)

Author

Lasse Lange Jensen, Thomas Bjørn, Andreas Hein Korsgaard, Cino Pertoldi, and Niels Madsen

Subjects

eutrophication, behavioural instability, coastal environments, feeding latency, fish behaviour, foraging behaviour, Biology (General), QH301-705.5, Genetics, QH426-470

Abstract

Anthropogenic activities increase turbidity in coastal marine environments globally, and turbidity is particularly caused by eutrophication. Turbidity is a measurement of the scattering and absorption of light by suspended matter in water. An increase in turbidity influences visual predators and affects community structures and whole ecosystems. The three-spined stickleback (Gasterosteus aculeatus) is a widespread species in the northern hemispheric Pacific and Atlantic oceans. It is a visual predator and, therefore, a very well-suited species for studying the effects of increasing turbidity on foraging behaviour and activity. Sticklebacks used for this study were from an aquarium in the North Sea Oceanarium. They have been in the aquarium for around two months and were originally collected in a highly eutrophicated marine fjord system. They were individually placed in an observation aquarium, fed with krill, given 10 min to forage, and observed by video cameras. The video films were analysed to study stickleback predation behaviour. Experiments were repeated with four different turbidity treatments, ranging from a mean of 0.034 up to 10 NTU (nephelometric turbidity unit). Bentonite clay was used as a turbidity-increasing substance. A statistically significant difference in foraging behaviour and activity between the turbidity treatments was observed. The test subjects were found to lunge less for prey and had a higher feeding latency with increasing turbidity. Additionally, they were less active with increasing turbidity. The behavioural instability estimated as a variation in feeding latency increased with increasing turbidity but decreased at the highest turbidity value. Our study indicates an effect of turbidity-increasing events on the behaviour of the three-spined stickleback and potentially also other similar visual predators.

Published

2023

33. Influence of groundwater discharge on the hydrochemistry of coastal lagoons and marsh environments in Punta Rasa Natural Reserve area, Argentina

Author

Carol, Eleonora, Sanci, Romina, Galliari, Julieta, Santucci, Lucia, Nuñez, Florencia, and Leal, María Paula

Published

2024

34. En el mar interior de Última Esperanza: Dinámicas de ocupación y movilidad canoera en la isla Diego Portales (Magallanes, Chile).

Author

García-Piquer, Alberto, Navarrete, Vanessa, Aguilera, Nelson, Carracedo, Robert, Franch, Anna, García P., Christian, Ros-Sabé, Eva, Zegers, Gabriel, Prieto, Alfredo, and Piqué, Raquel

Abstract

Characterizing hunter-fisher-gatherer mobility strategies in island and coastal environments is key to understanding past human–environment interaction. Seafaring communities inhabiting the inland sea of Última Esperanza (Magallanes, Chile) maintained a subsistence strategy focused on hunting, gathering, and fishing until the beginning of the twentieth century. In this work we present the new archaeological findings from Diego Portales island (Almirante Montt Gulf) and discuss subsistence and mobility strategies in the context of the regional archaeological record. The systematic survey of the northeast tip of the island allowed us to record eight archaeological shell midden sites, on both the east and west coasts. Site location was determined by geotopographic factors. The excavation of two of the sites, Bahía Easter 1 and Bahía Easter 2, has provided evidence of occupation dating to the Final Late Holocene and covering a time span of almost 2,000 years. These two sites are associated with hunter-fisher-gatherer seafaring peoples who repeatedly frequented the area. Archaeozoological and archaeobotanical studies suggest a subsistence strategy based on the exploitation of at least a dozen different species of marine and terrestrial resources. Among the latter, the archaeological remains of huemul (Hippocamelus bisulcus) are particularly abundant. These mid-sized deer were probably hunted at the Patagonian coast and transported to the island. The location of the island, in a transit area between the external channels and the inland sea, and between the northern archipelagos and the continent, together with resource abundance and diversity, suggest that Diego Portales was a privileged area for seafaring occupation, especially in spring and summer. [ABSTRACT FROM AUTHOR]

Published

2022

35. Tidal connectivity modelling in wetlands associated with coastal lagoon of Punta Rasa natural reserve, Argentina.

Author

López, L., Oreiro, F., Dragani, W., Galliari, J., Cellone, F., and Carol, E.

