Your search keyword '"Smale, Dan"' showing total 25 results

1. Marine macrophytes in a changing world: mechanisms underpinning responses and resilience to environmental stress – an introduction to a Virtual Issue.

Author

Smale, Dan A. and King, Nathan G.

Subjects

*COASTAL changes, *SEAGRASSES, *KELPS, *CLIMATE change, *MARINE algae

Abstract

This Editorial introduces the Virtual Issue 'Marine macrophytes in a changing world: mechanisms underpinning responses and resilience to environmental stress' that includes the following papers: Campbell et al. (2018), Collier et al. (2018), Ferreira et al. (2014), Jung et al. (2023), Konotchick et al. (2013), Litsi‐Mizan et al. (2023), McIntire & Fajardo (2014), Murúa et al. (2020), Pedersen et al. (2016), Saha et al. (2024), Schmidt & Saha (2021), Smale (2020), Viana et al. (2019). Access the Virtual Issue at www.newphytologist.com/virtualissues. [ABSTRACT FROM AUTHOR]

Published

2024

2. Spatiotemporal variability in the structure and diversity of understory faunal assemblages associated with the kelp Eisenia cokeri (Laminariales) in Peru.

Author

Uribe, Roberto A., Smale, Dan A., Morales, Robinson, Aleman, Solange, Atoche-Suclupe, Dennis, Burrows, Michael T., Earp, Hannah S., Hinostroza, Juan Diego, King, Nathan G., Perea, Angel, Pérez-Matus, Alejandro, Smith, Kathryn, and Moore, Pippa J.

Subjects

*ANIMAL diversity, *LAMINARIALES, *EISENIA, *KELPS, *COASTAL organisms, *MACROCYSTIS, *SEAGRASSES

Abstract

Kelp species function as foundation organisms in coastal marine ecosystems, where they alter environmental conditions and promote local biodiversity by providing complex biogenic habitat for an array of associated organisms. The structure and functioning of kelp forest ecosystems in some regions, such as along the Peruvian coastline, remain critically understudied. We quantified the structure and diversity of faunal assemblages within both holdfast and understory reef habitats within Eisenia cokeri forests. We sampled both habitat types within four subtidal kelp forests on multiple occasions between 2016 and 2020, and quantified fauna at a fine taxonomic level (mostly species). We recorded a total of ~ 55,000 individuals representing 183 taxa across the study, with holdfast assemblages typically exhibiting higher richness, abundance and biomass values compared with understory reef-associated assemblages. Holdfast assemblages were structurally and functionally dissimilar to those on reef surfaces and were less variable and consistent across sites and sampling events. Even so, assemblages associated with both habitat types varied significantly between sites and sampling events, with variation in upwelling strength, ocean currents, and grazing pressure among potential drivers of this ecological variability. Overall, E. cokeri supports diverse and abundant holdfast assemblages and functions as a foundation organism in Peru. Given that no other habitat-forming kelp species persist at the low latitudes of E. cokeri in mid-to-north Peru, the lack of functional redundancy suggests that effective management and conservation of this species is vital for wider ecosystem processes and biodiversity maintenance. [ABSTRACT FROM AUTHOR]

Published

2024

3. Marine heatwave duration and intensity interact to reduce physiological tipping points of kelp species with contrasting thermal affinities.

Author

Leathers, Tayla, King, Nathan G, Foggo, Andy, and Smale, Dan A

Subjects

MARINE heatwaves, LAMINARIA, KELPS, THERMAL stresses, SPECIES, PHYSIOLOGICAL stress

Abstract

Background and Aims Marine heatwaves (MHWs) are widely recognized as pervasive drivers of ecosystem change, yet our understanding of how different MHW properties mediate ecological responses remains largely unexplored. Understanding MHW impacts on foundation species is particularly important, given their structural role in communities and ecosystems. Methods We simulated a series of realistic MHWs with different levels of intensity (Control: 14 °C, Moderate: 18 °C, Extreme: 22 °C) and duration (14 or 28 d) and examined responses of two habitat-forming kelp species in the southwest UK. Here, Laminaria digitata reaches its trailing edge and is undergoing a range contraction, whereas Laminaria ochroleuca reaches its leading edge and is undergoing a range expansion. Key Results For both species, sub-lethal stress responses induced by moderate-intensity MHWs were exacerbated by longer duration. Extreme-intensity MHWs caused dramatic declines in growth and photosynthetic performance, and elevated bleaching, which were again exacerbated by longer MHW duration. Stress responses were most pronounced in L. ochroleuca , where almost complete tissue necrosis was observed by the end of the long-duration MHW. This was unexpected given the greater thermal safety margins assumed with leading edge populations. It is likely that prolonged exposure to sub-lethal thermal stress exceeded a physiological tipping point for L. ochroleuca , presumably due to depletion of internal reserves. Conclusions Overall, our study showed that exposure to MHW profiles projected to occur in the region in the coming decades can have significant deleterious effects on foundation kelp species, regardless of their thermal affinities and location within respective latitudinal ranges, which would probably have consequences for entire communities and ecosystems. [ABSTRACT FROM AUTHOR]

Published

2024

4. Marine heatwaves and decreased light availability interact to erode the ecophysiological performance of habitat‐forming kelp species.

