Your search keyword '"Scrosati, Ricardo A."' showing total 81 results

1. Recolonization of Intertidal Mussels in Nova Scotia (Canada) after Their Mass Disappearance Following the Severe 2023 Winter Cold Snap.

Author

Scrosati, Ricardo A. and Cameron, Nicole M.

Abstract

In February 2023, a severe cold snap took place in Atlantic Canada and was followed by the mass loss of mussels at mid-to-high intertidal elevations on the southeastern Nova Scotia coast. This loss was concerning because mussels sustain upper trophic levels in coastal food webs and because mussel stands enhance local biodiversity by sheltering many small invertebrate species. Using photographs taken in the second summer after that cold snap (July 2024), this article provides visual evidence of active ongoing recolonization of intertidal mussels on this coast, including the incipient formation of new stands. These are encouraging signs of ecological resilience. Reaching historical values of abundance will likely depend on the future occurrence of weather extremes, which are becoming more frequent with the ongoing climate change. [ABSTRACT FROM AUTHOR]

Published

2024

2. Changes in the composition of invertebrate assemblages from wave-exposed intertidal mussel stands along the Nova Scotia coast, Canada.

Author

Scrosati, Ricardo A. and Ellrich, Julius A.

Subjects

HOLDER spaces, FOOD supply, COASTS, MARINE algae, MUSSELS, BARNACLES

Abstract

Rocky intertidal habitats occur worldwide and are mainly characterized by primary space holders such as seaweeds and sessile invertebrates. Some of these organisms are foundation species, as they can form structurally complex stands that host many small invertebrates. The abundance of primary space holders is known to vary along coastlines driven directly or indirectly by environmental variation. However, it is less clear if the invertebrate assemblages associated to a foundation species may remain relatively unchanged along coastlines, as similar stands of a foundation species can generate similar microclimates. We examined this question using abundance data for invertebrate species found in mussel stands of a similar structure in wave-exposed rocky habitats at mid-intertidal elevations along the Atlantic coast of Nova Scotia (Canada). While the most abundant invertebrate species were found at three locations spanning 315 km of coastline, species composition (a combined measure of species identity and their relative abundance) differed significantly among the locations. One of the species explaining the highest amount of variation among locations (a barnacle) exhibited potential signs of bottom-up regulation involving pelagic food supply, suggesting benthic–pelagic coupling. The abundance of the species that explained the highest amount of variation (an oligochaete) was positively related to the abundance of their predators (mites), further suggesting bottom-up forcing in these communities. Overall, we conclude that species assemblages associated to structurally similar stands of a foundation species can show clear changes in species composition at a regional scale. [ABSTRACT FROM AUTHOR]

Published

2024

3. Recovery of Intertidal Mussel Stands Three Years after the Severe 2021 Heatwave in British Columbia, Canada.

Author

Scrosati, Ricardo A.

Subjects

ACTIVE recovery, HEAT waves (Meteorology), CLIMATE change, MUSSELS, PHOTOGRAPHS

Abstract

In the early summer of 2021, an intense heatwave killed millions of intertidal mussels in British Columbia, Canada. Using photographs taken three years later (June 2024), this article provides visual evidence of active recovery of intertidal mussel stands in the Vancouver region, revealing the resilience of these intertidal systems. Future monitoring should evaluate their ability for long-term persistence in light of the ongoing climate change, which is expected to increase the frequency and intensity of heatwaves. [ABSTRACT FROM AUTHOR]

Published

2024

4. Fatty acid composition as a function of latitude in barnacle cyprid larvae.

Author

Leal, Inês, Thyrring, Jakob, Flores, Augusto A. V., Archambault, Philippe, Collin, Rachel, Sejr, Mikael K., Scrosati, Ricardo A., and Tremblay, Réjean

Subjects

FATTY acids, UNSATURATED fatty acids, ESSENTIAL fatty acids, PARTICULATE matter, BARNACLES, LARVAE

Abstract

Broadly distributed species need to perform well in a range of environmental conditions, but knowledge of how wide‐ranging marine larvae perform along latitudinal gradients remains limited. The fatty acid composition of larvae is important for their physiological responses to changing conditions. Here, we investigated the fatty acid composition of the last, non‐feeding stage of barnacle larvae (cyprids) using an integrative (larvae–environment) and comparative (latitudinal) approach. We measured fatty acids in the pelagic particulate matter and cyprids from Chthamalus bisinuatus, Chthamalus proteus, and Semibalanus balanoides from tropical to polar (Arctic) latitudes to identify potential food sources during the feeding larval stages (nauplius) that precede the cyprids and to ascertain larval capacity to integrate neutral (energetic) and polar (structural) fatty acids. We demonstrate that particulate matter in tropical waters mainly consisted of low‐quality saturated fatty acids derived from detrital pathways, while particulate matter from polar waters was rich in polyunsaturated fatty acids originating from living microalgae. Across the studied regions, neutral fatty acids were assimilated from various food sources including diatoms, dinoflagellates, detritus, and microeukaryotes. Cyprids consistently retained higher essential fatty acid levels than the relative share in the particulate matter. Particularly, the essential docosahexaenoic acid (22:6ω3), which was scarce in the particulate matter, was highly retained across all species but highest for the tropical cyprids. We argue that this latitudinal pattern in fatty acid retention is related to periods of reduced nutrient intake, increased energetic and/or synthetic requirements, and responses to physical large‐scale differences in environmental conditions. [ABSTRACT FROM AUTHOR]

Published

2024

5. Responses of mussels (Perumytilus purpuratus) to waterborne exudate cues from predatory snails (Acanthina monodon) depend on cue intensity.

Author

Büchner-Miranda, Joseline A., Salas-Yanquin, Luis P., Valdivia, Nelson, Scrosati, Ricardo A., Riedemann-Saldivia, Bárbara, Cubillos, Víctor M., and Chaparro, Oscar R.

Subjects

EXUDATES & transudates, OXYGEN consumption, PREDATION, SNAILS, MUSSELS, PREDATORY animals

Abstract

Predators affect their prey through consumptive and non-consumptive effects (NCEs). Regarding marine NCEs, predator chemical cues (e.g., exudates) can trigger various anti-predator responses in prey that can vary in magnitude according to the intensity of the perceived cues. Specimens of the mussel Perumytilus purpuratus were exposed to seawater that held different densities of the predatory snail Acanthina monodon as a proxy for predator cue intensity. The response of mussels was quantified in terms of valve gape size (VGS), clearance rate (CR), and oxygen consumption rate (OCR). The results showed that mussels reduced VGS, CR, and OCR as a function of the intensity of the predator exudates to which they were exposed. These results suggest that mussels are not only able to detect predators through their chemical exudates but can also detect the intensity of the predatory signal and thus respond physiologically (CR, OCR) and behaviorally (VGS) in accordance to the potential predation risk. These responses may have cascading effects at the community level, given that mussels are foundation species. [ABSTRACT FROM AUTHOR]

Published

2024

6. Structural and functional properties of foundation species (mussels vs. seaweeds) predict functional aspects of the associated communities.

Author

Cameron, Nicole M., Scrosati, Ricardo A., and Valdivia, Nelson

Subjects

MUSSELS, SPECIES, INVERTEBRATE communities, BIOLOGICAL extinction, MARINE algae as food, LAMINARIA

Abstract

Foundation species are spatially dominant species that increase habitat complexity and provide substrate and shelter for many smaller species. Through a mensurative field experiment, we tested the hypothesis that functional aspects of the associated communities are related to structural and functional properties of the foundation species. Specifically, we contrasted invertebrate communities living in mussel (Mytilus) and seaweed (Chondrus) stands from the same rocky intertidal environments in Atlantic Canada. Both stands reach similar heights above the substrate, but they differ structurally (rigid mussel shells vs. flexible seaweed fronds) and functionally (mussels generate biowaste while seaweeds offer food for herbivores). Our data supported the hypothesis in various ways. Detritivory (mostly by oligochaetes) was more prevalent in mussel stands, while herbivory was more prevalent in seaweed stands. Predators were mostly mites and, consequently, they were more prevalent in mussel stands, as mites eat oligochaetes. Functional traits related to body and mobility types were also related to properties of the foundation species. Overall, we conclude that structural and functional properties of foundation species can predict functional aspects of the associated communities. This concept may help to develop effective restoration strategies after the loss of foundation species due to anthropogenic factors. [ABSTRACT FROM AUTHOR]

Published

2024

7. Global taxonomic and functional patterns in invertebrate assemblages from rocky-intertidal mussel beds.

Author

Cameron, Nicole M., Scrosati, Ricardo A., Valdivia, Nelson, and Meunier, Zechariah D.

