Your search keyword '"Artificial reef"' showing total 2,118 results

1. Influence of mixture composition and carbonation curing on properties of sustainable 3D printable mortars

Author

Srinivas, Dodda, Panda, Biranchi, Suraneni, Prannoy, and Sitharam, T.G.

Published

2025

2. Effectiveness of artificial reefs in enhancing phytoplankton community dynamics: A meta-analysis

Author

Wan, Yu, Kong, Qiaoling, Du, Hongbo, Yang, Wei, Zha, Wei, and Li, Wenjie

Published

2024

3. Considerations on the programmed functional life (one generation) of a green artificial reef in terms of the sustainability of the modified ecosystem

Author

Carral, Luis, Tarrío-Saavedra, Javier, Cartelle Barros, Juan José, Fabal, Carolina Camba, Ramil, Alberto, and Álvarez-Feal, Carlos

Published

2023

4. Experimental Study of Pipe Artificial Reef on Wave Attenuation

Author

Xaviour, Soniya, Shirlal, Kiran G., di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Cui, Zhen-Dong, Series Editor, Lu, Xinzheng, Series Editor, Janardhan, Prashanth, editor, Choudhury, Parthasarathi, editor, and Kumar, D. Nagesh, editor

Published

2025

5. Structure and assembly mechanisms of the microbial community on an artificial reef surface, Fangchenggang, China.

Author

Zou, Jian, Guo, Yu, Zhang, Ankai, Shao, Guangyu, Ma, Zhenhua, Yu, Gang, and Qin, Chuanxin

Subjects

*BIOGEOCHEMICAL cycles, *ARTIFICIAL reefs, *LIFE sciences, *MICROBIAL communities, *MICROBIAL ecology

Abstract

The construction of artificial reefs (ARs) is an effective way to restore habitats and increase and breed fishery resources in marine ranches. However, studies on the impacts of ARs on the structure, function, and assembly patterns of the bacterial community (BC), which is important in biogeochemical cycles, are lacking. The compositions, diversities, assembly patterns, predicted functions, and key environmental factors of the attached and free-living microbial communities in five-year ARs (O-ARs) and one-year ARs (N-ARs) in Fangchenggang, China, were analyzed via 16S rRNA gene sequencing. Proteobacteria was the dominant taxon in all the samples, with an average relative abundance of 44.48%, followed by Bacteroidetes (17.42%) and Cyanobacteria (15.19%). The composition of bacterial phyla was similar between O-ARs and N-ARs, but the relative abundance of Cyanobacteria was greater in the water column (38.56%) than on the AR surface (mean of 7.40%). The results revealed that the Shannon‒Wiener diversity indices were 5.64 and 5.45 for O-ARs and N-ARs, respectively. Principal coordinate analysis (PCoA) revealed different distributions of O-ARs and N-ARs in the microbial community. Additionally, network analysis revealed that the bacterial community was more complex and stable in O-ARs than in N-ARs, indicating that the 5-year AR presented a more diverse and stable microbial community overall. The KEGG database was used to predict that nitrogen metabolism, carbon metabolism, and membrane transport were the dominant microbial functions, accounting for 29.93% of the total functional abundances. The results of the neutral community model revealed that stochastic processes (67.2%) dominated the assembly of BCs. Interestingly, deterministic processes may be increasingly important in community aggregation over time. Moreover, a null model revealed that dispersal limitation was the most important process among the stochastic processes, accounting for 57.14% of the total. In addition, redundancy analysis (RDA) revealed that hydrological factors obviously impacted the structure and function of the microbial community. Our results showed that the construction of ARs slightly promotes local diversities in the structure and function of the microbial community, indicating it requires a longer time to enhance the diversity of the microbial community on artificial reefs. Key points: • Artificial reefs facilitate the diversity and functions of the microbial community • Stochastic processes dominate the assembly of the microbial community in artificial reefs • Nitrogen and carbon metabolism dominate microbial functions in artificial reefs [ABSTRACT FROM AUTHOR]

Published

2025

6. Fish abundance is enhanced within a network of artificial reefs in a large estuary.

Author

Grimes, Charlotte E., Morley, James W., Richie, Diandre′ N., and McMains, Andrew R.

Subjects

ACOUSTIC imaging, ARTIFICIAL substrates (Biology), ARTIFICIAL reefs, SONAR imaging, ARTIFICIAL habitats

Abstract

Artificial reefs may be created within estuaries for multiple reasons, including habitat enhancement, oyster production, or recreational fishing. While traditional sampling in this environment is difficult due to complex structures and the high turbidity of estuaries, acoustic imaging sonar provides an effective alternative to measure abundance and size spectra of the fish community. We sampled eight artificial reefs in Pamlico Sound, North Carolina, that are designated as oyster sanctuaries. At each oyster sanctuary, we sampled 26 boat positions along two transects using ARIS imaging sonar, which included control areas outside of the sanctuaries over featureless bottom. We found that fish abundance and mean length were greater within the oyster sanctuary boundaries, but did not observe any significant differences among artificial substrate types within the sanctuaries. Further, we found that fish abundance dropped to near background levels within 25 m outside of the oyster sanctuary edge. Size spectra analysis revealed that abundance was higher in the sanctuaries versus control areas for every length bin of the fish community (5 to 50 cm). However, the differences in abundance were greatest for 10 to 30 cm fishes. Our results can be coupled with previous research on species composition data to more fully understand the potential role that the Pamlico Sound oyster sanctuaries, and estuarine artificial reefs in general, serve as habitat and recreational fishing enhancement. [ABSTRACT FROM AUTHOR]

Published

2024

7. Positive linear relationship between phytoplankton diversity and productivity in an artificial reef ecosystem.

Author

Tang, Quehui, Xu, Lei, Wang, Lianggen, Ning, Jiajia, Huang, Delian, Li, Yafang, Liu, Shuangshuang, and Du, Feiyan

Abstract

The relationship between biodiversity and ecosystem functioning (BEF) is one of the central themes of ecological research. Phytoplankton play important ecological functions in aquatic ecosystems. Although the BEF in phytoplankton communities was found in various types of natural aquatic ecosystems, it has not been examined in artificial ecosystems at small scale. Artificial reef, a submerged device built by human, can pump nutrient-rich bottom water to the surface, mimicking natural upwelling to feed phytoplankton. Here we quarterly investigated the phytoplankton communities in the artificial reef zone and its adjacent water in a subtropical bay. Our results showed positive linear relationship of phytoplankton richness to productivity in the artificial reef zone. The slope of richness-productivity relationship increased with water temperature and was relatively higher in the summer. Phytoplankton resource use efficiency (RUE) was positively correlated with richness but negatively correlated with evenness in the artificial reef zone. Compared to the adjacent natural zone, the artificial reef zone had more diverse phytoplankton communities and higher productivity during the growing season. The phytoplankton BEF pattern we found provides evidence for the role of artificial reef in the functioning of subtropical bay ecosystem. [ABSTRACT FROM AUTHOR]

Published

2024

8. Effects of Gillnet Mesh Size on the Size Selectivity and Catch Efficiency for Two Rockfish in the Artificial Reef Area of Shandong Province, China.

Author

Zhang, Liyou, Yu, Mengjie, Dou, Yilin, Li, Linjie, Qi, Guangrui, and Tang, Yanli

Subjects

*FISHERY management, *ARTIFICIAL reefs, *STRIPED bass, *GILLNETTING, *SUSTAINABLE development

Abstract

ABSTRACT Gillnets are the most commonly used fishing gear targeting black rockfish (Sebastes schlegeli) and fat greenling (Hexagrammos otakii) in the artificial reef area in coastal China. However, a minimum mesh size (MMS) has not yet been established for this fishery, which is unfavorable for sustainable development and effective management of fishery resources. We compared size selectivity and catch efficiency of gillnets of four commonly used mesh size (stretched mesh size; 40, 50, 60, and 70‐mm) in a typical artificial reef area in the Yellow Sea, China. Increasing the mesh size improved size selectivity of gillnets for black rockfish and fat greenling by reducing the proportion of undersized individuals. Further, changes in mesh size affected catch efficiency of target‐sized individuals. To protect juveniles, while maintaining catch efficiency for target‐sized fish, we recommend 60‐mm as the MMS for this fishery. Our study will contribute to the development of MMS regulations in reef fisheries management in China. [ABSTRACT FROM AUTHOR]

Published

2024

9. Comparative analysis of biofilm bacterial communities developed on different artificial reef materials.

Author

Sajid, Sumbal, Zhang, Guoqiang, Zhang, Zongyao, Chen, Lianguo, Lu, Yishan, Fang, James Kar-Hei, and Cai, Lin

Subjects

*CORAL reef restoration, *RESTORATION ecology, *BIOTIC communities, *CORAL diseases, *ARTIFICIAL reefs, *CORALS, *BIOFILMS