Author

Bass, Alissa V., Smith, Kathryn E., and Smale, Dan A.

Subjects

MARINE heatwaves, LAMINARIA, EFFECT of human beings on climate change, KELPS, WATER quality, SPECIES, HEAT waves (Meteorology), TURBIDITY

Abstract

Coastal marine ecosystems are threatened by a range of anthropogenic stressors, operating at global, local, and temporal scales. We investigated the impact of marine heatwaves (MHWs) combined with decreased light availability over two seasons on the ecophysiological responses of three kelp species (Laminaria digitata, L. hyperborea, and L. ochroleuca). These species function as important habitat‐forming foundation organisms in the northeast Atlantic and have distinct but overlapping latitudinal distributions and thermal niches. Under low‐light conditions, summertime MHWs induced significant declines in biomass, blade surface area, and Fv/Fm values (a measure of photosynthetic efficiency) in the cool‐water kelps L. digitata and L. hyperborea, albeit to varying degrees. Under high‐light conditions, all species were largely resistant to simulated MHW activity. In springtime, MHWs had minimal impacts and in some cases promoted kelp performance, while reduced light availability resulted in lower growth rates. While some species were negatively affected by summer MHWs under low‐light conditions (particularly L. digitata), they were generally resilient to MHWs under high‐light conditions. As such, maintaining good environmental quality and water clarity may increase resilience of populations to summertime MHWs. Our study informs predictions of how habitat‐forming foundation kelp species will be affected by interacting, concurrent stressors, typical of compound events that are intensifying under anthropogenic climate change. [ABSTRACT FROM AUTHOR]

Published

2023

5. The value of ecosystem services in global marine kelp forests.

Author

Eger, Aaron M., Marzinelli, Ezequiel M., Beas-Luna, Rodrigo, Blain, Caitlin O., Blamey, Laura K., Byrnes, Jarrett E. K., Carnell, Paul E., Choi, Chang Geun, Hessing-Lewis, Margot, Kim, Kwang Young, Kumagai, Naoki H., Lorda, Julio, Moore, Pippa, Nakamura, Yohei, Pérez-Matus, Alejandro, Pontier, Ondine, Smale, Dan, Steinberg, Peter D., and Vergés, Adriana

Subjects

ECOSYSTEM services, VALUE (Economics), MACROCYSTIS, KELPS, MARINE service, CLIMATE change mitigation, LAMINARIA, NUTRIENT cycles

Abstract

While marine kelp forests have provided valuable ecosystem services for millennia, the global ecological and economic value of those services is largely unresolved. Kelp forests are diminishing in many regions worldwide, and efforts to manage these ecosystems are hindered without accurate estimates of the value of the services that kelp forests provide to human societies. Here, we present a global estimate of the ecological and economic potential of three key ecosystem services - fisheries production, nutrient cycling, and carbon removal provided by six major forest forming kelp genera (Ecklonia, Laminaria, Lessonia, Macrocystis, Nereocystis, and Saccharina). Each of these genera creates a potential value of between $64,400 and $147,100/hectare each year. Collectively, they generate between $465 and $562 billion/year worldwide, with an average of $500 billion. These values are primarily driven by fisheries production (mean $29,900, 904 Kg/Ha/year) and nitrogen removal ($73,800, 657 Kg N/Ha/year), though kelp forests are also estimated to sequester 4.91 megatons of carbon from the atmosphere/year highlighting their potential as blue carbon systems for climate change mitigation. These findings highlight the ecological and economic value of kelp forests to society and will facilitate better informed marine management and conservation decisions. By combining fisheries, nutrient, and carbon cycling data, this synthesis suggests that marine kelp forests, a dominant but often undescribed habitat, provide services with a potential value of $111,000/ha/year and a global yearly value of $500 billion. [ABSTRACT FROM AUTHOR]

Published

2023

6. Consistency and Variation in the Kelp Microbiota: Patterns of Bacterial Community Structure Across Spatial Scales.

Author

King, Nathan G., Moore, Pippa J., Thorpe, Jamie M., and Smale, Dan A.

