Your search keyword '"Subtidal"' showing total 570 results

1. Storm resilience of subtidal soft‐bottom mussel beds: Mechanistic insights, threshold quantification and management implications.

Author

Smit, Jaco C., Zhao, Zhiyuan, Capelle, Jacob J., Gerkema, Theo, Koppel, Johan, and Bouma, Tjeerd J.

Subjects

*MYTILIDAE, *ORBITAL velocity, *STORMS, *OCEAN bottom, *CORAL reefs & islands

Abstract

With the projected escalation of extreme storm events, coastal ecosystems risk undergoing catastrophic shifts and losing essential ecosystem services. Subtidal soft‐bottom mussel beds, vital components of these ecosystems, are particularly vulnerable to hydrodynamically‐induced dislodgement (i.e., detachment of mussel clumps from the bed), especially during storms. However, the mechanisms underlying the resilience—comprising both resistance and recovery—of these beds to storms remain unclear, despite being essential for informed management.This study addresses this knowledge gap regarding subtidal soft‐bottom mussel beds by: (i) quantifying their dislodgement threshold (i.e., the hydrodynamics causing widespread dislodgement of mussel clumps) using novel in situ monitoring methodologies in a representative region, namely the Dutch Wadden Sea; (ii) unveiling the influence of prior life history (here, wave exposure extent) and storm durations on their dislodgement thresholds through a flume study; and (iii) assessing the impacts of repeated storms and prior life histories (here, wave exposure extent and substrate types) on their recovery (i.e. mussel re‐aggregation) through mesocosm experiments.Integrated experimental evidence indicates that: (i) hydrodynamic‐induced dislodgement is a sudden process characterized by distinct near‐bed orbital velocity thresholds, which were identified at our study site to be between 0.45 and 0.50 m s−1; (ii) peak storm intensity, rather than storm duration, primarily drives the dislodgement of subtidal soft‐bottom mussel beds, and prior wave exposure extent regulates the dislodgement threshold; (iii) repeated storms do not seem to affect the recovery of these beds following storm‐related disturbances when the conditions between storms are conducive to mussel re‐aggregation, whereas substrate type significantly impacts recovery.Synthesis and applications. Overall, concerns regarding subtidal soft‐bottom mussel beds degradation primarily stem from increasing storm intensity and their limited resistance to such events. The methodology we developed enables low‐cost quantification of mussel resistance thresholds across broad spatiotemporal scales, facilitating the pinpointing of vulnerable areas. Our findings inform strategic management by highlighting the influential role of prior life histories in shaping mussel bed resistance and the potential to accelerate mussel bed recovery through substrate modification (e.g., shell additions). Both our methodology and findings hold promise for application in comparable ecosystems, such as oyster and coral reefs. [ABSTRACT FROM AUTHOR]

Published

2024

2. DIFFERENCES IN SPECIES, COVERAGE AND DENSITY OF SEAGRASS IN THE INTERTIDAL AND SUBTIDAL AREAS AT LABAKKANG BEACH, PANGKAJENE ISLAND REGENCY

Author

Indah Sandra Dewi, Mahatma Lanuru, Yayu A La Nafie, Khairul Amri, and Marzuki Ukkas

Subjects

subtidal, intertidal zone, subtidal zone, labakkang beach, Aquaculture. Fisheries. Angling, SH1-691

Abstract

Labakkang Beach, Pangkajene Islands Regency has the characteristics of gently sloping coastal waters covered with various mangrove and seagrass communities. In general, seagrass is more commonly found in intertidal than subtidal areas, this is due to the depth reason. However, based on first observations, seagrass in Labakkang coastal waters thrives in subtidal areas and is less fertile in intertidal areas. The purpose of this study was to decide the differences in species, cover, and density of seagrass in intertidal and subtidal areas in the waters of Labakkang Beach, Pangkajene Islands Regency. This research was conducted in July 2021 with the method used, namely purposive sampling. Measurements of environmental parameters at the sampling location were carried out directly (in situ) including temperature, salinity, tides, depth, and current velocity, while turbidity, Total Organic Matter (TOM) analysis, and grain size of sediment were carried out tegakanirectly (ex-situ). The results of the average measurements of temperature, salinity, current velocity, depth, turbidity and TOM respectively show the range of 300C - 310C; 33.3‰ – 35.0‰; 0.07 m/s - 0.18 m/s (at high tide); 0.31 m - 1.32 m; 11.06 NTU - 29.04 NTU and 2.49 % - 5.39 %. The results of sediment analysis using Software Gradistat are 2 types of sediment, namely medium sand & fine sand and 2 types of sediment texture, namely Slightly Gravelly Sand and Slightly Gravelly Muddy Sand. The average percentage of seagrass cover at the intertidal station was 23.33 % while at the subtidal station it was 61.11% and only 2 species of seagrass were found, namely Enhalus acoroides and Halophila ovalis. The average density of seagrass at the intertidal station is 48.88 ind/m2 while at the subtidal station it is 86 ind/m2. The results of the Independent T-test analysis showed that there were significant differences in the cover and density of seagrass in the intertidal zone and subtidal zone in the coastal waters of Labakkang.

Published

2024

3. Thermal refugia reinforce macroalgal resilience against climate change in the southeastern Bay of Biscay.

Author

Arriaga, O., Wawrzynkowski, P., Muguerza, N., Díez, I., González, J., Gorostiaga, J. M., Quintano, E., and Becerro, M. A.

Subjects

*OCEAN temperature, *ECOSYSTEM dynamics, *ENVIRONMENTAL management, *CLIMATE change, *MARINE algae, *ALGAL communities

Abstract

Rising global temperatures present unprecedented challenges to marine ecosystems, demanding a profound understanding of their ecological dynamics for effective conservation strategies. Over a comprehensive macroalgal assessment spanning three decades, we investigated the spatiotemporal evolution of shallow‐water benthic communities in the southern Bay of Biscay, uncovering climate‐resilient areas amidst the ongoing phase shift in the region. Our investigation identified seven locations serving as potential climate refugia, where cold‐affinity, canopy‐forming macroalgal species persisted and community structure was similar to that observed in 1991. We unveiled a clear association between the emergence of these refugia, sea surface temperature (SST), and the Community Temperature Index, positioning SST as a significant driver of the observed phase shift in the region. Warming processes, defined as tropicalization (increase of warm‐affinity species) and deborealization (decrease of cold‐affinity species), were prominent outside refugia. In contrast, cooling processes, defined as borealization (increase of cold‐affinity species) and detropicalization (decrease of warm‐affinity species), prevailed inside refugia. Refugia exhibited approximately 35% lower warming processes compared to non‐refuge areas. This resulted in a dominance of warm‐affinity species outside refugia, contrasting with the stability observed within refugia. The persistence of canopy‐forming species in refuge areas significantly contributed to maintaining ecosystem diversity and stability. These findings underscored the pivotal role of climate refugia in mitigating climate‐driven impacts. Prioritizing the protection and restoration of these refugia can foster resilience and ensure the preservation of biodiversity for future generations. Our study illustrates the importance of refining our understanding of how marine ecosystems respond to climate change, offering actionable insights essential for informed conservation strategies and sustainable environmental management. [ABSTRACT FROM AUTHOR]

Published

2024

4. Marine heatwave‐driven mass mortality and microbial community reorganisation in an ecologically important temperate sponge.

Author

Bell, James J., Micaroni, Valerio, Strano, Francesca, Ryan, Ken G., Mitchell, Katherine, Mitchell, Paul, Wilkinson, Shaun, Thomas, Torsten, Bachtiar, Ramadian, and Smith, Robert O.

Subjects

*MARINE heatwaves, *DISSOLVED organic matter, *ECOLOGICAL impact, *BIOTIC communities, *MICROBIAL communities, *CORAL bleaching

Abstract

Marine heatwaves (MHWs) are increasing in frequency, duration and intensity, disrupting global marine ecosystems. While most reported impacts have been in tropical areas, New Zealand experienced its strongest and longest MHW in 2022, profoundly affecting marine sponges. Sponges are vital to rocky benthic marine communities, with their abundance influencing ecosystem functioning. This study examines the impact of this MHW on the photosynthetic sponge Cymbastella lamellata in Fiordland, New Zealand. We describe the extent, physiological responses, mortality, microbial community changes and ecological impact of this MHW on C. lamellata. The Fiordland MHW reached a maximum temperature of 4.4°C above average, lasting for 259 days. Bleaching occurred in >90% of the C. lamellata Fiordland population. The population size exceeded 66 million from 5 to 25 m, making this the largest bleaching event of its kind ever recorded. We identified the photosynthetic symbiont as a diatom, and bleached sponges had reduced photosynthetic efficiency. Post‐MHW surveys in 2023 found that over 50% of sponges at sampling sites had died but that the remaining sponges had mostly recovered from earlier bleaching. Using a simulated MHW experiment, we found that temperature stress was a driver of necrosis rather than bleaching, despite necrosis only rarely being observed in the field (<2% of sponges). This suggests that bleaching may not be the cause of the mortality directly. We also identified a microbial community shift in surviving sponges, which we propose represents a microbial‐mediated adaptive response to MHWs. We also found that C. lamellata are key contributors of dissolved organic carbon to the water column, with their loss likely impacting ecosystem function. We demonstrate the potential for MHWs to disrupt key marine phyla in temperate regions, highlighting how susceptible temperate sponges globally might be to MHWs. [ABSTRACT FROM AUTHOR]

Published

2024

5. Ecologically significant shallow-water (0–30 m) marine animal forests in central New Zealand

Author

Valerio Micaroni, James J. Bell, and Francesca Strano

Subjects

Temperate mesophotic ecosystems, Sponge ground, Habitat-forming species, Foundation species, Subtidal, Urban biodiversity, Ecology, QH540-549.5

Abstract

Marine animal forests are habitats formed by dense aggregations of suspension-feeding invertebrates that are increasingly being recognised as biodiversity hotspots with key roles in ecosystem functioning. Despite being found across the world, these ecologically important ecosystems remain understudied in temperate seas. Furthermore, while temperate animal forests are typically associated with deeper water, they can also occur in the shallows (< 30 m). This study is the first to describe the diversity of shallow-water (0–30 m) marine animal forests in the Wellington Region of New Zealand using a combination of SCUBA, ROVs, and citizen science surveys. Through qualitative and quantitative surveys, we identified nine distinct biotic communities dominated by sessile invertebrates, including sponges, cnidarians, bivalves, brachiopods, and polychaetes. In Wellington Harbour, the most common communities were sponge beds formed by the massive sponge Suberites australiensis, often occurring with other sponges, the brachiopod Magasella sanguinea, and the bivalve Atrina zelandica. The S. australiensis beds occurred between 7 and 17 m, with densities up to 19 sponges per m2 and specimens up to 40 cm in diameter. Based on pumping rate measurements, we estimated the average filtration capacity of S. australiensis in the sponge beds to range between 1240 and 19,996 L m−2 day−1. Along Wellington’s open coasts, diverse sponge gardens were dominated by massive morphologies, such as Ecionema alata, together with fan, and branching sponges between 20 and 30 m deep. Community composition varied spatially, likely due to heterogeneity in currents, sedimentation, and food availability. Anthropogenic impacts on animal-dominated ecosystems in the harbour included widespread marine debris (e.g., plastics, fishing gear, and tyres), and substrate alteration from coastal development. The open-coast communities were comparatively undisturbed but might be vulnerable to anchoring and fishing activities. Our study revealed ecologically important marine animal forests in the shallow waters of Wellington, which are largely unprotected urban ecosystems. Conservation through mapping, monitoring, and strategic marine spatial planning is urgently needed to preserve these underappreciated biodiversity hotspots worldwide.