Abstract

Aims Artificial reefs play a vital role in restoring and creating new habitats for marine species by providing suitable substrates, especially in areas where natural substrates have been degraded or lost due to declining water quality, destructive fishing practices, and coral diseases. Artificial reef restoration aimed at coral larval settlement is gaining prominence and initially depends on the development of biofilms on reef surfaces. In this study, we hypothesized that different artificial reef materials selectively influence the composition of biofilm bacterial communities, which in turn affected coral larval settlement and the overall success of coral rehabilitation efforts. To test this hypothesis, we evaluated the impact of six different reef-made materials (porcelain, granite, coral skeleton, calcium carbonate, shell cement, and cement) on the development of biofilm bacterial communities and their potential to support coral larval settlement. Methods and results The biofilm bacterial communities were developed on different artificial reef materials and studied using 16S rRNA gene amplicon sequencing and analysis. The bacterial species richness and evenness were significantly (P  < 0.05) low in the seawater, while these values were high in the reef materials. At the phylum level, the biofilm bacterial composition of all materials and seawater was majorly composed of Pseudomonadota, Cyanobacteria , and Bacteroidetes ; however, significantly (P  < 0.05) low Bacteroidetes were found in the seawater. At the genus level, Thalassomonas, Glaciecola, Halomicronema, Lewinella, Hyphomonas, Thalassospira, Polaribacter , and Tenacibaculum were significantly (P  < 0.05) low in the coral skeleton and seawater, compared to the other reef materials. The genera Pseudoaltermonas and Thalassomonas (considered potential inducers of coral larval settlement) were highly abundant in the shell-cement biofilm, while low values were found in the biofilm of the other materials. Conclusion The biofilm bacterial community composition can be selective for different substrate materials, such as shell cement exhibited higher abundances of bacteria known to facilitate coral larval settlement, highlighting their potential in enhancing restoration outcomes. [ABSTRACT FROM AUTHOR]

Published

2024

10. High Fish Biomass and Low Nutrient Enrichment Synergistically Enhance Stability in a Seagrass Meta‐Ecosystem.

Author

Hesselbarth, Maximilian H. K. and Allgeier, Jacob E.

Subjects

*OCEAN zoning, *MARINE parks & reserves, *TROPICAL ecosystems, *ARTIFICIAL reefs, *ECOLOGICAL resilience, *SEAGRASSES

Abstract

Tropical seagrass ecosystems are globally imperiled due to overfishing and anthropogenic disturbances. Sustaining the services they provide will require managing resilience, particularly with increased volatility from climate change. Portfolio theory is touted as a mechanism to increase resilience in ecosystems because it takes advantage of temporal volatility in local production dynamics to increase stability at larger spatial scales. Using an individual‐based model of a network of artificial reefs across multiple seagrass ecosystems that is parameterized with 15 years of field data, we demonstrate that (1) the large fish populations and the low enrichment synergistically increase portfolio effects; (2) the mechanism was via reduced local and increased meta‐ecosystem stability in primary production; and (3) stability was greatest under intermediate production because nutrient enrichment reduces and fish, which have less influence on the amount of production, promote stability. Integrating common‐sense management with portfolio theory can stabilize the services provided by seagrass ecosystems. [ABSTRACT FROM AUTHOR]

Published

2024

11. Secular change in seaweed species composition and coverage of Sargassaceae on the artificial reef in Wakasa Bay, Japan.

Author

Matsui, Akira, Kawamura, Masakatsu, Nozawa, Shigehiro, Takeyama, Masatomo, and Inoue, Naoya

Subjects

ARTIFICIAL reefs, ARTIFICIAL habitats, BROWN algae, SCUBA divers, SARGASSUM

Abstract

The threat of declining seaweed beds has been a concern around the world. Seagrass and seaweed (brown algae) beds are essential habitats supporting fisheries. However, approximately 22% of these habitats have been lost in Japan due to increased coastal landfill sites and ports. This study aims to rehabilitate the depletion of these habitats by constructing an artificial reef in Wakasa Bay, Japan, and monitoring Sargassaceae succession in the second and fourth years after the construction was completed. In this study, we set up four sites on the artificial reef. Then we identified the seaweed species composition and coverage of the Sargassaceae using underwater visual observation by scuba divers. The seaweed coverage was already over approximately 80% in the second year after construction. The Sargassum horneri and S. confusum dominated during the first and second sampling in the second year after construction, and Myagropsis myagroides and S. patens during the third and fourth sampling in the fourth year after construction. Thus, the recovery of species composition takes longer than that of coverage. Therefore, observing species composition recovery is essential when constructing the artificial reef. [ABSTRACT FROM AUTHOR]

Published

2024

12. Trophic Structure of Fish Community in Artificial Reef Ecosystem Based on Body Mass Using Stable Isotope.

Author

Gao, Shike, Xie, Bin, He, Yufeng, Zhang, Shuo, Li, Yunkai, Lu, Jikun, and Fu, Guanghui

Subjects

ARTIFICIAL reefs, STABLE isotopes, FISHERY resources, FOOD chains, MARINE habitats, FISH communities

Abstract

Artificial reefs are widely recognized for their role in improving the ecological environment and creating protected habitats for marine organisms, ultimately enhancing biodiversity within the food web and fisheries resources. This study utilizes stable isotopes to analyze fish samples ranging from 3.4 to 1067 g in body mass, collected within the artificial reef area of Haizhou Bay. The objective is to determine if the δ15N-based fish body mass acts as a driving factor in shaping the food web structure. The results showed a certain level of overlap among all trophic guilds, suggesting that most trophic guilds within this region share similar living environments and feeding habits. The multiple linear regression showed a slight increasing trend between δ15N values and body mass. Furthermore, the predator–prey mass ratio (PPMR) was calculated to be 430:1 based on the δ15N–body mass relationship. This implies that larger reef fish within this artificial reef ecosystem tend to have higher δ15N values compared to smaller fish, indicating a shorter food chain in this ecosystem. In summary, this analysis provides valuable insights into the fish community structure within artificial reef ecosystems. Therefore, it is recommended that future studies focus on further characterizing the fish community structure using body mass information. [ABSTRACT FROM AUTHOR]

Published

2024

13. The ecology of giant kelp colonization and its implications for kelp forest restoration.

Author

Reed, Daniel C., Schroeter, Stephen C., Huang, David, Weisman, Denise, Beheshti, Kathryn M., and Smith, Rachel S.

Subjects

*COLONIZATION (Ecology), *DISPERSAL (Ecology), *ECOLOGICAL disturbances, *ARTIFICIAL reefs, *GIANT kelp, *MACROCYSTIS

Abstract

The success and cost‐effectiveness of kelp forest restoration hinges on understanding the colonization ecology of kelps, particularly with respect to dispersal potential, recruitment success, and subsequent establishment. To gain needed insight into these processes we examined spatial patterns and temporal trajectories of the colonization of a large artificial reef by the giant kelp Macrocystis pyrifera. The 151 ha artificial reef complex was constructed in three phases over 21 years, enabling dispersal, recruitment, and subsequent establishment to be examined for a wide range of environmental conditions, dispersal distances, and source population sizes. Natural colonization of all phases of the artificial reef by giant kelp was rapid (within 1 year) and extended across the entire 7‐km‐long reef complex. Colonization density declined with distance from the nearest source population, but only during the first phase when the distance from the nearest source population was ≤3.5 km. Despite this decline, recruitment on artificial reef modules farthest from the source population was sufficient to produce dense stands of kelp within a couple of years. Experimental outplanting of the artificial reef with laboratory‐reared kelp embryos was largely successful but proved unnecessary, as the standing biomass of kelp resulting from natural recruitment exceeded that observed on nearby natural reefs within 2–3 years of artificial reef construction for all three phases. Such high potential for natural colonization following disturbance has important implications for kelp forest restoration efforts that employ costly and logistically difficult methods to mimic this process by active seeding and transplanting. [ABSTRACT FROM AUTHOR]

Published

2024

14. 红鳍笛鲷幼鱼对不同开孔形状和尺寸人工鱼礁模型的行为 偏好探究.

Author

江满菊, 郭 禹, 秦传新, 辛 益, 赵心冉, 于 刚, 马振华, and 杨育凯

Subjects

ARTIFICIAL reefs, FISHERY resources, STATURE, SWIMMING pools, MARINE ecology

Abstract

Copyright of South China Fisheries Science is the property of South China Fisheries Science Editorial Department and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

15. Marine Environmental Archaeology: The Ecology of Shipwrecks in Mauritius

Author

Seetah, Krish, Barteneva, Svetlana, Gawde, Prerana, Mamode, Shameelah A. H., Bhunjun, Devin, Motah, Beenesh A., Runghen, Hemanaden, Badal, Rezah M., von Arnim, Yann, and Vitry, Hugues

Published

2025

16. Establishing complexity targets to enhance artificial reef designs

Author

Elisabeth Riera, Benjamin Mauroy, Patrice Francour, and Cédric Hubas

Subjects

Artificial reef, Habitat complexity, 3-Dimensional computer-aided design model, Medicine, Science

Abstract

Abstract Artificial reefs (AR), which are integral tools for fish management, ecological reconciliation and restoration efforts, require non-polluting materials and intricate designs that mimic natural habitats. Despite their three-dimensional complexity, current designs nowadays rely on empirical methods that lack standardised pre-immersion assessment. To improve ecosystem integration, we propose to evaluate 3-dimensional Computer-aided Design (3D CAD) models using a method inspired by functional ecology principles. Based on existing metrics, we assess geometric (C-convexity, P-packing, D-fractal dimension) and informational complexity (R-specific richness, H- diversity, J-evenness). Applying these metrics to different reefs constructed for habitat protection, biomass production and bio-mimicry purposes, we identify potential complexity target points (CTPs). This method provides a framework for improving the effectiveness of artificial reef design by allowing for the adjustment of structural properties. These CTPs represent the first step in enhancing AR designs. We can refine them by evaluating complexity metrics derived from 3D reconstructions of natural habitats to advance bio-mimicry efforts. In situ, post-immersion studies can help make the CTPs more specific for certain species of interest by exploring complexity-diversity or complexity-species distribution relationships at the artificial reef scale.