Subjects

BACTERIAL communities, KELPS, COMMUNITIES, MICROBIAL communities, LAMINARIA, SACCHARINA

Abstract

Kelp species are distributed along ~ 25% of the world's coastlines and the forests they form represent some of the world's most productive and diverse ecosystems. Like other marine habitat–formers, the associated microbial community is fundamental for host and, in turn, wider ecosystem functioning. Given there are thousands of bacteria-host associations, determining which relationships are important remains a major challenge. We characterised the associated bacteria of two habitat-forming kelp species, Laminaria hyperborea and Saccharina latissima, from eight sites across a range of spatial scales (10 s of metres to 100 s of km) in the northeast Atlantic. We found no difference in diversity or community structure between the two kelps, but there was evidence of regional structuring (across 100 s km) and considerable variation between individuals (10 s of metres). Within sites, individuals shared few amplicon sequence variants (ASVs) and supported a very small proportion of diversity found across the wider study area. However, consistent characteristics between individuals were observed with individual host communities containing a small conserved "core" (8–11 ASVs comprising 25 and 32% of sample abundances for L. hyperborea and S. latissima, respectively). At a coarser taxonomic resolution, communities were dominated by four classes (Planctomycetes, Gammaproteobacteria, Alphaproteobacteria and Bacteroidia) that made up ~ 84% of sample abundances. Remaining taxa (47 classes) made up very little contribution to overall abundance but the majority of taxonomic diversity. Overall, our study demonstrates the consistent features of kelp bacterial communities across large spatial scales and environmental gradients and provides an ecologically meaningful baseline to track environmental change. [ABSTRACT FROM AUTHOR]

Published

2023

7. Development and Diversity of Epibiont Assemblages on Cultivated Sugar Kelp (Saccharina latissima) in Relation to Farming Schedules and Harvesting Techniques.

Author

Corrigan, Sophie, Brown, A. Ross, Tyler, Charles R., Wilding, Catherine, Daniels, Carly, Ashton, Ian G. C., and Smale, Dan A.

Subjects

AGRICULTURE, HARVESTING, MACROCYSTIS, KELPS, SACCHARINA, MARINE algae culture, AMPHIPODA, CRUSTACEA

Abstract

Seaweed farming in Europe is growing and may provide environmental benefits, including habitat provisioning, coastal protection, and bioremediation. Habitat provisioning by seaweed farms remains largely unquantified, with previous research focused primarily on the detrimental effects of epibionts, rather than their roles in ecological functioning and ecosystem service provision. We monitored the development and diversity of epibiont assemblages on cultivated sugar kelp (Saccharina latissima) at a farm in Cornwall, southwest UK, and compared the effects of different harvesting techniques on epibiont assemblage structure. Increases in epibiont abundance (PERMANOVA, F4,25 = 100.56, p < 0.001) and diversity (PERMANOVA, F4,25 = 27.25, p < 0.001) were found on cultivated kelps over and beyond the growing season, reaching an average abundance of >6000 individuals per kelp plant with a taxonomic richness of ~9 phyla per kelp by late summer (August). Assemblages were dominated by crustaceans (mainly amphipods), molluscs (principally bivalves) and bryozoans, which provide important ecological roles, despite reducing crop quality. Partial harvesting techniques maintained, or increased, epibiont abundance and diversity beyond the farming season; however, these kelp plants were significantly fouled and would not be commercially viable in most markets. This paper improves understanding of epibiont assemblage development at European kelp farms, which can inform sustainable, ecosystem-based approaches to aquaculture. [ABSTRACT FROM AUTHOR]

Published

2023

8. Examining the production, export, and immediate fate of kelp detritus on open‐coast subtidal reefs in the Northeast Atlantic.

Author

Smale, Dan A., Pessarrodona, Albert, King, Nathan, and Moore, Pippa J.

Subjects

*DETRITUS, *PLANT biomass, *KELPS, *MACROCYSTIS, *CARBON sequestration, *CARBON cycle, *LAMINARIA, *REEFS, *COASTS

Abstract

Kelp forests are highly productive coastal habitats and are emerging as important sources of organic matter for other ecosystems. Although their high rates of productivity and detritus release are expected to lead to substantial export of carbon, few studies have actually quantified rates of export or the persistence of detritus. We addressed this in eight subtidal kelp forests (Laminaria hyperborea) spanning the length (9° of latitude) of the United Kingdom. Specifically, we quantified detritus production, retention/export from source and adjacent habitats, and in situ decomposition rates. Detritus released via both dislodgment of whole plants and "May cast" shedding of old growth was highly variable between sites with greatest values recorded in our colder, northern sites. This was attributable to greater plant size biomass in northern regions, rather than plant density or dislodgement rates. On average, the annual production of kelp detritus was 4706 ± 700 g FW m−2 yr−1 or 301 g C m−2 yr−1. Low retention of detritus within the kelp forest and adjacent sedimentary habitats indicated very high rates of export (> 98% across the study). A litterbag experiment showed detritus may take > 4 months to decompose, suggesting great potential for long distance transport. Overall, our findings suggest that L. hyperborea forests export large amounts of detritus subsidies across their range, which can potentially shape the structure of distant benthic communities and constitute a relevant and largely overlooked flux in the coastal carbon cycle, which may represent an important component of natural carbon sequestration. [ABSTRACT FROM AUTHOR]