Subjects

*SALT marshes, *STRAITS, *COASTAL wetlands, *WATER levels, *MARSHES, *LAGOONS

Abstract

Tidal flows play a crucial role in connecting coastal lagoons to the sea through channels, in this way determining the hydrological dynamics of these environments. The Punta Rasa Natural Reserve (Ramsar site) is located in a transitional zone between the outer limit of the estuary of the Río de la Plata and the open sea. In this work, we study the northernmost lagoon at the end of the spit, which is connected to the sea by a narrow tidal channel. Wetlands are developing at the edges of the lagoon and in lower lying sectors. The aim of this study is to develop a conceptual model that explains the tidal connectivity of the coastal lagoon and to assess how it affects the marsh environments. Detailed topographic surveys were performed using Structure from Motion Multi-View Stereo from a UAV, while sea level data was analyzed using recordings at 20-min intervals over a five-year period. This dataset facilitated an analysis of the frequency of exceedances for threshold values of 0.8, 1.0, 1.2 and 1.4 m. The frequency analysis reveals that the highest exceedances of these thresholds occur during the summer months. When the water level reaches 1 m, the lagoon is fully connected to the sea via the tidal channel, resulting in complete inundation of the low marshland and the margins of the high marshland. At a tidal level of 1.4 m, the high marsh connected to the tidal channel and the coastal lagoon experience flooding. The results obtained in this study provides insights into modelling hydrological connectivity between marshes and the sea, as well as determining the frequency of tidal inundation in each wetland. • Punta Rasa is a Ramsar site with coastal lagoon, dune and marsh environments. • Tidal flows play a crucial role in connecting coastal lagoons - wetlands to the sea. • Tidal connectivity of marshes was defined from detailed tidal and topographic surveys. • Tidal flooding frequencies condition the marshes vegetation. • Seasonality in flood frequencies and tidal connectivity of wetland were recognized. [ABSTRACT FROM AUTHOR]

Published

2024

36. Differential tissue distribution of pharmaceuticals in a wild subtropical marine fish.

Author

Castillo, N.A., Santos, R.O., James, W.R., Rezek, R., Cerveny, D., Boucek, R.E., Adams, A.J., Fick, J., Brodin, T., and Rehage, J.S.

Subjects

*MARINE fishes, *EMERGING contaminants, *RED fox, *AQUATIC organisms, *RISK exposure

Abstract

• 62 pharmaceuticals accumulated across tissues in a wild marine fish. • Differential accumulation across internal tissues and plasma. • Highest number of pharmaceuticals detected in liver > brain > plasma > muscle. • Pharmaceutical concentrations highest in plasma > liver > brain > muscle. • Compositional differences in accumulation across tissues. To date, the presence of pharmaceuticals has been extensively documented across a wide range of aquatic systems and biota. Further, substantial progress has been made in transitioning from laboratory assessments of pharmaceutical fate and effects in fish to in situ assessments of exposure and effects; however, certain research areas remain understudied. Among these is investigation of differential accumulation across multiple internal tissues in wild marine fish beyond the species commonly sampled in laboratory and freshwater field settings. This study examined the presence of pharmaceuticals across four tissues (plasma, muscle, brain, and liver) in a wild marine fish, bonefish (Albula vulpes), throughout coastal South Florida, USA. Differential accumulation across tissues was assessed for the number and concentration, identity, and composition of accumulated pharmaceuticals by sampling 25 bonefish and analyzing them for 91 pharmaceuticals. The concentration of pharmaceuticals was highest in plasma > liver > brain > muscle, while the number of pharmaceuticals was highest in liver > brain > plasma > muscle. The identity of detected pharmaceuticals was tissue specific, and there was an inverse relationship between the number of detections for each pharmaceutical and its log K ow. The composition of pharmaceuticals was tissue specific for both pharmaceutical presence/absence and concentration. Across all tissues, the greatest similarity was between brain and liver, which were more similar to plasma than to muscle, and muscle was the most distinct tissue. For tissue compositional variability, muscle was the most diverse in accumulated pharmaceuticals, while plasma, brain, and liver were similarly variable. With the highest concentrations in plasma and highest number in liver, and documented variability in accumulated pharmaceuticals across tissues, our results highlight the importance of tissue selection when surveying exposure in wild fish, suggesting that multi-tissue analysis would allow for a more comprehensive assessment of exposure diversity and risk of adverse effects. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