Published

2024

17. Quantifying the ability of imaging sonar to identify fish species at a subtropical artificial reef.

Author

Sibley, E C P, Madgett, A S, Lawrence, J M, Elsdon, T S, Marnane, M J, and Fernandes, P G

Subjects

*SONAR imaging, *ARTIFICIAL reefs, *FRESHWATER habitats, *FRESHWATER fishes, *MARINE habitats

Abstract

Imaging sonars (ISs) are high-frequency acoustic devices that are increasingly being used to study fish in marine and freshwater habitats. Acoustic devices are limited in quantifying species richness, and previous attempts to identify fish species using IS have mostly focused on assemblages of low species richness or high morphological diversity. This study aimed to determine the ability of IS for identifying fish species at a subtropical artificial reef off Perth, Western Australia. Several fish traits that could be defined using IS were identified and described for all fish species observed with simultaneous optical footage. These traits were used to create a clustering algorithm to infer the species identity of IS detections of the five most abundant species at the reef. The identities of all fish from two species (Chromis westaustralis and Neatypus obliquus) were inferred with 100% success, though no individuals from the remaining three species (Seriola dumerili, Coris auricularis , and Pempheris klunzingeri) were correctly identified. An alternative clustering-based approach to categorising fish detected by IS independent of taxonomic inference was also implemented. Overall, this study demonstrates that IS can identify reef fish with variable success, and proposes an alternative method for describing fish assemblages irrespective of species identity. [ABSTRACT FROM AUTHOR]

Published

2024

18. Functional Conception of Biomimetic Artificial Reefs Using Parametric Design and Modular Construction.

Author

Maslov, Dmytro, Cruz, Fabio, Pinheiro, Marisa, Miranda, Tiago, Valente, Isabel Brito, Ferreira, Vasco, and Pereira, Eduardo

Subjects

ARTIFICIAL reefs, BIOMIMETICS, SUBMERGED structures, MODULAR construction, MARINE ecology, MARINE biodiversity

Abstract

Artificial reefs featuring different shapes and functions have been deployed around the world, causing impacts on marine ecosystems. However, the approaches typically used to deliver topological complexity, flexibility and expanding requirements to prospective structures during the initial design stages are not well established. The aim of this study was to highlight the advantages and provide evidence on how modularity and parametric design can holistically leverage the performance of multifunctional artificial reefs (MFARs). In particular, the goal was to develop a parametric design for MFAR and establish a direct relationship between specific design parameters and the MFAR target functions or design requirements. The idea of implementing the parametric design for generating the initial biomimetic geometry of the individual modular unit was explored. Furthermore, possible ways of manipulating the geometric parameters of the individual module and the whole assembly were proposed. The findings suggest that, by adopting the developed procedure and the examples studied, several functions may be reached within a single assembly: the promotion of marine biodiversity restoration, the support of scientific platforms with various sensors, as well as the development of recreational diving and of touristic attraction areas. Acquired knowledge suggests that the concept of a nature-like design approach was developed for artificial reefs with varying scales, complexity and functions, which widens the range of possibilities of how smart design of human-made underwater structures may contribute to benefiting the near shore ecosystems. [ABSTRACT FROM AUTHOR]

Published

2024

19. Changes in the fish assemblages along the Busselton Jetty, and a comparison with natural habitats.

Author

Scanlon, Madeleine S., Harvey, Euan S., Parker, Jack R. C., Mullins, Isabella M., Teede, Sophie A., and Saunders, Benjamin J.

Abstract

Context: In Western Australia, the heritage-listed Busselton Jetty is a popular tourism, fishing and diving destination renowned for its unique marine communities. Aims: This research describes and quantifies the fish assemblages (mean number of individuals, species diversity and biomass) at the Busselton Jetty, and makes comparisons with natural habitats in Geographe Bay. Methods: Diver-operated stereo-video systems filmed 25-m transects along the length of the jetty, and a remotely operated vehicle stereo-video filmed 25-m transects in nearby reef, seagrass and sand habitats. Fish at all habitats were counted, identified and measured. Results: Fish assemblages at the defined inshore, mid-shore and offshore zones of the jetty differed significantly, whereas the number of fish, species diversity and biomass increased with distance from shore. There was no measurable effect of protection within the small sanctuary zone at the end of the jetty. Fish assemblages at the jetty differed from those in all three natural habitats, and the number of fish, species diversity and biomass were highest at the natural reef, followed by the jetty, the seagrass and the sand habitats. Conclusions: The Busselton Jetty supports a distinctive fish assemblage, high species diversity and a variety of benthic communities. Changes in the fish assemblages were attributed to differences in habitat type, complexity, depth and distance from shore. Implications: The ecological and social benefits of future man-made marine structures can be optimised by incorporating design features that promote habitat diversity and complexity. We described and quantified the fish assemblages at the heritage-listed Busselton Jetty, and made comparisons with natural reef, seagrass and sand habitats in Geographe Bay. The mean number of fish, species diversity and biomass all increased with distance along the jetty. The fish assemblage at the jetty was unique and different from that in all three natural habitats. Habitat complexity, depth and distance from shore were the key drivers of these differences. [ABSTRACT FROM AUTHOR]

Published

2024

20. Experimental study of concrete properties for artificial reefs from biodegradable waste materials for fish breeding.

Author

Anand, S. Madhava, Sendhilnathan, S., Arun Kumar, C. M., and Tamilarasan, R.

Subjects

*BIODEGRADABLE materials, *CONCRETE corrosion, *FISH breeding, *ARTIFICIAL reefs, *SILICA fume, *FLY ash

Abstract

AbstractThe corrosion of concrete and environmental pollution have become major challenges for the conventional concrete used in sea beds. Comprehensive research work has been carried out to enhance the strength and effectiveness of artificial reef (AR) concrete, because of its significant benefits for the sea coastlines to enhance algae growth, fish assembly, rehabilitation, and soil erosion. An experimental investigation of the compressive strength, water absorption, flexural, split tensile strength, and sorptivity of concrete specimens used for artificial reefs concrete immersed in seawater is presented here. Natural recycled materials used in this research work includes fly ash, seashells, rice-husked ash, silica fumes, granite powder, paper pulp, and coconut fiber. To investigate the corrosion behaviors of concrete based on the M20 standard, experiments were conducted using different proportions of raw materials. Concrete strength was observed on different days (7, 14, 28, 56, and 90) and the results showed that artificial reef concrete is stronger than conventional concrete. Moreover, the strength of concrete is increased by 3% due to the addition of 5% of silica fume and granite powder. It also shows that the attack of sulfate in the concrete decreases gradually by the addition of rice husk ash and silica fume. In addition to other recycled biodegradable materials like AR2, AR3, and AR4 have flexural strengths such as 1.90%, 4.08%, and 5.07% which is higher than the conventional concrete, respectively. These approaches were eco-friendly to the ocean, because of the application of silica fumes and flyash and it does not create any type of crack in the reef. It is cost-effective and environmentally favorable. The splitting tensile strength of the traditional mixer after 28 days is measured in 2.94 MPa, which was found to be 2.11%, 4.79%, 4.68%, 23.81%, and 28.78% and it is higher than the values observed in the other specimens. [ABSTRACT FROM AUTHOR]

Published

2024

21. Association of reef fish with oil and gas platforms in the Northern Gulf of Mexico.

Author

Fujiwara, Masami, Beyea, R. Taylor, and Putman, Nathan F.

Subjects

DRILLING platforms, OFFSHORE gas well drilling, REEF fishes, PETROLEUM industry, FISH industry, OCEAN zoning, FISH oils, OFFSHORE oil & gas industry

Abstract

Offshore oil and gas platforms support abundant reef fish and are popular fishing sites for recreational anglers. However, the rapid decommissioning and removal of active platforms have decreased such fishing opportunities in the Gulf of Mexico, raising concerns about fisheries impacts. Conversely, planned offshore energy structures like wind turbines may offer similar habitats and fishing sites. To inform spatial planning for marine energy infrastructure in the context of recreational fisheries, we created models of fish communities associated with oil and gas platforms using existing abundance data. We employed Random Forest analysis to predict the presence‐absence and abundance of Red Snapper (Lutjanus campechanus) and Greater Amberjack (Seriola dumerili) at platforms using 47 environmental and platform variables. Nonmetric multidimensional scaling on Bray−Curtis dissimilarities explored fish species composition among 37 species. Results showed variability in Red Snapper and Greater Amberjack incidence/abundance from shore to shelf‐edge, not attributed to surrounding habitat or climatological oceanographic variables. Incidence models were more robust than abundance models. Fish species composition was significantly influenced by location gradient, with less impact from other habitat features. Our findings guide selecting areas for artificial structures to enhance angler opportunities and maintain fish diversity, but identifying the drivers of finer scale abundance variation will require further sampling. [ABSTRACT FROM AUTHOR]

Published

2024

22. 人工鱼礁群对单桩基础局部冲刷防护效应的试验研究.