Published

2024

6. Anthropogenic Stressors on Shallow Coastal Rocky Reefs

Author

Martinez, Aline Sbizera, Altvater, Luciana, Turra, Alexander, Series Editor, Coutinho, Ricardo, editor, and Christofoletti, Ronaldo A., editor

Published

2024

7. DAPSI(W)R(M) put into practice for a nature-based solution: Framework applied to the coastbusters approach

Author

Alexia Semeraro, Rémi Dupont, Vicky Stratigaki, Tomas Sterckx, and Gert Van Hoey

Subjects

DAPSI(W)R(M), Nature-based solutions, Biogenic reef, Subtidal, Coastal resilience, Seaward, Environmental sciences, GE1-350

Abstract

Nature-based Solutions (NbS) can be applied to alleviate negative human impacts on ecosystems and promote the general health or well-being of the environment. Human-induced activities, including installation of NbS, are governed by legislative requirements (e.g. Environmental Impact Assessments (EIA)), especially when such activities occur in Marine Protected Areas (MPA's). A correct and thorough description of the legislative framework governing the application and development of NbS is therefore essential. The Drivers-Activities-Pressures-State change-Impacts (on human Welfare)-Responses (using Measures) or DAPSI(W)R(M) framework is valuable when environmental assessment procedures include a NbS, as well as when policy and industry require guidance for the practical application of a NbS concept. In this study, we applied the DAPSI(W)R(M) framework to the Coastbusters approach, in which mussel beds (Mytilus edulis) and tubeworm aggregations (Lanice conchilega) are installed in the Belgian part of the North Sea with the aim of improving coastal resilience and maritime infrastructure works. Within the context of the Coastbusters approach, the various elements of the DAPSI(W)R(M) framework were elucidated. Coastal defense is a driver, with activities including the integration of coastal infrastructure and aquaculture practices. Pressures related to these activities on benthic habitats were described using the MarESA sensitivity approach. State change assessments were performed based on the various marine regulations (e.g. Marine Strategy Framework Directive, Habitat Directive, Water Framework Directive) which together outline a precise set of criteria and indicators designed to assess the sustainability and health of ecosystems. The present study provides a detailed framework for the environmental evaluation of seaward NbS, from state changes to impacts on human welfare. Three quantitative estimations of ecosystem service indicators (coastal protection, carbon retention and water quality (N) regulation) were used, with the indicators quantified by in-situ measurements and data from literature. Subsequently, the 10-tenets approach for taking measures (e.g. use of biodegradable material, local species, etc.) was used to develop responses that facilitate the optimal implementation of NbS. The approach outlined in this study can be used as a guide for stakeholders as they move through the environmental evaluation processes that are required for successful development of a seaward NbS. Our results underscore the importance of a favorable institutional environment for NbS and suggest that public acceptance and stakeholder involvement play a crucial role in successful implementation. This study contributes to the understanding and operationalization of Nature-based Solutions in coastal management.

Published

2024

8. Assessing diets of marine fauna associated with emerging zoantharian habitats in the Canary Islands.

Author

Moreno-Borges, S., Arranz, V., Fernández-Martín, S., Clemente, S., Xavier, R., and Vasconcelos, R.

Subjects

*MARINE animals, *ISLANDS, *WATER depth, *HABITATS, *DIET

Abstract

Population outbreaks of zoantharians in shallow water reefs have been observed globally, including intertidal and subtidal sites in the Canary Islands. This study investigated how zoantharians might be integrating into the local trophic network. For that purpose, we assessed the feeding patterns of common species in zoantharian-dominated habitats, focusing on finding consumers of Zoanthus pulchellus and Palythoa caribaeorum. Through DNA-barcoding and metabarcoding, the gut contents of 11 predatory species were analysed, aiming to characterize their diets and explore local species feeding on zoantharians. Analyses of diet revealed a diverse range of food items and trophic positions of some of the most common and frequent marine species in the archipelago. Furthermore, based on previous observations on the different impacts of Z. pulchellus and P. caribaeorum on shallow benthic ecosystems of the Canary Islands, a preliminary approach to identify their potential influence on feeding patterns of associated species was made. Even though DNA-metabarcoding did not detect zoantharians in the gut contents of any studied species, Sanger sequencing with zoantharian-specific primers indicated their consumption by subject species may be limited to only the crab Platypodiella picta. In addition, by focusing on some of the most common species, this study enhances our understanding of the local trophic network and provides an insight into trophic dynamics in zoantharian-dominated habitats. [ABSTRACT FROM AUTHOR]

Published

2024

9. An evaluation of acoustic telemetry as a method to study the movements of Asteroidea (Asterias rubens).

Author

Nadalini, Jean-Bruno, Lees, Kirsty J., Lavoie, Marie-France, MacGregor, Kathleen A., and McKindsey, Christopher W.

Subjects

*STARFISHES, *TELEMETRY, *BODY piercing, *AQUATIC animals, *ANIMAL mechanics, *ACOUSTIC reflex

Abstract

Background: Acoustic telemetry is an important tool to study the movement of aquatic animals. However, studies have focussed on particular groups of easily tagged species. The development of effective tagging methods for ecologically important benthic species, such as sea stars, remains a challenge due to autotomy and their remarkable capacity to expel any foreign material. We tested three methods to surgically attach acoustic transmitters to the common sea star Asterias rubens; two methods attached the tag to the aboral side of the central body and the third attached the transmitter to the aboral side of an arm. Laboratory experiments evaluated each method in terms of survivability, tag retention, associated injuries, and changes in feeding behaviour and physical condition. Results: Laboratory results were highly variable; however, all tagging methods caused significant injury to the epidermis and deeper tissue around the attachment site over periods greater than 4 weeks. Attaching a tag by horizontally piercing the central body (method HPC) had minimal effects in the short-term (2–3 weeks) and this method was used for a pilot tagging study in the field, where 10 sea stars were tagged and placed within an existing acoustic telemetry array. Although, the interpretation of field data was challenging due to the characteristic slow movement of sea stars, movements of a similar magnitude to previous studies were identified during the 2–4 weeks after sea stars were tagged and released. However, this apparent period of tagging success was followed by a reduction in movement that, when viewed in conjunction with laboratory results, potentially indicated a deterioration in the sea stars' physical condition. Conclusions: While acoustic telemetry continues to provide novel insights into the ecology of a wide variety of marine species, species-specific effects of tagging should be evaluated before starting field studies. If the autonomous study of benthic movement is to expand beyond hard-bodied macroinvertebrates current methodological and analytical challenges must be addressed. [ABSTRACT FROM AUTHOR]

Published

2024

10. Biodeterioration and Chemical Corrosion of Concrete in the Marine Environment: Too Complex for Prediction.

Author

Gaylarde, Christine C. and Ortega-Morales, Benjamin Otto

Subjects

CONCRETE corrosion, BIODEGRADATION, SEAWATER corrosion, MAGNESIUM ions, MICROBIAL adhesion, SYNECHOCOCCUS

Abstract

Concrete is the most utilized construction material worldwide. In the marine environment, it is subject to chemical degradation through reactions with chloride (the most important ion), and sulfate and magnesium ions in seawater, and to biodeterioration resulting from biological (initially microbiological) activities, principally acid production. These two types of corrosions are reviewed and the failure of attempts to predict the degree of deterioration resulting from each is noted. Chemical (abiotic) corrosion is greatest in the splash zone of coastal constructions, while phenomenological evidence suggests that biodeterioration is greatest in tidal zones. There have been no comparative experiments to determine the rates and types of microbial biofilm formation in these zones. Both chemical and microbiological concrete deteriorations are complex and have not been successfully modeled. The interaction between abiotic corrosion and biofilm formation is considered. EPS can maintain surface hydration, potentially reducing abiotic corrosion. The early marine biofilm contains relatively specific bacterial colonizers, including cyanobacteria and proteobacteria; these change over time, producing a generic concrete biofilm, but the adhesion of microorganisms to concrete in the oceans has been little investigated. The colonization of artificial reefs is briefly discussed. Concrete appears to be a relatively prescriptive substrate, with modifications necessary to increase colonization for the required goal of increasing biological diversity. [ABSTRACT FROM AUTHOR]

Published

2023

11. Using Fish Assemblages to Assess the Ecological Effects of Marine Protection on Rocky Habitats in a Portuguese Natural Park

Author

Nuno Castro, Tadeu J. Pereira, André Costa, Joana Sertório, António Fernandes, Maria J. Tavares, and João J. Castro

Subjects

marine protected areas, MPA, UVC, temperate reefs, subtidal, Ecology, QH540-549.5, Chemical technology, TP1-1185

Abstract

Intensive and regular fishing occurs in the marine area of the natural park “Parque Natural do Sudoeste Alentejano e Costa Vicentina” (PNSACV; SW coast of continental Portugal). In 2011, this area became a marine park with different protection levels (total, partial, and complementary). We assessed in 2011 and 2012 if partial protection (PP) in Marine Protected Areas (MPAs) changed the taxa richness, abundance, size, and community composition of cryptic and non-cryptic fishes. We also determined if these effects were observed outside PP areas in adjacent control areas. Underwater visual censuses (UVC) of cryptic and non-cryptic fish species were conducted in rocky subtidal habitats (~10 m deep) with band transects (25 × 2 m and 25 × 4 m, respectively) to determine abundance and size classes. The northern half of the PNSACV was sampled at a scale of tens (site—two sites per area; 4–6 transects per site) and hundreds (area) of meters. Two PP and six control areas were sampled. The homogeneity and abundance of bottom habitat types were assessed at each site. Effects of protection were not detected in the community structure or univariate analyses (i.e., taxa richness and total abundance) of non-cryptic and cryptic fishes. The early phase of the MPAs may have driven the lack of significant protection effects. Replication in time within a monitoring program is recommended to assess these conservation measures’ ecological effects.

Published

2023

12. Review and guide to the isopods (Crustacea, Isopoda) of littoral and sublittoral marine habitats in the Southern California Bight.

Author

Stebbins, Timothy D. and Wetzer, Regina

Subjects

*ISOPODA, *LITTORAL zone, *BODY size, *CRUSTACEA, *MARINE habitats

Abstract

The isopod crustaceans reported from or expected to occur in littoral and sublittoral marine habitats of the Southern California Bight (SCB) in the northeastern Pacific Ocean are reviewed. A total of 190 species, representing 105 genera in 42 families and six suborders are covered. Approximately 84% of these isopods represent described species with the remaining 16% comprising well-documented "provisional" but undescribed species. Cymothoida and Asellota are the most diverse of the six suborders, accounting for ca. 36% and 29% of the species, respectively. Valvifera and Sphaeromatidea are the next most speciose suborders with between 13-15% of the species each, while the suborder Limnorioidea represents fewer than 2% of the SCB isopod fauna. Finally, the mostly terrestrial suborder Oniscidea accounts for ca. 5% of the species treated herein, each which occurs at or above the high tide mark in intertidal habitats. A key to the suborders and superfamilies is presented followed by nine keys to the SCB species within each of the resultant groups. Figures are provided for most species. Bathymetric range, geographic distribution, type locality, habitat, body size, and a comprehensive list of references are included for most species. [ABSTRACT FROM AUTHOR]

Published

2023

13. Using Fish Assemblages to Assess the Ecological Effects of Marine Protection on Rocky Habitats in a Portuguese Natural Park.