37. Investigation of the Combined Influence of Temperature and Humidity on Fatigue Crack Growth Rate in Al6082 Alloy in a Coastal Environment

Author

Ibrahim Alqahtani, Andrew Starr, and Muhammad Khan

Subjects

Al-Mg-Mn-Si alloy, fracture toughness, coastal environments, polynomial model, failure mechanism, Technology, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Engineering (General). Civil engineering (General), TA1-2040, Microscopy, QH201-278.5, Descriptive and experimental mechanics, QC120-168.85

Abstract

The fatigue crack growth rate (FCGR) of aluminium alloys under the combined influence of temperature and humidity remains a relatively unexplored area, receiving limited attention due to its intricate nature and challenges in predicting the combined impact of these factors. The challenge was to investigate and address the specific mechanisms and interactions between temperature and humidity, as in coastal environment conditions, on the FCGR of aluminium alloy. The present study conducts a comprehensive investigation into the combined influence of temperature and humidity on the FCGR of the Al6082 alloy. The fatigue pre-cracked compact tension specimens were corroded for 7 days and then subjected to various temperature and humidity conditions in a thermal chamber for 3 days to simulate coastal environments. The obtained data were analysed to determine the influence of temperature and humidity on the FCGR of the Al6082 alloy. An empirical model was also established to precisely predict fatigue life cycle values under these environmental conditions. The correlation between FCGR and fracture toughness models was also examined. The Al6082 alloy exhibits a 34% increase in the Paris constant C, indicating reduced FCGR resistance due to elevated temperature and humidity levels. At the same time, fatigue, corrosion, moisture-assisted crack propagation, and hydrogen embrittlement lead to a 27% decrease in threshold fracture toughness. The developed model exhibited accurate predictions for fatigue life cycles, and the correlation between fracture toughness and FCGR showed an error of less than 10%, indicating a strong relationship between these parameters.

Published

2023

38. The Anthropocene, Wait, What? A Basque’s Coastal Experience Helps to Figure It Out

Author

Leorri, Eduardo, Dodson, John, Series Editor, and Culver, Stephen J., editor

Published

2021

39. Is Pitcairnia halophila really a halophyte? Evidence from a germination and growth experiment.

Author

Zotz, Gerhard and Rodriguez Quiel, Calixto

Abstract

Many bromeliads occur in habitats that are potentially affected by salt. Pitcairnia halophila is a particularly interesting case in this context due to its growing sites in the spray zone of coastal cliffs in Central America. We conducted an experimental/observational study that explored the physiological and ecological basis of the occurrence of this species. Germination of P. halophila was as affected by increasing salinity as that of congeneric species from other natural growing sites, but seedling growth was less impaired in comparison and remained positive even at exposure to half-strength seawater. Interestingly, in situ plant nutrient concentrations documented over an entire growing season suggest that this capacity to tolerate salt stress is not tested at the natural growing site – Na+ concentrations were consistently low in leaves and shoots and comparable to those of seedlings watered with distilled water in the laboratory. We conclude that P. halophila shows the physiological ability to deal with medium levels of salinity, but ecological conditions at the humid tropical growing site allow these plants to avoid salt stress entirely in spite of the close proximity to the sea. [ABSTRACT FROM AUTHOR]

Published

2022

40. A method for a fast and economical in situ collection of pore water in sandy sediments

Author

Saurav Dutta, Raoul Saar, Zach Lavie, Gal Vered, Harold J. Bradbury, and Gilad Antler