Author

龚政, 王子木, 靳闯, 邵杰, and 张茜

Abstract

Copyright of Journal of Southeast University / Dongnan Daxue Xuebao is the property of Journal of Southeast University Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

23. Artificial Reef Design and Flow Field Analysis for Enhancing Stichopus japonicus Cultivation in Haizhou Bay.

Author

Lai, Junlin, Yang, Feifei, Huang, Dazhi, Huang, Siqi, and Sun, Xiaojie

Subjects

APOSTICHOPUS japonicus, ARTIFICIAL reefs, FLOW velocity, AQUACULTURE industry, INDUCTIVE effect

Abstract

In recent years, with the scale and standardization of Stichopus japonicus mariculture, artificial reefs are increasingly used in S. japonicus farming to promote the development of the S. japonicus aquaculture industry. To provide shelter and improve the habitat environment for S. japonicus, three types of artificial reefs (box-shaped reef, triangular-shaped reef, and trapezoidal-shaped reef) were designed according to the ecological habitats of S. japonicus and the marine environment of Haizhou Bay (China) in the present study. After comprehensively comparing the three reef structures, we found that the trapezoidal-shaped reef has good permeability, a larger attachment area, and excellent anti-slip and anti-overturning properties. Further, the flow field characteristics surrounding a trapezoidal-shaped reef at different angles and flow velocities are investigated by three-dimensional numerical simulations. Then, the impact of the placement distance on the flow field surrounding the artificial reef combination was investigated. At the head-on angle θ = 0°, the upwelling volume increases as the flow velocity increases and then decreases, and the back eddy volume remains relatively constant. At the longitudinal spacing D = 4 L, the large slow-flow area surrounding the reef under this condition is more suitable for the S. japonicus habitat. In this study, the trapezoidal-shaped reef design is suitable and beneficial for S. japonicus aquaculture. Moreover, this study will contribute theoretical references to the design and arrangement of artificial reefs in coastal areas. [ABSTRACT FROM AUTHOR]

Published

2024

24. A Study on Planning of Sustainable Floating Architecture Outside a Bay Utilizing Submerged Breakwater Reef That Sequesters CO2

Author

Pak, Sang W., Lee, Han-Seok, di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Cui, Zhen-Dong, Series Editor, Ikoma, Tomoki, editor, Tabeta, Shigeru, editor, and Lim, Soon Heng, editor

Published

2024

25. Hydrodynamic Model of a Hydrokinetic Converter and Improvement in the Surrounding Ecosystem Through the Installation of Artificial Reefs

Author

Galdo, María Isabel Lamas, Couce, Luis Carral, Barros, Juan José Cartelle, Sánchez, Rodrigo Carballo, Moreira, Iván López, Varela, David Mateo Fouz, Xiros, Nikolas I., Series Editor, Carral, Luis, editor, Vega, Adán, editor, Carreño, Jorge, editor, de Lara, José, editor, Lamas, María Isabel, editor, Cartelle, Juan José, editor, Tarrío, Javier, editor, Carballo, Rodrigo, editor, and Townsed, Patrick, editor

Published

2024

26. Considerations on Alkalinity in the Use of Bivalve Shells for the Production of Artificial Reefs for the Galician Estuaries

Author

Buenhombre, José Luis Mier, Fabal, Carolina Camba, Jove, Fernando Barbadillo, Feal, Carlos Álvarez, Galdo, María Isabel Lamas, Couce, Luis Carral, Xiros, Nikolas I., Series Editor, Carral, Luis, editor, Vega, Adán, editor, Carreño, Jorge, editor, de Lara, José, editor, Lamas, María Isabel, editor, Cartelle, Juan José, editor, Tarrío, Javier, editor, Carballo, Rodrigo, editor, and Townsed, Patrick, editor

Published

2024

27. Optimization in the Design of the PROARR Artificial Reef Module Through the Interaction Between the Hydrodynamic Models of Circulation in the Estuary and that of Food Delivery in the Vicinity of the Module

Author

Galdo, María Isabel Lamas, Sánchez, Rodrigo Carballo, Moreira, Iván López, Varela, David Mateo Fouz, Barros, Juan José Cartelle, Caamaño, Lucía Santiago, Couce, Luis Carral, Xiros, Nikolas I., Series Editor, Carral, Luis, editor, Vega, Adán, editor, Carreño, Jorge, editor, de Lara, José, editor, Lamas, María Isabel, editor, Cartelle, Juan José, editor, Tarrío, Javier, editor, Carballo, Rodrigo, editor, and Townsed, Patrick, editor

Published

2024

28. Fish abundance is enhanced within a network of artificial reefs in a large estuary

Author

Charlotte E. Grimes, James W. Morley, Diandre′ N. Richie, and Andrew R. McMains

Subjects

ARIS, acoustic imaging, sonar, artificial reef, oyster restoration, Pamlico Sound, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Artificial reefs may be created within estuaries for multiple reasons, including habitat enhancement, oyster production, or recreational fishing. While traditional sampling in this environment is difficult due to complex structures and the high turbidity of estuaries, acoustic imaging sonar provides an effective alternative to measure abundance and size spectra of the fish community. We sampled eight artificial reefs in Pamlico Sound, North Carolina, that are designated as oyster sanctuaries. At each oyster sanctuary, we sampled 26 boat positions along two transects using ARIS imaging sonar, which included control areas outside of the sanctuaries over featureless bottom. We found that fish abundance and mean length were greater within the oyster sanctuary boundaries, but did not observe any significant differences among artificial substrate types within the sanctuaries. Further, we found that fish abundance dropped to near background levels within 25 m outside of the oyster sanctuary edge. Size spectra analysis revealed that abundance was higher in the sanctuaries versus control areas for every length bin of the fish community (5 to 50 cm). However, the differences in abundance were greatest for 10 to 30 cm fishes. Our results can be coupled with previous research on species composition data to more fully understand the potential role that the Pamlico Sound oyster sanctuaries, and estuarine artificial reefs in general, serve as habitat and recreational fishing enhancement.

Published

2024

29. The Effect of Mono-Species Bacterial Biofilms Formed on the Surface of Artificial Reef on Settlement of Plantigrades in Mytilus coruscus

Author

Jinlong YANG, Xiangbing YU, Xiaomeng HU, Chuhan HE, and Xiao LIANG

Subjects

artificial reef, mytilus coruscus, mussel juvenile, settlement, biofilm, Aquaculture. Fisheries. Angling, SH1-691