Author

Castro, Nuno, Pereira, Tadeu J., Costa, André, Sertório, Joana, Fernandes, António, Tavares, Maria J., and Castro, João J.

Subjects

*FISH habitats, *MARINE parks & reserves, *PROTECTIVE coloration (Biology), *FISH populations

Abstract

Intensive and regular fishing occurs in the marine area of the natural park "Parque Natural do Sudoeste Alentejano e Costa Vicentina" (PNSACV; SW coast of continental Portugal). In 2011, this area became a marine park with different protection levels (total, partial, and complementary). We assessed in 2011 and 2012 if partial protection (PP) in Marine Protected Areas (MPAs) changed the taxa richness, abundance, size, and community composition of cryptic and non-cryptic fishes. We also determined if these effects were observed outside PP areas in adjacent control areas. Underwater visual censuses (UVC) of cryptic and non-cryptic fish species were conducted in rocky subtidal habitats (~10 m deep) with band transects (25 × 2 m and 25 × 4 m, respectively) to determine abundance and size classes. The northern half of the PNSACV was sampled at a scale of tens (site—two sites per area; 4–6 transects per site) and hundreds (area) of meters. Two PP and six control areas were sampled. The homogeneity and abundance of bottom habitat types were assessed at each site. Effects of protection were not detected in the community structure or univariate analyses (i.e., taxa richness and total abundance) of non-cryptic and cryptic fishes. The early phase of the MPAs may have driven the lack of significant protection effects. Replication in time within a monitoring program is recommended to assess these conservation measures' ecological effects. [ABSTRACT FROM AUTHOR]

Published

2023

14. The status of research and utilisation on the subtidal kelp along the Chilean coast: A literature review.

Author

Laukaityte, Simona and Riera, Rodrigo

Abstract

The most important marine coastal ecosystem in the Chilean coast are kelp forests. This review is based on ecological studies regarding different aspects of subtidal kelp ecosystems along the Chilean coast. It highlights the most interesting findings in (1) biology of subtidal kelp in Chile, with particular reference to (2) habitats formed by kelp, and considered the successful examples and promising results in the (3) kelp as an industrial resource (Biotechnological approach of kelps and aquaculture). The impact caused by (4) El Niño-Southern Oscillation is discussed as an important climatic event that could help to forecast the future of the kelp ecosystem. In addition, this literature review outlines the knowledge gaps on subtidal kelp along the Southeast Pacific Coast of Chile, so that research can be strengthened in the future. [ABSTRACT FROM AUTHOR]

Published

2022

15. Biodeterioration and Chemical Corrosion of Concrete in the Marine Environment: Too Complex for Prediction

Author

Christine C. Gaylarde and Benjamin Otto Ortega-Morales

Subjects

biofilm, colonization, degradation, microorganisms, subtidal, intertidal and splash zones, Biology (General), QH301-705.5

Abstract

Concrete is the most utilized construction material worldwide. In the marine environment, it is subject to chemical degradation through reactions with chloride (the most important ion), and sulfate and magnesium ions in seawater, and to biodeterioration resulting from biological (initially microbiological) activities, principally acid production. These two types of corrosions are reviewed and the failure of attempts to predict the degree of deterioration resulting from each is noted. Chemical (abiotic) corrosion is greatest in the splash zone of coastal constructions, while phenomenological evidence suggests that biodeterioration is greatest in tidal zones. There have been no comparative experiments to determine the rates and types of microbial biofilm formation in these zones. Both chemical and microbiological concrete deteriorations are complex and have not been successfully modeled. The interaction between abiotic corrosion and biofilm formation is considered. EPS can maintain surface hydration, potentially reducing abiotic corrosion. The early marine biofilm contains relatively specific bacterial colonizers, including cyanobacteria and proteobacteria; these change over time, producing a generic concrete biofilm, but the adhesion of microorganisms to concrete in the oceans has been little investigated. The colonization of artificial reefs is briefly discussed. Concrete appears to be a relatively prescriptive substrate, with modifications necessary to increase colonization for the required goal of increasing biological diversity.

Published

2023

16. A decade of invertebrate recruitment at Santa Catalina Island, California.

Author

Edmunds, Peter J. and Clayton, Jessica

Subjects

OCEAN temperature, BIOTIC communities, FUNCTIONAL groups, INVERTEBRATES, COMMUNITY development

Abstract

Marine fouling communities have long provided model systems for studying the ecology of community development, and settlement plates are the tool of choice for this purpose. Decades of plate deployments provide a baseline against which present-day trends can be interpreted, with one classic trend being the ultimate dominance of plates by colonial and encrusting taxa. Here we report the results of annual deployments of settlement plates from 2010 to 2021 in the shallow sub-tidal of southern California, where the recruitment of invertebrates and algae was recorded photographically, and resolved to functional group (solitary, encrusting, and arborescent) and the lowest taxon possible. The communities on these plates differed among years, with trends in abundances varying by functional group and taxon; solitary taxa consistently were abundant, but encrusting taxa declined in abundance. Seawater temperature and the subsurface concentration of chlorophyll a differed among years, and there was a weak inverse association between temperature and the abundances of encrusting taxa. Long-term increases in seawater temperature therefore could serve as a mechanism causing fouling communities to change. Because of the prominence of encrusting taxa in fouling communities, the shifts in abundance of this functional group reported here may portend ecologically significant changes in fouling communities exposed to warmer seawater because of an alleviation of competition for a classically limiting resource (i.e., space). [ABSTRACT FROM AUTHOR]

Published

2022

17. Structure of the bivalve (Mollusca) assemblage of Mazatlan bay, Mexico, and its relationship to environmental variables.

Author

Esqueda-González, M. C., Ríos-Jara, E., Galván-Villa, C. M., and Rodríguez-Zaragoza, F. A.

Subjects

BIVALVES, MOLLUSKS, INTERTIDAL zonation, SPECIES distribution, SPECIES diversity, WATER temperature

Abstract

This work describes the structure of the assemblage of bivalve mollusks (i.e., composition, abundance, density, distribution and species diversity) of four representative rocky beaches of Mazatlan bay, Mexico. Biological samples were taken in the upper intertidal, lower intertidal and shallow subtidal of the beaches together with environmental parameters: type of sediment, organic matter, water temperature, dissolved oxygen, wave exposure and concentration of chlorophyll a. A total of 19,848 individuals distributed in 77 species, 50 genera and 27 families were recorded. The permutational ANOVA and PERMANOVA indicated significant differences in the bivalve assemblage structure among environments across studied sites. However, the intertidal (IT) and SS environments had different bivalve assemblages. Six species had a broad distribution: Acar rostae, Arcopsis solida, Isognomon janus, Saccostrea palmula Chama buddiana and Carditamera affinis. Four species had the highest density in the IT: Brachidontes semilaevis (196.0 ind m2), B. adamsianus (35.0 ind m2), Arcopsis solida (18.0 ind m2) and Lithophaga aristata (15.0 ind m2), and in the SS were Lithophaga aristata (7.1 ind m2), B. semilaevis and Acar rostae (3.2 ind m2). This study shows that exposure to waves was determinant for the bivalve distribution that inhabit the intertidal zone. In contrast, chlorophyll a and organic material are the variables that best explain the distribution of the species in the SS. However, more detailed information is required regarding the importance of the interaction between the hydrodynamics and the topography of the rocky beaches of Mazatlan bay. [ABSTRACT FROM AUTHOR]

Published

2022

18. The influence of mussel restoration on coastal carbon cycling.

Author

Sea, Mallory A., Hillman, Jenny R., and Thrush, Simon F.

Subjects

*CARBON cycle, *CLIMATE change mitigation, *EFFECT of human beings on climate change, *HETEROTROPHIC respiration, *CARBON emissions, *MUSSELS, *CARBON fixation, *AUTOMOBILE restoration

Abstract

Increasing responsiveness to anthropogenic climate change and the loss of global shellfish ecosystems has heightened interest in the carbon storage and sequestration potential of bivalve‐dominated systems. While coastal ecosystems are dynamic zones of carbon transformation and change, current uncertainties and notable heterogeneity in the benthic environment make it difficult to ascertain the climate change mitigation capacity of ongoing coastal restoration projects aimed at revitalizing benthic bivalve populations. In this study we sought to distinguish between direct and indirect effects of subtidal green‐lipped mussels (Perna canaliculus) on carbon cycling, and combined published literature with in‐situ experiments from restored beds to create a carbon budget for New Zealand's shellfish restoration efforts. A direct summation of biogenic calcification, community respiration, and sediment processes suggests a moderate carbon efflux (+100.1 to 179.6 g C m−2 year−1) occurs as a result of recent restoration efforts, largely reflective of the heterotrophic nature of bivalves. However, an examination of indirect effects of restoration on benthic community metabolism and sediment dynamics suggests that beds achieve greater carbon fixation rates and support enhanced carbon burial compared to nearby sediments devoid of mussels. We discuss limitations to our first‐order approximation and postulate how the significance of mussel restoration to carbon‐related outcomes likely increases over longer timescales. Coastal restoration is often conducted to support the provisioning of many ecosystem services, and we propose here that shellfish restoration not be used as a single measure to offset carbon dioxide emissions, but rather used in tandem with other initiatives to recover a bundle of valued ecosystem services. [ABSTRACT FROM AUTHOR]

Published

2022

19. A decade of invertebrate recruitment at Santa Catalina Island, California

Author

Peter J. Edmunds and Jessica Clayton

Subjects

Monitoring, Recruitment, Long-term, Change, Subtidal, Marine, Medicine, Biology (General), QH301-705.5

Abstract

Marine fouling communities have long provided model systems for studying the ecology of community development, and settlement plates are the tool of choice for this purpose. Decades of plate deployments provide a baseline against which present-day trends can be interpreted, with one classic trend being the ultimate dominance of plates by colonial and encrusting taxa. Here we report the results of annual deployments of settlement plates from 2010 to 2021 in the shallow sub-tidal of southern California, where the recruitment of invertebrates and algae was recorded photographically, and resolved to functional group (solitary, encrusting, and arborescent) and the lowest taxon possible. The communities on these plates differed among years, with trends in abundances varying by functional group and taxon; solitary taxa consistently were abundant, but encrusting taxa declined in abundance. Seawater temperature and the subsurface concentration of chlorophyll a differed among years, and there was a weak inverse association between temperature and the abundances of encrusting taxa. Long-term increases in seawater temperature therefore could serve as a mechanism causing fouling communities to change. Because of the prominence of encrusting taxa in fouling communities, the shifts in abundance of this functional group reported here may portend ecologically significant changes in fouling communities exposed to warmer seawater because of an alleviation of competition for a classically limiting resource (i.e., space).