Subjects

benthic biogeochemistry, coastal environments, grain size, Rhizon, sediment water interface, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Marine sediment represents one of the most significant carbon reservoirs. Extraction of pore water from the uppermost 10 cm of the sediment column, just below the sediment-water interface, in coastal environments can be used to assess the rapid chemical changes caused by extensive subsurface biological and chemical reactions. However, owing to relatively large grain size of the sediment in some shallow coastal environments, sediment and pore water mixes quickly making collection of core samples for pore water extraction extremely difficult. Here, we present a simple method utilizing Rhizons to collect in situ pore water from coastal environments. We conducted both ex situ and in situ experiments, using fluorescein as a tracer, to understand the influence of overlying water during pore water collection through this method. These experiments also allowed us to assess the volume of pore water collected before fluorescein is observed in the samples at different vertical depths within the sediment column. We found that: 1. discarding the initial 2 mL of water minimizes the memory effect, 2. collection of 10 mL of water avoids interference from surrounding pore water and the overlying water column and 3. a vertical resolution of minimum 2 cm could be attained for sediments with grain size of 1 mm and less. We finally present data from two linear transects from different sites in the Gulf of Aqaba. Results from these case studies demonstrate expected patterns of high concentrations of iron and hydrogen sulfide in pore water from the sediment where surface coloration suggested iron and sulfate reduction was dominating, respectively. Both case studies, therefore, independently validated the Rhizon sampler method for collecting pore water in situ from marine sediments in coastal environments.

Published

2022

41. Coastal Environments: Mine Discharges and Infringements on Indigenous Peoples’ Rights

Author

W. Charles Kerfoot, Gary Swain, Luis M. Verissimo, Erin Johnston, Carol A. MacLennan, Daniel Schneider, and Noel R. Urban

Subjects

coastal environments, copper mine tailings, conflicts with Indigenous Peoples’ rights, hi-resolution aerial photography and LiDAR, microscope particle counting techniques, award-winning tribal restoration, Naval architecture. Shipbuilding. Marine engineering, VM1-989, Oceanography, GC1-1581

Abstract

Over a century ago, copper mills on the Keweenaw Peninsula of Lake Superior sluiced 64 million metric tonnes (MMT) of tailings into coastal waters, creating a metal-rich “halo”. Here we show that relatively small discharges can spread widely in time and space. Mass Mill (2.9 MMT) dumping into Lake Superior also illustrates the complexity of interactions with Indigenous Peoples. A combination of aerial photos, LiDAR, and a microscope technique for distinguishing end-member particles traces the migration of tailings. The clay fraction spread rapidly across Keweenaw Bay and curled into terminal L’Anse Bay, within tribal Reservation boundaries. The coarse stamp sand fraction moved more slowly southward as a beach sand deposit onto Sand Point, a sacred burial ground. Despite the partial recovery of northern beaches and southern sediments, concerns continue about chemical contamination. Mass Mill provides an excellent example of Indigenous Peoples’ territorial and resource issues with mining. A major difficulty with “legacy” discharges is that there are no longer any “responsible parties”. Initially, federal and state officials were fearful that treaty rights might warrant reparations. Recently, multiple agency/state funding programs supported international (IJC) award-winning restoration efforts by tribal members, illustrating how Indigenous Peoples and governments can work together to safeguard treaty rights.

Published

2023

42. CONHECIMENTO E CONSERVAÇÃO DE ANACARDIUM OCCIDENTALE L. (CAJUÍ).

Author

Brandão Souza, Ruanna Thaimires, Mayo, Simon Joseph, and Moreira de Andrade, Ivanilza

Subjects

*CASHEW nuts, *CASHEW tree, *NATURAL resources, *NATIVE plants, *ENVIRONMENTAL protection, *ALMOND

Abstract

The use of natural resources has increased over the years, generating negative impacts with the need for studies that contribute to the development of conservation actions. The municipality of Ilha Grande, inserted within the Environmental Protection Area of the Delta do Rio Parnaíba, is one of the four municipalities on the coast of Piauí, where the extraction of native plant species assumes economic and social value, such as Anacardium occidentale L. (cajuí), an undomesticated form of cashew tree, characterized by having small sized drupe and hippocarp. The objective was to evaluate the social, economic and environmental profile of the inhabitants of Ilha Grande regarding the use and occupation of cashew nuts in dune areas, as well as contributing to the conservation of the species in coastal communities in the state of Piauí. Semi-structured interviews were conducted through direct observation and weekly visits. Data were collected qualitatively and quantitatively. 200 residents were interviewed, of which (71.5%) were female. Most are adults (65%), aged between 31 and 40 years, born and raised in the community (98%). Most have incomplete primary education (42%) and earn one minimum wage (50%). The main economic activity is fishing (55.5%) followed by extractive activities (29%) agriculture (14.5%) and others (1%). Among the issues mentioned for the conservation of cashew areas, deforestation (55%) stands out as the main environmental problem faced by the community. Economically, the extraction of cashew nuts is one of the most profitable activities for the majority (98.5%) of the community and the products generated by the species such as sweets, liquor, juices and commercialization of the nut almond constitute for some families as the only source of income. The vast knowledge about cashew and its use by the community contributes to the preparation of actions and plans for sustainable management and conservation of the species. [ABSTRACT FROM AUTHOR]