Subjects

MUSSELS, INVERTEBRATES, BARNACLES, POLYCHAETA, FUNCTIONAL groups, GASTROPODA

Abstract

Mussels form extensive beds in rocky intertidal habitats on temperate seashores worldwide. They are foundation species because their beds host many invertebrates. Mussels and their associated species differ taxonomically among biogeographic regions, but all mussel beds exhibit similar structural and functional properties. Therefore, we investigated if rocky-intertidal mussel beds from around the globe host associated communities that are functionally similar despite their underlying taxonomic differences. We gathered datasets on the abundance of invertebrates found in rocky-intertidal mussel beds from the eastern and western boundaries of the Pacific and Atlantic Oceans from both hemispheres and, then, we compared their taxonomic and functional properties. Taxonomic composition differed markedly among coasts when analyzed at the taxonomic resolution reported by the surveys (often species). However, taxonomic groups with similar ecologies (28 groups including barnacles, decapods, gastropods, polychaetes, etc.) were more universally present in mussel beds. Concomitantly, functional categories of trophic level, body type, and mobility were almost always present on all studied coasts. These taxonomic groups and trait categories, however, showed regional patterns based on their relative abundances. Overall, the ability of mussel beds to host a core community type based on taxonomic groups and functional traits emphasizes their importance for biodiversity and community functioning, making them critical organisms to preserve. [ABSTRACT FROM AUTHOR]

Published

2024

8. Dramatic Ecological Changes After an Unusual Winter Cold Snap.

Author

Cameron, Nicole M. and Scrosati, Ricardo A.

Subjects

CLIMATE extremes, HEAT waves (Meteorology), WINTER

Abstract

A study published in the Bulletin of the Ecological Society of America discusses the ecological changes that occurred after an unusual winter cold snap in eastern Canada in February 2023. The study highlights the disappearance of entire mussel stands and the bleaching of some seaweeds in intertidal habitats in southeastern Nova Scotia. The researchers emphasize that winter extremes related to climate change can have significant impacts on species survival, comparable to the effects of summer heat waves. The article includes photographs illustrating the disappearance of mussels and the bleaching of algae in the affected area. [Extracted from the article]

Published

2024

9. Mass disappearance of intertidal mussels after an unusual winter cold snap in eastern Canada.

Author

Cameron, Nicole M. and Scrosati, Ricardo A.

Subjects

MUSSELS, EXTREME weather, COASTAL biodiversity, CLIMATE change, COASTAL ecology

Abstract

This article discusses the mass disappearance of intertidal mussels in eastern Canada after an unusual winter cold snap in February 2023. The decline in mussel abundance is concerning due to its impact on coastal biodiversity. The cold snap, which saw temperatures drop below -20°C, is believed to be the main driver of the mass disappearance. Other factors such as predation, ice scour, and wave action were ruled out as causes. The article highlights the potential implications of climate change on the future of coastal ecosystems and emphasizes the need to study the frequency of extreme weather events. [Extracted from the article]

Published

2023

10. Further Loss of Intertidal Mussel Stands on the Nova Scotia Coast (Canada) after the Passage of Cyclone Lee.

Author

Scrosati, Ricardo A.

Subjects

MUSSELS, CYCLONES, BIOLOGICAL systems, SEASHORE, COASTS

Abstract

Intertidal mussel stands are common on temperate rocky seashores and host many small invertebrates, so they are important biodiversity reservoirs. Their integrity, however, is being increasingly affected by environmental extremes. An unusual cold snap in Nova Scotia (Canada) in February 2023 was followed by the mass disappearance of mussel stands at mid-to-high elevations in rocky intertidal habitats. The present article presents evidence of significant losses at middle intertidal elevations following the passage of cyclone Lee in September 2023, which created severe surf conditions. The increasing occurrence of successive environmental extremes might challenge the persistence of these important biological systems. [ABSTRACT FROM AUTHOR]

Published

2023

11. Mass Bleaching in Intertidal Canopy-Forming Seaweeds after Unusually Low Winter Air Temperatures in Atlantic Canada.

Author

Scrosati, Ricardo A. and Cameron, Nicole M.

Subjects

ATMOSPHERIC temperature, EXTREME weather, MARINE algae, CLIMATE change, HEAT waves (Meteorology), WINTER

Abstract

Contemporary climate change is increasing the occurrence of extreme weather events, heat waves being common examples. Here, we present visual evidence of mass bleaching in intertidal seaweeds following an unusually severe cold snap in Atlantic Canada. In February 2023, the air temperature on the Nova Scotia coast dropped below −20 °C for the first time in at least ten years. Such extreme temperatures lasted for several hours at low tide and were followed by extensive bleaching in whole thalli of the canopy-forming algae Chondrus crispus and Corallina officinalis. The loss of these foundation species might negatively impact intertidal biodiversity. [ABSTRACT FROM AUTHOR]

Published

2023

12. Foundation species canopies affect understory beta diversity differently depending on species mobility.

Author

Catalán, Alexis M., López, Daniela N., Fica‐Rojas, Eliseo, Broitman, Bernardo R., Valdivia, Nelson, and Scrosati, Ricardo A.

Subjects

SPATIAL variation, SPECIES, FIELD research, SPECIES diversity, SOCIAL influence

Abstract

Beta diversity measures the spatial variation in species composition. Because it influences several community attributes, studies are increasingly investigating its drivers. Spatial environmental heterogeneity is a major determinant of beta diversity, but canopy‐forming foundation species can locally modify environmental properties. We used intertidal communities dominated by the canopy‐forming alga Mazzaella laminarioides as a model system to examine how a foundation species affects spatial environmental heterogeneity and the resulting beta diversity. Since canopies were found to reduce the spatial variation of temperature and desiccation during low tides, we hypothesized that canopies would decrease understory beta diversity, which we tested through a field experiment that contrasted canopy removal with presence treatments over 32 months. The beta diversity of sessile species was always lower under canopies, but canopies never affected the beta diversity of mobile species. The observed responses for sessile species may result from their abundance being more dependent on spatial abiotic variation than for mobile species, which can occur in stressful areas while temporarily foraging or in transit to other areas. These responses may likely apply to other systems exhibiting canopy‐forming foundation species hosting sessile and mobile species assemblages. [ABSTRACT FROM AUTHOR]

Published

2023

13. Effects of Canopies of Foundation Species on Understory Beta Diversity.

Author

Catalán, Alexis M., López, Daniela N., Fica‐Rojas, Eliseo, Broitman, Bernardo R., Valdivia, Nelson, and Scrosati, Ricardo A.

Subjects

SPECIES, SPECIES diversity

Abstract

Consequently, a 32-month field experiment found that canopies limit beta diversity for understory sessile species. These contrasting responses may likely apply to other systems exhibiting canopy-forming foundation species hosting sessile and mobile species assemblages. Using intertidal communities dominated by a canopy-forming seaweed, we examined how foundation species canopies affect spatial environmental heterogeneity and the resulting beta diversity. [Extracted from the article]

Published

2023

14. The interspecific abundance–occupancy relationship in rocky intertidal communities.

Author

van Genne, Barbara and Scrosati, Ricardo A.

Subjects

COMMUNITIES, INTERTIDAL zonation

Abstract

A commonly assumed pattern in species assemblages is the abundance–occupancy relationship (AOR), which refers to a relationship between the mean local abundance of each species and the proportion of local sites that each species occupies. The AOR concept is relevant because it allows researchers to make inferences or predictions between species abundance and occupancy, which are key variables in ecology. Although the AOR is thought to be ubiquitous, it has not been found for every system where it has been tested. To date, the studies that have evaluated its generality were largely done in terrestrial systems. Therefore, there is a need to evaluate its occurrence in aquatic systems. This study tests whether the AOR occurs in rocky intertidal systems. Using data for algae and invertebrates from Atlantic Canada, we show that the negative binomial model properly describes the relationship between abundance and occupancy in rocky intertidal communities. Moreover, we found the AOR to hold for two hydrodynamically contrasting habitat types. Overall, these findings expand the applicability of the AOR to marine benthic systems. The raw data are included as part of this article and should be valuable for future syntheses on the AOR, as such studies will benefit from using datasets spanning terrestrial and aquatic systems. In this sense, our abundance data are particularly relevant because they describe density of organisms, which is a condition for AOR modelling that intertidal ecological studies typically do not follow entirely, as the abundance of sessile species is often measured as percent cover. [ABSTRACT FROM AUTHOR]

Published

2022

15. Macroalgal canopies reduce beta diversity in intertidal communities.

Author

Scrosati, Ricardo A., Catalán, Alexis M., and Valdivia, Nelson

Subjects

MARINE algae, ALGAL communities, THERMAL stresses, SPECIES diversity, SOCIAL influence

Abstract

Species diversity in a habitat is often termed alpha diversity. As it influences various community properties, many studies have investigated its drivers. For instance, intertidal macroalgal canopies limit understory thermal stress during low tides and thus often increase alpha diversity. More recently, beta diversity has also become of interest. Beta diversity measures the change in species composition across space and is another important attribute of communities because it influences their multifunctionality, productivity, and resilience. Using data from a field experiment done in Atlantic Canada, we tested the hypothesis that fucoid macroalgal canopies limit beta diversity in intertidal communities. This prediction stems from previous evidence that such canopies limit thermal variation across the substrate during low tides, an important consideration because spatial thermal changes influence spatial variability in species composition. To test our hypothesis, we compared two treatments (full canopy cover and canopy removal) created the year before on intertidal areas that were originally all fully covered by canopies. Separately for each treatment, we calculated beta diversity as the Bray-Curtis dissimilarity between nearby quadrats using species abundance data. Overall, fucoid macroalgal canopies significantly reduced beta diversity, showing that these foundation species can have opposing effects on alpha and beta diversity. [ABSTRACT FROM AUTHOR]

Published

2021

16. Community‐wide consequences of nonconsumptive predator effects on a foundation species.

Author

Catalán, Alexis M., Büchner‐Miranda, Joseline, Riedemann, Bárbara, Chaparro, Oscar R., Valdivia, Nelson, and Scrosati, Ricardo A.