Published

2022

20. Corrigendum: Top-down and bottom-up control in the Galápagos Upwelling System

Author

Margarita Brandt, Isabel Silva-Romero, David Fernández-Garnica, Esteban Agudo-Adriani, Colleen B. Bove, and John F. Bruno

Subjects

macroalgae, subtidal, upwelling, nutrients, temperature, bottom-up/top-down control, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Published

2022

21. The Contribution of Subtidal Seagrass Meadows to the Total Carbon Stocks of Gazi Bay, Kenya.

Author

Omollo, Derrick Joannes, Wang'ondu, Virginia Wangeci, Githaiga, Michael Njoroge, Gorman, Daniel, and Kairo, James Gitundu

Subjects

*SEAGRASSES, *MANGROVE plants, *CARBON sequestration, *GROUND vegetation cover, *SPECIES pools, *INTERTIDAL zonation, *CARBON

Abstract

Seagrass beds occur globally in both intertidal and subtidal zones within shallow marine environments, such as bays and estuaries. These important ecosystems support fisheries production, attenuate strong wave energies, support human livelihoods and sequester large amounts of CO2 that may help mitigate the effects of climate change. At present, there is increased global interest in understanding how these ecosystems could help alleviate the challenges likely to face humanity and the environment into the future. Unlike other blue carbon ecosystems, i.e., mangroves and saltmarshes, seagrasses are less understood, especially regarding their contribution to the carbon dynamics. This is particularly true in regions with less attention and limited resources. Paucity of information is even more relevant for the subtidal meadows that are less accessible. In Kenya, much of the available information on seagrasses comes from Gazi Bay, where the focus has been on the extensive intertidal meadows. As is the case with other regions, there remains a paucity of information on subtidal meadows. This limits our understanding of the overall contribution of seagrasses in carbon capture and storage. This study provides the first assessment of the species composition and variation in carbon storage capacity of subtidal seagrass meadows within Gazi Bay. Nine seagrass species, comprising of Cymodocea rotundata, Cymodocea serrulata, Enhalus acoroides, Halodule uninervis, Halophila ovalis, Halophila stipulacea, Syringodium isoetifolium, Thalassia hemprichii, and Thalassodendron ciliatum, were found. Organic carbon stocks varied between species and pools, with the mean below ground vegetation carbon (bgc) stocks (5.1 ± 0.7 Mg C ha−1) being more than three times greater than above ground carbon (agc) stocks (0.5 ± 0.1 Mg C ha−1). Mean sediment organic carbon stock (sed Corg) of the subtidal seagrass beds was 113 ± 8 Mg C ha−1. Combining this new knowledge with existing data from the intertidal and mangrove fringed areas, we estimate the total seagrass ecosystem organic carbon stocks in the bay to be 196,721 Mg C, with the intertidal seagrasses storing about 119,790 Mg C (61%), followed by the subtidal seagrasses 55,742 Mg C (28%) and seagrasses in the mangrove fringed creeks storing 21,189 Mg C (11%). These findings are important in highlighting the need to protect subtidal seagrass meadows and for building a national and global data base on seagrass contribution to global carbon dynamics. [ABSTRACT FROM AUTHOR]

Published

2022

22. The Effect of Regional Winds on Subtidal Along‐Inlet Currents at Oregon Inlet, NC.

Author

Humberston, J. L. and Lippmann, T. C.

Subjects

TIDAL currents, INLETS, BARRIER islands, ARCHIPELAGOES, WIND shear, COASTAL sediments

Abstract

Wind influence on tidal inlet hydrodynamics is examined using 40 days of wind, water level, and current observations collected in Spring 2019 at Oregon Inlet, NC, a large (1 km wide, 1–13 m deep) meso‐tidal inlet with complex delta systems. Wind velocities through the inlet (ranging 0–18 m/s) are modulated at subtidal timescales and are well correlated (R = 0.87) to a subtidal component of the water level slope through the inlet. The subtidal wind and water level slope are also well correlated to the subtidal current along the principal flow axis in the main inlet channel (R = 0.92 and 0.96, respectively). In combination with findings from previous studies, these findings suggest that regional winds induce the subtidal water level slope through the inlet by causing opposing setup/setdown to either side of the inlet. A force balance at the inlet demonstrates that the wind‐induced pressure gradient forces the subtidal currents, with wave forcing and local wind shear acting as lower‐order influences. The magnitude of the subtidal current is substantial, exceeding that of the tidal currents 45% of the time. Cumulatively, these findings indicate that regional winds exert a first‐order control on the currents at Oregon Inlet and cause irregular hydrodynamic patterns not well described by the traditional inlet classification scheme. Regional geographic characteristics may contribute to the high level of wind influence at Oregon Inlet, but similar processes are likely to be important to net flow dynamics at other inlets with large, shallow inland water bodies. Plain Language Summary: Tidal inlets are constricted coastal channels maintained by the flow and are particularly common along barrier island systems where they have important implications for the flux of sediments along the coast. The traditional tidal inlet classification system is based on the relative strength of tides and waves; however, mounting evidence suggests winds may also be an important control of inlet dynamics. This works uses observations of winds, currents, and changes in water levels at Oregon Inlet, NC, to examine the role of local and regional winds in altering tidal inlet currents. Results suggest that regional winds induce a water level gradient through the inlet that varies over time periods longer than tides (>12 hr), and that this gradient then forces a current through the inlet over the same timescales. The magnitude of the wind induced current exceeds that of the tidal current 45% of the time and far exceeds contributions from waves, implying that winds may play an underappreciated role in tidal inlet dynamics. Improving our understanding of wind control on tidal inlets has important implications for dredging efforts common to tidal inlets, for numerical models simulating island chain evolution, and to the navigation of vessels that use charts to determine times of safe transit based on expected water levels and currents. Key Points: Observational data suggest regional winds induce a water level gradient through Oregon Inlet that varies over subtidal time scalesSubtidal water level gradients induced by regional winds account for 92% of the variance of along‐inlet subtidal currentsSubtidal currents through the inlet are of the same order as the tidally driven currents and exceed the tidal currents 45% of the time [ABSTRACT FROM AUTHOR]

Published

2022

23. Latent effects of intertidal encapsulated development on juvenile fitness of the marine snail Acanthina monodon.

Author

Salas-Yanquin, L. P., Pinilla, N. P., Matos, A. S., Bűchner-Miranda, J. A., Navarro, J. M., Cubillos, V. M., Pechenik, J. A., and Chaparro, O. R.

Subjects

*EGG cases (Zoology), *EGG incubation, *EMBRYOS, *GASTROPODA

Abstract

The muricid gastropod Acanthina monodon deposits egg capsules in both subtidal and intertidal environments. Intertidal egg capsules are naturally exposed during low tides to sublethal environmental stressors, including desiccation and fluctuations in temperature and salinity. This study was undertaken to determine if juveniles hatching from intertidal egg capsules show reduced rates of feeding or growth. This research therefore compares the performance of juveniles during the first month of post-hatching life, according to whether the juveniles had developed in capsules that had been naturally deposited intertidally or subtidally. We found that juveniles that hatched from intertidal egg capsules grew more slowly than those that hatched from subtidally collected capsules. Moreover, juveniles that hatched from intertidal egg capsules consumed fewer prey per week and ate more slowly than those that hatched from subtidal capsules, although by the end of the study, the total dry weight of juveniles from the two environments was no longer significantly different. Even so, the final mean organic content of juveniles that had hatched from subtidal capsules was significantly higher than that of juveniles that had hatched from capsules of intertidal origin, suggesting that the juveniles from intertidal egg capsules prioritized inorganic shell growth over tissue growth. These results suggest that the intertidal placement of egg capsules imposes stresses on embryos that subsequently reduce rates of juvenile feeding and shell growth, demonstrating how sublethal stresses experienced during early, pre-hatching development in the field interacting with likely maternal effects can produce deleterious latent effects in later life. [ABSTRACT FROM AUTHOR]

Published

2022

24. Top-Down and Bottom-Up Control in the Galápagos Upwelling System

Author

Margarita Brandt, Isabel Silva-Romero, David Fernández-Garnica, Esteban Agudo-Adriani, Colleen B. Bove, and John F. Bruno

Subjects

macroalgae, subtidal, upwelling, nutrients, temperature, bottom-up/top-down control, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Increased standing macroalgal biomass in upwelling zones is generally assumed to be the result of higher nutrient flux due to upwelled waters. However, other factors can strongly impact macroalgal communities. For example, herbivory and temperature, via their effects on primary producers and the metabolic demands of consumers, can also influence macroalgal biomass and productivity, respectively. We assessed the effects of nutrient availability, temperature, and herbivory on macroalgal biomass on a subtidal nearshore rocky reef in the Galápagos Islands. We manipulated nutrient availability and herbivory in field experiments performed in two seasons: the first during a cool, upwelling season, and the second during a warm, non-upwelling season. Excluding macro-herbivores had a clear effect on standing macroalgal biomass, independent of season or nutrient availability. However, we found different interactive effects of nutrients and macro-herbivores between the two seasons. During the cool season, macroalgal biomass was significantly higher in herbivore exclusions than in open areas under ambient nutrient conditions. However, when nutrients were added, macroalgal biomass was not significantly different across all herbivore treatments, which suggests reduced top-down control of herbivores (hence a greater standing algal biomass) in open areas. In the warm season, macroalgal biomass was significantly higher in herbivore exclusions compared to open treatments, both with and without nutrient addition. Furthermore, biomass reached 11X in herbivore exclusions with nutrient additions, which hints nutrient limitation only during warm, low-upwelling conditions. Overall, our results support the hypothesis that macro-herbivores reduce macroalgal biomass in this system and suggest that nutrient availability, but not temperature, modulate herbivory.

Published

2022

25. Diversity of Kallymeniaceae (Gigartinales, Rhodophyta) associated with Hawaiian mesophotic reefs.

Author

Cabrera, Feresa P., Huisman, John M., Spalding, Heather L., Kosaki, Randall K., and Sherwood, Alison R.

Subjects

*GIGARTINALES, *REEFS, *HAWAIIANS, *NATIONAL monuments, *HYDROGRAPHIC surveying, *CORAL reefs & islands, *RED algae

Abstract

Small red algal morphologically variable blades have been extensively collected from Hawaiian reefs, but for many specimens their taxonomy remains poorly understood. In surveys of the Papahānaumokuākea Marine National Monument (PMNM) and Main Hawaiian Islands (MHI), we discovered two taxa of undescribed small (< 5 cm) red blades that matched the genera Psaromenia and Meredithia, based on morphology and molecular analyses. Neither genus has been previously recorded in the Hawaiian Islands, and neither group of specimens matched currently described species in these two genera. Accordingly, these specimens are described here as new species within the family Kallymeniaceae. Psaromenia laulamaula sp. nov., exclusively found at mesophotic depths (83–94 m) in PMNM, is easily distinguished from other members of the genus by its comparatively large, procarpic carpogonial branch system and solitary obovate pink-to-magenta blades. Conversely, Meredithia hawaiiensis sp. nov., occurring in both shallow (0–17 m) and mesophotic depths (55 m), has high morphological plasticity, with characters that overlap with other Meredithia species, and can only be distinguished based on DNA sequences. This study provides additional evidence of the extent of diversity in the Kallymeniaceae that is poorly characterized from mesophotic depths and provides further evidence that members of the macroalgal flora contain overlooked biodiversity. [ABSTRACT FROM AUTHOR]

Published

2022

26. Three New Infaunal Species of Taeniogyrus (Echinodermata: Holothuroidea: Apodida: Chiridotidae: Taeniogyrinae) from Southern Coast of Wakayama, Japan.

