Your search keyword '"Marine ecosystems"' showing total 9,272 results

1. Defining Marine Heat Waves in the Southern California Bight: Implications for California Sea Lion Population Trends

Author

Nichols, Kaitlyn

Subjects

marine heat waves, ocean temperatures, sea lions, marine mammals, climate change, marine ecosystems

Abstract

Marine heat waves (MHWs), extended periods of unusually high ocean temperatures that significantly impact marine ecosystems, are prevalent in the Southern California Bight (SCB), increased thermal stratification has intensified these events over recent decades, affecting California sea lions by disrupting prey availability, leading to malnutrition and higher mortality rates. Rising atmospheric CO2 levels have exacerbated this issue, contributing to the warming of surface waters. Climate models predict that MHWs will continue to increase in frequency, severity, and duration, posing further risks to marine life. Despite the presence of a significant sea lion colony off the coast of San Diego, little research has been conducted on MHWs in the SCB impact on the local sea lion population. This research examines various aspects of MHWs at San Diego, including defining MHWs, historical occurrences, current trends, and their implications for California sea lions, while exploring potential policy and mitigation strategies to protect Southern California's marine ecosystems. Daily sea Surface Temperature (SST) measurements from La Jolla Scripps Pier (1916-2023) are used to quantify local MHWs relative to a shifting baseline (i.e., one that adjusts for the long-term warming trend), and to a fixed baseline (i.e., the warming trend alone increases MHW occurrences). We investigate critical questions about MHW evolution and duration, considering the continuous warming of the oceans. We consider what the two definitions of MHWs imply for upwelling and nutrient supply to the ocean surface, and the implications for California sea lion prey availability. We identify future research priorities, particularly improved measures of sea lion population counts, and the need for better indicators of MHW impacts beyond SST.

Published

2024

2. Climate Extremes in the New Zealand Region: Mechanisms, Impacts and Attribution.

Author

Salinger, M. James, Trenberth, Kevin E., Diamond, Howard J., Behrens, Erik, Fitzharris, B. Blair, Herold, Nicholas, Smith, Robert O., Sutton, Phil J., and Trought, Michael C. T.

Abstract

As global surface temperatures have increased with human‐induced climate change, notable compound climate extremes in the New Zealand (NZ) region associated with atmospheric heatwaves (AHWs) and marine heatwaves (MHWs) have occurred in the past 6 years. Natural modes of variability that also played a key role regionally include the Interdecadal Pacific Oscillation (IPO), El Niño/Southern Oscillation (ENSO) and changes in the location and strength of the westerlies as seen in the Southern Annular Mode (SAM). Along with mean warming of 0.8°C since 1900, a negative phase of the IPO, La Niña phase of ENSO and a strongly positive SAM contributed to five compound warm extremes in the extended austral summer seasons (NDJFM) of 1934/35, 2017/18, 2018/19, 2021/22 and 2022/23. These are the most intense coupled ocean/atmosphere (MHWs/AHWs) heatwaves on record with average temperature anomalies over land and sea +0.8°C to 1.1°C above 1991–2020 averages. The number of days above 25°C and above the 90th percentile of maximum temperature has increased, while the number of nights below 0°C and below the 10th percentile has decreased. Coastal waters around NZ recently experienced their longest MHW in the satellite era (1982‐present) of 289 days through 2023. The estimated recurrence interval reduces from 1 in 300‐years for the AHW event during the 1930s climate to a 1 in 25‐year event for the most recent decade. Consequences include major loss of ice of almost one‐third volume from Southern Alps glaciers from 2017 to 2021 with rapid melt of seasonal snow in all four cases. Above‐average temperatures in the December/January grape flowering period resulted in advances in veraison (the onset of ripening); and higher‐than‐average grape yields in 2022 and 2023 vintages. Marine impacts include widespread sea‐sponge bleaching around northern and southern NZ. [ABSTRACT FROM AUTHOR]

Published

2024

3. Linking extinction risk to the economic and nutritional value of sharks in small‐scale fisheries.

Author

Temple, Andrew J., Berggren, Per, Jiddawi, Narriman, Wambiji, Nina, Poonian, Chris N. S., Salmin, Yussuf N., Berumen, Michael L., and Stead, Selina M.

Subjects

*SUSTAINABLE fisheries, *BIOLOGICAL extinction, *ENDANGERED species, *FISHERY management, *NUTRITIONAL value

Abstract

To achieve sustainable shark fisheries, it is key to understand not only the biological drivers and environmental consequences of overfishing, but also the social and economic drivers of fisher behavior. The extinction risk of sharks is highest in coastal tropical waters, where small‐scale fisheries are most prevalent. Small‐scale fisheries provide a critical source of economic and nutritional security to coastal communities, and these fishers are among the most vulnerable social and economic groups. We used Kenya's and Zanzibar's small‐scale shark fisheries, which are illustrative of the many data‐poor, small‐scale shark fisheries worldwide, as case studies to explore the relationship between extinction risk and the economic and nutritional value of sharks. To achieve this, we combined existing data on shark landings, extinction risk, and nutritional value with sales data at 16 key landing sites and information from interviews with 476 fishers. Shark fisheries were an important source of economic and nutritional security, valued at >US$4 million annually and providing enough nutrition for tens of thousands of people. Economically and nutritionally, catches were dominated by threatened species (72.7% and 64.6–89.7%, respectively). The most economically valuable species were large and slow to reproduce (e.g. mobulid rays, wedgefish, and bull, silky, and mako sharks) and therefore more likely to be threatened with extinction. Given the financial incentive and intensive fishing pressure, small‐scale fisheries are undoubtedly major contributors to the decline of threatened coastal shark species. In the absence of effective fisheries management and enforcement, we argue that within small‐scale fisheries the conditions exist for an economically incentivized feedback loop in which vulnerable fishers are driven to persistently overfish vulnerable and declining shark species. To protect these species from extinction, this feedback loop must be broken. [ABSTRACT FROM AUTHOR]

Published

2024

4. Rising tide of ocean acidification.

Author

ÇELEKLİ, Abuzer and ZARİÇ, Özgür Eren

Subjects

CLIMATE change adaptation, OCEAN acidification, MARINE ecology, MARINE resources, ENVIRONMENTAL management

Abstract

This comprehensive review explores the escalating environmental crisis of ocean acidification, primarily driven by anthropogenic carbon dioxide molecule (CO2) emissions. In this study, we employed a systematic methodology to collect and analyze literature relevant to ocean acidification. Our research involved an exhaustive search of databases such as PubMed, Web of Science, Google Scholar, and Mendeley to gather pertinent studies published up until 2024. In addition, we consulted secondary sources, including expert panel reports, to enhance the depth of our analysis. Socio-economic ramifications are profound, particularly for fisheries, tourism, and coastal communities that rely heavily on marine resources. This research underscores the potential for substantial exacerbates in these sectors, emphasizing the need for targeted policies and management strategies to mitigate the adverse effects of ocean acidification. By addressing these critical areas, the study informs stakeholders and supports the development of adaptive measures that can sustain local economies and preserve biodiversity in affected regions. The economic consequences could be substantial, exacerbating global social and economic disparities. Speculative considerations highlight the potential for significant global impacts and the urgent need for proactive, coordinated action. This review emphasizes the importance of continued research and monitoring to develop effective mitigation and adaptation strategies, underscoring the critical role of global cooperation and innovation in environmental management. This review aims to serve as a call to action, highlighting the urgency to preserve marine ecosystems and their services to humanity in the face of this growing environmental challenge. [ABSTRACT FROM AUTHOR]

Published

2024

5. Improving CNN Fish Detection and Classification with Tracking.

Author

Zouin, Boubker, Zahir, Jihad, Baletaud, Florian, Vigliola, Laurent, and Villon, Sébastien

Subjects

CONVOLUTIONAL neural networks, CLASSIFICATION of fish, UNDERWATER cameras, MARINE ecology, AUTOMATIC classification

Abstract

The regular and consistent monitoring of marine ecosystems and fish communities is becoming more and more crucial due to increasing human pressures. To this end, underwater camera technology has become a major tool to collect an important amount of marine data. As the size of the data collected outgrew the ability to process it, new means of automatic processing have been explored. Convolutional neural networks (CNNs) have been the most popular method for automatic underwater video analysis for the last few years. However, such algorithms are rather image-based and do not exploit the potential of video data. In this paper, we propose a method of coupling video tracking and CNN image analysis to perform a robust and accurate fish classification on deep sea videos and improve automatic classification accuracy. Our method fused CNNs and tracking methods, allowing us to detect 12% more individuals compared to CNN alone. [ABSTRACT FROM AUTHOR]

Published

2024

6. Combining the uncombinable: corporate memories, ethnobiological observations, oceanographic and ecological data to enhance climatic resilience in small-scale fisheries.

Author

Garibay-Toussaint, Isabel, Olguín-Jacobson, Carolina, Woodson, C. Brock, Arafeh-Dalmau, Nur, Torre, Jorge, Fulton, Stuart, Micheli, Fiorenza, O'Connor, Ryan, Précoma-de la Mora, Magdalena, Hernández-Velasco, Arturo, and Narchi, Nemer E.