Abstract

Aquaculture is the fastest growing food production industry. The Chinese mariculture industry has made great progress in the past 40 years to become the dominant producer of aquaculture. However, the current deterioration of the water environment and the aggravation of farming diseases poses challenges for the traditional culture model to meet the new requirements of healthy development in marine fishery resources. This problem was addressed using marine ranching. This is a new mariculture model that includes two approaches (artificial reefs and stocking) with the goal of achieving environmental and ecological harmony. Artificial reefs are an important component of this marine ranching model since they can help improve the water environment around the reefs, promote nutrient circulation, provide a suitable habitat for marine organisms, and encourage colonization of the reef surface by sessile organisms. The placement of artificial reefs into seawater may serve as a substrate for bacteria to form a biofilm on the surface. Biofilms play a crucial role in the settlement of many marine invertebrate species. However, limited research was conducted into the relationship between bacteria on the surface of artificial reefs, biofilm formation, and the settlement behavior of Mytilus coruscus.This study placed white acrylic plates and tetrahedral structured artificial reefs in Gouqi Island, Zhoushan City, Zhejiang Province, China (122°46′ E; 30°43′ N). Nine strains of bacteria isolated from the surface of the artificial reefs were used to construct mono-species bacterial biofilms and induce plantigrade settlement of M. coruscus. The aim of the study was to investigate the interactions between marine bacteria and the settlement of M. coruscus on the surface of artificial reefs. The marine biofilms impacted the settlement process of M. coruscus. The bacterial species from the marine biofilm were screened for high and low inducing activity and analyzed for bacterial density, protein, and polysaccharide content to further explore the relationship between different bacterial biofilms and M. coruscus settlement.There were significant differences in the induction activity of biofilms formed by the nine strains of artificial reef bacteria on the settlement of M. coruscus: Mesoflavibacter sp.2 and Phaeobacter sp.2 showed the highest and lowest induction activity, respectively. Bacteria within the same genus exhibited differences in induction activity. This indicated that the induction activity of bacterial biofilms on mussel settlement was independent of bacterial species. Phylogenetic analysis showed that genetically similar strains (such as Pseudoalteromonas sp.31 and Pseudoalteromonas sp.32) and genetically distant strains (such as Mesoflavibacter sp.2 and Jeotgalibacillus sp.1) showed significant differences in the induction activity of M. coruscus settlement. Only four of the nine bacterial strains showed significant correlation between biofilm density and the settlement rate. Sutcliffiella sp.1 and Jeotgalibacillus sp.1 exhibited a positive correlation between bacterial density and induction activity. This indicated that bacterial density may play a role in M. coruscus settlement, although it may be strain specific. Additionally, the trend of induction activity of mussel larvae attachment varied with increasing initial bacterial density. The optimal density for settlement is strain specific. Further analysis of biofilm active substance content in Mesoflavibacter sp.2 and Phaeobacter sp.2 revealed that polysaccharide content negatively correlated with induction activity of M. coruscus and positively correlated with protein content. This suggests that bacterial species may not directly affect M. coruscus settlement, although bacteria may indirectly influence settlement by affecting the secretion of extracellular products.This study showed that nine bacterial strains had significant differences in their ability to induce mussel settlement on the surface of artificial reefs. Interestingly, these differences did not necessarily correlate with the genetic distance between the marine bacteria. Further investigations were conducted on two selected strains of bacteria (Mesoflavibacter sp.2 and Phaeobacter sp.) that exhibited different levels of inductive activity on M. coruscus. The polysaccharide content and protein content negatively and positively correlated with the induction activity of M. coruscus, respectively. This suggests that the presence of specific polysaccharides may negatively affect the settlement of M. coruscus according to cellulose content measurements.This is the first study investigating the effect of bacteria on M. coruscus settlement on the surface of artificial reefs. This has significant theoretical implications for further research on the interactions between biofilms and marine invertebrates on the surface of artificial reefs in natural marine environments. Understanding the settlement mechanisms of marine benthic organisms on artificial reefs is crucial to manage and conserve marine resources since artificial reefs are widely used to enhance marine habitat and biodiversity. The findings of this study have practical implications for the design and construction of artificial reefs. Understanding the role of bacteria in mussel settlement facilitates the optimization of artificial reef structures to promote or inhibit the settlement of target species. This knowledge can help develop effective strategies to manage biofouling on artificial reefs. This can impact the performance and longevity of these structures. Further research in this field will deepen our understanding of the underlying mechanisms and enable development of management strategies for artificial reefs and marine conservation efforts.

Published

2024

30. Behavioral characteristics and spatio-temporal distribution of fish near the waters of Uljin marine ranch area in the East Sea using hydroacoustics

Author

Euna Yoon, Doo-Jin Hwang, and Eun-Bi Min

Subjects

Dual-beam, Acoustic, Artificial reef, Fish distribution, Behavior, Aquaculture. Fisheries. Angling, SH1-691

Abstract

The present study was conducted to investigate the behavior and distribution characteristics of fishes near an artificial reef close to the waters of Uljin marine ranch. A 200-kHz, dual-beam frequency transducer was attached to the side of a ship for acoustic measurements. The fish formed small groups in the bottom layer near the artificial reef around the afternoon-sunset period; at night, the fish did not form groups and remained individually scattered. During dawn-sunrise and morning, the fish formed groups again and were found near the upper and middle layers of the artificial reef. High density of fish occurred near the middle of the nautical zone during morning, afternoon-sunset, and dawn-sunrise, periods; at nighttime, the distribution was uniform across the entire zone. Moreover, the mean Nautical Area Scattering Coefficients (NASC, m2/nmi2) value was highest during dawn-sunrise at 400.2 m2/nmi2, similar during night and morning (100.5 m2/nmi2), and lowest during afternoon-sunset (20.1 m2/nmi2). The present study is expected to provide the background for understanding the behavioral characteristics of fish living near artificial reefs and estimating the density and biomass of fish.

Published

2024

31. Artificial structure selection by economically important reef fishes at North Carolina artificial reefs.

Author

Tharp, Ryan M., Hostetter, Nathan J., Paxton, Avery B., Taylor, J. Christopher, and Buckel, Jeffrey A.

Subjects

ARTIFICIAL reefs, REEFS, REEF fishes, CORAL reef conservation, SEA basses, FISHERIES, FISHERY management

Abstract

Artificial reefs can play an important role in marine fisheries management by supplementing or enhancing natural habitats. Despite their increased use in recent years, the choice of structures used at artificial reefs remains largely haphazard due to the lack of information on reef structure performance. Few studies have examined the use of different artificial reef structures by individual fish. From 2021-2022, we acoustically tagged 72 black sea bass (Centropristis striata), 34 gag (Mycteroperca mircrolepis), 27 greater amberjack (Seriola dumerili), nine almaco jack (S. rivoliana), and eight red snapper (Lutjanus campechanus) on four artificial reef complexes near Cape Lookout, North Carolina, U.S. Available artificial reef structures consisted of materials of various sizes and heights made of concrete and metal. We tracked tagged fish using a fine-scale positioning system for ~100 days. Black sea bass exhibited high site fidelity to the artificial structure where we caught them, rarely moving away from that structure. The limited movement resulted in low transition probabilities; we conclude that black sea bass do not select for particular artificial structures. Gag and red snapper moved greater distances away from artificial structures and routinely moved between them. Greater amberjack and almaco jack moved the most within the complexes displaying circling behavior around individual structures and were the only species that regularly moved off the artificial reef complexes. Greater amberjack movements away from artificial sites were most commonly directed to surrounding shipwrecks. Whereas gag, red snapper, almaco jack, and greater amberjack used all available structures, they consistently selected for high relief structures, such as vessels, more than other structures. These results will be useful to managers charged with decisions on what types of structures to place at artificial reef complexes to supplement or enhance habitat for economically important fishes. [ABSTRACT FROM AUTHOR]

Published

2024

32. Flow Field Characteristics of Multi-Trophic Artificial Reef Based on Computation Fluid Dynamics.

Author

Huang, Junlin, Li, Jiao, Li, Yan, Gong, Pihai, Guan, Changtao, and Xia, Xu

Abstract

On the basis of computational fluid dynamics, the flow field characteristics of multi-trophic artificial reefs, including the flow field distribution features of a single reef under three different velocities and the effect of spacing between reefs on flow scale and the flow state, were analyzed. Results indicate upwelling, slow flow, and eddy around a single reef. Maximum velocity, height, and volume of upwelling in front of a single reef were positively correlated with inflow velocity. The length and volume of slow flow increased with the increase in inflow velocity. Eddies were present both inside and backward, and vorticity was positively correlated with inflow velocity. Space between reefs had a minor influence on the maximum velocity and height of upwelling. With the increase in space from 0.5 L to 1.5 L (L is the reef lehgth), the length of slow flow in the front and back of the combined reefs increased slightly. When the space was 2.0 L, the length of the slow flow decreased. In four different spaces, eddies were present inside and at the back of each reef. The maximum vorticity was negatively correlated with space from 0.5 L to 1.5 L, but under 2.0 L space, the maximum vorticity was close to the vorticity of a single reef under the same inflow velocity. [ABSTRACT FROM AUTHOR]

Published

2024

33. Association of reef fish with oil and gas platforms in the Northern Gulf of Mexico

Author

Masami Fujiwara, R. Taylor Beyea, and Nathan F. Putman

Subjects

artificial reef, greater amberjack, oil rig, recreational fisheries, Red Snapper, Aquaculture. Fisheries. Angling, SH1-691

Abstract

Abstract Offshore oil and gas platforms support abundant reef fish and are popular fishing sites for recreational anglers. However, the rapid decommissioning and removal of active platforms have decreased such fishing opportunities in the Gulf of Mexico, raising concerns about fisheries impacts. Conversely, planned offshore energy structures like wind turbines may offer similar habitats and fishing sites. To inform spatial planning for marine energy infrastructure in the context of recreational fisheries, we created models of fish communities associated with oil and gas platforms using existing abundance data. We employed Random Forest analysis to predict the presence‐absence and abundance of Red Snapper (Lutjanus campechanus) and Greater Amberjack (Seriola dumerili) at platforms using 47 environmental and platform variables. Nonmetric multidimensional scaling on Bray−Curtis dissimilarities explored fish species composition among 37 species. Results showed variability in Red Snapper and Greater Amberjack incidence/abundance from shore to shelf‐edge, not attributed to surrounding habitat or climatological oceanographic variables. Incidence models were more robust than abundance models. Fish species composition was significantly influenced by location gradient, with less impact from other habitat features. Our findings guide selecting areas for artificial structures to enhance angler opportunities and maintain fish diversity, but identifying the drivers of finer scale abundance variation will require further sampling.