Author

Yusuke Yamana, Hayato Tanaka, Isao Hirabayashi, Ichinosuke Dan, Atsushi Hirai, and Akito Ogawa

Subjects

*ECHINODERMATA, *BODY size, *SPECIES, *COASTS, *SEA cucumbers, *PINK

Abstract

Three infaunal apodid sea cucumbers collected in Kushimoto, Shirahama, and Susami, in the southern coast of Wakayama, Japan are described. They have different morphological characteristics in body color, ossicle arrangement, and internal organs, each other. First species, animal displays a large body size (approximately 70–150mm) and pale body color (semitransparent pink with anterior tip brownish) was found out. Second species, animal displays a small body size (approximately 20mm) and pale body color (transparent yellow) with whitish wheel-papillae on three dorsal interradii was found out. Third species, animal displays a moderate body size (approximately 20–35mm) and deep red or reddish brown body color with dark yellowish wheel-papillae on three dorsal interradii was found out. All three species having 10 tentacles, sigmoid-hook ossicles, and wheel ossicles in their body wall, turned out to be belonging to the genus Taeniogyrus Semper, 1867, and new to science. [ABSTRACT FROM AUTHOR]

Published

2022

27. Different kelp species support unique macroinvertebrate assemblages, suggesting the potential community‐wide impacts of kelp harvesting along the Humboldt Current System.

Author

Carbajal, Patricia, Gamarra Salazar, Alex, Moore, Pippa J., and Pérez‐Matus, Alejandro

Subjects

PERU Current, KELPS, MACROCYSTIS, GIANT kelp, BIOINDICATORS, SPECIES, LAMINARIA, HABITATS

Abstract

Kelp forests provide habitat for myriad species yet remain poorly studied in some ecoregions, including where there is increasing interest in commercial kelp harvesting for the lucrative alginate industry.To identify indicators for monitoring the impacts of kelp harvesting, the structure and composition of macrobenthic invertebrate assemblages associated with large brown macroalgae, Eisenia cokeri, Lessonia trabeculata and Macrocystis pyrifera, from the Humboldt Current System of Peru were determined.Within kelp habitats two distinct habitats were sampled: (a) adult kelp holdfasts; and (b) the benthos adjacent to the kelp sporophyte (hereafter under‐canopy rock). For each sample, organisms were identified, enumerated and weighed.Totals of 108, 102 and 113 different species were found associated with Eisenia cokeri, M. pyrifera and L. trabeculata, respectively comprising distinct assemblages associated with each kelp forest. Both habitat types (holdfasts and under‐canopy rock) supported diverse, but different, macroinvertebrate assemblages, with richness, abundance and functional trophic groups in general higher in holdfasts compared with on under‐canopy rock. Lastly, macroinvertebrate abundance, biomass, and species richness significantly increased with holdfast size.Results confirm that each kelp species is unique in terms of associated assemblage composition and indicate that kelp harvesting for the alginate industry may have large impacts. We suggest that these effects on associated biodiversity should be incorporated within kelp harvesting management plans.We suggest that holdfast diameter is a good ecological indicator as reductions in holdfast size across the population will indicate a decline in the diversity of macroinvertebrates that are important food sources for higher order organisms. We therefore suggest that monitoring studies include morphological measurements as well as measurement of kelp density. [ABSTRACT FROM AUTHOR]

Published

2022

28. Marine invertebrate and seaweed biodiversity of continental coastal Ecuador

Author

Maritza Cárdenas-Calle, Elba Mora, Genoveva Torres, Julián Pérez-Correa, Gregorio Bigatti, Javier Signorelli, and Jorge Coronel

Subjects

Benthos, intertidal rocky shores, subtidal, Ecuado, Biology (General), QH301-705.5

Abstract

This study summarises the diversity of living macroinvertebrates and seaweeds from the intertidal and subtidal rocky shores along Ecuadorian continental coast. Benthic macroinvertebrate communities and seaweeds were quantified over quadrants (50 × 50 cm) randomly placed on transects of 50 m length. A checklist of 612 species was generated: 479 species of macroinvertebrates and 133 species of seaweeds. Groups recorded were Mollusca (184 species), Cnidaria (70), Arthropoda (68), Annelida (60), Echinodermata (42), Chordata (18), Bryozoa (13), Porifera (22), Sipuncula (2), Brachiopoda and Platyhelminthes (only identified as morphotypes). The seaweeds were represented by Rhodophyta (78), Chlorophyta (37), Ochrophyta (13), Cyanobacteria (5) and 19 biotic complexes. Furthermore, 22 new taxa and six alien species were recorded from the intertidal zone. This study provides the first large scale report of benthic communities in different marine coastal ecosystems in mainland Ecuador, covering 1,478 km2 of protected areas and 382 km2 of non-protected areas. The highest benthic diversity was registered in the protected areas and rocky shores from the intertidal zone. The biological data, herein reported, are useful for a long-term monitoring programme to evaluate the status of conservation and to detect rapid changes in the benthic biodiversity from coastal areas.

Published

2020

29. Local management to support local fisheries: Rāhui (temporary closure) and bag limits for blackfoot abalone (Haliotis iris) in southern New Zealand.

Author

Gnanalingam, Gaya, Pritchard, Daniel W., Richards, Derek K., Subritzky, Peri, Flack, Brendan, and Hepburn, Christopher D.

Subjects

ABALONES, FISHERY management, LIFE history theory, FISHERIES

Abstract

Spatially discrete stocks that vary in life history traits on a reef‐to‐reef scale present a challenge for fisheries managers. Nationally or regionally applied one‐size‐fits‐all approaches to management fail to account for this variability, and when coupled with fishing pressure this can result in serial depletion and localized extinction.Where mechanisms for local management exist, as they do in New Zealand via customary protection areas (Taiāpure Local Fisheries, Mātaitai Reserves), managers have the opportunity to trial tools on scales relevant to the stocks managed. This study assesses the effect of bag limits and a rāhui (temporary closure) in managing the spatially discrete, and culturally important, blackfoot abalone (Haliotis iris, pāua) in the East Otago Taiāpure, in southern New Zealand.Using surveys spanning 8 years and 26 sites, the rāhui was found to have had mixed results: halting the decline in pāua density at 0 m but not 0.5 m depths. The rāhui did, however, result in an increase in the percentage of individuals above the minimum legal size at both depths.Where bag limits alone had been applied, pāua densities and the percentage of legal‐sized individuals continued to decline over the 8‐year period, with the loss of large individuals, translating into a decline in estimated egg production.Growth estimates from mark–recapture and surveys of juvenile abundance at sites inside and outside the rāhui highlight the fine‐scale variability in pāua life history even within this local area. This suggests there may be biological impediments to pāua management using bag limits alone.Though pāua restoration efforts have had mixed results to date, this study highlights the potential for legally empowered local managers and communities to respond to fisheries declines in their own local area in an action‐driven, adaptable, and timely way. [ABSTRACT FROM AUTHOR]

Published

2021

30. Resilience and Species Accumulation across Seafloor Habitat Transitions in a Northern New Zealand Harbour

Author

Stephanie Mangan, Richard H. Bulmer, Barry L. Greenfield, Sarah F. Hailes, Kelly Carter, Judi E. Hewitt, and Andrew M. Lohrer

Subjects

biodiversity, intertidal, subtidal, diversity measures, depth, habitat, Biology (General), QH301-705.5

Abstract

Biodiversity is crucial for maintaining ecosystem stability and functionality under increasing anthropogenic stress. Part of this resilience comes from having many species performing the same function (functional redundancy) leading to the quantification of community composition and functional redundancy in relation to increasing stress. However, much of the research within coastal ecosystems focuses on distinct areas, rather than whole ecosystems. Here, we investigate the relationship between biodiversity and functional redundancy across two environmental gradients (sediment mud content and water column depth) and different habitat types following a survey of benthic macrofauna and sediment characteristics at 24 sites within Whangārei Harbour, New Zealand. We observed strong gradients in biodiversity which fragmented communities into fewer species that were a subset of the wider community. The lowest biodiversity was observed at muddy, intertidal and shallow subtidal sites which also had the lowest predicted functional redundancy. We show the stronger influence of water column depth on predicted functional redundancy than sediment mud content, highlighting the importance of subtidal regions. Overall, our study highlights the importance of studying the individual contributions of different areas in a landscape to characterise effective colonist pool size and how this can be used to predict recovery potential following disturbance.

Published

2022

31. A successful method of transplanting adult Ecklonia radiata kelp, and relevance to other habitat‐forming macroalgae.

Author

Layton, Cayne, Cameron, Matthew J., Shelamoff, Victor, Tatsumi, Masayuki, Wright, Jeffrey T., and Johnson, Craig R.

Subjects

*ADULTS, *MARINE algae, *KELPS, *HABITAT conservation, *TRANSPLANTATION of organs, tissues, etc., *LAMINARIA

Abstract

The ability to successfully transplant adult kelp has applications not only for ecological experiments, but also for habitat conservation and restoration projects. However, approaches to the long‐term transplanting of adult kelp (especially for stalked or 'stipitate' species), and the communication of these methods, has been relatively haphazard, often due to poor results and excessive mortality. Here, we provide a brief communication to describe a method to effectively transplant the stipitate kelp Ecklonia radiata—the most widespread and abundant kelp in Australasia—and which allowed the transplanting of >1,000 adult kelp over 1.5 ha. We also discuss additional observations relevant to the success of transplanting kelp (such as donor age/size), and the applicability of this method to other habitat‐forming macroalgae. Our method involved securing the adult Ecklonia to the substratum using large bands made from recycled rubber, which held the holdfast firmly but gently against the substratum. Re‐attachment of the adult kelp typically occurred within 3–6 weeks, while rates of survivorship were approximately 75% and not affected by the density nor size of the transplanted patch. This method could also readily be adapted to suit different substratum types and other species of kelp and habitat‐forming algae. Ultimately, this transplanting method adds to the collection of effective techniques for restoring habitat‐forming macroalgae, especially for stipitate species where few methods have been communicated. [ABSTRACT FROM AUTHOR]

Published

2021

32. Addressing reproductive stochasticity and grazing impacts in the restoration of a canopy‐forming brown alga by implementing mitigation solutions.

Author

Savonitto, Gilda, De La Fuente, Gina, Tordoni, Enrico, Ciriaco, Saul, Srijemsi, Marina, Bacaro, Giovanni, Chiantore, Mariachiara, and Falace, Annalisa

Subjects

MARINE parks & reserves, CULTURES (Biology), SURVIVAL rate, FOREST declines, LAMINARIA, BROWN algae

Abstract

The worldwide decline of marine forests, due to human impacts and climate change, emphasizes the need to develop and implement effective and sustainable solutions to restore these endangered habitats and to re‐establish the services they provide.In this study, the ex situ restoration of Gongolaria barbata (=Treptacantha barbata), a Mediterranean subtidal habitat‐forming species of brown seaweed, was for the first time implemented in a marine protected area in the Adriatic Sea. Two restoration efforts were performed in 2019. The first was started in winter, after a marine heatwave that triggered early fertility, and the second in spring, when the species usually reproduces.This study aimed to evaluate: (i) the disruptive effects of a thermal anomaly on the reproductive biology and performance in culture of G. barbata; and (ii) the impact of the grazing pressure on juveniles after the outplanting.The first cultivation was more productive than the second, in terms of zygote release and germling growth. To mitigate the low efficiency of the second culture and to avoid prolonged highly demanding maintenance in the mesocosms, the cultivation period was extended outdoors using a structure suspended in the water column.The modular frames conceived for outplanting G. barbata proved to be effective because of their easy operability and low cost. Controlling for herbivorous fish had significant positive effects on both juvenile survival and growth.The outcomes highlighted that an unpredictable climatic event and fish grazing were major threats that impaired the restoration process of G. barbata. These stressors should be considered when developing plans to implement effective large‐scale restoration of canopy‐forming macroalgae. [ABSTRACT FROM AUTHOR]

Published

2021

33. Night underwater rides: the activity of a sandy beach gastropod is affected by interactive effects of light availability and water level.