Subjects

LONG-range weather forecasting, MARINE heatwaves, HEAT waves (Meteorology), GIANT kelp, CLIMATE change

Abstract

The global food production system is increasingly strained by abrupt and unpredictable weather events, which hinder communities' ability to adapt to climate variations. Despite advances in meteorological predictions, many communities lack the academic knowledge or infrastructure to interpret these complex models. This gap highlights the need for solutions that make climate forecasts more accessible and actionable, especially for communities reliant on natural resources. This study explores the potential of enhancing seasonal climate forecasts by integrating local ecological knowledge (LEK) with scientific data. Specifically, we combined ethnobiological information gathered between 2022 and 2024 with existing oceanographic and ecological data to create an ethnobiological calendar for four fishing cooperatives. An ethnographic approach was used to understand the population's ethnobiological knowledge and their perceptions of marine heatwaves and climate change impacts. Coastal monitoring data was collected using moorings that recorded temperature over a 14-year period (2010–2024). To characterize giant kelp dynamics, we used an existing dataset of multispectral Landsat images, which estimates the surface canopy biomass of giant kelp forests. Ecological monitoring was conducted annually every summer from 2006 to 2023 to record the in situ abundance of ecologically and economically important invertebrate and fish species. Combining oceanographic, ecological, and ethnographic data, allowed for alligning fishers' observations with recorded marine heatwave events and ecological shifts. Our findings revealed that these observations closely matched documented marine heatwave data and corresponding ecological changes. The integration of LEK with scientific oceanographic data can significantly improved our understanding of dynamic climate regimes, offering contextually relevant information that enhances the reliability and utility of seasonal climate forecasts. By incorporating yearly data into an ethnobiological calendar, we promote more inclusive, community-based approaches to environmental management, advocating for the integration of LEK in climate adaptation efforts, emphasizing its crucial role in strengthening resilience strategies against climatic shocks. [ABSTRACT FROM AUTHOR]

Published

2024

7. Proposal for Low-Cost Optical Sensor for Measuring Flow Velocities in Aquatic Environments.

Author

Silva Alvarado, Vinie Lee, Heydari, Arman, Parra, Lorena, Lloret, Jaime, and Tomas, Jesus

Subjects

*BEACH erosion, *FLOW sensors, *POSIDONIA oceanica, *MARINE biology, *MARINE ecology

Abstract

The ocean, with its intricate processes, plays a pivotal role in shaping marine life, habitats, and the Earth's climate. This study addresses issues such as beach erosion, the survival of propagules from species like Posidonia oceanica, and nutrient distribution. To tackle these challenges, we propose an innovative sensor that quantifies hydrodynamic velocity by measuring the output voltage derived from detecting changes in light absorption and scattering using LEDs and LDRs. Our results not only demonstrate the effectiveness of the sensor but also the accuracy of the processing algorithm. Notably, the blue LED exhibited the lowest mean relative error of 7.59% in freshwater, while the yellow LED was most precise in chlorophyll-containing water, with a mean relative error of 6.80%. In a runoff simulation, we observed similar velocities with the blue, green, and white LEDs, 6.89 cm/s, 6.99 cm/s, and 7.05 cm/s, respectively, for nearly identical time intervals. It is important to highlight that our proposed sensor is not only effective but also highly cost-efficient, representing less than 0.43% of the cost of a Nortek Vector 6 MHz and 0.18% of the Teledyne Workhorse II 300 kHz Marine. This makes it a key tool for managing marine ecosystems sustainably. [ABSTRACT FROM AUTHOR]

Published

2024

8. Natural Capital Accounting of the Coralligenous Habitat in Marine Protected Areas.

Author

Silva, Serena, Capasso, Ludovica, Piernik, Agnieszka, Rendina, Francesco, Grande, Umberto, Franzese, Pier Paolo, Russo, Giovanni Fulvio, and Buonocore, Elvira

Abstract

Coralligenous bioconstructions are a key Mediterranean ecosystem for their associated biodiversity and role in the blue carbon cycle. They are also sensitive to environmental alterations (e.g., climate change) and other anthropic impacts related to coastal anthropization (e.g., fishing activities). Marine-coastal zone protection, conservation programs and management strategies are essential to guarantee a good ecological status of the coralligenous habitat. In this context, environmental and ecosystem accounting are useful tools to measure natural capital stocks and ecosystem service flows associated with marine ecosystems, conveying their importance in scientific and policy contexts. Indeed, the importance of marine ecosystems is often overlooked due to the difficulty of expressing their value in common units, making it challenging for decision-makers to explore trade-offs between conservation and exploitation of marine ecosystems. In this study, a biophysical and trophodynamic environmental accounting model was used to assess the biophysical value of natural capital stocks of the coralligenous habitat in three Marine Protected Areas (MPAs) of the Campania Region (Southern Italy): Punta Campanella, Santa Maria di Castellabate, and Costa degli Infreschi e della Masseta. The natural capital value per unit area associated with the coralligenous habitat ranged from 2.44 × 1012 to 4.72 × 1012 sej m−2 for Santa Maria di Castellabate and Punta Campanella, respectively. Despite the different intensive values of natural capital calculated for the MPAs, there were no significant differences both in the biomass values of the taxonomic groups and in the biomass-based Shannon diversity index. Additionally, the biophysical values were also converted into monetary units, with the aim of facilitating the understanding of the importance of natural stocks in socio-economic and political contexts. The economic equivalent of natural capital value refers to the total extent of the coralligenous habitat and ranged from about EUR 1 to 15 million for Costa degli Infreschi e della Masseta and Santa Maria di Castellabate, respectively. The results of this study could be useful for local managers and policy makers and may make them more likely to achieve biodiversity conservation and sustainable development goals in MPAs. This is the first study devoted to the assessment of natural capital value of coralligenous habitats. Future studies could complement the results of this study with biophysical and economic assessments of ecosystem service flows generated by coralligenous habitats, focusing on the role they play in human well-being. [ABSTRACT FROM AUTHOR]

Published

2024

9. Description and Evaluation of the CNRM‐Cerfacs Climate Prediction System (C3PS).

Author

Sanchez‐Gomez, E., Séférian, R., Batté, L., Berthet, S., Cassou, C., Dewitte, B., Moine M, M. P., Msadek, R., Prodhomme, C., Santana‐Falcón, Y., Terray, L., and Voldoire, A.

Subjects

*STRATOSPHERIC aerosols, *STRATOSPHERIC chemistry, *SEA ice, *MARINE ecology, *SURFACE temperature, *CARBON cycle

Abstract

The CNRM‐Cerfacs Climate Prediction System (C3PS) is a new research modeling tool for performing climate reanalyzes and seasonal‐to‐multiannual predictions for a wide array of Earth system variables. C3PS is based on the CNRM‐ESM2‐1 model including interactive aerosols and stratospheric chemistry schemes as well as terrestrial and marine biogeochemistry enabling a comprehensive representation of the global carbon cycle. C3PS operates through a seamless coupled initialization for the atmosphere, land, ocean, sea ice and biogeochemistry components that allows a continuum of predictions across seasonal to multiannual time‐scales. C3PS has also contributed to the Decadal Climate Prediction Project (DCPP‐A) as part of the sixth Coupled Model Intercomparison Project (CMIP6). Here we describe the main characteristics of this novel Earth system‐based prediction platform, including the methodological steps for obtaining initial states to produce forecasts. We evaluate the entire C3PS initialization procedure with the most up‐to‐date observations and reanalyzes over 1960–2021, and we discuss the overall performance of the system in the light of the lessons learned from previous and actual prediction platforms. Regarding the forecast skill, C3PS exhibits comparable seasonal predictive skill to other systems. At the multiannual scale, C3PS shows significant predictive skill in surface temperature during the first 2 years after initialization in several regions of the world. C3PS also exhibits potential predictive skill in Net primary production (NPP) and carbon fluxes several years in advance. This expands the possibility of applications of forecasting systems, such as the possibility of performing multiannual predictions of marine ecosystems and carbon cycle. Plain Language Summary: The study introduces and assesses the new climate prediction platform C3PS developed by the CNRM‐Cerfacs modeling group in the framework of the H2020 TRIATLAS project. This prediction system is based on the latest version of the CNRM Earth system model, CNRM‐ESM2.1, and was designed to produce predictions from seasonal to multiannual scales. C3PS is the result of the joint long‐term effort of experts in seasonal and decadal forecasting and modellers of ocean physics and biogeochemistry within the CNRM‐Cerfacs research group. An innovative aspect of our study is that it focuses on validating the initialization procedure, which is not often done in other studies presenting forecasting systems. We believe that the study of the reconstructions created to initialize the climate prediction systems is relevant, and even more so in the context of the new applications offered in the prediction of marine biogeochemistry and carbon fluxes. Regarding forecast skill, C3PS exhibits comparable seasonal predictive skill to other systems. On a multi‐year scale, C3PS shows potential skill not only in physical climate variables, but also in NPP and carbon fluxes up to 3 years in advance, which extends the possibilities of application to marine ecosystems and multi‐year carbon cycle forecasts. Key Points: This study introduces and assesses C3PS, the new CNRM‐Cerfacs Earth System‐based prediction platformThe platform can provide climate predictions from seasonal to multiannual timescales for relevant physical and biogeochemical fieldsThe most outstanding result is the ability of C3PS to predict the net primary production and carbon fluxes at multiannual timescales [ABSTRACT FROM AUTHOR]

Published

2024

10. Responses of the mesozooplankton community to marine heatwaves: Challenges and solutions based on a long‐term time series.