Published

2022

43. Affordable overnight lodging in high-cost, high-need coastal environments.

Author

Riggs, William, Rugh, Megyn, Al, Stefan, and Sethi, Menka

Subjects

*MARINE resources, *TRANSPORTATION policy, *CAMP sites

Abstract

Providing access to coastal and marine resources has long been a planning priority in many locations. At the same time, housing affordability and the lack of investment in lower-cost overnight accommodations in environmentally sensitive coastal areas have exasperated efforts to provide equitable access. While agencies have funded projects to help increase the supply of lower-cost overnight accommodations along the coast, including development of campgrounds, hostels and other facilities, the extent of need has not been quantified and other solutions are needed to preserve and increase supply of lower-cost accommodations along the coast. Further, the synergies between potential policies to address access to the coastal environment and those that promote local housing and transportation efficiency have not been investigated. Using the case of the California Coastal Commission/Conservancy, this paper quantifies the need for access studying the distribution of households at 80% of the median income level within 150 miles of the coast and finds that access to coastal lodging is limited. It hypothesises that broader housing, transportation and equity policies need to be brought into the dialogue to help address lower-cost accommodations in parallel with local environmental, housing and transport issues. Lastly, it offers recommendations and new construction opportunities for low-cost accommodation infrastructure in these kinds of environmentally sensitive areas. [ABSTRACT FROM AUTHOR]

Published

2022

44. THE COMPLEXITY OF STUDYING COASTS: FROM FORMS AND PROCESSES TO MANAGEMENT.

Author

GRACIA PRIETO, FRANCISCO JAVIER

Subjects

COASTS, COASTAL zone management, INTEGRATED coastal zone management, BARRIER islands, WIND waves, SEA level

Abstract

Copyright of Cuadernos de Investigación Geográfica is the property of Universidad de la Rioja, Servicio de Publicaciones 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

2022

45. Can artificial magnetic fields alter the functional role of the blue mussel, Mytilus edulis?

Author

Albert, Luana, Maire, Olivier, Olivier, Frédéric, Lambert, Christophe, Romero-Ramirez, Alicia, Jolivet, Aurélie, Chauvaud, Laurent, and Chauvaud, Sylvain

Subjects

*MYTILUS edulis, *MAGNETIC fields, *MYTILUS, *MAGNETIC field effects, *REPEATED measures design, *FIELD emission

Abstract

Along European coasts, the rapid expansion of marine renewable energy devices and their buried power cables, raises major societal concerns regarding the potential effects of their magnetic field emissions (MFs) on marine species and ecosystem functioning. MFs occur at a local spatial scale, which makes sessile species the primary target of chronic and high-intensity exposures. Some of them, as ecosystem engineers, have critical functions in coastal habitats whose behavioral alteration may drive profound consequences at the ecosystem level. In this context, the present experimental study explored the effects of short exposure to direct current MFs, on the feeding behavior of a widespread ecosystem engineer, the blue mussel (Mytilus edulis). A repeated measure design was carried out with adult mussels successively exposed to control treatment (ambient magnetic field of 47 µT) and artificial MF treatment (direct current of 300 µT produced by Helmholtz coils), as measured around power cables. The filtration activity was assessed through valve gap monitoring using an automated image analysis system. The clearance rate was estimated simultaneously by measuring the decrease in algal concentration using flow cytometry. Our findings revealed that mussels placed in MF treatment did not exhibit observable differences in valve activity and filtration rate, thus suggesting that, at such an intensity, artificial MFs do not significantly impair their feeding behavior. However, additional research is required to investigate the sensitivity of other life stages, the effects of mid to long-term exposure to alternative and direct current fields and to test various MF intensities. [ABSTRACT FROM AUTHOR]

Published

2022

46. Textural Characteristics of the Holocene Sandy Ridges in the Eastern Venetian Coastal Plain (North Adriatic Sea, Italy).