Subjects

ALGAL communities, SPECIES, COLONIZATION (Ecology), PREDATORY animals, DETECTION limit, MUSSELS

Abstract

Predators can exert nonconsumptive effects (NCEs) on prey, which often take place through prey behavioural adjustments to minimise predation risk. As NCEs are widespread in nature, interest is growing to determine whether NCEs on a prey species can indirectly influence several other species simultaneously, thus leading to changes in community structure.In this study, we investigate whether a predator can exert NCEs on a foundation species and indirectly affect community structure.Through laboratory experiments, we first tested whether the predatory marine snail Acanthina monodon exerts negative NCEs on larviphagy (consumption of pelagic larvae) and phytoplankton filtration rates of the mussel Perumytilus purpuratus, an intertidal foundation species. These hypotheses stem from the notion that mussels may decrease feeding activities in the presence of predator cues to limit detection by predators. Afterwards, a field experiment tested whether the presence of A. monodon near mussel beds leads to higher colonisation rates of invertebrates that reproduce through pelagic larvae (expected under a lower larviphagy in P. purpuratus) and to a lower algal biomass on P. purpuratus shells (expected under a lower metabolite excretion in the mussels), thereby changing the community structure of the species typically found in P. purpuratus beds.The laboratory experiments revealed that waterborne cues from A. monodon limit the larviphagy and filtration rates of P. purpuratus. In turn, the field experiment showed that A. monodon cues led to greater abundances of barnacles and bivalves and a lower algal biomass in P. purpuratus beds, thus altering community structure.Overall, this study shows that a predator can indirectly affect community structure through NCEs on an invertebrate foundation species. As invertebrate foundation species are ubiquitous worldwide, understanding predator NCEs on these organisms could help to better understand community regulation in systems structured by such species. [ABSTRACT FROM AUTHOR]

Published

2021

17. Half-hourly changes in intertidal temperature at nine wave-exposed locations along the Atlantic Canadian coast: a 5.5-year study.

Author

Scrosati, Ricardo A., Ellrich, Julius A., and Freeman, Matthew J.

Subjects

OCEAN temperature, ATMOSPHERIC temperature, TEMPERATURE, LOW temperatures, COASTS

Abstract

Intertidal habitats are unique because they spend alternating periods of submergence (at high tide) and emergence (at low tide) every day. Thus, intertidal temperature is mainly driven by sea surface temperature (SST) during high tides and by air temperature during low tides. Because of that, the switch from high to low tides and vice versa can determine rapid changes in intertidal thermal conditions. On cold-temperate shores, which are characterized by cold winters and warm summers, intertidal thermal conditions can also change considerably with seasons. Despite this uniqueness, knowledge on intertidal temperature dynamics is more limited than for open seas. This is especially true for wave-exposed intertidal habitats, which, in addition to the unique properties described above, are also characterized by wave splash being able to moderate intertidal thermal extremes during low tides. To address this knowledge gap, we measured temperature every half hour during a period of 5.5 years (2014–2019) at nine wave-exposed rocky intertidal locations spanning 415 km of the Atlantic coast of Nova Scotia, Canada. This data set is freely available from the figshare online repository (Scrosati and Ellrich, 2020a; 10.6084/m9.figshare.12462065.v1). We summarize the main properties of this data set by focusing on location-wise values of daily maximum and minimum temperature and daily SST, which we make freely available as a separate data set in figshare (Scrosati et al., 2020; 10.6084/m9.figshare.12453374.v1). Overall, this cold-temperate coast exhibited a wide annual SST range, from a lowest overall value of -1.8 ∘ C in winter to a highest overall value of 22.8 ∘ C in summer. In addition, the latitudinal SST trend along this coast experienced a reversal from winter (when SST increased southwards) to summer (when SST decreased southwards), seemingly driven by alongshore differences in summer coastal upwelling. Daily temperature maxima and minima were more extreme, as expected from their occurrence during low tides, ranging from a lowest overall value of -16.3 ∘ C in winter to a highest overall value of 41.2 ∘ C in summer. Daily maximum temperature in summer varied little along the coast, while daily minimum temperature in winter increased southwards. This data set is the first of its kind for the Atlantic Canadian coast and exemplifies in detail how intertidal temperature varies in wave-exposed environments on a cold-temperate coast. [ABSTRACT FROM AUTHOR]

Published

2020

18. Half-hourly changes in intertidal temperature at nine wave-exposed locations along the Atlantic Canadian coast: a 5.5-year study.

Author

Scrosati, Ricardo A., Ellrich, Julius A., and Freeman, Matthew J.

Subjects

OCEAN temperature, ATMOSPHERIC temperature, LOW temperatures, TEMPERATURE, COASTS, WINTER, TIDAL flats

Abstract

Intertidal habitats are unique because they spend alternating periods of submergence (at high tide) and emergence (at low tide) every day. Thus, intertidal temperature is mainly driven by sea surface temperature (SST) during high tides and by air temperature during low tides. Because of that, the switch from high to low tides and viceversa can determine rapid changes in intertidal thermal conditions. On cold-temperate shores, which are characterized by cold winters and warm summers, intertidal thermal conditions can also change considerably with seasons. Despite this uniqueness, knowledge on intertidal temperature dynamics is more limited than for open seas. This is especially true for wave-exposed intertidal habitats, which, in addition to the unique properties described above, are also characterized by wave splash being able to moderate intertidal thermal extremes during low tides. To address this knowledge gap, we measured temperature every half hour during a period of 5.5 years (2014-2019) at nine wave-exposed rocky intertidal locations along the Atlantic coast of Nova Scotia, Canada. This data set is freely available from the figshare online repository (Scrosati and Ellrich, 2020a; https://doi.org/10.6084/m9.figshare.12462065.v1). We summarize the main properties of this data set by focusing on location-wise values of daily maximum and minimum temperature and daily SST, which we make freely available as a separate data set in figshare (Scrosati et al., 2020; https://doi.org/10.6084/m9.figshare.12453374.v1). Overall, this cold-temperate coast exhibited a wide annual SST range, from a lowest overall value of −1.8 °C in winter to a highest overall value of 22.8 °C in summer. In addition, the latitudinal SST trend along this coast experienced a reversal from winter, when SST increased southwards, to summer, when SST decreased southwards, seemingly driven by alongshore differences in coastal upwelling. Daily temperature maxima and minima were more extreme, as expected from their occurrence during low tides, ranging from a lowest overall value of −16.3 °C in winter to a highest overall value of 41.2 °C in summer. Daily maximum temperature in summer varied little along the coast, while daily minimum temperature in winter increased southwards. This data set is the first of its kind for the Atlantic Canadian coast and exemplifies in detail how intertidal temperature varies in wave-exposed environments on a cold-temperate coast. [ABSTRACT FROM AUTHOR]

Published

2020

19. The BenBioDen database, a global database for meio-, macro- and megabenthic biomass and densities.

Author

Stratmann, Tanja, van Oevelen, Dick, Martínez Arbizu, Pedro, Wei, Chih-Lin, Liao, Jian-Xiang, Cusson, Mathieu, Scrosati, Ricardo A., Archambault, Philippe, Snelgrove, Paul V. R., Ramey-Balci, Patricia A., Burd, Brenda J., Kenchington, Ellen, Gilkinson, Kent, Belley, Rénald, and Soetaert, Karline

Subjects

DATABASES, SUBMARINE topography, BENTHIC animals, BIOMASS, MASS density gradients

Abstract

Benthic fauna refers to all fauna that live in or on the seafloor, which researchers typically divide into size classes meiobenthos (32/64 µm–0.5/1 mm), macrobenthos (250 µm–1 cm), and megabenthos (>1 cm). Benthic fauna play important roles in bioturbation activity, mineralization of organic matter, and in marine food webs. Evaluating their role in these ecosystem functions requires knowledge of their global distribution and biomass. We therefore established the BenBioDen database, the largest open-access database for marine benthic biomass and density data compiled so far. In total, it includes 11,792 georeferenced benthic biomass and 51,559 benthic density records from 384 and 600 studies, respectively. We selected all references following the procedure for systematic reviews and meta-analyses, and report biomass records as grams of wet mass, dry mass, or ash-free dry mass, or carbon per m2 and as abundance records as individuals per m2. This database provides a point of reference for future studies on the distribution and biomass of benthic fauna. Measurement(s) marine benthic feature • organic material • mass density Technology Type(s) digital curation Factor Type(s) geographic location • water depth • organism size class Sample Characteristic - Organism meiobenthos • macrobenthos • megabenthos Sample Characteristic - Environment marine benthic biome • ocean Sample Characteristic - Location Atlantic Ocean • Pacific Ocean • Arctic Ocean • Southern Ocean • Indian Ocean Machine-accessible metadata file describing the reported data: 10.6084/m9.figshare.12481985 [ABSTRACT FROM AUTHOR]

Published

2020

20. Interhemispheric comparison of scale-dependent spatial variationin the structure of intertidal rocky-shore communities.