Author

Deschamps, Margot M., Boersma, Maarten, and Giménez, Luis

Subjects

*MARINE heatwaves, *EFFECT of human beings on climate change, *EXTREME weather, *MARINE ecology, *ROAD construction

Abstract

Marine heatwaves (MHWs) are extreme weather events that have major impacts on the structure and functioning of marine ecosystems worldwide. Due to anthropogenic climate change, the occurrence of MHWs is predicted to increase in future. There is already evidence linking MHWs with reductions in biodiversity and incidence of mass mortality events in coastal ecosystems. However, because MHWs are unpredictable, the quantification of their effects on communities is challenging.Here, we use the Helgoland Roads long‐term time series (German Bight, North Sea), one of the richest marine time series in the world, and implement a modified before‐after control‐impact (BACI) design to evaluate MHW effect on mesozooplankton communities. Mesozooplankton play an essential role in connecting primary producers to higher trophic levels, and any changes in their community structure could have far‐reaching impacts on the entire ecosystem.The responses of mesozooplankton community to MHWs in terms of community structure and densities occurred mainly in spring and autumn. Abundances of seven taxa, including some of the most abundant groups (e.g. copepods), were affected either positively or negatively in response to MHWs. In contrast, we observed no clear evidence of an impact of summer and winter MHWs; instead, the density of the most common taxa remained unchanged.Our results highlight the seasonally dependent impacts of MHWs on mesozooplankton communities and the challenges in evaluating those impacts. Long‐term monitoring is an important contributor to the quantification of effects of MHWs on natural populations. [ABSTRACT FROM AUTHOR]

Published

2024

11. GERENCIAMENTO DE RESÍDUOS NA PERSPECTIVA DA ECONOMIA AZUL NO RIO DE JANEIRO.

Author

Silva Almeida, Riezo, Amália Albarello, Beatriz, de Sousa Pineo, Maria Eduarda, Gomes Moreira, Daniel, Rocha Rowlands, Bernardo, and Castro Bonavita, Giuseppe

Subjects

SOLID waste management, BLUE economy, COASTAL biodiversity, WASTE management, SOLID waste, MARINE biodiversity, MARINE pollution

Abstract

Copyright of Revista Foco (Interdisciplinary Studies Journal) is the property of Revista Foco 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

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

Author

Luca Russo, Carola Murano, and Domenico D’Alelio

Subjects

Long-Term Ecological Research, marine ecosystems, marine observatories, plankton, topic evolution, Oceanography, GC1-1581

Abstract

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

Published

2024

13. Influence of body size and environmental conditions on parasite assemblages of the black-spotted croaker (Protonibea diacanthus) (Teleostei: Sciaenidae) in northern Australia

Author

Megan Porter, Diane P. Barton, Joel Williams, Jo Randall, Otso Ovaskainen, David A. Crook, and Shokoofeh Shamsi

Subjects

body size, environment, marine ecosystems, parasites, Protonibea diacanthus, season, Biochemistry, QD415-436, Infectious and parasitic diseases, RC109-216, Microbiology, QR1-502

Abstract

The functioning and richness of marine systems (and biological interactions such as parasitism) are continuously influenced by a changing environment. Using hierarchical modelling of species communities (HMSC), the presence and abundance of multiple parasite species of the black-spotted croaker, Protonibea diacanthus (Sciaenidae), was modelled against environmental measures reflecting seasonal change. Protonibea diacanthus were collected in three seasons across 2019–2021 from four locations within the waters of the Northern Territory, Australia. The length of P. diacanthus proved to have a strong positive effect on the abundance of parasite taxa and overall parasitic assemblage of the sciaenid host. This finding introduces potential implications for parasitism in the future as fish body size responds to fishing pressure and climate changes. Of the various environmental factors measured during the tropical seasons of northern Australia, water temperature and salinity changes were shown as potential causal factors for the variance in parasite presence and abundance, with changes most influential on external parasitic organisms. As environmental factors like ocean temperature and salinity directly affect parasite–host relationships, this study suggests that parasite assemblages and the ecological functions that they perform are likely to change considerably over the coming decades in response to climate change and its proceeding effects.

Published

2024

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

Author

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

Subjects

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

Abstract

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

Published

2024

15. Exploring Fungal Diversity in Seagrass Ecosystems for Pharmaceutical and Ecological Insights.

Author

Rajakaruna, Oshadi, Wijayawardene, Nalin N., Udagedara, Susantha, Jayasinghe, Prabath K., Gunasekara, Sudheera S., Boonyuen, Nattawut, Bamunuarachchige, Thushara C., and Ariyawansa, Kahandawa G. S. U.

Subjects

*EVIDENCE gaps, *MARINE habitats, *MARINE ecology, *ENDOPHYTIC fungi, *PATHOGENIC fungi

Abstract

Marine ecosystems are important in discovering novel fungi with interesting metabolites that have shown great potential in pharmaceutical and biotechnological industries. Seagrasses, the sole submerged marine angiosperm, host diverse fungal taxa with mostly unknown metabolic capabilities. They are considered to be one of the least studied marine fungal habitats in the world. This review gathers and analyzes data from studies related to seagrasses-associated fungi, including taxonomy and biogeography, and highlights existing research gaps. The significance of the seagrass–fungal associations remains largely unknown, and current understanding of fungal diversity is limited to specific geographical regions such as the Tropical Atlantic, Mediterranean, and Indo-Pacific. Our survey yielded 29 culture-dependent studies on seagrass-associated endophytic and epiphytic fungi, and 13 miscellaneous studies, as well as 11 meta-studies, with no pathogenic true fungi described. There is a significant opportunity to expand existing studies and conduct multidisciplinary research into novel species and their potential applications, especially from understudied geographical locations. Future research should prioritize high-throughput sequencing and mycobiome studies, utilizing both culture-dependent and -independent approaches to effectively identify novel seagrass-associated fungal taxa. [ABSTRACT FROM AUTHOR]

Published

2024

16. The genus Eutreptiella (Euglenophyceae/Euglenozoa) across its global distribution range.

Author

Hernández Márquez, Sinuhé, Zamudio‐Resendiz, María Eugenia, Murrieta‐Alarcón, Montserrat, Núñez Resendiz, María Luisa, Dreckmann, Kurt M., and Sentíes, Abel

Subjects

*MARINE ecosystem health, *BIOTECHNOLOGY, *GENETIC variation, *MARINE ecology, *PHENOTYPIC plasticity

Abstract

The genus Eutreptiella (Euglenophyceae/Euglenozoa) comprises unicellular organisms known for their photosynthetic capacity and significant role in marine ecosystems. This review highlights the taxonomic, ecological, and biotechnological characteristics of Eutreptiella species, emphasizing their morphological and genomic adaptations. Eutreptiella species exhibit high phenotypic plasticity, enabling adaptation to various environmental conditions, from nutrient‐rich waters to high‐salinity conditions. They play a crucial role in primary production and nutrient cycling in marine ecosystems. Genetic and transcriptomic studies have revealed their complex regulatory mechanisms and potential for biofuel and nutraceutical production. Eutreptiella blooms significantly impact local ecosystems, influencing nutrient availability and community dynamics. Additionally, interactions with associated bacteria enhance their growth and metabolic capabilities. The genus shows substantial genetic variability, suggesting potential misidentifications or a polyphyletic nature. Further comprehensive studies are needed to clarify their taxonomy and evolutionary relationships. Understanding and managing Eutreptiella populations is essential to leverage their biotechnological potential and ensure the health of marine ecosystems. [ABSTRACT FROM AUTHOR]

Published

2024

17. Reflections on How to Reach the "30 by 30" Target: Identification of and Suggestions on Global Priority Marine Areas for Protection.