Published

2024

34. The species composition and abundance of marine fish on artificial reef (Fish domes) at Samaesarn Island, Chon Buri province, Thailand

Author

Ason Meenapha and Vipoosit Mantrachitra

Subjects

artificial reef, coral reef fish, marine fish, abundance, samaesarn island, Agriculture

Abstract

The degradation of marine resources at Samasarn Islands has been a problem for a long time. Due problem, a fish dome was established on Samae San Island, with the objective of serving as a resource for future marine ecosystem rehabilitation. Over a 25-month, from March 2018 to March 2020, studies on the composition and abundance of marine fish were collected from fish domes. A video census method was collected from 100 fish domes situated across five stations. Each station was further divided into five groups, each containing four fish domes. Found 99 species belonging to 36 different families. The Pomacentridae family was the most dominant with 11 species, followed closely by Labridae and Gobiidae families, each with 8 species. Intriguingly, the research unveiled the presence of at least seven fish species within the fish dome area that had not been previously observed in the coral reefs of Samaesarn Island. These species include Janss' pipefish (Doryrhamphus janssi), spotted porcupinefish (Diodon hystrix), map puffer (Arothron mappa), half-barred goby (Priolepis semidoliata), bearded leatherjacket (Anacanthus barbatus), spotcheek emperor (Lethrinus rubrioperculatus), and three-striped whiptail (Pentapodus trivittatus). This study showed the importance of fish domes for the restoration of coral reefs, especially for coral reef fish and marine fish in this area.

Published

2023

35. Research on the Placement Error of Artificial Fish Reef in Tianjin Marine Ranching

Author

Xiaofu XU, Xiangxi ZENG, Ying LI, Enjun Fang, Lei JIA, and Biao GUO

Subjects

marine ranching, artificial reef, reef layout, placement error, Oceanography, GC1-1581

Abstract

Reasonable artificial reef layout can provide suitable habitat, promote species diversity and ecosystem stability. However, affected by various factors, the actual location of the artificial reef may be different from the plan, resulting in the failure of the artificial reef construction to achieve the expected results. In this study, four indicators, including center of gravity error, peripheral area error, overlapping area error, and reef quantity error, were used to evaluate the status of artificial reef placement errors in Tianjin Ocean Ranching. The results showed that the error of the peripheral area and reef quantity is -0.11 and 0.067, respectively, it meant that the accuracy of delivery layout was relatively high; the average error of center of gravity and overlapping area was 0.59 and 0.73, respectively, and the accuracy of delivery positioning was relatively poor, which needed further improvement. From the perspective of actual changes, in 2018, the center of gravity error, overlapping area error, and reef quantity error of artificial reefs were significantly improved, and only the peripheral area error was slightly larger, indicating that the accuracy has achieved the expected effect. This study quantified the placement error of artificial reefs in Tianjin Ocean Ranching, and the results could provide useful reference for improving the effect of artificial reef placement, provide a scientific basis for relevant policy formulation, and guide management practices for Tianjin Ocean Ranching.

Published

2023

36. Artificial structure selection by economically important reef fishes at North Carolina artificial reefs

Author

Ryan M. Tharp, Nathan J. Hostetter, Avery B. Paxton, J. Christopher Taylor, and Jeffrey A. Buckel

Subjects

artificial reef, habitat selection, telemetry, fish tagging, fine-scale habitat use, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Artificial reefs can play an important role in marine fisheries management by supplementing or enhancing natural habitats. Despite their increased use in recent years, the choice of structures used at artificial reefs remains largely haphazard due to the lack of information on reef structure performance. Few studies have examined the use of different artificial reef structures by individual fish. From 2021-2022, we acoustically tagged 72 black sea bass (Centropristis striata), 34 gag (Mycteroperca mircrolepis), 27 greater amberjack (Seriola dumerili), nine almaco jack (S. rivoliana), and eight red snapper (Lutjanus campechanus) on four artificial reef complexes near Cape Lookout, North Carolina, U.S. Available artificial reef structures consisted of materials of various sizes and heights made of concrete and metal. We tracked tagged fish using a fine-scale positioning system for ~100 days. Black sea bass exhibited high site fidelity to the artificial structure where we caught them, rarely moving away from that structure. The limited movement resulted in low transition probabilities; we conclude that black sea bass do not select for particular artificial structures. Gag and red snapper moved greater distances away from artificial structures and routinely moved between them. Greater amberjack and almaco jack moved the most within the complexes displaying circling behavior around individual structures and were the only species that regularly moved off the artificial reef complexes. Greater amberjack movements away from artificial sites were most commonly directed to surrounding shipwrecks. Whereas gag, red snapper, almaco jack, and greater amberjack used all available structures, they consistently selected for high relief structures, such as vessels, more than other structures. These results will be useful to managers charged with decisions on what types of structures to place at artificial reef complexes to supplement or enhance habitat for economically important fishes.

Published

2024

37. Evaluation of the Residency of Black Rockfish (Sebastes schlegelii) in Artificial Reef Areas Based on Stable Carbon Isotopes.

Author

Yu, Haolin, Feng, Jie, Zhao, Wei, Zhang, Tao, Wang, Haiyan, Ji, Yunlong, Tang, Yanli, and Sun, Liyuan

Abstract

The ecological 'attraction' and 'production' functions of reef areas have been the subject of ongoing debate requiring further clarification. The present study focused on the black rockfish (Sebastes schlegelii), an economically dominant species in reef areas of Dabuquan Bay. Comparisons of stable carbon (C) isotopes between the muscle and liver tissues of black rockfish were conducted to identify residency and potential sources of non-resident individuals in the coastal Yellow Sea, China. Subsequently, isoscape values, derived from C isotopes of zooplankton gathered from inshore and offshore areas surrounding the reef, were compared to determine potential sources of the non-resident black rockfish individuals. According to the results, (1) the isotopic values between the muscle and liver tissues of black rockfish remained consistently aligned across both reef and control areas but showcased significant seasonal variations, and (2) the residency ratios of individuals within the reef area exceeded 84% across all seasons, highlighting the prolonged stays of this species. The findings are consistent with previous studies on rockfish residency and could facilitate the formulation of strategies for local stock enhancement and management. [ABSTRACT FROM AUTHOR]

Published

2024

38. The Variation of Plankton Community Structure in Artificial Reef Area and Adjacent Waters in Haizhou Bay.

Author

Gao, Shike, Shi, Yixi, Lu, Yanan, and Zhang, Shuo

Abstract

Plankton are an important component of marine protected areas (MPAs), and its communities would require much smaller interpatch distances to ensure connection among MPAs. According to the survey from MPAs dominated by artificial reefs and adjacent waters (estuary area (EA), aquaculture area (AA), artificial reef area (ARA), natural area (NA) and comprehensive effect area (CEA)) in Haizhou Bay in spring and autumn, we analyzed phyto-zooplankton composition, abundance and biomass, and correlation with hydrologic variables to gain information about the forces that structure the plankton. The results showed that the dominant zooplankton were copepods (spring, 98.9%; autumn, 94.2%), while the phytoplankton were mainly composed of Bacillariophyta (spring, 61.8%; autumn, 95.6%). The RDA results showed that temperature, salinity and depth highly associated with the distribution and composition of plankton species among the habitats than other factors in spring; temperature, Chla and DO had the strongest influence in autumn. The zooplankton in the ARA and AA ecosystems basically contained the same species as those in other habitats, and each habitat also exhibited a relatively unique combination of plankton species. The structures of the EA zooplankton in spring and the EA phytoplankton in both seasons were much different than other habitats, which may have been caused by factors such as currents and tides. We concluded that there exists similarity of the plankton community between artificial reef area and adjacent waters, whereas the EAs may be relatively independent systems. Therefore, these interaction between plankton community should be considered when designing MPA networks, and ocean circulations should be considered more than the environmental factors. [ABSTRACT FROM AUTHOR]

Published

2024

39. Evaluating the biocompatibility of ceramic materials for constructing artificial reefs.

Author

O’Reilly, Logan M. and Willerth, Stephanie M.

Subjects

ARTIFICIAL reefs, DIATOMACEOUS earth, TERRA-cotta, MARINE biodiversity, BIOCOMPATIBILITY, CERAMIC materials

Abstract

Introduction: Coastal ecosystems, including reefs, are becoming increasingly threatened as anthropogenic development continues to encroach on intertidal habitats with little initiative to establish ecologically considerate infrastructure. Submerging human-made, shelter-providing structures known as artificial reefs (AR) can contribute to the preservation of these ecosystems. ARs are historically used for promoting the abundance and biodiversity of marine species for aquaculture, conservation, and ecotourism; and are typically made of concretes or metal structures. An AR’s success correlates to its ability to establish a surface layer of microorganisms, such as microalgae and bacteria, known as a biofilm. The productivity of the biofilm can be influenced by material surface properties. It is hypothesized that material pH and porosity affect the rate of biofilm formation. Methods: Here - a range of concrete mixtures were cast and submerged in circulating seawater and mass per surface area of biofilm accumulation was measured to evaluate this theory. These mixtures included standard Portland Cement (PC), PC with admixtures of diatomaceous earth (PDC) and limestone (PLC), fine-aggregate high-performance concrete (DUC), and terra cotta (TER). ARs were manufactured as 38mm tall cylinders, 76mm in diameter, and submerged in circulating seawater to evaluate mass per surface area of biofilm accumulation. Results: Our results indicate that biofilm formation is directly affected by surface porosity and less-so by pH, as determined by measuring material properties after submersion. We found that the PDC samples were most successful in forming a biofilm despite being more fragile than other concrete samples. Discussion: This preliminary study provides insight into how different material properties influence the accumulation of biofilm as a starting point for designing ARs. Future work will investigate the long-term performance of such samples in relevant conditions. [ABSTRACT FROM AUTHOR]

Published

2024

40. A Numerical Simulation Study and Effectiveness Evaluation on the Flow Field Effect of Trapezoidal Artificial Reefs in Different Layouts.