Author

CATALÁN, ALEXIS M., VALDIVIA, NELSON, and SCROSATI, RICARDO A.

Subjects

INTERTIDAL ecology, BIOLOGICAL variation, SPECIES diversity, SOCIAL surveys, COMMUNITIES, DATA analysis

Abstract

In rocky intertidal habitats, the pronounced increase in environmental stress with elevation, caused by tides, generates significant vertical variation in community structure. Along coastlines, environmental changes generate horizontal biological variation, which, when measured at large sampling intervals, generally surpasses vertical biological variation. It is unknown, however, how vertical biological variation compares with horizontal biological variation when the latter is measured in environmentally similar habitats. We tested the hypothesis that, for sites experiencing similar environmental conditions along the shore, horizontal biological variation does not surpass vertical biological variation even when horizontal variation is measured at large sampling intervals along the coast. We compared vertical and horizontal variation in intertidal communities by surveying habitats experiencing the same wave exposure on the NW Atlantic and SE Pacific coasts. We measured biological variation based on differences in species richness, occurrence, and abundance between quadrats from low and high elevations (vertical variation)and between quadrats at three horizontal scales of sampling interval on both coasts: local (tens of cmbetween quadrats), meso- (~100 km between quadrats), and regional (~200 km between quadrats). We measured biological variation for all species combined, separately for sessile and mobile species, and for the numerically dominant species. The data analyses indicated that horizontal biological variation was never higher than vertical biological variation, not even at the regional scale, providing support for our hypothesis. Overall, our findings suggest that studies comparing spatial scales of biological variation should consider the underlying environmental variation in addition to simply scale alone. [ABSTRACT FROM AUTHOR]

Published

2020

21. Cyprid larvae of the acorn barnacle Semibalanus balanoides (Linnaeus, 1767) (Cirripedia: Sessilia: Archaeobalanidae) can metamorphose to juveniles without being permanently attached to a substrate.

Author

Leal, Inês, Flores, Augusto A V, Scrosati, Ricardo A, and Tremblay, Réjean

Subjects

BARNACLES, ACORNS, LARVAE, PLANKTON, SPECIES

Abstract

It is commonly assumed that the pelagic cyprid larvae of acorn barnacles must permanently attach to a substrate before metamorphosing to the benthic juvenile stage. We show that this is not always the case and demonstrate that some cyprids can metamorphose in the water column, i.e. without first becoming cemented to a surface. We observed early-metamorphosing cyprids to fully developed juveniles in coastal plankton samples during the 2018 recruitment season of Semibalanus balanoides (Linnaeus, 1767) in Atlantic Canada. We demonstrated through a laboratory experiment that cyprids can be induced to fully metamorphose into pelagic juveniles. These novel findings raise the question of whether this phenomenon may also occur in other barnacle species. [ABSTRACT FROM AUTHOR]

Published

2020

22. Marked contrast in wind-driven upwelling on the southeastern Nova Scotia coast in July of two years differing in ENSO conditions.

Author

Scrosati, Ricardo A. and Ellrich, Julius A.

Subjects

UPWELLING (Oceanography), OCEAN temperature, EL Nino, LA Nina

Abstract

Upwelling occurs on several coasts of the world, but it has mostly been studied on eastern ocean boundaries. We investigated upwelling on a western ocean boundary for which limited information exists. Using daily in-situ data on sea surface temperature (SST), we found a marked contrast in coastal cooling between July 2014 (pronounced) and July 2015 (weak) at two locations 110 km apart on the Atlantic coast of Nova Scotia, Canada. These findings are consistent with a marked interannual difference in wind-driven upwelling. On the one hand, southwesterlies (which cause upwelling on this coast) were more frequent in July 2014 than in July 2015. On the other hand, Bakun's upwelling index (which is based on wind data and geographic information) indicated that coastal upwelling was more common and intense in July 2014 than in July 2015, while the reverse was true for downwelling. Interestingly, a strong El Niño event occurred in July 2015, while no El Niño (or La Niña) conditions happened in July 2014. In a recent book evaluating upwelling systems around the world, the system that is the focus of the present study was not included. Therefore, our findings should stimulate future research on upwelling on the Atlantic Canadian coast, in that way helping to further develop the knowledge base for western ocean boundaries. [ABSTRACT FROM AUTHOR]

Published

2020

23. Seafloor biodiversity of Canada's three oceans: Patterns, hotspots and potential drivers.

Author

Wei, Chih‐Lin, Cusson, Mathieu, Archambault, Philippe, Belley, Renald, Brown, Tanya, Burd, Brenda J., Edinger, Evan, Kenchington, Ellen, Gilkinson, Kent, Lawton, Peter, Link, Heike, Ramey‐Balci, Patricia A., Scrosati, Ricardo A., Snelgrove, Paul V. R., and Burns, K. C.

Subjects

OCEAN, BIODIVERSITY, HEAT, COLLOIDAL carbon, CHEMICAL energy, SUBMARINE topography

Abstract

Aim: We examined the relationships between bathymetry, latitude and energy and the diversity of marine benthic invertebrates across wide environmental ranges of Canada's three oceans. Location: Canadian Pacific, Arctic and Atlantic Oceans from the intertidal zone to upper bathyal depths, encompassing 13 marine ecoregions. Methods: We compiled 35 benthic datasets that encompass 3,337 taxa (70% identified to species and 21% to genus) from 13,172 samples spanning 6,117 sites. Partitioning the analyses by different gear types, ecoregions or sites, we used Hill numbers to examine spatial patterns in α‐diversity. We used resampling and extrapolation to standardized sampling effort and examined the effects of depth, latitude, chemical energy (export particulate organic carbon [POC] flux), thermal energy (bottom temperature) and seasonality of primary production on the benthic biodiversity. Results: The Canadian Arctic harboured the highest benthic diversity (e.g. epifauna and common and dominant infauna species), whereas the lowest diversity was found in the Atlantic. The Puget Trough (Pacific), Beaufort Sea, Arctic Archipelago, Hudson Bay, Northern Labrador and Southern Grand Bank (Atlantic) were the "hotspots" of diversity among the ecoregions. The infauna and epifauna both exhibited hump‐shaped diversity–depth relationships, with peak diversity near shelf breaks; latitude (positively) predicted infaunal diversity, albeit weakly. Food supply, as inferred from primary production and depth, was more important than thermal energy in controlling diversity patterns. Limitations with respect to calculating POC flux in coastal (e.g. terrestrial runoff) and ice‐covered regions or biological interactions may explain the negative POC flux–infaunal diversity relationship. Main Conclusions: We show previously unreported diversity hotspots in the Canadian Arctic and in other ecoregions. Our analyses reveal potential controlling mechanisms of large‐scale benthic biodiversity patterns in Canada's three oceans, which are inconsistent with the prevailing view of seafloor energy–diversity relationships. These results provide insightful information for conservation that can help to implement further MPA networks. [ABSTRACT FROM AUTHOR]

Published

2020

24. A 5-year study (2014–2018) of the relationship between coastal phytoplankton abundance and intertidal barnacle size along the Atlantic Canadian coast..

Author

Scrosati, Ricardo A. and Ellrich, Julius A.

Subjects

BARNACLES, INTERTIDAL organisms, BIOLOGICAL variation, MARINE organisms, STATISTICAL power analysis, SHORELINE monitoring

Abstract

Benthic–pelagic coupling refers to the ecological relationships between benthic and pelagic environments. Studying such links is particularly useful to understand biological variation in intertidal organisms along marine coasts. Filter-feeding invertebrates are ecologically important on marine rocky shores, so they have often been used to investigate benthic–pelagic coupling. Most studies, however, have been conducted on eastern ocean boundaries. To evaluate benthic–pelagic coupling on a western ocean boundary, we conducted a 5-year study spanning 415 km of the Atlantic coast of Nova Scotia (Canada). We hypothesized that the summer size of intertidal barnacles (Semibalanus balanoides) recruited in the preceding spring would be positively related to the nearshore abundance (biomass) of phytoplankton, as phytoplankton constitutes food for the nauplius larvae and benthic stages of barnacles. Every year between 2014 and 2018, we measured summer barnacle size in clearings created before spring recruitment on the rocky substrate at eight wave-exposed locations along this coast. We then examined the annual relationships between barnacle size and chlorophyll-a concentration (Chl-a), a proxy for phytoplankton biomass. For every year and location, we used satellite data to calculate Chl-a averages for a period ranging from the early spring (when most barnacle larvae were in the water) to the summer (when barnacle size was measured after weeks of growth following spring benthic recruitment). The relationships were always positive, Chl-a explaining nearly half, or more, of the variation in barnacle size in four of the five studied years. These are remarkable results because they were based on a relatively limited number of locations (which often curtails statistical power) and point to the relevance of pelagic food supply to explain variation in intertidal barnacle size along this western ocean boundary coast. [ABSTRACT FROM AUTHOR]

Published

2019

25. Density of intertidal barnacles along their full elevational range of distribution conforms to the abundant-centre hypothesis.