Author

Zhao, Chang, Ge, Yuejing, and Zheng, Miaozhuang

Subjects

MARINE parks & reserves, MARINE resources conservation, SUBMARINE trenches, MARINE ecology, CONFERENCES & conventions, MARINE biodiversity

Abstract

The establishment of marine protected areas (MPAs) is an important method to ensure marine protection. To protect and conserve global marine biodiversity, with the adoption of the "Kunming-Montreal Global Biodiversity Framework" during the 15th meeting of the Conference of the Parties of Convention on Biodiversity (CBD) in December 2022, the establishment of an effectively managed MPA network by 2030 and the protection of 30% of the world's oceans will be common goals for all countries party to the CBD over the next decade. Based on the distribution of over 150 types of marine species, habitats, ecosystems, and abiotic elements, ArcGIS10.5 and Zonation are used in this study to calculate the marine protection priority levels of coastal, nearshore, open ocean, and deep ocean trench areas, and a plan to reach the "30 by 30" targets is proposed. The suggestions for scientifically identifying and managing MPAs are as follows: first, improve MPA planning and establish a well-connected MPA network in national jurisdictions, then conduct scientific marine investigations to obtain background data on MPA establishment and delimitation. [ABSTRACT FROM AUTHOR]

Published

2024

18. The chemical basis of seawater therapies: a review.

Author

Costanzo, Michele, De Giglio, Maria Anna Rachele, Gilhen-Baker, Melinda, and Roviello, Giovanni Nicola

Subjects

*HUMAN behavior, *SEAWATER, *MARINE ecology, *BIOACTIVE compounds, *CHEMICAL species

Abstract

The rising number of diseases and deaths caused by pollution and modern lifestyle habits is a growing societal concern. Marine ecosystems are both victim to this human behaviour as a recipient of human pollution as well as being a source of medicinal chemicals which can cure a variety of diseases. In this paper, we review the chemical basis of water-based treatments and their effects on human health, while focusing on the threats to marine ecosystems and the potential benefits of balneotherapy, thalassotherapy, and bioactive chemical species. We found that seawater has potential benefits for skin health, demonstrating emollient properties, protection against skin barrier disruption, and inhibition of atopic dermatitis-like skin lesions. We present the putative mechanisms by which minerals, salts, and marine organic matter can slow down disease progression, through their numerous activities, such as anti-inflammatory, antioxidant, and wound healing properties. Water-living organisms also have an impact on such mechanisms by producing biologically active compounds with beneficial effects on human health. [ABSTRACT FROM AUTHOR]

Published

2024

19. Including Marine-Related Items in the ISSP Environment Module is Important for a More Holistic Measure of Public Environmental Perceptions.

Author

Kolandai, Komathi, Milne, Barry, von Randow, Martin, Lay-Yee, Roy, Hillman, Jenny, O’Hara Blain, Caitlin, Haggitt, Tim, Thrush, Simon, and Lear, Gavin

Abstract

AbstractIn this study, we examine public perceptions of the importance of addressing marine ecosystem problems by including an item (which we treated as a dependent variable) in the Environment IV module of the International Social Survey Programme (ISSP) in New Zealand. Overall importance perception was high (mean rating of 4.44 on a 5-point scale). However, our hypotheses that ratings on ISSP items, which implicitly represent marine stressors (e.g., air pollution, nuclear waste), would be consistently associated with high-importance ratings for addressing marine ecosystem problems were not supported. This observation suggests that perceptions of marine issues are not necessarily underpinned by an understanding of multiple marine stressors. Including compulsory marine-related items in the ISSP could provide a clearer understanding of public perceptions of marine ecosystems and assist in informing public education and communication. This inclusion would offer a valuable global perspective, given that the ISSP is implemented in Western and non-Western countries. The ISSP offers questions on multiple environmental domains, including attitudinal, behavioral, and political and unique demographic questions that would enable in-depth country-comparative analyses of marine-related perceptions not possible in existing international environmental perception surveys. [ABSTRACT FROM AUTHOR]

Published

2024

20. Spatiotemporal Variations in Trophic Diversity of Fish Communities in a Marine Bay Ecosystem Based on Stable Isotope Analysis.

Author

Li, Pengcheng, Chen, Wan, Wang, Kun, Xu, Binduo, Zhang, Chongliang, Ji, Yupeng, Ren, Yiping, and Xue, Ying

Subjects

*STABLE isotope analysis, *MARINE ecology, *FISH diversity, *FISHING villages, *FOOD chains, *FISH communities

Abstract

Climate change has led to significant fluctuations in marine ecosystems. As a component of the food web, the trophic diversity and spatiotemporal changes of fish communities are crucial for understanding ecosystems. In recent years, stable isotope analysis has been increasingly used as a comprehensive tool for quantitative assessment of trophic diversity to explore spatiotemporal variations in fish community diversity. This study is based on carbon (δ 13C) and nitrogen (δ 15N) stable isotope analysis using different biomass-weighted isotope diversity indices, including isotopic divergence index (IDiv), isotopic dispersion index (IDis), isotopic evenness index (IEve), and isotopic uniqueness index (IUni). The overall results indicate that IDis, IEve, and IUni values of fish communities were relatively low, while IDiv was relatively high in the Haizhou Bay ecosystem. IDiv, IDis, IEve, and IUni were lower in autumn than in spring; IDiv and IDis were relatively higher in offshore waters, while IEve and IUni were relatively higher in inshore waters. The changes in species composition and intensive pelagic–benthic coupling in Haizhou Bay may lead to significant spatiotemporal variations in the trophic diversity of fish communities in the area. These findings highlight the importance of incorporating trophic relationships into ecosystem models, which will help to enhance our understanding of the complexity of the trophic structure of fish communities. [ABSTRACT FROM AUTHOR]

Published

2024

21. Biological and Environmental Impact of Pharmaceuticals on Marine Fishes: A Review.

Author

Punginelli, Diletta, Maccotta, Antonella, and Savoca, Dario

Subjects

EMERGING contaminants, LIFE cycles (Biology), MARINE fishes, MARINE ecology, POLLUTANTS, BIOINDICATORS

Abstract

Pharmaceuticals are recognized as a serious threat to aquatic ecosystems due to their persistence or pseudo-persistence and their biological activity. Their increased consumption in human and animal medicine has led to a continuous discharge of such biologically active molecules in aquatic environments. Marine ecosystems have been poorly investigated, even though recent studies have confirmed that these emerging contaminants occur widely in these ecosystems. Due to their interaction with specific biochemical and physiological pathways in target organisms, pharmaceuticals can cause alterations in several marine species during their entire life cycle. In particular, marine fishes have shown the ability to bioaccumulate these compounds in their body, and they may be used as potential bioindicators of pharmaceutical contamination in seawater. The objective of this review was to provide a comprehensive overview of the current understanding of the sources and occurrence of pharmaceuticals in marine environments, illustrating the adverse biological effects of important classes of these compounds on marine fishes. [ABSTRACT FROM AUTHOR]

Published

2024

22. The perils of building big: Desalination sustainability and brine regulation in the Arab Gulf countries

Author

Mohammad Al-Saidi, Ann-Katrin Ellermann, Markus Frederic Fittkow, Tobias Romanus Perillieux, Imen Saadaoui, and Radhouane Ben-Hamadou

Subjects

Desalination, Brine, Water supply, Gulf cooperation council, Marine ecosystems, Environmental policy, Management. Industrial management, HD28-70

Abstract

Seawater desalination has become an accessible option for augmenting freshwater supplies worldwide. In the countries of the Gulf Cooperation Council (GCC), it has been practiced for decades as the main source for domestic water use. Sustainable desalination requires addressing environmental impacts including damage to ecosystems from the high volumes of brine in the Gulf. This paper examines challenges related to environmental regulation of brine management in the Arab Gulf countries using the example of Qatar. It analyzes the brine challenge through infrastructure planning policies and stakeholders’ perceptions. The brine issue has been identified as a major environmental concern that requires action through discharge infrastructure, brine management technologies, and regulatory approaches based on quality thresholds and monitoring systems. Although there is a high level of agreement on the solvability of the brine issue, there are limitations with regard to the high reliance on desalination rendered through large-scale infrastructure. These limitations necessitate complementary water supply infrastructure for storage or the development of other sources through water reuse and storage. While water security considerations require prioritization of protection and supply continuity through desalination, incremental change through a stepwise dual approach of brine management and regulation is still possible.

Published

2024

23. Description and Evaluation of the CNRM‐Cerfacs Climate Prediction System (C3PS)

Author

E. Sanchez‐Gomez, R. Séférian, L. Batté, S. Berthet, C. Cassou, B. Dewitte, M. P. Moine M, R. Msadek, C. Prodhomme, Y. Santana‐Falcón, L. Terray, and A. Voldoire

Subjects

Earth system model, climate prediction, multiannual timescale, initialization, marine ecosystems, carbon cycle, Physical geography, GB3-5030, Oceanography, GC1-1581

Abstract

Abstract The CNRM‐Cerfacs Climate Prediction System (C3PS) is a new research modeling tool for performing climate reanalyzes and seasonal‐to‐multiannual predictions for a wide array of Earth system variables. C3PS is based on the CNRM‐ESM2‐1 model including interactive aerosols and stratospheric chemistry schemes as well as terrestrial and marine biogeochemistry enabling a comprehensive representation of the global carbon cycle. C3PS operates through a seamless coupled initialization for the atmosphere, land, ocean, sea ice and biogeochemistry components that allows a continuum of predictions across seasonal to multiannual time‐scales. C3PS has also contributed to the Decadal Climate Prediction Project (DCPP‐A) as part of the sixth Coupled Model Intercomparison Project (CMIP6). Here we describe the main characteristics of this novel Earth system‐based prediction platform, including the methodological steps for obtaining initial states to produce forecasts. We evaluate the entire C3PS initialization procedure with the most up‐to‐date observations and reanalyzes over 1960–2021, and we discuss the overall performance of the system in the light of the lessons learned from previous and actual prediction platforms. Regarding the forecast skill, C3PS exhibits comparable seasonal predictive skill to other systems. At the multiannual scale, C3PS shows significant predictive skill in surface temperature during the first 2 years after initialization in several regions of the world. C3PS also exhibits potential predictive skill in Net primary production (NPP) and carbon fluxes several years in advance. This expands the possibility of applications of forecasting systems, such as the possibility of performing multiannual predictions of marine ecosystems and carbon cycle.