Author

Rizzetto, Federica

Subjects

COASTAL plains, HOLOCENE Epoch, ALLUVIAL plains, AERIAL photographs

Abstract

In the lower Piave river coastal plain (northeast of the Venice Lagoon, Italy), evidences of ancient sandy ridges testify to both the local coastline progradation and retrogradation that occurred during the Holocene. Their arrangement is recognizable in aerial photographs as they appear as groups of parallel sandy strips. The orientation of each group of ridges differs from the orientation of the others. Even if the ridges have not preserved their original relief and morphology, weak undulations are still locally present. Through the joint interpretation of textural parameters and geomorphological observations and measurements, an attempt has been made to define the depositional processes responsible for the formation of these sandy ridges. The results from grain-size analyses have given evidence of the foreshore and the backshore environments. They have confirmed the presence of both aeolian deposits in most of the sampled sandy ridges and fine-grained filling sediments containing organic matter in the old inter-ridge depressions. The investigations have also confirmed the existence of a well-preserved abandoned Piave river delta and four subsequent main stages of coastal progradation interrupted by episodes of coastal retreat. Therefore, this research has provided new insights into the evolution of the Holocene Venetian coastal plain by adding new information on the different coastal depositional environments and transporting agents. [ABSTRACT FROM AUTHOR]

Published

2022

47. The complexity of studying coasts: From forms and processes to management

Author

Francisco Javier Gracia Prieto

Subjects

Coastal environments, morphodynamic processes, natural hazards, integrated coastal zone management, Geography (General), G1-922

Abstract

Coastal environments are characterized by their high dynamism, related to the interaction between marine agents (winds, waves, currents, sea level changes) and continental forms and processes. The present article summarizes the main morphodynamic characteristics of coasts and the resulting environments. Different oscillations of the sea level are considered, depending on their amplitude and frequency: rapid eustatic fluctuations, energetic tsunamis, storm waves and surges, tides and good weather wind waves. Coastal environments are classified in low, sedimentary coasts, including beaches, dunes, barrier islands, lagoons, salt marshes and river mouths, and high, rocky coasts. Management of coastal zones needs a deep knowledge of all the processes involved at the littoral, especially at the local scale, since coastal processes vary rapidly alongshore. At present the integrated coastal management intends to involve different socioeconomic sectors interested in the occupation and use of coasts. Coastal management must include the adaptation of human activities to the natural processes and associated coastal hazards and the protection of coastal values, both of natural and historical-cultural character. Public administrations at different levels should consider the knowledge of the coastal processes at different scales and their potential interaction with human activities in order to design laws and regulations accordingly.

Published

2022

48. Ammonium and Sulfate Assimilation Is Widespread in Benthic Foraminifera

Author

Charlotte LeKieffre, Thierry Jauffrais, Joan M. Bernhard, Helena L. Filipsson, Christiane Schmidt, Hélène Roberge, Olivier Maire, Giuliana Panieri, Emmanuelle Geslin, and Anders Meibom

Subjects

marine protists, coastal environments, biogeochemical cycles, NanoSIMS, nitrogen, sulfur, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Nitrogen and sulfur are key elements in the biogeochemical cycles of marine ecosystems to which benthic foraminifera contribute significantly. Yet, cell-specific assimilation of ammonium, nitrate and sulfate by these protists is poorly characterized and understood across their wide range of species-specific trophic strategies. For example, detailed knowledge about ammonium and sulfate assimilation pathways is lacking and although some benthic foraminifera are known to maintain intracellular pools of nitrate and/or to denitrify, the potential use of nitrate-derived nitrogen for anabolic processes has not been systematically studied. In the present study, NanoSIMS isotopic imaging correlated with transmission electron microscopy was used to trace the incorporation of isotopically labeled inorganic nitrogen (ammonium or nitrate) and sulfate into the biomass of twelve benthic foraminiferal species from different marine environments. On timescales of twenty hours, no detectable 15N-enrichments from nitrate assimilation were observed in species known to perform denitrification, indicating that, while denitrifying foraminifera store intra-cellular nitrate, they do not use nitrate-derived nitrogen to build their biomass. Assimilation of both ammonium and sulfate, with corresponding 15N and 34S-enrichments, were observed in all species investigated (with some individual exceptions for sulfate). Assimilation of ammonium and sulfate thus can be considered widespread among benthic foraminifera. These metabolic capacities may help to underpin the ability of benthic foraminifera to colonize highly diverse marine habitats.