Author

Scrosati, Ricardo A. and Freeman, Matthew J.

Subjects

BARNACLES, INTERTIDAL ecology, DENSITY, SPECIES distribution, BODY size, HYPOTHESIS

Abstract

The abundant-centre hypothesis (ACH) predicts that the density of a species should peak at its distribution centre and decrease similarly towards distribution margins. The ACH has been deduced from a theory that postulates that environmental conditions should be most favourable for a species at the centre of its distribution. This idealised density pattern, however, has been supported by limited field studies, as natural patterns are often more complex. It is thus of interest to examine under what conditions compliance with the ACH could be favoured. Such conditions could be smooth environmental gradients with limited habitat patchiness throughout the distribution range of a species. Thus, we tested the ACH by measuring the density of an intertidal barnacle (Semibalanus balanoides) across its full vertical distribution range (from low to high elevations) on a rocky shore with similar substrate properties across elevations. To do a reliable test, we surveyed eight elevation zones applying an equal sampling effort in each zone. Average barnacle density conformed to the ACH, as it peaked at the middle of the vertical distribution range of this species. The same underlying theory predicts a similar unimodal pattern for maximum body size, but this trait was decoupled from density, as maximum barnacle size increased from low to high elevations. Overall, although the ACH is not a universal predictive tool as once envisioned, it may predict some cases well, as shown by this study. Therefore, the ACH should not be discarded completely, and its domain of application should be further evaluated. [ABSTRACT FROM AUTHOR]

Published

2019

26. Spatial Variation in Community Structure and the Underlying Environmental Variation.

Author

Catalán, Alexis M., Valdivia, Nelson, and Scrosati, Ricardo A.

Subjects

SPATIAL variation, BIOLOGICAL variation, BIOTIC communities, COMMUNITIES

Published

2020

27. Predator (Carcinus maenas) nonconsumptive limitation of prey (Nucella lapillus) feeding depends on prey density and predator cue type.

Author

Boudreau, Melanie L., Scrosati, Ricardo A., and Wong, Melisa C.

Subjects

PREDATION, CARCINUS maenas, NUCELLA lapillus, MYTILUS edulis, MUSSELS

Abstract

Predators often have nonconsumptive effects (NCEs) on prey. For example, upon detection of predator cues, prey can reduce feeding activities to hamper being detected by predators. Previous research showed that waterborne chemical cues from green crabs (Carcinus maenas, predator) limit the dogwhelk (Nucella lapillus, prey) consumption of barnacles regardless of dogwhelk density, even though individual predation risk for dogwhelks decreases with conspecific density. Such NCEs might disappear with dogwhelk density if dogwhelks feed on mussels, as mussel stands constitute better antipredator refuges than barnacle stands. Through a laboratory experiment, we effectively found that crab chemical cues limit the per-capita consumption of mussels by dogwhelks at low dogwhelk density but not at high density. The combination of tactile and chemical cues from crabs, however, limited the dogwhelk consumption of mussels at both dogwhelk densities. The occurrence of such NCEs at both dogwhelk densities could have resulted from tactile cues indicating a stronger predation risk than chemical cues alone. Overall, the present study reinforces the notions that prey evaluate conspecific density when assessing predation risk and that predator cue type affects their perception of risk. [ABSTRACT FROM AUTHOR]

Published

2018

28. Benthic–pelagic coupling and bottom‐up forcing in rocky intertidal communities along the Atlantic Canadian coast.

Author

Scrosati, Ricardo A. and Ellrich, Julius A.

Abstract

Benthic species from rocky intertidal systems are irregularly distributed along marine coastlines. Nearshore pelagic conditions often help to explain such variation, but most such studies have been done on eastern ocean boundary coasts. We investigated possible benthic–pelagic coupling along the Atlantic coast of Nova Scotia, a western ocean boundary coast. In 2014, we surveyed high‐intertidal habitats from nine wave‐exposed bedrock locations spanning 415 km of coastline. At each location in the spring, we measured the recruitment of barnacles and mussels, the two main filter‐feeders. Recruitment varied irregularly along the coast. Satellite data on coastal phytoplankton and particulate organic carbon (food for intertidal filter‐feeders and their pelagic larvae) and in‐situ data on sea surface temperature explained, to varying degrees, the geographic structure of recruitment. In turn, the summer abundance of barnacles and mussels was positively related to their spring recruitment. Ultimately, intertidal predator (dogwhelk) abundance was positively related to the recruitment and/or abundance of barnacles and mussels (the main prey of dogwhelks). Sea ice may also have influenced this predator–prey interaction. Drift ice leaving the Gulf of St. Lawrence in late winter strongly disturbed the northern surveyed locations, making barnacles (through high spring recruitment) the only food source for dogwhelks (which survived ice scour in crevices) in such places. Overall, this study supports the occurrence of benthic–pelagic coupling and bottom‐up forcing on this coast. Investigating the oceanographic drivers of pelagic food supply and seawater temperature should help to further understand how this large metacommunity is organized. [ABSTRACT FROM AUTHOR]

Published

2018

29. Are pelagic mussel stages chemically attracted to barnacle stands for settlement?

Author

Manning, Abigael M and Scrosati, Ricardo A

Subjects

BARNACLES, MUSSELS, INTERTIDAL organisms

Abstract

As mussel recruitment progresses, with later recruits concentrating around the first recruits, mussels achieve high densities and outcompete barnacles as they grow, ultimately becoming the dominant species. These photographs show dense aggregations of juvenile mussels ( I Mytilus i spp) growing on intertidal barnacle stands ( I Semibalanus balanoides i ) on the Atlantic coast of Nova Scotia, Canada. [Extracted from the article]

Published

2023

30. Benthic–Pelagic Links along the Atlantic Canadian Coast.

Author

Scrosati, Ricardo A. and Ellrich, Julius A.

Subjects

BENTHIC plants, BARNACLES

Abstract

The article focuses on distribution of the benthic rocky intertidal species along marine coastline and mentions that according to studies, spring recruitment of barnacles and mussels varied along the Atlantic coast of Nova Scotia.

Published

2018

31. Water motion modulates predator nonconsumptive limitation of prey recruitment.

Author

Ellrich, Julius A. and Scrosati, Ricardo A.

Subjects

PREDATION, AQUATIC ecology, BIOGEOGRAPHY, BARNACLES, INTRODUCED aquatic species

Abstract

Predator chemical cues can elicit behavioral changes in prey to minimize predation risk. Recent field studies have shown that such predator nonconsumptive effects (NCEs) can ultimately affect prey demography. The environment is known to modulate predator consumptive effects on prey demography, but the environmental modulation of predator NCEs on prey demography remains unstudied. We investigated this knowledge gap using an intertidal predator-prey system. Dogwhelk (Nucella lapillus) chemical cues can limit barnacle (Semibalanus balanoides) recruitment by limiting larval settlement. As waves disperse chemicals in coastal environments, we experimentally tested the hypothesis that wave exposure limits dogwhelk NCEs on barnacle recruitment. Shortly before the barnacle recruitment season of 2013 (May-June), we established cages in rocky intertidal habitats in Atlantic Canada under two levels of wave exposure. The cages were used to manipulate the presence and absence of dogwhelks. At the center of each cage, we installed a tile where barnacle pelagic larvae could settle and develop into recruits. Mesh prevented caged dogwhelks from accessing the tiles, but allowed their waterborne cues to reach the tiles. Data collected at the end of the recruitment season indicated that dogwhelk cues limited barnacle recruitment in wave-sheltered habitats but had no effect on recruitment in wave-exposed habitats. These findings suggest that predicting predator NCEs on prey demography may require environmental information related to the ability of prey to locate predators. [ABSTRACT FROM AUTHOR]

Published

2016

32. Adult Prey Neutralizes Predator Nonconsumptive Limitation of Prey Recruitment.

Author

Ellrich, Julius A., Scrosati, Ricardo A., Romoth, Katharina, and Molis, Markus

Subjects

PREDATION, BARNACLES, NUCELLA lapillus, HABITATS, PHYLA (Genus)

Abstract

Recent studies have shown that predator chemical cues can limit prey demographic rates such as recruitment. For instance, barnacle pelagic larvae reduce settlement where predatory dogwhelk cues are detected, thereby limiting benthic recruitment. However, adult barnacles attract conspecific larvae through chemical and visual cues, aiding larvae to find suitable habitat for development. Thus, we tested the hypothesis that the presence of adult barnacles (Semibalanus balanoides) can neutralize dogwhelk (Nucella lapillus) nonconsumptive effects on barnacle recruitment. We did a field experiment in Atlantic Canada during the 2012 and 2013 barnacle recruitment seasons (May–June). We manipulated the presence of dogwhelks (without allowing them to physically contact barnacles) and adult barnacles in cages established in rocky intertidal habitats. At the end of both recruitment seasons, we measured barnacle recruit density on tiles kept inside the cages. Without adult barnacles, the nearby presence of dogwhelks limited barnacle recruitment by 51%. However, the presence of adult barnacles increased barnacle recruitment by 44% and neutralized dogwhelk nonconsumptive effects on barnacle recruitment, as recruit density was unaffected by dogwhelk presence. For species from several invertebrate phyla, benthic adult organisms attract conspecific pelagic larvae. Thus, adult prey might commonly constitute a key factor preventing negative predator nonconsumptive effects on prey recruitment. [ABSTRACT FROM AUTHOR]

Published

2016

33. The clonal seaweed Chondrus crispus as a foundation species.

Author

Scrosati, Ricardo A.