Author

Checon, Helio H., Silva, Mariana, Corte, Guilherme N., Yokoyama, Leonardo Q., Teodósio, M. Alexandra, and Turra, Alexander

Subjects

*WATER supply, *LIGHT pollution, *WATER levels, *BEACHES, *GASTROPODA, *BENTHIC ecology

Abstract

Olivella minuta is an abundant gastropod and important consumer on beach food webs, whose feeding activity was recently demonstrated to be reduced when submerged. Our study aimed to test the interactive effects of water level and light in the activity of O. minuta. Experiments were conducted in the laboratory simulating four conditions: (1) Light, emerged (LE); (2) Dark, emerged (DE); (3) Light, immersed (LI); and (4) Dark, immersed (DI). Our results showed a significant interaction between water level and light variation. During conditions of light availability, the results corroborated our expectations and individuals were less active when immersed. However, individuals showed the highest activity when immersed during lightless conditions. This enhanced activity on dark immersed periods can be explained by optimization of feeding strategy, to benefit from the input of food resources brought by the tide. This could also be an adaptation to avoid predation by visual predators, which needs to be further evaluated. Our results show that patterns of activity of O. minuta may be susceptible to impacts of light pollution and coastal squeezing, and that the interacting effects of light and water level need to be considered in further studies on the behaviour of beach organisms. [ABSTRACT FROM AUTHOR]

Published

2021

34. Distribution of demersal fish assemblages along the west coast of St Lucia: Implications for planning no‐take marine reserves.

Author

Mitchell, Peter J., Bolam, Stefan G., Close, Hayden L., Garcia, Clement, Monk, Jacquomo, and Alliji, Khatija

Subjects

MARINE parks & reserves, GEOGRAPHICAL distribution of fishes, ALCYONACEA, OCEAN currents, SPECIES diversity, MARINE algae, OCTOCORALLIA

Abstract

Evidence‐based decisions relating to effective marine protected areas as a means of conserving biodiversity require a detailed understanding of the species present. The Caribbean island nation of St Lucia is expanding its current marine protected area network by designating additional no‐take marine reserves on the west coast. However, information on the distribution of fish species is currently limited.This study used baited remote underwater stereo‐video to address this shortcoming by investigating the effects of depth and seabed habitat structure on demersal fish assemblages and comparing these assemblages between regions currently afforded different protection measures.From the 87 stations visited a total of 5,921 fish were observed comprising 120 fish taxa across 22 families. Species richness and total abundance were higher within the highly managed region, which included no‐take reserves. Redundancy analysis explained 17% of the total variance in fish distribution, driven predominantly by the seabed habitats. The redundancy analysis identified four main groups of demersal fishes each associated with specific seabed habitats.The current no‐take marine reserves protected two of these groups (i.e. fishes associated with the 'soft corals, hard corals or gorgonians' and 'seagrass' groups). Importantly, habitats dominated by sponges, bacterial mats, algal turfs or macroalgae, which also supported unique fish assemblages, are not currently afforded protection via the marine reserve network (based on the five reserves studied). These results imply that incorporation of the full breadth of benthic habitat types present would improve the efficacy of the marine reserve network by ensuring all fish assemblages are protected. [ABSTRACT FROM AUTHOR]

Published

2021

35. Improving benthic biodiversity assessments in turbid aquatic environments.

Author

Jones, Robyn E., Unsworth, Richard K.F., Hawes, Jon, and Griffin, Ross A.

Subjects

UNDERWATER cameras, BIODIVERSITY, LIGHT scattering, AQUATIC biodiversity, MARINE biodiversity, INFORMATION storage & retrieval systems, OCEAN bottom

Abstract

Biodiversity in turbid aquatic environments is commonly assessed using extractive sampling methods that damage the seabed. Underwater cameras equipped with clear liquid optical chambers (CLOCs) for the assessment of seabed habitats and species are a non‐extractive alternative and have been applied in turbid environments globally. A CLOC is a body of clear liquid positioned in front of a camera to reduce the scattering of light that would otherwise occur when passing through the turbid water it displaces. Here, we test and quantify the effectiveness of a CLOC for marine benthic biodiversity assessments over gradients of increasing turbidity.The addition of a CLOC to a conventional benthic camera system significantly enhanced the quality of information gathered. Images acquired using the CLOC system consistently recorded statistically higher values of image quality (49% increase, based on the clarity of the image), seabed visible within the drop‐down frame (34% increase), and European Nature Information System habitat level identification (49% increase). Furthermore, it was found that the 'annotation success' of taxa (classification of a specimen to family level or higher) was found to increase between individual experts in the presence of a CLOC. A reduced sampling effort was also identified when using a CLOC. Taxonomic richness increased by 27% when comparing the same number of image stills collected with and without the CLOC.By reducing the limitations of underwater visibility previously attributed to underwater cameras, this concept extends the potential for use of non‐destructive survey techniques and allows for future users to collect robust information of an area, making better informed management decisions. [ABSTRACT FROM AUTHOR]

Published

2021

36. The thermal journey of macroalgae: Four decades of temperature-induced changes in the southeastern Bay of Biscay.

Author

Arriaga, O., Wawrzynkowski, P., Muguerza, N., Díez, I., Gorostiaga, J.M., Quintano, E., and Becerro, M.A.

Subjects

*OCEAN temperature, *MARINE algae, *ECOLOGICAL regions, *GLOBAL warming, *ALGAL communities, *CORAL bleaching

Abstract

Global warming is triggering significant shifts in temperate macroalgal communities worldwide, favoring small, warm-affinity species over large canopy-forming, cold-affinity species. The Cantabrian Sea, a region acutely impacted by climate change, is also witnessing this shift. This study delved into the impacts of increasing sea surface temperature on the subtidal macroalgal communities in the southeastern Bay of Biscay over the last four decades, by using data from the years 1982, 2007, 2014, and 2020. We found that temperature has shaped the community structure, with warm-affinity species steadily displacing their cold-affinity counterparts. Notably, new communities exhibited a profusion of smaller algal species, explaining the observed increased biodiversity within the area. In the last period investigated (2014–2020), we observed a partial recovery of the communities, coinciding with cooler sea surface temperatures. Shallow algal communities were more reactive to temperature variations than deeper communities, possibly associated with higher exposure to increased temperatures. Our study offered insights into the intricate relationship between the changes in ocean temperature and algal species in the southeastern Bay of Biscay, shedding light on the ongoing ecological shifts in this region. • SST increase drove shifts in community structure. • Turf-like species thrived with temperature changes; canopy-forming species declined. • SST had a more pronounced impact on shallow communities. • Macroalgal communities responded rapidly to temperature fluctuations. • Increased biodiversity was associated with the emergence of small-sized species. [ABSTRACT FROM AUTHOR]

Published

2024

37. The Contribution of Subtidal Seagrass Meadows to the Total Carbon Stocks of Gazi Bay, Kenya

Author

Derrick Joannes Omollo, Virginia Wangeci Wang’ondu, Michael Njoroge Githaiga, Daniel Gorman, and James Gitundu Kairo

Subjects

subtidal, blue carbon, climate change, Africa, Biology (General), QH301-705.5

Abstract

Seagrass beds occur globally in both intertidal and subtidal zones within shallow marine environments, such as bays and estuaries. These important ecosystems support fisheries production, attenuate strong wave energies, support human livelihoods and sequester large amounts of CO2 that may help mitigate the effects of climate change. At present, there is increased global interest in understanding how these ecosystems could help alleviate the challenges likely to face humanity and the environment into the future. Unlike other blue carbon ecosystems, i.e., mangroves and saltmarshes, seagrasses are less understood, especially regarding their contribution to the carbon dynamics. This is particularly true in regions with less attention and limited resources. Paucity of information is even more relevant for the subtidal meadows that are less accessible. In Kenya, much of the available information on seagrasses comes from Gazi Bay, where the focus has been on the extensive intertidal meadows. As is the case with other regions, there remains a paucity of information on subtidal meadows. This limits our understanding of the overall contribution of seagrasses in carbon capture and storage. This study provides the first assessment of the species composition and variation in carbon storage capacity of subtidal seagrass meadows within Gazi Bay. Nine seagrass species, comprising of Cymodocea rotundata, Cymodocea serrulata, Enhalus acoroides, Halodule uninervis, Halophila ovalis, Halophila stipulacea, Syringodium isoetifolium, Thalassia hemprichii, and Thalassodendron ciliatum, were found. Organic carbon stocks varied between species and pools, with the mean below ground vegetation carbon (bgc) stocks (5.1 ± 0.7 Mg C ha−1) being more than three times greater than above ground carbon (agc) stocks (0.5 ± 0.1 Mg C ha−1). Mean sediment organic carbon stock (sed Corg) of the subtidal seagrass beds was 113 ± 8 Mg C ha−1. Combining this new knowledge with existing data from the intertidal and mangrove fringed areas, we estimate the total seagrass ecosystem organic carbon stocks in the bay to be 196,721 Mg C, with the intertidal seagrasses storing about 119,790 Mg C (61%), followed by the subtidal seagrasses 55,742 Mg C (28%) and seagrasses in the mangrove fringed creeks storing 21,189 Mg C (11%). These findings are important in highlighting the need to protect subtidal seagrass meadows and for building a national and global data base on seagrass contribution to global carbon dynamics.

Published

2022

38. Multitrophic diversity sustains ecological complexity by dampening top‐down control of a shallow marine benthic food web.

Author

O'Gorman, Eoin J.

Subjects

*TROPHIC cascades, *BIOLOGICAL extinction, *FOOD chains, *SPECIES diversity, *GOBIIDAE, *MANUFACTURING processes

Abstract

Biodiversity is typically considered as a one‐dimensional metric (e.g., species richness), yet the consequences of species loss may be different depending on where extinctions occur in the food web. Here, I used a manipulative field experiment in a temperate subtidal marine system to explore the implications of diversity loss at multiple trophic levels for ecosystem functioning and food web structure. The four manipulated predators included the small painted goby and common prawn, which are also fed on by the larger black goby and shore crab. Antagonistic interactions between the manipulated predators (e.g., intraguild predation, intimidation, interference competition) limited their negative effects on the rest of the food web. Top‐down control was so suppressed at the highest level of multitrophic diversity that the resulting food webs were as complex and productive as those containing no manipulated predators. Negative interactions between the predators weakened as multitrophic diversity decreased, however, resulting in stronger consumption of lower trophic levels and a simpler food web with lower rates of two key ecosystem processes: primary production and decomposition. These results show how indirect interactions between predators on multiple trophic levels help to promote the complexity and functioning of natural systems. [ABSTRACT FROM AUTHOR]

Published

2021

39. The Importance of Surface Orientation in Biodiversity Monitoring Protocols: The Case of Patagonian Rocky Reefs

Author

Gonzalo Bravo, Juan Pablo Livore, and Gregorio Bigatti

Subjects

epibenthic survey, large-scale monitoring, photoquadrats, MBON, benthos, subtidal, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Temperate rocky reefs in Atlantic Patagonia are productive areas that support a high diversity of invertebrates, algae, and fishes. Complex surface structures on rocky reefs offer a range of microhabitats, which in turn, lead to a broad variety of co-existing species. Despite their ecological importance and the ecosystem services they provide, Patagonian rocky reef habitats have received limited attention. Until now studies have not discerned nor consequently described the assemblages found on each of the different surface orientations, namely horizontal, vertical, overhang and cavefloor. During this study we developed a protocol for sampling different surface orientations on subtidal rocky reefs using georeferenced high-resolution photoquadrats. We described and compared the epibenthic assemblage of surface orientations on 7 rocky reefs within 1–25 m depth in a northern Patagonia gulf. A total of 70 taxa were identified (12 macroalgae, 44 invertebrates, 10 tunicates, and 4 fishes), which doubles the number of species previously reported for the area. Each surface orientation presented a different assemblage structure while species richness was higher on vertical surfaces. The overhang surfaces had the most distinct assemblage conformed by cnidarians, tunicates, sponges and the absence of algae. The average overall species richness increased with depth due to the increase of sponge and tunicate species. Our results highlight the need of including several surface orientations in rocky reef biodiversity monitoring. This study offers a protocol for large-scale programs aimed at monitoring changes in biodiversity, which is broadly accessible and will provide accurate information. With robust yet simple, non-destructive and relatively low-cost practices this protocol can adequately assess changes in marine habitats, which provide important ecosystem services.