Published

2024

24. Combining the uncombinable: corporate memories, ethnobiological observations, oceanographic and ecological data to enhance climatic resilience in small-scale fisheries

Author

Isabel Garibay-Toussaint, Carolina Olguín-Jacobson, C. Brock Woodson, Nur Arafeh-Dalmau, Jorge Torre, Stuart Fulton, Fiorenza Micheli, Ryan O’Connor, Magdalena Précoma-de la Mora, Arturo Hernández-Velasco, and Nemer E. Narchi

Subjects

climate adaptation, environmental baselines, local ecological knowledge, ethnobiological calendars, marine ecosystems, corporate memories, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

The global food production system is increasingly strained by abrupt and unpredictable weather events, which hinder communities' ability to adapt to climate variations. Despite advances in meteorological predictions, many communities lack the academic knowledge or infrastructure to interpret these complex models. This gap highlights the need for solutions that make climate forecasts more accessible and actionable, especially for communities reliant on natural resources. This study explores the potential of enhancing seasonal climate forecasts by integrating local ecological knowledge (LEK) with scientific data. Specifically, we combined ethnobiological information gathered between 2022 and 2024 with existing oceanographic and ecological data to create an ethnobiological calendar for four fishing cooperatives. An ethnographic approach was used to understand the population's ethnobiological knowledge and their perceptions of marine heatwaves and climate change impacts. Coastal monitoring data was collected using moorings that recorded temperature over a 14-year period (2010–2024). To characterize giant kelp dynamics, we used an existing dataset of multispectral Landsat images, which estimates the surface canopy biomass of giant kelp forests. Ecological monitoring was conducted annually every summer from 2006 to 2023 to record the in situ abundance of ecologically and economically important invertebrate and fish species. Combining oceanographic, ecological, and ethnographic data, allowed for alligning fishers' observations with recorded marine heatwave events and ecological shifts. Our findings revealed that these observations closely matched documented marine heatwave data and corresponding ecological changes. The integration of LEK with scientific oceanographic data can significantly improved our understanding of dynamic climate regimes, offering contextually relevant information that enhances the reliability and utility of seasonal climate forecasts. By incorporating yearly data into an ethnobiological calendar, we promote more inclusive, community-based approaches to environmental management, advocating for the integration of LEK in climate adaptation efforts, emphasizing its crucial role in strengthening resilience strategies against climatic shocks.

Published

2024

25. Marine biodiversity impact pathways for offshore wind farm decommissioning: Implications for Life Cycle impact assessment development

Author

Liv Stranddorf, Tracey Colley, Matthieu Delefosse, Jon C. Svendsen, and Stig Irving Olsen

Subjects

Marine ecosystems, Offshore wind energy, Oil and gas, LCIA, Life cycle assessment, LCA, Ecology, QH540-549.5

Abstract

The environmental conditions of the ocean are rapidly deteriorating in many locations, largely due to anthropogenic activities. Previous studies have indicated both negative and positive impacts on marine biodiversity during the construction and operation of OWFs, but the impacts of decommissioning remain largely unknown. Assessments of marine biodiversity impacts are now needed to support science-based decisions as the first OWFs are approaching decommissioning. Life Cycle Impact Assessment (LCIA) offers a quantitative and transparent approach to impact assessment but does currently not adequately cover marine biodiversity impacts. As a first step in developing an LCIA method, we conducted a systematic literature review to identify the links between offshore infrastructure decommissioning activities and their impacts on marine biodiversity. Links were delineated as impact pathways, providing the foundational framework for future LCIA development. We extended the scope of our study to oil and gas (O&G) platforms, given the similarities between the two types of offshore infrastructure and decommissioning activities. Our study identifies numerous impact pathways through which OWF decommissioning affects marine biodiversity. We found many similarities between impacts from the decommissioning of OWFs and O&G, but generally, more pathways were identified for O&G decommissioning. As the structures resemble each other, this study suggests that much knowledge can be brought from O&G decommissioning to OWF. We identified habitat change as particularly important when investigating impacts associated with offshore decommissioning, as several pressures may affect habitat change. The study also identified implications for developing a comprehensive LCIA method, including a scarcity of quantitative studies and empirical data, baseline definitions, as well as inconsistency in biodiversity metrics applied across reviewed studies. Importantly, the identified impact pathways provide the first step toward integrating marine biodiversity into LCIA in the context of the decommissioning of offshore structures.

Published

2024

26. Noise Pollution in the Arctic Marine Ecosystem

Author

Adeniran-Obey, Saidat Omowunmi and Isibor, Patrick Omoregie, editor

Published

2024

27. Exposure and Vulnerability as Modifiers of Heatwave Impacts

Author

McGregor, Glenn, McGregor, Glenn R., Series Editor, de Dear, Richard, Editorial Board Member, Ebi, Kristie L., Editorial Board Member, Scott, Daniel, Editorial Board Member, Sheridan, Scott, Editorial Board Member, Schwartz, Mark D., Editorial Board Member, and McGregor, Glenn

Published

2024

28. Environmental Footprint of Water Desalination: Addressing Desalination Environmental Impact Amidst the Water Crisis

Author

Bencheikh, Imane, Azoulay, Karima, Mohammed, Benchrifa, Rachiq, Toufik, Mabrouki, Jamal, Förstner, Ulrich, Series Editor, Rulkens, Wim H., Series Editor, Mabrouki, Jamal, editor, and Mourade, Azrour, editor

Published

2024

29. The Role of Brown Algae in Global Warming Mitigation

Author

Malla, Fayaz A., Malla, Afaan A., Bandh, Suhaib A., Sofi, Nazir A., Ahmed, Mukhtar, Förstner, Ulrich, Series Editor, Rulkens, Wim H., Series Editor, Kurniawan, Tonni Agustiono, editor, and Anouzla, Abdelkader, editor

Published

2024

30. Chlorinated Organic Compounds in Mollusks Soft Tissue from Vostok Bay (The Sea of Japan)

Author

Borovkova, Aleksandra D., Donets, Maksim M., Tsygankov, Vasiliy Y., Bezaeva, Natalia S., Series Editor, Gomes Coe, Heloisa Helena, Series Editor, Nawaz, Muhammad Farrakh, Series Editor, and Karev, Vladimir, editor

Published

2024

31. Promoting the restoration of China’s marine ecology and the governance of marine disaster prevention and reduction

Author

Lansong Huang, Xuezhi Wei, and Quansheng Wang

Subjects

Marine ecosystems, Marine ecological restoration, Marine disaster prevention and mitigation, Global shared governance, Environmental sciences, GE1-350, Environmental law, K3581-3598

Abstract

Abstract The oceans are a treasure trove of natural resources and an essential regulator of the global climate. Still, due to economic development and human activities in recent years, these ecosystems have suffered varying degrees of degradation, so the restoration of marine ecosystems is essential. At the same time, states should strengthen the synergy of marine disaster prevention and mitigation efforts and jointly defend against the impact of maritime disasters on human lives, property, and climate change. On June 28–29, 2023, the Forum on Restoration of Marine Ecological Environment Protection, Disaster Prevention, and Mitigation was held in Qingdao’s West Coast New Area. The forum adopted a combination of “online and offline.” Nearly 150 experts and scholars in marine-related environmental protection, disaster prevention, and mitigation from organizations, universities, and research institutes across multiple countries attended the event.

Published

2024

32. Influence of body size and environmental conditions on parasite assemblages of the black-spotted croaker (Protonibea diacanthus) (Teleostei: Sciaenidae) in northern Australia.

Author

Porter, Megan, Barton, Diane P., Williams, Joel, Randall, Jo, Ovaskainen, Otso, Crook, David A., and Shamsi, Shokoofeh

Subjects

*SIZE of fishes, *SEAWATER salinity, *BODY size, *CLIMATE change, *MARINE ecology

Abstract

The functioning and richness of marine systems (and biological interactions such as parasitism) are continuously influenced by a changing environment. Using hierarchical modelling of species communities (HMSC), the presence and abundance of multiple parasite species of the black-spotted croaker, Protonibea diacanthus (Sciaenidae), was modelled against environmental measures reflecting seasonal change. Protonibea diacanthus were collected in three seasons across 2019–2021 from four locations within the waters of the Northern Territory, Australia. The length of P. diacanthus proved to have a strong positive effect on the abundance of parasite taxa and overall parasitic assemblage of the sciaenid host. This finding introduces potential implications for parasitism in the future as fish body size responds to fishing pressure and climate changes. Of the various environmental factors measured during the tropical seasons of northern Australia, water temperature and salinity changes were shown as potential causal factors for the variance in parasite presence and abundance, with changes most influential on external parasitic organisms. As environmental factors like ocean temperature and salinity directly affect parasite–host relationships, this study suggests that parasite assemblages and the ecological functions that they perform are likely to change considerably over the coming decades in response to climate change and its proceeding effects. [ABSTRACT FROM AUTHOR]