Subjects

CHONDRUS crispus, HABITATS, SPECIES diversity, INVERTEBRATES, ANIMAL species

Abstract

The clonal seaweed Chondrus crispus (Rhodophyta, Gigartinales) forms extensive stands at low intertidal elevations on wave-sheltered rocky shores of the North Atlantic. This study investigates if this bushy alga acts as a foundation species in such habitats. The abundance (percent cover) of C. crispus, all other algae, and invertebrates was measured in 390 quadrats spanning 350 km of coast in Nova Scotia, Canada. In these low-intertidal habitats, fucoid algae are the largest organisms and can form extensive canopies, but their cover was unrelated to benthic species richness and to C. crispus cover. Species richness, however, increased with C. crispus cover from low to intermediate cover values, showing little change towards full C. crispus cover. Species composition (a combined measure of species identity and their relative abundance) differed between quadrats with low (0-1%) and high (60-100%) cover of C. crispus. High C. crispus cover was associated to more invertebrate species but fewer algal species than low C. crispus cover. However, the average abundance of algal and invertebrate species occurring in both cover groups was often higher under high C. crispus cover, contributing to a higher average richness at the quadrat scale. Overall, only 16% of the observed variation in species richness was explained by C. crispus cover. Therefore, this study suggests that C. crispus acts as a foundation species but with a moderate influence. [ABSTRACT FROM AUTHOR]

Published

2016

34. Wave-induced changes in seaweed toughness entail plastic modifications in snail traits maintaining consumption efficacy.

Author

Molis, Markus, Scrosati, Ricardo A., El‐Belely, Ehab F., Lesniowski, Thomas J., Wahl, Martin, and Heil, Martin

Subjects

MARINE algae, HABITATS, ENVIRONMENTAL engineering, ALGAE as food, PHENOTYPIC plasticity in plants

Abstract

Environmental stress can influence species traits and performance considerably. Using a seaweed-snail system from NW (Nova Scotia) and NE (Helgoland) Atlantic rocky shores, we examined how physical stress (wave exposure) modulates traits in the seaweed Fucus vesiculosus and indirectly in its main consumer, the periwinkle Littorina obtusata., In both regions, algal tissue toughness increased with wave exposure. Reciprocal-transplant experiments showed that tissue toughness adjusted plastically to the prevailing level of wave exposure., Choice experiments tested the feeding preference of snails from sheltered, exposed and very exposed habitats for algae from such wave exposures. Snails from exposed and very exposed habitats consumed algal tissues at similar rates irrespective of the exposure of origin of the algae. However, snails from sheltered habitats consumed less algal tissues from very exposed habitats than tissues from sheltered and exposed habitats. Choice assays using reconstituted algal food (triturated during preparation) identified high thallus toughness as the explanation for the low preference of snails from sheltered habitats for algae from very exposed habitats., Ultrastructural analyses of radulae indicated that rachidian teeth were longest and the number of cusps in lateral teeth (grazing-relevant traits) was highest in snails from very exposed habitats, suggesting that radulae are best suited to rupture tough algal tissues in such snails., No-choice feeding experiments revealed that these radular traits were also phenotypically plastic, as they adjusted to the toughness of the algal food., Synthesis. This study indicates that the observed plasticity in the feeding ability of snails is mediated by wave exposure through phenotypic plasticity in the tissue toughness of algae. Thus, plasticity in consumers and their resource species may reduce the potential effects of physical stress on their interaction. [ABSTRACT FROM AUTHOR]

Published

2015

35. Interactive effects of ocean acidification and warming on subtidal mussels and sea stars from Atlantic Canada.

Author

Keppel, Elise A., Scrosati, Ricardo A., and Courtenay, Simon C.

Subjects

ASTERIAS, MUSSELS, STARFISHES, GLOBAL warming, OCEAN acidification

Abstract

Anthropogenic CO2is decreasing oceanic pH and contributing to seawater warming. We tested the effects of low pH and high temperature at levels predicted for 2100 on an ecologically important predator–prey system (sea stars,Asterias rubens, and mussels,Mytilus edulis) from the NW Atlantic coast. Mussels are dominant competitors for space and important ecosystem engineers, while sea stars control mussel populations and thus local community structure. We found sea stars to be negatively affected in growth rate by low pH, with growth further reduced by a high temperature. In contrast, mussel growth rate was positively affected by low pH, with no response to temperature within the tested range. Predation of sea stars on mussels, measured as per-capita consumption rate, decreased in acidified conditions by 50%. Our study suggests that mussels may not be negatively affected by pH at the levels predicted for the end of this century and that mussels may be subjected to a reduced predation from sea stars under future conditions. [ABSTRACT FROM PUBLISHER]

Published

2015

36. Predator nonconsumptive effects on prey recruitment weaken with recruit density.

Author

Ellrich, Julius A., Scrosati, Ricardo A., and Molis, Markus

Subjects

CACTUS, POPULATION dynamics, SPATIOTEMPORAL processes, PLANT species, FRAGMENTED landscapes, PLANT habitats, PASTURES

Abstract

We investigated the nonconsumptive effects (NCEs) of predatory dogwhelks (Nucella lapillus) on intertidal barnacle (Semibalanus balanoides) recruitment through field experiments on the Gulf of St. Lawrence coast and the Atlantic coast of Nova Scotia, Canada. We studied the recruitment seasons (May-June) of 2011 and 2013. In 2011, the Gulf coast had five times more nearshore phytoplankton (food for barnacle larvae and recruits) during the recruitment season and yielded a 58% higher barnacle recruit density than the Atlantic coast at the end of the recruitment season. In 2013, phytoplankton levels and barnacle recruit density were similar on both coasts and also lower than for the Gulf coast in 2011. Using the comparative-experimental method, the manipulation of dogwhelk presence (without allowing physical contact with prey) revealed that dogwhelk cues limited barnacle recruitment under moderate recruit densities (Atlantic 2011/2013 and Gulf 2013) but had no effect under a high recruit density (Gulf 2011). Barnacle recruits attract settling larvae through chemical cues. Thus, the highest recruit density appears to have neutralized dogwhelk effects. This study suggests that the predation risk perceived by settling larvae may decrease with increasing recruit density and that prey food supply may indirectly influence predator NCEs on prey recruitment. [ABSTRACT FROM AUTHOR]

Published

2015

37. Intertidal mussels as ecosystem engineers: their associated invertebrate biodiversity under contrasting wave exposures.

Author

Arribas, Lorena, Donnarumma, Luigia, Palomo, M., and Scrosati, Ricardo

Abstract

Mussels often act as ecosystem engineers in rocky intertidal habitats, favoring the occurrence of many small invertebrates by increasing habitat complexity and improving local environmental conditions. This study tests the hypothesis that invertebrate assemblages from intertidal mussel beds differ between wave-sheltered and wave-exposed habitats. To this aim, we surveyed exposed and sheltered sites spanning 350 km of coastline in Nova Scotia, Canada. We identified all invertebrates and measured their abundance in replicate quadrats that were fully covered by mussels. In total, we found 50 invertebrate taxa living in these mussel beds. Multivariate analyses revealed that the composition of invertebrate assemblages differed significantly between both habitat types. Exposed habitats supported a greater species richness, and the species that mainly explained the compositional difference between both environments were more abundant in exposed ones. Assemblages were taxonomically dominated by arthropods, annelids, and molluscs and numerically dominated by tubificid oligochaetes regardless of exposure. Our results suggest that exposed habitats may favor the occurrence of filter-feeders, such as barnacles, and sheltered habitats the occurrence of predators, such as small crabs and sea stars, in intertidal mussel beds from the NW Atlantic coast. [ABSTRACT FROM AUTHOR]

Published

2014

38. Distribution of cryptic mussel species ( Mytilus edulis and M. trossulus ) along wave exposure gradients on northwest Atlantic rocky shores.

Author

Tam, Jamie C. and Scrosati, Ricardo A.