Published

2020

40. Coastal geomorphology and oceanographic features shape subtidal benthic communities in management areas of central Chile.

Author

Hernández, Aldo, Tapia, Fabián J., Saldías, Gonzalo S., and Quiñones, Renato A.

Subjects

GEOMORPHOLOGY, OCEAN temperature, COMMUNITIES, PATH analysis (Statistics), COASTAL ecosystem health, MULTIDIMENSIONAL scaling, FUNCTIONAL groups

Abstract

The spatial variation in community structure among 30 areas for the management and exploitation of benthic resources (AMEBRs) in central Chile was assessed from surveys conducted during the same spring–summer season. One hundred taxa identified in the subtidal surveys were grouped into 10 functional groups.The influence and relative importance of external factors over benthic associations were assessed through nonmetric multidimensional scaling (NMDS) and path analysis. Three main categories of external factors were considered: 'terrain traits' (e.g. coastline exposure), 'surface‐ocean conditions' (e.g. sea surface temperature, SST), and 'fishery‐related variables' (e.g. cumulative landings).The NMDS revealed a strong association between benthic community structure and both terrain and surface‐ocean conditions (42% of variance explained by permutational multivariate analysis of variance), but not with fishery‐related variables. Assemblages typical of rocky substrates were associated with larger seasonal fluctuations in SST and surface chlorophyll a. The presence of soft‐bottom functional groups was associated with higher levels of surface fluorescence and larger seasonal fluctuations in a satellite‐derived proxy for river‐plume influence (nLw645).A path analysis model for hard‐bottom communities reached a 49% goodness of fit (GOF), with the presence of epifaunal filter‐feeders, grazers, predators, and scavengers being significantly correlated with leathery and corticated foliose algae, which in turn depend on the fraction of rocky substrate in the AMEBR; the fraction of rocky substrate is positively correlated with coastline exposure.The model for soft‐bottom communities reached a 52% GOF with the presence of infaunal filter‐feeders and epifaunal detritivores depending directly on SST and surface chlorophyll a. The fishery‐related variables considered in the model had no apparent effect on the structure of either type of subtidal community.These results provide a hierarchy of physical–biological associations determining the functional composition of subtidal benthic communities in management areas along central Chile. This knowledge may improve future assessments of ecosystem response to changes in environmental conditions and management strategies. [ABSTRACT FROM AUTHOR]

Published

2021

41. The status of research and utilisation on the subtidal kelp along the Chilean coast

Subjects

macroalgae, kelp, subtidal, SE Pacific Ocean, commercial kelp, harvesting

Abstract

The most important marine coastal ecosystem in the Chilean coast are kelp forests. This review is based on ecological studies regarding different aspects of subtidal kelp ecosystems along the Chilean coast. It highlights the most interesting findings in (1) biology of subtidal kelp in Chile, with particular reference to (2) habitats formed by kelp, and considered the successful examples and promising results in the (3) kelp as an industrial resource (Biotechnological approach of kelps and aquaculture). The impact caused by (4) El Niño-Southern Oscillation is discussed as an important climatic event that could help to forecast the future of the kelp ecosystem. In addition, this literature review outlines the knowledge gaps on subtidal kelp along the Southeast Pacific Coast of Chile, so that research can be strengthened in the future.

Published

2022

42. Colonization of novel algal habitats by juveniles of a marine tube-dwelling amphipod

Author

Marilia Bueno, Glauco B.O. Machado, and Fosca P.P. Leite

Subjects

Dispersal, Connectivity, Subtidal, Rocky shore, Direct development, Crustaceans, Medicine, Biology (General), QH301-705.5

Abstract

Background Dispersal is an important process affecting population dynamics and connectivity. For marine direct developers, both adults and juveniles may disperse. Although the distribution of juveniles can be initially constrained by their mothers’ choice, they may be able to leave the parental habitat and colonize other habitats. We investigated the effect of habitat quality, patch size and presence of conspecific adults on the colonization of novel habitats by juveniles of the tube-dwelling amphipod Cymadusa filosa associated with the macroalgal host Sargassum filipendula. Methods We tested the factors listed above on the colonization of juveniles by manipulating natural and artificial plants in both the field and laboratory. Results In the laboratory, juveniles selected high-quality habitats (i.e., natural alga), where both food and shelter are provided, when low-quality resources (i.e., artificial alga) were also available. In contrast, habitat quality and algal patch size did not affect the colonization by juveniles in the field. Finally, the presence of conspecific adults did not affect the colonization of juveniles under laboratory condition but had a weak effect in the field experiment. Our results suggest that C. filosa juveniles can select and colonize novel habitats, and that such process can be partially affected by habitat quality, but not by patch size. Also, the presence of conspecifics may affect the colonization by juveniles. Successful colonization by this specific developmental stage under different scenarios indicates that juveniles may act as a dispersal agent in this species.

Published

2020

43. Metabolic Regulation, Oxygen Limitation and Heat Tolerance in a Subtidal Marine Gastropod Reveal the Complexity of Predicting Climate Change Vulnerability

Author

David J. Marshall and Christopher D. McQuaid

Subjects

metabolic depression, hypoxia, air exposure, snail, subtidal, thermal tolerance, Physiology, QP1-981

Abstract

Predictions for climate vulnerability of ectotherms have focused on performance-enhancing physiology, even though an organism’s energetic state can also be balanced by lowering resting maintenance costs. Adaptive metabolic depression (hypometabolism) enables animals to endure food scarcity, and physically extreme and variable environmental conditions. Hypometabolism is common in terrestrial and intertidal marine gastropod species, though this physiology and tolerance of environmental change are poorly understood in subtidal benthic gastropods. We investigated oxygen limitation tolerance, hypometabolism and thermal performance in the subtidal, tropical snail Turritella bacillum. Survival, cardiac activity and oxygen debt repayment were determined when oxygen uptake was limited by gill function impairment (air exposure) or exposure to hypoxic seawater. Thermal performance and tolerance were assessed from survival and cardiac performance when heated. The ability of snails to regulate metabolism during oxygen limitation was demonstrated by their tolerance of air exposure (>36 h) and hypoxia (>16 h), rhythmicity and reversibility of bradycardia, and inconsistent anaerobic compensation. Under acute heating, mean heart rate was temperature-insensitive in water and temperature-dependent in air. Converging or peaking of individual heart rates during heating suggest maximization of thermal performance at 38–39°C, whereas survival and heartbeat flatlining suggest an upper thermal limit exceeding 42°C. Snails survived 16 h in seawater at 38°C. Their metabolic regulation complies with the oxygen-limiting, sediment-burrowing lifestyle of the species. Although a tropical organism, the species’ thermal tolerance so far exceeds present habitat temperatures as to question its susceptibility to centennial climate warming. Our findings reveal the importance of knowing the metabolic regulatory capabilities and conserved physiological attributes of species used in climate vulnerability tests. Studies of ectotherm climate vulnerability that identify generalized trends based on physiologically similar animals may be misleading by missing information on physiological diversity.

Published

2020

44. Prey diversity is associated with weaker consumer effects in a meta‐analysis of benthic marine experiments

Author

Edwards, Kyle F, Aquilino, Kristin M, Best, Rebecca J, Sellheim, Kirsten L, and Stachowicz, John J

Subjects

Environmental Sciences, Biological Sciences, Ecology, Environmental Management, Life Below Water, Animals, Biodiversity, Food Chain, Predatory Behavior, coral reef, ecosystem function, horizontal diversity, intertidal, kelp forest, subtidal, top-down control, trophic cascade, Ecological Applications, Evolutionary Biology, Ecological applications, Environmental management

Abstract

A rapidly accumulating body of research has shown that species diversity consistently affects the functioning of ecosystems. The incorporation of trophic complexity and the extension of this research to larger scales and natural ranges in species diversity remain as important challenges for understanding the true magnitude of these effects in natural systems. Here, we test whether the diversity of prey communities affects the magnitude of aggregate consumer effects. We conducted a meta-analysis of 57 consumer removal field experiments from a range of intertidal and subtidal hard substrate marine communities. We found that the richness of the prey community was the strongest predictor of the magnitude of consumer effects while controlling for habitat type, taxonomic composition, and other variables. Consumer removal increased aggregate prey abundance on average by 1200% at the lower limit of prey diversity (two species), but only 200% at the upper limit of 37 species. Importantly, compositional change was substantial at both high and low prey diversity, suggesting predation intensity did not vary with prey richness. Rather diverse prey communities appear to be more capable of maintaining abundance via compensatory responses, by containing prey species that are resistant to (or tolerant of) predators. These results suggest that the effects of species diversity on trophic interactions may scale consistently from small-scale manipulations to cross-community comparisons.

Published

2010

45. Forty questions of importance to the policy and practice of native oyster reef restoration in Europe.

Author

zu Ermgassen, Philine S. E., Bonačić, Kruno, Boudry, Pierre, Bromley, Cass A., Cameron, Tom C., Colsoul, Bérenger, Coolen, Joop W. P., Frankić, Anamarija, Hancock, Boze, Have, Tom M., Holbrook, Zoë, Kamermans, Pauline, Laugen, Ane T., Nevejan, Nancy, Pogoda, Bernadette, Pouvreau, Stéphane, Preston, Joanne, Ranger, Christopher J., Sanderson, William G., and Sas, Hein

Subjects

OLYMPIA oyster, CORAL reef restoration, REEFS, MARINE habitats, POPULATION differentiation, DISEASE management

Abstract

Oyster reefs are among the most threatened marine habitats globally. In Europe, oyster reefs have been extirpated from most locations within their historical range. Active restoration of the native oyster (Ostrea edulis) in Europe has grown substantially in recent years. In sharing experiences between oyster restoration projects in Europe at the Native Oyster Restoration Alliance conference, NORA2, in Edinburgh in May 2019, it became apparent that a number of similar barriers are experienced.This study identified the top 40 questions, which, if answered, would have the greatest influence on the policy and practice of oyster restoration in Europe. Initially 71 people were consulted across 28 institutions and 11 European countries to generate 194 questions. An established process of one round of pre‐workshop voting followed by a one‐day online workshop and two post‐workshop rounds of voting resulted in the final 40 questions.Questions were broadly grouped into the following 10 themes: baselines, site selection, restoration methods, quantifying benefits, disease management, biosecurity, genetic diversity and population differentiation, policy and management, novel technologies, and current and future threats.We anticipate that this list will provide a starting point for developing collaborative projects across the NORA network, as well as assisting policy makers and funders with identifying key areas that need to be addressed in order to overcome existing barriers to scaling up oyster restoration in Europe. [ABSTRACT FROM AUTHOR]

Published

2020

46. Site selection for biogenic reef restoration in offshore environments: The Natura 2000 area Borkum Reef Ground as a case study for native oyster restoration.