Published

2022

49. Coupled Effects of Temperature and Humidity on Fracture Toughness of Al–Mg–Si–Mn Alloy

Author

Ibrahim Alqahtani, Andrew Starr, and Muhammad Khan

Subjects

Al–Mg–Si–Mn alloy, fracture toughness, coastal environments, polynomial model, failure mechanism, Technology, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Engineering (General). Civil engineering (General), TA1-2040, Microscopy, QH201-278.5, Descriptive and experimental mechanics, QC120-168.85

Abstract

The combined effect of temperature and humidity on the fracture toughness of aluminium alloys has not been extensively studied, and little attention has been paid due to its complexity, understanding of its behaviour, and difficulty in predicting the effect of the combined factors. Therefore, the present study aims to address this knowledge gap and improve the understanding of the interdependencies between the coupled effects of temperature and humidity on the fracture toughness of Al–Mg–Si–Mn alloy, which can have practical implications for the selection and design of materials in coastal environments. Fracture toughness experiments were carried out by simulating the coastal environments, such as localised corrosion, temperature, and humidity, using compact tension specimens. The fracture toughness increased with varying temperatures from 20 to 80 °C and decreased with variable humidity levels between 40% and 90%, revealing Al–Mg–Si–Mn alloy is susceptible to corrosive environments. Using a curve-fitting approach that mapped the micrographs to temperature and humidity conditions, an empirical model was developed, which revealed that the interaction between temperature and humidity was complex and followed a nonlinear interaction supported by microstructure images of SEM and collected empirical data.

Published

2023

50. Non-indigenous species and ecological degradations in Marinas: Perceptions and willingness to pay for improvements.

Author

Blayac, Thierry, Courtois, Pierre, Sevaux, Lucille, Rey-Valette, Hélène, Page, Anais, Lautrédou-Audouy, Nicole, Salles, Jean-Michel, and Viard, Frédérique

Subjects

WILLINGNESS to pay, MARINAS, YOUNG adults, INTRODUCED species, ENVIRONMENTAL degradation, ECOLOGICAL impact, YOUNG women, INVASIVE plants

Abstract

Marinas have a major ecological footprint, not only because of the pollution they generate but also because of the introduction and spread of non-indigenous species (NIS). This invites us to reconsider both the practices and infrastructures of marinas but also their uses and users, as marinas are increasingly recognized as places of well-being. The twofold objective of this article is to analyze the public's perception of environmental and ecological degradation in marinas and to assess the willingness to pay to improve their environmental quality. We conducted a field survey among residents and boaters of four marinas in France and showed that both have a relatively low knowledge of NIS, as well as of the responsibility of the boating activity for their spread. Other environmental degradations, such as the pollution generated by boats, are better identified and many agree on the positive economic impact of marinas. We showed a high willingness to pay to improve the environmental quality of marinas and on this basis make recommendations on how to encourage support for reducing environmental degradation. In particular, we discuss the appropriation of marinas by a wider population, including residents, young people and women. The challenge is for marinas to become multifunctional spaces, with the extension of their uses to a wider range of users going hand in hand with an improvement in their environmental quality. • Marinas are positively perceived for their amenities • Marinas are negatively perceived because of the environmental degradation they generate, water pollution in particular • The impacts of invasive species and the responsibility of marinas in their spread remain poorly known • Both residents and marina users have relatively high willingness to pay to limit the impact of invasive species • The willingness to pay are higher among men, revealing an unusual gender effect [ABSTRACT FROM AUTHOR]

Published

2024