Subjects

MUSSEL culture, SNAILS, MYTILUS, PHYSIOLOGY

Abstract

We determined the distribution of two cryptic mussel species (Mytilus edulisandM. trossulus) along full gradients of wave exposure in northwest Atlantic rocky intertidal habitats. Research was conducted in Nova Scotia (Canada) and Maine (United States) and species were determined using genetic analyses. In very sheltered habitats, onlyM. edulisoccurred. In sheltered, exposed, and very exposed habitats, both species co-existed,M. edulispredominating in Maine andM. trossulusin Nova Scotia. Hybrids were absent or rare. The distribution of mussels regardless of species (Mytilusspp.) was remarkably consistent across levels of wave exposure in both regions. In very sheltered habitats, organisms were large (4–5 cm long, on average) and old (7–8 years, on average) and occurred in low densities. In sheltered, exposed, and very exposed habitats, organisms were small (< 1 cm, on average) and young (1–2 years, on average); density was low in sheltered and very exposed habitats, but high in exposed habitats. Abundance data for predatory snails (dogwhelks,Nucella lapillus) and canopy-forming algae (Ascophyllum nodosumandFucusspp.) suggest that predation and facilitation may explain some of the observed changes in mussel population traits along the wave exposure gradients. Our results could be useful as baseline information to predict the effects of the progressive increase in wave action caused by climate change on intertidal mussel populations. [ABSTRACT FROM AUTHOR]

Published

2014

39. An environmental stress model correctly predicts unimodal trends in overall species richness and diversity along intertidal elevation gradients.

Author

Zwerschke, Nadescha, Bollen, Merle, Molis, Markus, and Scrosati, Ricardo A.

Subjects

ENVIRONMENTAL degradation, ENVIRONMENTAL quality, ENVIRONMENTAL protection, ENVIRONMENTAL deficit, MARINE algae, HABITATS

Abstract

Environmental stress is a major factor structuring communities. An environmental stress model (ESM) predicts that overall species richness and diversity should follow a unimodal trend along the full stress gradient along which assemblages from a regional biota can occur (not to be confused with the intermediate disturbance hypothesis, which makes predictions only for basal species along an intermediate-to-high stress range). Past studies could only provide partial support for ESM predictions because of the limited stress range surveyed or a low sampling resolution. In this study, we measured overall species richness and diversity (considering all seaweeds and invertebrates) along the intertidal elevation gradient on two wave-sheltered rocky shores from Helgoland Island, on the NE Atlantic coast. In intertidal habitats, tides cause a pronounced gradient of increasing stress from low to high elevations. We surveyed up to nine contiguous elevation zones between the lowest intertidal elevation (low stress) and the high intertidal boundary (high stress). Nonlinear regression analyses revealed that overall species richness and diversity followed unimodal trends across elevations on the two studied shores. Therefore, our study suggests that the ESM might constitute a useful tool to predict local richness and diversity as a function of environmental stress. Performing tests on other systems (marine as well as terrestrial) should help to refine the model. [ABSTRACT FROM AUTHOR]

Published

2013

40. The Hidden Biodiversity of Intertidal Mussel Beds under contrasting Wave Exposures.

Author

Scrosati, Ricardo A., Arribas, Lorena P., and Donnarumma, Luigia

Subjects

MUSSELS, BEDS, BIODIVERSITY, PERNA, BRYOZOA, SPECIES diversity

Abstract

At first sight, intertidal mussel beds give the impression of being depauperate communities, as mussels are by far the dominant macroscopic organisms. Wave-exposed mussel beds exhibited a higher species richness, favoring the occurrence of filter-feeders, while wave-sheltered beds favored the occurrence of small predators. [Extracted from the article]

Published

2021

41. Can predator cue effects on a foundation species alter community functioning?

Author

Scrosati, Ricardo A, Catalán, Alexis M, and Valdivia, Nelson

Subjects

SPECIES, PREDATORY animals, PREDATION

Abstract

These results suggest that community functioning in mussel beds might be indirectly affected by waterborne cues from a single predator species. In the field, the sustained occurrence of waterborne snail cues alters the relative abundance of several species in these mussel beds. [Extracted from the article]

Published

2022

42. Physiological ecology of photosynthesis in Prasiola stipitata ( Trebouxiophyceae) from the Bay of Fundy, Canada.

Author

Kang, Eun Ju, Scrosati, Ricardo A., and Garbary, David J.

Subjects

MARINE algae, PHOTOSYNTHESIS, ALGAL populations, ELECTRON transport, CHLOROPHYLL, DEHYDRATION, PLANT adaptation, PLANTS

Abstract

The physiological ecology of Prasiola stipitata was examined in situ from two supralittoral sites in the Bay of Fundy ( Nova Scotian, Canada) during November 2011, when the population was undergoing major expansion. Photosynthetic parameters (effective quantum yield, ΦPSII, maximum quantum yield, Fv/ Fm, and relative electron transport rate, rETR) were evaluated using chlorophyll fluorescence of PSII. A largely shaded and continuously moist population showed no change in ΦPSII from one hour after sunrise to sunset in which natural irradiance varied between 3 and 300 μmol photons m−2 s−1. High irradiance (up to 1800 μmol photons m−2 s−1) had no apparent negative impacts on either quantum yield or rETR, but high desiccation in the field reduced quantum yield to almost zero. When thalli were brought into the laboratory, no change in Fv/ Fm was observed up to 60% dehydration; however, there was a steep decline in Fv/ Fm between 60% and 85% dehydration. Thalli showed complete recovery of Fv/ Fm within one hour of reimmersion in seawater after 2 days of desiccation. After 15 days of desiccation full recovery required 24 h and after 30 days of desiccation thalli showed only partial recovery. These observations confirm the adaptation to photosynthesis in high irradiances and the rapid recovery following extreme desiccation observed in other Prasiola species. [ABSTRACT FROM AUTHOR]

Published

2013

43. Predator chemical cues affect prey feeding activity differently in juveniles and adults.

Author

Johnston, Bradley R., Molis, Markus, and Scrosati, Ricardo A.

Subjects

PREDATORY animals, CHEMICAL senses, PREDATION, ANIMAL feeds, ANIMAL young, ANIMAL behavior, BARNACLES

Abstract

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

Published

2012

44. Ocean Acidification Decreases Growth and Development in American Lobster (Homarus americanus) Larvae.

Author

Keppel, Elise A., Scrosati, Ricardo A., and Courtenay, Simon C.

Subjects

AMERICAN lobster, HOMARUS, LARVAE, DEVELOPMENTAL biology, HYDROGEN-ion concentration

Abstract

Ocean acidification resulting from the global increase in atmospheric CO2 concentration is emerging as a threat to marine species, including crustaceans. Fisheries involving the American lobster (Homarus americanus) are economically important in eastern Canada and United States. Based on ocean pH levels predicted for 2100, this study examined the effects of reduced seawater pH on the growth (carapace length) and development (time to molt) of American lobster larvae throughout stages I-III until reaching stage IV (postlarvae). Each stage is reached after a corresponding molt. Larvae were reared from stage I in either acidified (pH = 7.7) or control (pH = 8.1) seawater. Organisms in acidified seawater exhibited a significantly shorter carapace length than those in control seawater after every molt. Larvae in acidified seawater also took significantly more time to reach each molt than control larvae. In nature, slowed progress through larval molts could result in greater time in the water column, where larvae are vulnerable to pelagic predators, potentially leading to reduced benthic recruitment. Evidence was also found of reduced survival when reaching the last stage under acidified conditions. Thus, from the perspective of larval ecology, it is possible that future ocean acidification may harm this important marine resource. [ABSTRACT FROM AUTHOR]

Published

2012

45. Variation in Community Structure across Vertical Intertidal Stress Gradients: How Does It Compare with Horizontal Variation at Different Scales?

Author

Valdivia, Nelson, Scrosati, Ricardo A., Molis, Markus, and Knox, Amanda S.

Subjects

BIOLOGICAL variation, HABITATS, ALTITUDES, COASTS, HYPOTHESIS, ECOLOGY, MULTIVARIATE analysis, ALGAE, BIOTIC communities

Abstract

In rocky intertidal habitats, the pronounced increase in environmental stress from low to high elevations greatly affects community structure, that is, the combined measure of species identity and their relative abundance. Recent studies have shown that ecological variation also occurs along the coastline at a variety of spatial scales. Little is known, however, on how vertical variation compares with horizontal variation measured at increasing spatial scales (in terms of sampling interval). Because broad-scale processes can generate geographical patterns in community structure, we tested the hypothesis that vertical ecological variation is higher than fine-scale horizontal variation but lower than broad-scale horizontal variation. To test this prediction, we compared the variation in community structure across intertidal elevations on rocky shores of Helgoland Island with independent estimates of horizontal variation measured at the scale of patches (quadrats separated by 10s of cm), sites (quadrats separated by a few m), and shores (quadrats separated by 100s to 1000s of m). The multivariate analyses done on community structure supported our prediction. Specifically, vertical variation was significantly higher than patch- and site-scale horizontal variation but lower than shore-scale horizontal variation. Similar patterns were found for the variation in abundance of foundation taxa such as Fucus spp. and Mastocarpus stellatus, suggesting that the effects of these canopy-forming algae, known to function as ecosystem engineers, may explain part of the observed variability in community structure. Our findings suggest that broad-scale processes affecting species performance increase ecological variability relative to the pervasive fine-scale patchiness already described for marine coasts and the well known variation caused by vertical stress gradients. Our results also indicate that experimental research aiming to understand community structure on marine shores should benefit from applying a multi-scale approach. [ABSTRACT FROM AUTHOR]

Published

2011

46. Species richness and diversity across rocky intertidal elevation gradients in Helgoland: testing predictions from an environmental stress model.