Published

2024

33. Long-term annual trawl data show shifts in cephalopod community in the western Barents sea during 18 years.

Author

Golikov, Alexey V., Jørgensen, Lis L., Sabirov, Rushan M., Zakharov, Denis V., and Henk-Jan Hoving

Subjects

PREDATION, DREDGING (Fisheries), GROUNDFISHES, TUNDRAS, MARINE ecology, CLIMATE change, CEPHALOPODA

Abstract

Climate change is threatening marine ecosystems on a global scale but particularly so in the Arctic. As a result of warming, species are shifting their distributions, altering marine communities and predator-prey interactions. This is known as the Atlantification of the Arctic. Warming may favor short-lived, opportunistic species such as cephalopods, marine mollusks that previously have been hypothesized to be winners in an ocean of change. To detect temporal regional trends in biodiversity, long-term annual surveys in hotspots of climate change are an unparalleled source of data. Here, we use 18 years of annual bottom trawl data (2005-2022) to analyse cephalopods in the western Barents Sea. More specifically, our research goals are to assess temporal trends in cephalopod fauna composition, abundance and biomass, and to relate these trends to climate change in the western Barents Sea. Main changes in cephalopod diversity and distribution occurred in mid-2000s and early 2010s, which corresponds with a period of warming in the Arctic since the late 1990s/early 2000s. Repeated increased occurrence of the boreal-subtropical cephalopods was recorded from 2005-2013 to 2014-2022. Moreover, the abundance of cephalopods in the area (in general and for most taxa) increased from 2005-2013 to 2014-2022. These observations suggest that the cephalopod community of the Barents Sea is subjected to Atlantification since the 2005-2013 period. This corresponds with previously reported evidence of the Atlantification in fishes and benthic invertebrates in the Barents Sea and benthic invertebrates. 'Typical' Arctic cephalopod species such as Bathypolypus spp., Gonatus fabricii and Rossia spp., however, are still much more abundant in the western Barents Sea compared to the deep-sea and the boreal-subtropical species. We also found indirect indications for body-size reduction in Bathypolypus spp. from 2005-2013 to 2014-2022. Overall, the temporal trends in the Barents Sea cephalopod fauna provide evidence for changing marine communities in the Arctic. [ABSTRACT FROM AUTHOR]

Published

2024

34. Marine protected areas can increase the abundance of invasive lionfish (Pterois miles).

Author

Kleitou, Periklis, Rees, Sian E., Kletou, Demetris, Harris, Holden E., Cai, Leda L., Green, Stephanie, Hadjioannou, Louis, Savva, Ioannis, Giovos, Ioannis, Jimenez, Carlos, and Hall‐Spencer, Jason M.

Subjects

*PTEROIS miles, *MARINE parks & reserves, *PTEROIS, *FISHERIES, *FISH mortality, *FISHING

Abstract

Marine protected areas (MPAs) can protect and restore marine biodiversity and fisheries, but there are concerns that they may also benefit invasive species. The spatial and temporal colonization of invasive lionfish (Pterois miles) in the eastern Mediterranean was compared across zones with varying fishing restrictions (no fishing, recreational and commercial fishing, and commercial fishing only), and stations where targeted removal events were conducted by volunteer SCUBA divers. Lionfish density in no fishing areas was nearly double that of areas with commercial fishing only, and over four times greater than in areas where both commercial and recreational fishing were allowed. Lionfish density increased with depth, possibly due to easier human exploitation in shallow waters (0–10 m) that are accessible to recreational spearfishers. Targeted removals by volunteer divers decreased lionfish densities by over 60%, while areas without removals had a 200%–400% increase. Along with management actions, natural and ecological processes might drive lionfish densities within MPAs, and the speed with which lionfish colonized fishery‐restricted zones, emphasized the need for a more sophisticated MPA management strategy that considers invasive species impacts and dynamics in an ecosystem‐based approach. [ABSTRACT FROM AUTHOR]

Published

2024

35. Micro and nanoplastics pollution: A review on global concern and its impacts on ecosystems.

Author

Sharma, Sonkeshwar, Barman, Tanay, Mishra, Gaurav, and Kumar, Amit

Subjects

ENVIRONMENTAL health, POLLUTION, LIFE cycles (Biology), NUTRIENT cycles, ECOSYSTEMS, BEACHES

Abstract

In recent decades, the ubiquity of micro and nanoplastics (MNPs) pollution has emerged as a global concern due to its potential risks to both ecological and human health. The detrimental effects of MNPs have resulted in significant changes in the physicochemical and biological properties of terrestrial soil and benthic sediment. These alterations have led to a disrupted nutrient cycle, potential future climate hazards, and further impacts on ecosystem services. This review aims to discuss the possible origins, composition, abundance, life cycle, and transport processes of MNPs in aquatic and terrestrial ecosystems. It seeks to understand the potential ecological and human health risks associated with MNPs pollution and explores their implications for biodiversity conservation and ecosystem services. Moreover, this review highlights the advanced analytical techniques used to detect and quantify MNPs. It further suggests policy frameworks to combat this pollution in natural environments. The findings of this review are intended to assist environmentalists, microbiologists, hydrologists, and policymakers in identifying scientific gaps and pragmatic solutions to reduce MNPs pollution. Future research should investigate the intake mechanism and impact of MNPs on plants in different ecosystems, as well as their effects on food chains and human health. This will ensure that the ecological and human health risks associated with MNPs pollution can be timely mitigated. [ABSTRACT FROM AUTHOR]

Published

2024

36. Promoting the restoration of China's marine ecology and the governance of marine disaster prevention and reduction.

Author

Huang, Lansong, Wei, Xuezhi, and Wang, Quansheng

Abstract

The oceans are a treasure trove of natural resources and an essential regulator of the global climate. Still, due to economic development and human activities in recent years, these ecosystems have suffered varying degrees of degradation, so the restoration of marine ecosystems is essential. At the same time, states should strengthen the synergy of marine disaster prevention and mitigation efforts and jointly defend against the impact of maritime disasters on human lives, property, and climate change. On June 28–29, 2023, the Forum on Restoration of Marine Ecological Environment Protection, Disaster Prevention, and Mitigation was held in Qingdao's West Coast New Area. The forum adopted a combination of "online and offline." Nearly 150 experts and scholars in marine-related environmental protection, disaster prevention, and mitigation from organizations, universities, and research institutes across multiple countries attended the event. [ABSTRACT FROM AUTHOR]

Published

2024

37. Decadal (2010–2019) variability in the marine ecosystems of the North Atlantic.

Author

González-Pola, César, Mills, Katherine E, Beszczynska-Möller, Agnieszka, Bresnan, Eileen, and Birchenough, Silvana N R

Subjects

*MARINE ecology, *ECOLOGICAL regime shifts, *SCALING (Social sciences), *FISH communities, *MARINE resources, *FISHING villages

Abstract

The "Symposium on Decadal Variability of the North Atlantic and its Marine Ecosystems: 2010–2019" took place in Bergen, Norway, from 20 to 22 May 2022. This event, hosted by the Institute of Marine Research, was jointly sponsored by ICES and NAFO and constitutes the fourth in a series of these symposia that started in 1991. The first symposium's aim was to review the hydrobiological variability in the decade of the 1980s, addressing the physical environment, plankton, invertebrates, and fish. Subsequent symposia maintained the classical structure, whilst a new theme session covering social sciences was added to the programme in the 2022 edition. Studies of climate impacts on marine ecosystems and living marine resources, including trends and regime shifts, emerged from increasingly longer ecosystem time series across the North Atlantic and subarctic regions. This symposium collection presents key findings discussed during the symposium. Whilst some progress has been made in advancing our ability to understand new trends and patterns of climate change and variability across physical, plankton, and fish communities, more work is needed to integrate these physical-ecological processes and scales with social science. [ABSTRACT FROM AUTHOR]

Published

2024

38. Major shift in the copepod functional community of the southern North Sea and potential environmental drivers.

Author

Deschamps, M M, Boersma, M, Meunier, C L, Kirstein, I V, Wiltshire, K H, and Di Pane, J

Subjects

*FISH larvae, *FOOD chains, *MARINE ecology, *LIFE spans, *AUTUMN, *ECOSYSTEMS, *COASTAL ecosystem health

Abstract

Copepods form the bulk of secondary production in marine ecosystems and are a major resource for higher trophic levels. Copepods are highly sensitive to environmental changes as they are ectotherms with a short life span whose metabolism and development depend on abiotic conditions. In turn, changes in their functional structure (i.e. functional trait composition) can have impacts on ecosystems. We examined changes in the copepod functional community in the North Sea over the past five decades, using a trait-based approach. We observed a shift around 1986–1988: the copepod community was initially dominated by larger herbivores, with a long development time, diapause ability, and highest abundances in summer. This community changed abruptly after 1986–1988, to a dominance of smaller carnivore taxa, with shorter development times, less ability to enter diapause, and that display higher abundances in autumn. This rapid reorganization could be driven by higher water temperatures, lower dinoflagellate abundances, and lower nutrient concentrations. These changes could impact adjacent trophic levels, such as phytoplankton on which several species graze or fish larvae, leading to a mismatch situation with consequences for fish recruitment. Our results emphasize the impact that global and regional changes could have on coastal ecosystems through the role played by copepods. [ABSTRACT FROM AUTHOR]