Author

Chen, Xiaolong, Che, Xuan, Zhou, Yin, Tian, Changfeng, and Li, Xinfeng

Subjects

ARTIFICIAL reefs, INDUCTIVE effect, FLOW velocity, FISH populations, COMPUTER simulation, FISHWAYS

Abstract

The combined release of artificial reefs in different quantities and arrangements leads to different flow field effects. This study designs a small trapezoidal artificial reef. To optimize the quantity and layout of these reefs, trapezoidal reefs in three different layouts were selected for analysis at five different velocity gradients (0.1, 0.5, 1.0, 1.5, and 2.0 m/s). The effects of disposal spacing and layout on the flow field effect of trapezoidal artificial reefs at different flow velocities were simulated using Ansys Fluent. According to the findings: after simulation, flow velocity could indirectly reflect the distribution of upwelling and back eddy, the scale and strength of upwelling increased as flow velocity increased, and the back eddy showed no obvious variation with flow velocity. In transverse combination mode, both the scale and strength of the upwelling and back eddy were maximized when the reef spacing was 1.0 L; in longitudinal combination mode, upwelling and back eddy reached maximum scale and strength when the disposal spacing of the reefs was 1.5 L of a single reef. In 2020, flow mapping and fishery surveys were carried out in the engineering pilot area. The results showed that the number and species of fish populations with 1.5 L spacing in the vertical combination method were significantly higher than those in other forms, and the structure of the fish reef was stable without any flipping or sliding phenomenon. This study can provide a theoretical reference for the design and the actual deployment of artificial reefs to improve the ecological restoration of the water. [ABSTRACT FROM AUTHOR]

Published

2024

41. Development Path of Marine Ranching in South China Sea Based on SWOT Analysis

Author

Mengyuan CHEN, Chuanxin QIN, Yong LIU, Peng WU, Yayuan XIAO, and Chunhou LI

Subjects

south china sea, marine ranching, swot analysis, artificial reef, stock enhancement, Oceanography, GC1-1581

Abstract

As a modern fishery model to repair the marine ecosystem and realize the proliferation of fishery resources, marine ranching is an important link in promoting the green development of marine economy, promoting the transformation and upgrading of traditional fisheries and building a community of shared future for the sea. However, there are many factors restricting the high-quality development of modern marine ranching in the actual construction. Rational planning of marine ranching and giving full play to its ecological, social and economic benefits are crucial to the sustainable development of marine ranching. This paper summarizes the current situation of the construction, technical development and policy management of marine ranching in the South China Sea, and comprehensively analyzes the development of marine ranching in the South China Sea by using SWOT analysis method, explains the advantages, disadvantages, opportunities and challenges of marine ranching in the South China Sea, and puts forward the path for the development of marine ranching industry in the South China Sea based on the experience and development trend of marine ranching construction at home and abroad, It is expected to provide reference for the high-quality development of marine ranching in China.

Published

2023

42. Palm Beach Shoreline Project: Post-Project Outcomes Measured Through Key Performance Indicators.

Author

Elliott-Perkins, Zoe, Wharton, Courtney, Prenzler, Paul, Watterson, Evan, and De Lucia, Liam

Subjects

SHORELINES, COASTAL engineering, COASTAL development, METEOROLOGY

Abstract

The Palm Beach Shoreline Project is a two-phase coastal engineering project incorporating nearshore nourishment and the construction of a submerged rock boulder artificial reef. The primary purpose of the project is to provide a coastal protection outcome for Palm Beach, which is a particularly vulnerable section of the Gold Coast coastline to the threat of coastal erosion; the secondary objective is to provide a surf amenity outcome. The aim of this paper is to discuss the post-project outcomes which have been measured through a Key Performance Indicator (KPI) framework, which consists of key results areas, performance criteria, indicators and set targets. Areas of interest include coastal protection assessed through beach volume measurements and comparisons with historical shoreline variations; recreational amenity measured through beach width and surfing outcomes; user safety measured through swimmer and surfing safety; whole-of-life costs measured through maintenance costs; and ecology measured through ecological growth in comparison with an adjacent natural reef site. KPI targets are being quantified through the investigation of coastal data sets, including wave buoys, hydrographic survey, LiDAR, aerial/oblique imagery, ecological monitoring reports, lifeguard data capture, structural monitoring investigations and new novel surf amenity data captured through remote camera analysis. The assessment of the project outcomes will be ongoing; results to date indicate positive outcomes, including a sustained increase in beach volume provided by the initial nearshore nourishment placement, an increase in rideable surfing waves in the area of the artificial reef, an increase in the abundance of marine life and minimal maintenance costs. [ABSTRACT FROM AUTHOR]

Published

2023

43. Functional Conception of Biomimetic Artificial Reefs Using Parametric Design and Modular Construction

Author

Dmytro Maslov, Fabio Cruz, Marisa Pinheiro, Tiago Miranda, Isabel Brito Valente, Vasco Ferreira, and Eduardo Pereira

Subjects

artificial reef, parametric design, biomimetic systems, modularity, Naval architecture. Shipbuilding. Marine engineering, VM1-989, Oceanography, GC1-1581

Abstract

Artificial reefs featuring different shapes and functions have been deployed around the world, causing impacts on marine ecosystems. However, the approaches typically used to deliver topological complexity, flexibility and expanding requirements to prospective structures during the initial design stages are not well established. The aim of this study was to highlight the advantages and provide evidence on how modularity and parametric design can holistically leverage the performance of multifunctional artificial reefs (MFARs). In particular, the goal was to develop a parametric design for MFAR and establish a direct relationship between specific design parameters and the MFAR target functions or design requirements. The idea of implementing the parametric design for generating the initial biomimetic geometry of the individual modular unit was explored. Furthermore, possible ways of manipulating the geometric parameters of the individual module and the whole assembly were proposed. The findings suggest that, by adopting the developed procedure and the examples studied, several functions may be reached within a single assembly: the promotion of marine biodiversity restoration, the support of scientific platforms with various sensors, as well as the development of recreational diving and of touristic attraction areas. Acquired knowledge suggests that the concept of a nature-like design approach was developed for artificial reefs with varying scales, complexity and functions, which widens the range of possibilities of how smart design of human-made underwater structures may contribute to benefiting the near shore ecosystems.

Published

2024

44. Artificial Reef Design and Flow Field Analysis for Enhancing Stichopus japonicus Cultivation in Haizhou Bay

Author

Junlin Lai, Feifei Yang, Dazhi Huang, Siqi Huang, and Xiaojie Sun

Subjects

artificial reef, Stichopus japonicus, reef design, effect of flow field, Naval architecture. Shipbuilding. Marine engineering, VM1-989, Oceanography, GC1-1581

Abstract

In recent years, with the scale and standardization of Stichopus japonicus mariculture, artificial reefs are increasingly used in S. japonicus farming to promote the development of the S. japonicus aquaculture industry. To provide shelter and improve the habitat environment for S. japonicus, three types of artificial reefs (box-shaped reef, triangular-shaped reef, and trapezoidal-shaped reef) were designed according to the ecological habitats of S. japonicus and the marine environment of Haizhou Bay (China) in the present study. After comprehensively comparing the three reef structures, we found that the trapezoidal-shaped reef has good permeability, a larger attachment area, and excellent anti-slip and anti-overturning properties. Further, the flow field characteristics surrounding a trapezoidal-shaped reef at different angles and flow velocities are investigated by three-dimensional numerical simulations. Then, the impact of the placement distance on the flow field surrounding the artificial reef combination was investigated. At the head-on angle θ = 0°, the upwelling volume increases as the flow velocity increases and then decreases, and the back eddy volume remains relatively constant. At the longitudinal spacing D = 4 L, the large slow-flow area surrounding the reef under this condition is more suitable for the S. japonicus habitat. In this study, the trapezoidal-shaped reef design is suitable and beneficial for S. japonicus aquaculture. Moreover, this study will contribute theoretical references to the design and arrangement of artificial reefs in coastal areas.