Author

Pogoda, Bernadette, Merk, Verena, Colsoul, Bérenger, Hausen, Tanja, Peter, Corina, Pesch, Roland, Kramer, Maike, Jaklin, Sandra, Holler, Peter, Bartholomä, Alexander, Michaelis, Rune, and Prinz, Katrin

Subjects

OLYMPIA oyster, CORAL reef restoration, NATURE reserves, CORAL reefs & islands, REEFS, MARINE parks & reserves, RESTORATION ecology

Abstract

1.According to the EU Marine Strategy Framework Directive (2008/56/EC), marine protected areas (MPA) should contribute to a good environmental status of the Europeans seas. Measures maintaining or restoring a favourable conservation status of protected species and habitats are mandatory according to the EU Habitats Directive (92/43/EEC).2.Identification of suitable sites for ecological restoration measures within MPAs is a crucial step towards successful conservation and sustainable MPA management. In terms of species restoration, it is important to restore the respective species with the best possible environment for growth, survival, fitness, and successful recruitment.3.This study provides a comprehensive list of site‐selection criteria for ecological species restoration. Three general categories were chosen: (1) ecological history: evidence for the historical distribution; (2) feasibility of restoration: regulating framework and logistics; and (3) environmental conditions: quality of abiotic and biotic factors. A total of 16 site‐selection criteria were identified and applied to biogenic reef restoration, namely for reefs of the native European oyster Ostrea edulis, in the German Bight.4.The Natura 2000 area Borkum Reef Ground was identified as a suitable site for oyster restoration. It is one of three MPAs in the German Exclusive Economic Zone of the North Sea, which have been declared as Nature Conservation Areas according to national legislation. The conservation objectives include maintenance or, if necessary, restoration of the habitat type 'reefs'. As a reef‐building species, the European oyster O. edulis is of particular importance for this habitat type in terms of nature conservation.5.The step by step approach for site selection presented here is applicable for biogenic reef restoration elsewhere. The selected Natura 2000 area showcases the potential role and future perspective of European MPAs with regards to active conservation measures. [ABSTRACT FROM AUTHOR]

Published

2020

47. Return to sender: The influence of larval behaviour on the distribution and settlement of the European oyster Ostrea edulis.

Author

Rodriguez‐Perez, Ana, Sanderson, William G., Møller, Lene Friis, Henry, Theodore B., and James, Mark

Subjects

MARINE invertebrates, OYSTERS, BEHAVIOR, LARVAL dispersal, LARVAE, FISH larvae

Abstract

Benthic marine invertebrates, such as oysters, rely on larval recruitment for their populations to persist. This can be by self‐recruitment to the natal population or recruitment from geographically distant populations.Marine invertebrate larvae are increasingly understood to influence their dispersal through vertical migrations, based on a combination of responses to external cues and the larvae's ontogenetic stage.This study examined the larval behaviour of the European oyster Ostrea edulis in laboratory experiments. The aim was to establish if larvae show systematic behaviour that could affect dispersal. Vertical distribution, swimming speeds, and behaviour of O. edulis larvae were quantified throughout their ontogenetic development, and under scenarios of light/dark, food/no food, and two temperatures.Most O. edulis larvae concentrated at the bottom of the aquarium, independent of developmental stage or treatment, and consistently over time. Larvae behaved actively in ~50% of all bottom observations, indicating a behavioural function other than resting. At the surface, larvae frequently formed aggregations. In the water column, larvae swam with high vertical directionality and their distribution was homogenous. Swimming speeds ranged from 0.001 to 9.07 mm s−1.Advection close to the seabed is slower than in any other part of the water column. The demersal preference of O. edulis may be targeted towards increasing the likelihood of self‐recruitment, which is consistent with the larvae's preference to settle in the presence of conspecifics. Stronger hydrodynamic environments are likely to override the larvae's demersal behaviour. It is recommended to restore European oyster beds at sufficient scale, density, and rugosity to promote retention of larvae within the natal population and minimize larval loss and mortality, as well as to account for the observed behaviours in networks of restoration sites. [ABSTRACT FROM AUTHOR]

Published

2020

48. Metabolic Regulation, Oxygen Limitation and Heat Tolerance in a Subtidal Marine Gastropod Reveal the Complexity of Predicting Climate Change Vulnerability.

Author

Marshall, David J. and McQuaid, Christopher D.

Subjects

METABOLIC regulation, CLIMATE change, GASTROPODA, ECOPHYSIOLOGY, INTEROCEPTION

Abstract

Predictions for climate vulnerability of ectotherms have focused on performance-enhancing physiology, even though an organism's energetic state can also be balanced by lowering resting maintenance costs. Adaptive metabolic depression (hypometabolism) enables animals to endure food scarcity, and physically extreme and variable environmental conditions. Hypometabolism is common in terrestrial and intertidal marine gastropod species, though this physiology and tolerance of environmental change are poorly understood in subtidal benthic gastropods. We investigated oxygen limitation tolerance, hypometabolism and thermal performance in the subtidal, tropical snail Turritella bacillum. Survival, cardiac activity and oxygen debt repayment were determined when oxygen uptake was limited by gill function impairment (air exposure) or exposure to hypoxic seawater. Thermal performance and tolerance were assessed from survival and cardiac performance when heated. The ability of snails to regulate metabolism during oxygen limitation was demonstrated by their tolerance of air exposure (>36 h) and hypoxia (>16 h), rhymicity and reversibility of bradycardia, and inconsistent anaerobic compensation. Under acute heating, mean heart rate was temperature-insensitive in water and temperature-dependent in air. Converging or peaking of individual heart rates during heating suggest maximization of thermal performance at 38–39°C, whereas survival and heartbeat flatlining suggest an upper thermal limit exceeding 42°C. Snails survived 16 h in seawater at 38°C. Their metabolic regulation complies with the oxygen-limiting, sediment-burrowing lifestyle of the species. Although a tropical organism, the species' thermal tolerance so far exceeds present habitat temperatures as to question its susceptibility to centennial climate warming. Our findings reveal the importance of knowing the metabolic regulatory capabilities and conserved physiological attributes of species used in climate vulnerability tests. Studies of ectotherm climate vulnerability that identify generalized trends based on physiologically similar animals may be misleading by missing information on physiological diversity. [ABSTRACT FROM AUTHOR]

Published

2020

49. Solutions for Subtidal Flow in Channels and Estuaries Under Different Integral Constraints.

Author

Whitney, Michael M. and Jia, Yan

Subjects

CONSTRAINTS (Linguistics), DENSITY gradient centrifugation, VELOCITY, DENSITY, WINDS

Abstract

This study builds on Huntley and Ryan (2018, https://doi.org/10.1002/2017JC012748) and related prior works on channels and estuaries by considering solutions for the same subtidal dynamics but with alternative integral flow constraints. Prior solutions do not have a truly two‐dimensional (2‐D) flow field, as axial changes in the axial flow are implied. Three constraint types are considered: the Constant case with spatially constant density gradients constrained with section‐integrated flow (as in prior works), Semi‐Variable case with a constant axial density gradient and laterally variable lateral density gradient constrained with depth‐integrated lateral flow, and Variable case with spatially variable density gradients in both directions constrained with depth‐integrated axial and lateral flows. The Semi‐Variable and Variable cases can produce solutions with truly 2‐D flow if the depth‐integrated lateral flow is set to zero everywhere. Differences among solutions are illustrated with idealized and realistic applications from Huntley and Ryan (2018, https://doi.org/10.1002/2017JC012748). For the idealized application, the Constant case and the Semi‐Variable case with 2‐D flow have clear differences in axial velocity and stark contrasts in lateral flow (and density gradients). For the Nares Strait application, the Variable case with observed depth‐averaged axial and lateral velocities is best able to represent the fastest observed down‐channel velocities, the weak reversed flow on one side of the channel, and the observed lateral flow structure. Overall, selecting different integral constraints on flow conspicuously changes the subtidal flow, opens up new possibilities for truly 2‐D flow solutions, and provides additional flexibility for representing observed conditions in realistic situations. Plain Language Summary: For straits and estuaries, flow (averaged over tidal cycles) often is represented with simplified channel models that include the responses to sea‐surface slopes, density differences, and winds. There is a rich variety of flow solutions that depends not only on the forcings and governing equations selected but also on the choice of flow constraints necessary to obtain solutions. This study builds on Huntley and Ryan (2018, https://doi.org/10.1002/2017JC012748) and earlier studies by exploring how flow solutions change when different types of constraints are applied. Constraints can be selected that only prescribe total transports, stringently ensure no along‐channel flow variations, or match flow observations. For idealized applications, solutions with different constraints have conspicuous differences in the along‐channel and across‐channel flow. For the realistic application of Nares Strait, the observation‐based constraint yields the solution that best represents the observed fastest down‐channel velocities, weak reversed flow on one side of the channel, and across‐channel flows. Key Points: Subtidal channel flow is represented with the dynamics in Huntley and Ryan (2018, https://doi.org/10.1002/2017JC012748), but with alternative integral constraints on flowSetting depth‐integrated (instead of section‐integrated) lateral flow to zero leads to 2‐D flow and starkly different flow structureConstraining with observed depth‐averaged velocities produces solutions that best represent observed flow in Nares Strait [ABSTRACT FROM AUTHOR]

Published

2020

50. Denitrification and the Role of Macrofauna Across Estuarine Gradients in Nutrient and Sediment Loading.

Author

O'Meara, Theresa A., Hewitt, Judi E., Thrush, Simon F., Douglas, Emily J., and Lohrer, Andrew M.

Subjects

DENITRIFICATION, SUSPENDED sediments, SEDIMENTS, GRAIN size, NUTRIENT cycles, BIOGEOCHEMISTRY

Abstract

To cope with increasing nitrogen loading to estuarine systems, the demand for removal via denitrification is rising. Understanding how the connections between biogeochemistry and ecology regulate denitrification rates along gradients of nutrient and sediment loading is necessary to predict ecosystem function. Previous studies have shown that denitrification rates are typically highest in muddy, nutrient-rich sediments and decrease in sandy, nutrient-poor sites. Denitrification rates were measured at four subtidal sites positioned from the upper to lower estuary. Site 1 was closest to the primary riverine nutrient supply with the highest suspended sediment and benthic mud content that decreased with distance downstream. Contrary to expectations, denitrification rates were lowest at the most upstream site (22.35 ± 13.34 μmol N2 m−2 h−1) and higher downstream (57.84 ± 5.72 μmol N2 m−2 h−1). While respiration, primary production, and sediment characteristics affected net denitrification rates and efficiency, results indicated that macrofaunal abundance (Site 1, 60.8 ± 7.3 individuals/core; Sites 2–4, 177.7 ± 10.8 individuals/core), primarily tube-dwelling polychaetes (Site 1, 0.5 ± 0.5 individuals/core; sites 2–4, 122.5 ± 8.0 individuals/core), played an important role. Their influence was highest in muddier sediments (median grain size < 85 μm) where an increase in pseudopolydorid abundance (0.5 ± 0.5 to 149.5 ± 13.4 individuals per core) resulted in a ~ 3-fold rise in denitrification rate (22.3 ± 13.3 to 62.24 ± 11.1 μmol N2 m−2 h−1). The linkage between macrofauna and denitrification demonstrates their role in maintaining ecosystem function and bolstering resilience in sites affected by sediment and nutrient pollution. [ABSTRACT FROM AUTHOR]

Published

2020