Published

2024

39. The genus Eutreptiella (Euglenophyceae/Euglenozoa) across its global distribution range

Author

Sinuhé Hernández Márquez, María Eugenia Zamudio‐Resendiz, Montserrat Murrieta‐Alarcón, María Luisa Núñez Resendiz, Kurt M. Dreckmann, and Abel Sentíes

Subjects

biofuel production, biotechnological potential, Eutreptiella, genetic variability, marine ecosystems, photosynthesis, Ecology, QH540-549.5

Abstract

Abstract The genus Eutreptiella (Euglenophyceae/Euglenozoa) comprises unicellular organisms known for their photosynthetic capacity and significant role in marine ecosystems. This review highlights the taxonomic, ecological, and biotechnological characteristics of Eutreptiella species, emphasizing their morphological and genomic adaptations. Eutreptiella species exhibit high phenotypic plasticity, enabling adaptation to various environmental conditions, from nutrient‐rich waters to high‐salinity conditions. They play a crucial role in primary production and nutrient cycling in marine ecosystems. Genetic and transcriptomic studies have revealed their complex regulatory mechanisms and potential for biofuel and nutraceutical production. Eutreptiella blooms significantly impact local ecosystems, influencing nutrient availability and community dynamics. Additionally, interactions with associated bacteria enhance their growth and metabolic capabilities. The genus shows substantial genetic variability, suggesting potential misidentifications or a polyphyletic nature. Further comprehensive studies are needed to clarify their taxonomy and evolutionary relationships. Understanding and managing Eutreptiella populations is essential to leverage their biotechnological potential and ensure the health of marine ecosystems.

Published

2024

40. Bioindicators selection in the strategies for monitoring microplastic pollution

Author

Paolo Pastorino and Damià Barceló

Subjects

Freshwater ecosystems, Lagoons, Marine ecosystems, Terrestrial ecosystems, Ecology, QH540-549.5

Abstract

Micro(nano)plastics (MNPs) are pervasive pollutants posing significant environmental and health risks. Selecting appropriate sentinel species to assess MNPs in terrestrial and aquatic environments involves considering factors such as species behavior, habitat, exposure pathways, and the feasibility of sampling. For these reasons, it was imperative to launch a virtual special issue (VSI) in Ecological Indicators. This editorial summarizes the contributions submitted to the VSI, which invited research on bioindicators of MNPs, including sampling protocols, monitoring strategies, and analytical methods, to advance our understanding and management of plastic pollution. The VSI received a total of 12 contributions from four countries, with a significant majority originating from Italy. To present the contributions, we have organized the sections into original articles and reviews. The original articles are further divided into sections on the occurrence of MNPs in biotic and abiotic compartments, the selection of bioindicators, and the effects and risk assessment of MPs. The reviews are categorized based on their focus on aquatic and terrestrial ecosystems. Future ecotoxicology studies should select bioindicators based on exposure to MNPs, conservation status, ecological roles, and human consumption.

Published

2024

41. بوم‌شناسی آبزیان

Subjects

aquatic biology, aquatic ecosystems, marine ecology, aquatic life, marine ecosystems, aquatic resources, Ecology, QH540-549.5

Published

2024

42. Decadal decline of functional diversity despite increasing taxonomic and phylogenetic diversity of coral reefs under chronic urbanisation stress

Author

Y.K. Samuel Chan, C.S. Lionel Ng, Karenne P.P. Tun, Loke Ming Chou, and Danwei Huang

Subjects

Biodiversity loss, Ecosystem functioning, Evolutionary history, Marine ecosystems, Reef degradation, Resilience, Ecology, QH540-549.5

Abstract

Coral reefs provide a multitude of ecosystem functions owing to the high levels of biodiversity they host. Coral species, as the foundation of shallow-water reefs, differ in their contributions toward the functioning of the ecosystem due in part to the disparate phylogenetic histories of scleractinian lineages. Understanding the spatial patterns and temporal trajectories of these biodiversity facets, as well as their interrelationships, is critical for more targeted conservation strategies in the face of widespread habitat degradation and climate change. Here, we analyse long-term benthic data spanning 1986 through 2020 on coral reefs in Singapore, which have been impacted by decades of urbanisation-related and thermal stressors, to test for differences between coral biodiversity facets—specifically, taxonomic, phylogenetic (evolutionary relatedness between species), and functional (occupancy of functional trait space) richness and diversity. Analyses show that taxonomic and phylogenetic richness and diversity measures increased over the 35-year period despite declines during major bleaching events. Yet, while taxonomic and phylogenetic diversity increased, functional richness and diversity declined over the same period. Community-weighted trait measures indicate a shift towards dominance of more stress-tolerant traits such as slower growth rates, smaller corallite sizes, and massive colony forms. Together, these trends highlight the effects of chronic urban stressors alongside major bleaching events impacting reef assemblages. Critically, such assemblage shifts and functional diversity declines were masked by increasing taxonomic diversity, which is most commonly assessed, and could erode ecosystem resilience. The temporal decoupling of the biodiversity facets examined here underscore the need for more comprehensive monitoring of reefs through a combination of trait-based approaches alongside traditional field surveys at finer taxonomic resolution.

Published

2024

43. Improving CNN Fish Detection and Classification with Tracking

Author

Boubker Zouin, Jihad Zahir, Florian Baletaud, Laurent Vigliola, and Sébastien Villon

Subjects

marine ecosystems, convolutional neural networks (CNNs), BRUVS video data, fish classification, automatic processing, tracking, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

The regular and consistent monitoring of marine ecosystems and fish communities is becoming more and more crucial due to increasing human pressures. To this end, underwater camera technology has become a major tool to collect an important amount of marine data. As the size of the data collected outgrew the ability to process it, new means of automatic processing have been explored. Convolutional neural networks (CNNs) have been the most popular method for automatic underwater video analysis for the last few years. However, such algorithms are rather image-based and do not exploit the potential of video data. In this paper, we propose a method of coupling video tracking and CNN image analysis to perform a robust and accurate fish classification on deep sea videos and improve automatic classification accuracy. Our method fused CNNs and tracking methods, allowing us to detect 12% more individuals compared to CNN alone.

Published

2024

44. Proposal for Low-Cost Optical Sensor for Measuring Flow Velocities in Aquatic Environments

Author

Vinie Lee Silva Alvarado, Arman Heydari, Lorena Parra, Jaime Lloret, and Jesus Tomas

Subjects

LED-based sensor, aquatic sensors, prototype, turbidity, monitoring, marine ecosystems, Chemical technology, TP1-1185

Abstract

The ocean, with its intricate processes, plays a pivotal role in shaping marine life, habitats, and the Earth’s climate. This study addresses issues such as beach erosion, the survival of propagules from species like Posidonia oceanica, and nutrient distribution. To tackle these challenges, we propose an innovative sensor that quantifies hydrodynamic velocity by measuring the output voltage derived from detecting changes in light absorption and scattering using LEDs and LDRs. Our results not only demonstrate the effectiveness of the sensor but also the accuracy of the processing algorithm. Notably, the blue LED exhibited the lowest mean relative error of 7.59% in freshwater, while the yellow LED was most precise in chlorophyll-containing water, with a mean relative error of 6.80%. In a runoff simulation, we observed similar velocities with the blue, green, and white LEDs, 6.89 cm/s, 6.99 cm/s, and 7.05 cm/s, respectively, for nearly identical time intervals. It is important to highlight that our proposed sensor is not only effective but also highly cost-efficient, representing less than 0.43% of the cost of a Nortek Vector 6 MHz and 0.18% of the Teledyne Workhorse II 300 kHz Marine. This makes it a key tool for managing marine ecosystems sustainably.

Published

2024

45. SUSTAINABLE SEAS? ASSESSING COMMITMENTS AND IMPLICATIONS OF THE WTO FISHERIES SUBSIDIES AGREEMENT.

Author

Chaisse, Julien, Chakraborty, Debashis, and Kumar, Animesh

Abstract

This article provides an interdisciplinary analysis of the World Trade Organization (hereinafter “WTO”) Agreement on Fisheries Subsidies (hereinafter “AFS”), framing it as a pivotal yet complex advance in global efforts to address overfishing. It integrates insights from international economics and international trade law to examine the agreement’s key provisions. These include the prohibition of subsidies that promote Illegal, Unreported, and Unregulated fishing, the targeting of overfished stocks, and the regulation of high seas fishing activities. The analysis further explores AFS’s commitment to transparency and accountability, underscored by the implementation of the WTO dispute settlement mechanism and the inclusion of specific provisions for developing countries. Moreover, the article assesses the agreement’s potential to catalyze fisheries reform, its congruence with the United Nations Sustainable Development Goals, and the essential role of continued cross-sector collaboration in safeguarding marine ecosystems and curtailing overfishing. [ABSTRACT FROM AUTHOR]

Published

2024

46. Marine and Not Terrestrial Resources Support Nearshore Food Webs Across a Gradient of Glacial Watersheds in the Northern Gulf of Alaska.