Published

2024

45. Evaluating the biocompatibility of ceramic materials for constructing artificial reefs

Author

Logan M. O’Reilly and Stephanie M. Willerth

Subjects

marine restoration, sustainable infrastructure, biocompatibility, material science, artificial reef, aquaculture, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

IntroductionCoastal ecosystems, including reefs, are becoming increasingly threatened as anthropogenic development continues to encroach on intertidal habitats with little initiative to establish ecologically considerate infrastructure. Submerging human-made, shelter-providing structures known as artificial reefs (AR) can contribute to the preservation of these ecosystems. ARs are historically used for promoting the abundance and biodiversity of marine species for aquaculture, conservation, and ecotourism; and are typically made of concretes or metal structures. An AR’s success correlates to its ability to establish a surface layer of microorganisms, such as microalgae and bacteria, known as a biofilm. The productivity of the biofilm can be influenced by material surface properties. It is hypothesized that material pH and porosity affect the rate of biofilm formation.MethodsHere - a range of concrete mixtures were cast and submerged in circulating seawater and mass per surface area of biofilm accumulation was measured to evaluate this theory. These mixtures included standard Portland Cement (PC), PC with admixtures of diatomaceous earth (PDC) and limestone (PLC), fine-aggregate high-performance concrete (DUC), and terra cotta (TER). ARs were manufactured as 38mm tall cylinders, 76mm in diameter, and submerged in circulating seawater to evaluate mass per surface area of biofilm accumulation.ResultsOur results indicate that biofilm formation is directly affected by surface porosity and less-so by pH, as determined by measuring material properties after submersion. We found that the PDC samples were most successful in forming a biofilm despite being more fragile than other concrete samples.DiscussionThis preliminary study provides insight into how different material properties influence the accumulation of biofilm as a starting point for designing ARs. Future work will investigate the long-term performance of such samples in relevant conditions.

Published

2024

46. A car showroom for the fish : The visual story of the first-ever artificial reef in Italy and the beginning of contemporary environmental discourse (Varazze, December 1970).

Author

Modaffari, Giovanni

Subjects

ARTIFICIAL reefs, AUTOMOBILE showrooms, REEFS, DISCOURSE, SCIENTIFIC community, OCEAN bottom

Abstract

In October 1970, the city of Genoa was devastated by a major flood. A few weeks later, hundreds of wrecked cars removed from the city's streets were sunk off the coast of Varazze, in the first-ever Italian project to create an artificial reef. This initiative, which was inspired by similar experiences tried out in the United States and other countries, had been aimed at increasing the fish population and protecting the seabed but was carried out without any thorough preliminary scientific study, and produced other effects not in the initial intentions of the project. Nonetheless, this story should be read as one point in the broadest trajectory in the evolution of environmental discourse. This contribution, based on hitherto unpublished visual documentation, is therefore an investigation into the very specific meaning of the environment in Italy at the beginning of the 70s. The first part of the article provides a reconstruction of the operational details involved in creating the new underwater seascape of Varazze while in the second part, the earlier examples of similar initiatives are described, as well as the reactions of the scientific community. In conclusion, we reflect on the legacy of the initiative, both at the environmental level and as a basic step in the relationship between visual media and contemporary environmental discourse. [ABSTRACT FROM AUTHOR]

Published

2023

47. Numerical Modelling of Beach Profile Evolution with and without an Artificial Reef.

Author

Kuang, Cuiping, Fan, Jiadong, Han, Xuejian, Li, Hongyi, Qin, Rufu, and Zou, Qingping

Subjects

ARTIFICIAL reefs, REEFS, BEACHES, EROSION, SEDIMENT transport, SUSPENDED sediments, WATER waves, FLOW velocity, BEACH erosion

Abstract

With the recent development from grey infrastructures to green infrastructures, artificial reefs become more popular in coastal protection projects. To investigate the responses of beach profile evolution to the presence of an artificial reef, a non-hydrostatic model is established. Both hydrodynamic and morphodynamic evolution for the beach with and without an artificial reef are compared under regular wave conditions. In addition, the protected beach profile evolution by an artificial reef is discussed under irregular wave conditions. Three key parameters in non-hydrostatic simulation are considered for sensitivity analysis, including maximum wave steepness criterium (maxbrsteep), water depth factor (depthscale), and equilibrium sediment concentration factor (sedcal). The numerical results under regular wave conditions indicate that the artificial reef enhances wave attenuation by inducing wave breaking. In addition, the artificial reef reduces local flow velocity and offshore sediment transport by 51%, therefore decrease the total erosion by 53%. Over the artificial reef, wave skewness and asymmetry go through a drastic change. Under irregular wave conditions, short waves contribute to the wave energy mainly and reflection-induced standing wave effects decline considerably. It demonstrates that the artificial reef can protect the beach from regular and irregular waves by reducing erosion and offshore transport of suspended sediments. Moreover, in the wave breaking area, the increase of maximum wave steepness criterium may give arise to the wave height. The morphological evolution is more sensitive to water depth factor than equilibrium sediment concentration factor, because the former is a controlling factor for beach profile characteristics while the latter forms the sandbar varying irregularly in shape. [ABSTRACT FROM AUTHOR]

Published

2023

48. Mechanical Properties and Performance under Laboratory and Field Conditions of a Lightweight Fluorogypsum-Based Blend for Economic Artificial-Reef Construction

Author

Bigdeli, Y, Barbato, M, Lofton, CD, Gutierrez-Wing, MT, and Rusch, KA

Subjects

Industrial by-products, Beneficial reuse, Green concrete, Fluorogypsum, Fly ash, Portland cement, Artificial reef, Civil Engineering, Materials Engineering, Building & Construction

Abstract

This paper investigates the mechanical properties under laboratory and field conditions of a concretelike blend made of fluorogypsum (FG), fly ash, and portland cement for artificial-reef construction, which is referred to as a FG-based blend. The 28-day compressive strength and relative volumetric expansion of the FG-based blend were statistically characterized. After 1 year of immersion in brackish water under field conditions, the compressive strength of the FG-based blend experienced a moderate reduction when compared with material under laboratory conditions but did not degrade below its 28-day value. Visual examination of the immersed specimens indicated that aquatic organisms are attracted to the proposed material. Field investigation of a small artificial-reef structure made of a FG-based blend indicated that sea floor settlement due to the weight of the structure was small. A preliminary cost analysis comparing the cost of artificial reefs constructed with different materials suggests that the proposed FG-based blend is a promising environment-friendly economic material for artificial-reef construction.

Published

2020

49. A Review of California's Artificial Reefs: To Help Inform Future Development of a Statewide Management Plan.

Author

Hunter, Liz

Subjects

artificial reef, fisheries enhancement, habitat enhancement, fisheries management, ecosystem based approach, cost benefit analysis, marine spatial planning, marine ecosystem, coastal management, fish density, biomass, resource managers, fish stock, marine habitat, stock enhancement, marine construction, giant kelp forest habitat, rocky reef habitat.

Abstract

The California Department of Fish and Wildlife (CDFW) has been involved in the construction of artificial reefs (ARs) since the 1950s. Then in 1985, the California Artificial Reef Program (CARP) was created by legislative statute to address declines in various southern California marine species. The CARP is managed by CDFW but no longer receives funding to manage this program. Before CDFW can support further creation of ARs we need to identify gaps in the program and know how ARs affect marine species and the marine ecosystems. This will ultimately inform a scientifically based statewide AR management plan, which CDFW needs to support in the program. The first step into making informed management decisions of the ARs is to complete a literature review of published material and to survey the type, number, and placement of ARs. The results of this survey need to be standardized and transparent in order for the CDFW to review, compare, and make informed management decisions. Some critical data to include in the surveys will be reef attributes (the quality and specific features of the reef), fish density, biomass, and the assemblage of the AR structure. Identification of gaps in the CARP and the organization and standardization of timely and regular AR assessments will then allow resource managers and stakeholders to use the best available science to make the most informed management decisions possible.  With the ocean continuing to warm and acidify and the world population continuing to increase, fish populations and marine ecosystems are at risk and face unforeseen dangers, including the reduction of fish stocks and the degradation of marine habitat. Rebuilding depleted stocks typically involves conventional fisheries management approaches, such as seasons, quotas, size limits, gear restrictions, MPAs, or even fishery closures. The concept of stock enhancement has been debated as another potential tool in the fisheries management toolbox, and may be possible with the successful implementation of CA’s ARs. CDFW has been involved with the AR program for decades but currently has no statewide management plan to guide placement, development, and testing of AR effectiveness and functionality.

Published

2020

50. Chapter In situ rare long term observations of the dogtooth grouper Epinephelus Caninus in artificial reefs recently immersed in the National Park of the Calanques (north-western Mediterranean sea, France)

Author

Perrot, Martin, Dalle, Julien, Guilbert, Antonin, Holon, Florian, Boissery, Pierre, Clamagirand, Etienne, Thievent, Philippe, Chardin, Nicolas, Lapinski, Matthieu, and Marc, Bouchoucha

Subjects

Ecological restoration, Epinephelus caninus, Artificial reef, The environment

Abstract

On 2017, artificial reefs (ARs) targeting apex rocky species such as groupers were immersed in the National Park of the Calanques as part of an experimental ecological restoration project (REXCOR). The objective of the project is to evaluate the capacity of innovative designs of ARs to restore altered ecological functions impacted by the sewage outflow of the city of Marseilles. In 2018, one specimen of the dogtooth grouper, Epinephelus caninus, was observed during 7 months inside the ARs. Such a long-term site fidelity suggets that this urban area can shelter again high trophic level species.

Published

2023