Author

Scrosati, Ricardo A., Knox, Amanda S., Valdivia, Nelson, and Molis, Markus

Subjects

ENVIRONMENTAL engineering, SPECIES diversity, BIODIVERSITY, INTERTIDAL ecology, SEASHORE ecology

Abstract

Environmental stress affects species richness and diversity in communities, but the precise form of the relationship is unclear. We tested an environmental stress model (ESM) that predicts a unimodal pattern for total richness and diversity in local communities across the full stress gradient where a regional biota can occur. In 2008, we measured richness and diversity (considering all macrobenthic species) across the entire intertidal range on three rocky shores on Helgoland Island, Germany. Intertidal elevation is known to be positively related to abiotic stress. Since Helgoland is between the northern and southern biogeographic boundaries for the cold-temperate NE Atlantic intertidal biota, it exhibits low stress levels for this biota at low elevations and high stress at high elevations because of long (>6 h) emersion times. Thus, we predicted a unimodal trend for richness and diversity across elevation. On all three shores, richness increased from high to middle elevations, but remained similar between middle and low elevations. Diversity followed the same trend on one shore and different trends (although also non-unimodal) on the other two. Evenness explained the trend differences between richness and diversity. Overall, our study yielded little support for the ESM. Reasons for richness and diversity not decreasing at low elevations may be related to influences of mostly subtidal species, Helgoland's intertidal range, or sampling resolution. Our study also suggests that the ESM must be developed further to differentiate between richness and diversity. We offer recommendations to improve future ESM research using intertidal systems. [ABSTRACT FROM AUTHOR]

Published

2011

47. Positive Interspecific Relationship between Temporal Occurrence and Abundance in Insects.

Author

Scrosati, Ricardo A., Patten, Ruth D., and Lauff, Randolph F.

Subjects

SPECIES distribution, COMPETITION (Biology), HORSEFLIES, MACROECOLOGY, INSECT traps, ARCHAEOLOGICAL finds, PATTERN formation (Biology), COLONIZATION (Ecology)

Abstract

One of the most studied macroecological patterns is the interspecific abundance-occupancy relationship, which relates species distribution and abundance across space. Interspecific relationships between temporal distribution and abundance, however, remain largely unexplored. Using data for a natural assemblage of tabanid flies measured daily during spring and summer in Nova Scotia, we found that temporal occurrence (proportion of sampling dates in which a species occurred in an experimental trap) was positively related to temporal mean abundance (number of individuals collected for a species during the study period divided by the total number of sampling dates). Moreover, two models that often describe spatial abundance-occupancy relationships well, the He-Gaston and negative binomial models, explained a high amount of the variation in our temporal data. As for the spatial abundance-occupancy relationship, the (temporal) aggregation parameter, k, emerged as an important component of the hereby named interspecific temporal abundance- occurrence relationship. This may be another case in which a macroecological pattern shows similarities across space and time, and it deserves further research because it may improve our ability to forecast colonization dynamics and biological impacts. [ABSTRACT FROM AUTHOR]

Published

2011

48. Species richness and diversity in different functional groups across environmental stress gradients: a model for marine rocky shores.

Author

Scrosati, Ricardo A., van Genne, Barbara, Heaven, Christine S., and Watt, Cortney A.

Subjects

BIODIVERSITY, ALGAE, ANIMAL species, CARNIVOROUS animals, HERBIVORES, HABITATS

Abstract

We present a model predicting how the species richness and diversity within benthic functional groups should vary across the full environmental stress gradient across which a regional biota from marine rocky shores can occur. Built upon previous models, our model makes predictions for sessile species (macroalgae and filter feeders), herbivores, and carnivores. We tested some of its predictions by surveying vertical (intertidal elevation) and horizontal (wave exposure and ice scour) stress gradients in northern Nova Scotia, Canada. Because of harsh winter conditions, these coasts only depict approximately intermediate-to-high yearly levels of stress that the cold-temperate, rocky intertidal biota from the northwestern Atlantic can experience. The observed trends matched predictions for sessile species in 75% of the studied gradients, and showed a moderate agreement for herbivores and carnivores only when they were combined as mobile consumers. Agreement meant that both richness and diversity increased from the most stressful to the most benign habitats that can be found in northern Nova Scotia. Also as predicted, sessile species generally showed a faster rate of increase in richness than mobile consumers. Our model also predicted a higher overall richness for sessile species than for mobile consumers, which was true by a factor of 3. Therefore, our model may constitute a useful tool to understanding community composition as a function of abiotic stress, which may in turn facilitate studies on community functioning. Model predictions for lower stress ranges could be tested on more southern shores where the same regional biota occurs. [ABSTRACT FROM AUTHOR]

Published

2011

49. MORPHOLOGICAL VARIATION IN ACROSIPHONIA ARCTA (CODIOLALES, CHLOROPHYTA) FROM ENVIRONMENTALLY DIFFERENT HABITATS IN NOVA SCOTIA, CANADA.

Author

SUSSMANN, ANDREA V. and SCROSATI, RICARDO A.

Subjects

GREEN algae, PLANT morphology, SALINITY, TURBIDITY, RHIZOIDS, ESTUARINE ecology

Abstract

We characterized the morphological variation and algal species associations of the filamentous green alga, Acrosiphonia arcta (distinguishing it from its closely related sister genus Spongomorpha), in two contrasting environments in Nova Scotia, Canada. The habitats differed in seawater salinity and temperature (and fluctuations thereof), substratum, vertical position on the shore, wave exposure, turbidity, and diversity of macroalgae and macrofauna. Acrosiphonia arcta thalli exhibited distinct morphologies in the different environments. Thalli from the open-ocean Whitehead site (Atlantic coast) exhibited the typical A. arcta morphology of profuse, short, curved branches and rhizoids binding the filaments together to form hemispherical to spherical tufts. Thalli from the sheltered Pomquet Harbour Estuary (Gulf of St. Lawrence coast) consisted of matted clumps with extensive rhizoidal growth at the base but little branching otherwise. Acrosiphonia arcta was primarily associated with thick leathery and crustose (coralline) algae at Whitehead. In the Pomquet Harbour Estuary, a less stable habitat than Whitehead, sheet and filamentous algae were in greater abundance with A. arcta than at Whitehead. Damaged apical cells from thalli of both Pomquet and Whitehead A. arcta were able to regenerate new filamentous tips or to give rise to rhizoids, phenomena not previously documented for Acrosiphonia in North America. Morphological variation of A. arcta in different habitats points to its ability to respond to and persist in a wide range of abiotic (and possibly biotic) conditions, and helps to explain its seasonal dominance on the east and west coasts of North America. [ABSTRACT FROM AUTHOR]

Published

2011

50. Research note: Field evaluation of epiphyte recruitment ( Vertebrata lanosa, Rhodophyta) in different microsite types on host fronds ( Ascophyllum nodosum, Phaeophyceae).

Author

Scrosati, Ricardo A. and Longtin, Caroline M.

Subjects

ASCOPHYLLUM nodosum, MARINE algae, EPIPHYTES, BIODIVERSITY

Abstract

The seaweed Ascophyllum nodosum (Phaeophyceae, Fucales) often forms extensive beds in wave-sheltered, rocky intertidal habitats on northern Atlantic shores. Since this alga is an ecosystem engineer that influences benthic biodiversity, it is important to understand the factors that regulate its performance. Epiphytism is known to affect the performance of macroalgal hosts. In this study, we investigated the effects of surface irregularities on A. nodosum fronds (wounds, branch axils, and lateral pits resulting from receptacle shedding) on the recruitment rate of its obligate epiphyte Vertebrata lanosa (= Polysiphonia lanosa, Rhodophyta, Ceramiales). For this purpose, we performed a field experiment in Nova Scotia, Canada. In June–July 2007, we created wounds on the surface of host fronds that mimicked the wounds that result from invertebrate grazing. At that time, we also mapped the position of epiphyte-free lateral pits and branch axils on host fronds. In October 2007, after the reproductive season for V. lanosa, the percentage of microsites colonized by this epiphyte was statistically similar for wounds and lateral pits, but significantly lower for branch axils, although by a small difference (mean recruitment rates ranged between 37 and 50%). Since V. lanosa is known not to colonize smooth frond surfaces, our study suggests that the degree of epiphyte load on A. nodosum beds should largely be affected by the overall amount of surface irregularities, with little influence of the relative availability of each microsite type. [ABSTRACT FROM AUTHOR]

Published

2010