Author

Schloemer, James, Munk, Lee Ann, and Iken, Katrin

Subjects

WATERSHEDS, GLOBAL warming, GLACIAL melting, GLACIATION, STABLE isotopes, PHYTOPLANKTON

Abstract

Estuaries are among the most productive ecosystems on Earth, yet they are at risk in high-latitude regions due to climate-driven effects on the connected terrestrial and marine realms. Northern Hemisphere warming exceeds the global average and accelerates the melting of glaciers. As a result, the magnitude of freshwater discharge into estuaries may increase during the peak in glacial meltwater, ultimately affecting the riverine flux of organic matter (OM) from the land to coastal environments and food webs within. We investigated the extent to which terrestrial OM subsidizes nearshore food webs in northern Gulf of Alaska watersheds and if differences in the relative proportion of terrestrial versus marine OM supporting these food webs are explained by watershed glacial cover and/or by seasonal glacial discharge regimes. A stable isotope mixing model was employed to determine the contribution of marine (phytoplankton, macroalgae) and terrestrial (vascular plant) sources to the diets of grazing/detritivore and filter/suspension-feeding coastal invertebrates at the outflows of watersheds of varying glacial influence and across three distinct discharge periods. Additionally, a distance-based redundancy analysis was conducted to investigate the effects of watershed-characteristic (e.g., slope, vegetation cover) sourcing and transport of terrestrial OM on consumer diets. The diets of both feeding groups were predominantly marine (> 90%) and varied little among estuarine study sites at watersheds of different glacial cover or glacial discharge periods. Our findings suggest that terrestrial OM is not readily used by nearshore food webs in this productive study system, presumably due to the high quantity and quality of available marine OM. [ABSTRACT FROM AUTHOR]

Published

2024

47. Marine spatial planning: a systematic literature review on its concepts, approaches, and tools (2004–2020)

Author

Rafael, Teresa, Cabral, Henrique, Mourato, João, and Ferrão, João

Abstract

Marine spatial planning (MSP) was developed as a process for managing the marine environment under the scenario of increased demand for space with different uses and economic activities. In the last decades, the research interest in MSP has been reflected by the growing number of published scientific articles on this subject. Nonetheless, a systematic scientific literature review on MSP is still lacking. In this context, the present study is aimed at performing a global review highlighting the main trends and patterns of scientific article contents focusing on the concepts, approaches, and tools that have been used to inform and shape MSP. After text screening and application of the eligibility criteria, a total of 476 articles published between 2004 and 2020 were included in the analysis. The results showed that most studies published so far (74%) focused on conceptual aspects of governance issues (n = 98), investigated the role of economic activities in MSP (n = 98), evidenced the solutions that have been adopted to implement national plans (n = 71), or explored the strategies used to involve stakeholders in MSP (n = 83). A trend towards MSP applicability was expressed by the increasing number of studies related to stakeholders’ engagement methodologies, together with the development of decision support tools for MSP implementation in recent years. Overall, including progressive methodologies in the evaluation and assessment of all stages of MSP are needed to foster its applicability. [ABSTRACT FROM AUTHOR]

Published

2024

48. Transient Response of Southern Ocean Ecosystems During Heinrich Stadials.

Author

Saini, Himadri, Meissner, Katrin J., Menviel, Laurie, and Kvale, Karin

Subjects

ATLANTIC meridional overturning circulation, IRON, ICE cores, OCEAN, ECOSYSTEMS, ANTARCTIC ice

Abstract

Antarctic ice core records suggest that atmospheric CO2 increased by 15–20 ppm during Heinrich stadials (HS). These periods of abrupt CO2 increase are associated with a significant weakening of the Atlantic meridional overturning circulation (AMOC), and a warming at high southern latitudes. As such, modeling studies have explored the link between changes in AMOC, high southern latitude climate and atmospheric CO2. While proxy records suggest that the aeolian iron input to the Southern Ocean decreased significantly during HS, the potential impact on CO2 of reduced iron input combined with oceanic circulation changes has not been studied in detail. Here, we quantify the respective and combined impacts of reduced iron fertilization and AMOC weakening on CO2 by performing numerical experiments with an Earth system model under boundary conditions representing 40,000 years before present (ka). Our study indicates that reduced iron input can contribute up to 6 ppm increase in CO2 during an idealized Heinrich stadial. This is caused by a 5% reduction in nutrient utilization in the Southern Ocean, leading to reduced export production and increased carbon outgassing from the Southern Ocean. An AMOC weakening under 40ka conditions and without changes in surface winds leads to a ∼0.5 ppm CO2 increase. The combined impact of AMOC shutdown and weakened iron fertilization is almost linear, leading to a total CO2 increase of 7 ppm. Therefore, this study highlights the need of including changes in aeolian iron input when studying the processes leading to changes in atmospheric CO2 concentration during HS. Key Points: Simulated marine ecosystems and CO2 respond linearly to the combined impact of freshwater addition and reduced iron flux into the oceanA maximum of 7 ppm increase in CO2 is simulated due to the AMOC shutdown and weakened iron fertilization under MIS 3 boundary conditionsReduced aeolian iron flux in the Southern Ocean during Heinrich Stadials can lead up to 6 ppm rise in CO2 [ABSTRACT FROM AUTHOR]

Published

2024

49. Unravelling the trophic ecology of poorly studied and threatened elasmobranchs inhabiting the Persian Gulf and Gulf of Oman.

Author

Navarro, Joan, Rastgoo, Ali Reza, and Giménez, Joan

Subjects

*CHONDRICHTHYES, *STABLE isotope analysis, *FOOD chains, *FISH ecology, *MARINE ecology, *MARINE ecosystem management

Abstract

Elasmobranch population declines due to human impacts have been documented at a global scale, having impacts on the functioning and structure of marine ecosystems. This situation leads to an international focus on the conservation of their populations and a key step in the management and conservation of elasmobranch populations is to understand their trophic ecology. Here, by using stable isotopes analysis, we investigated the trophic relationships, trophic niche breadth, and trophic redundancy among 21 batoids and 12 sharks inhabiting the Persian Gulf and Gulf of Oman, two productive areas of the Arabian Sea considered global elasmobranch hotspots. Isotopic results revealed differences in the trophic niche and trophic position among the elasmobranch sampled at species and at family level. For example, the batoids of the family Torpedinidae and the sharks of the family Triakidae occupied higher trophic positions and the family Glaucostegidae showed a lower trophic niche width, whereas the batoids of the family Myliobatidae or Gymnuridae, in overall, showed lower higher trophic niche width, reflecting the trophic habits described for most of the sampled species. We also provided some insights into the ecology of poorly known species, especially relevant for those that are endangered at a global or regional scale. In conclusion, we provide new information about the trophic ecology among batoids and sharks inhabiting the Persian Gulf and Gulf of Oman. This information is highly useful to study the consequences of future changes on their feeding preferences due to natural or human-related factors. [ABSTRACT FROM AUTHOR]

Published

2024

50. Congruence among taxonomic, functional, and phylogenetic diversity of mangrove crabs in the Southwestern Atlantic.

Author

Teles, Jeniffer Natalia, Peres, Pedro Augusto, Jimenez, Laís Coutinho Zayas, Mantelatto, Fernando Luis, and Quimbayo, Juan Pablo

Subjects

*MANGROVE crabs, *MANGROVE plants, *MANGROVE forests, *MANGROVE ecology, *ECOSYSTEM dynamics, *ECOLOGICAL disturbances, *GRID cells

Abstract

Unraveling the spatial distribution and the factors that modulate biodiversity can help us better understand community dynamics and ecosystem functioning. Here, we tested the hypothesis that taxonomic diversity (TD), functional diversity (FD), and phylogenetic diversity (PD) follow a latitudinal trend driven by environmental factors, and investigated the associations among these metrics in mangrove crabs (11 species in the Ocypodidae family) of the Southwestern Atlantic (7,000 km along the Brazilian coast). Based on occurrence data, species traits, and phylogenetic information, we calculated diversity indices (TD, FD and PD) for 3° grid cells (latitude/longitude, approx. 333 km edge length) along the coast of Brazil. We built models to investigate whether latitude and nine environmental factors influence taxonomic, functional, and phylogenetic indices of mangrove crabs in the Southwestern Atlantic. We also investigated the correlation among diversity indices TD × FD × PD. We observed a congruence in the latitudinal patterns of TD, FD, and PD of mangrove crabs along the Southwestern Atlantic. Specifically, we observed that all indices have higher values at intermediate latitudes, which are congruent to habitat transition zones along the Southwestern Atlantic coast. Our results also showed that air temperature, chlorophyll, and nitrate concentration are the main environmental factors that influence taxonomic, functional and phylogenetic diversity of mangrove crabs in this region. When analyzing the correlation between indices, our results suggest that targeting conservation efforts towards one specific diversity component can lead to preserving other types of diversity, at least considering our system and the set of species analyzed. This study highlights the usage of multiple metrics to unveil large-scale biodiversity patterns in one of the most abundant groups in mangrove forests, the crabs. [ABSTRACT FROM AUTHOR]

Published

2024