Published

2022

9. Kelp carbon sink potential decreases with warming due to accelerating decomposition.

Author

Filbee-Dexter, Karen, Feehan, Colette J., Smale, Dan A., Krumhansl, Kira A., Augustine, Skye, de Bettignies, Florian, Burrows, Michael T., Byrnes, Jarrett E. K., Campbell, Jillian, Davoult, Dominique, Dunton, Kenneth H., Franco, João N., Garrido, Ignacio, Grace, Sean P., Hancke, Kasper, Johnson, Ladd E., Konar, Brenda, Moore, Pippa J., Norderhaug, Kjell Magnus, and O'Dell, Alasdair

Subjects

KELPS, CLIMATE change, OCEAN temperature, CARBON cycle, CARBON sequestration, COASTS, HABITATS

Abstract

Cycling of organic carbon in the ocean has the potential to mitigate or exacerbate global climate change, but major questions remain about the environmental controls on organic carbon flux in the coastal zone. Here, we used a field experiment distributed across 28° of latitude, and the entire range of 2 dominant kelp species in the northern hemisphere, to measure decomposition rates of kelp detritus on the seafloor in relation to local environmental factors. Detritus decomposition in both species were strongly related to ocean temperature and initial carbon content, with higher rates of biomass loss at lower latitudes with warmer temperatures. Our experiment showed slow overall decomposition and turnover of kelp detritus and modeling of coastal residence times at our study sites revealed that a significant portion of this production can remain intact long enough to reach deep marine sinks. The results suggest that decomposition of these kelp species could accelerate with ocean warming and that low-latitude kelp forests could experience the greatest increase in remineralization with a 9% to 42% reduced potential for transport to long-term ocean sinks under short-term (RCP4.5) and long-term (RCP8.5) warming scenarios. However, slow decomposition at high latitudes, where kelp abundance is predicted to expand, indicates potential for increasing kelp-carbon sinks in cooler (northern) regions. Our findings reveal an important latitudinal gradient in coastal ecosystem function that provides an improved capacity to predict the implications of ocean warming on carbon cycling. Broad-scale patterns in organic carbon decomposition revealed here can be used to identify hotspots of carbon sequestration potential and resolve relationships between carbon cycling processes and ocean climate at a global scale. Cycling of organic carbon in the ocean has the potential to mitigate or exacerbate global climate change, but how is this influenced by the environment? A field experiment at 35 sites spanning 12 geographic regions allows measurement of decomposition rates and changes in carbon content of kelp detritus in coastal habitats, revealing a strong influence of an ocean-temperature gradient on decomposition. [ABSTRACT FROM AUTHOR]

Published

2022

10. Examining the influence of regional‐scale variability in temperature and light availability on the depth distribution of subtidal kelp forests.

Author

Smith, Kathryn E., Moore, Pippa J., King, Nathan G., and Smale, Dan A.

Subjects

PLANT biomass, KELPS, MACROCYSTIS, LAMINARIA, PLANT spacing, WATER quality, TEMPERATURE

Abstract

Foundation species play a disproportionate role in maintaining biodiversity and ecosystem functioning. Improved understanding of how environmental factors influence the distribution and population structure of foundation species therefore contributes to management and conservation of entire ecosystems. We surveyed subtidal kelp forests within four regions of the U.K., distributed over 9° of latitude and a mean sea temperature gradient of ~ 2.5°C. Our aims were: (1) to examine relationships between light availability and the structure and depth distribution of Laminaria hyperborea populations and (2) to determine whether depth‐related patterns were consistent across regions with different temperature regimes. We recorded marked depth‐related shifts in structure with decreasing light levels strongly correlated with declines in kelp density, cover, plant biomass, standing biomass, plant length, and age. We also recorded an effect of latitude; populations at our two colder, northernmost regions exhibited greater wet weight and length and higher standing biomass than populations in the warmer southern regions when under similar or even reduced light conditions, indicating an interactive effect of latitude, most likely related to temperature variability. We show that shifts in kelp population structure along depth gradients are strongly driven by light availability, although regional variability in the strength and nature of these relationships may be promoted by other factors such as temperature. Maximum depth penetration, standing biomass, plant density, and plant weight are useful indicators of light availability and, over time, could be monitored to detect changes in the quality of the overlying water column. [ABSTRACT FROM AUTHOR]

Published

2022

11. The intensity of kelp harvesting shapes the population structure of the foundation species Lessonia trabeculata along the Chilean coastline.

Author

Gouraguine, Adam, Moore, Pippa, Burrows, Michael T., Velasco, Eliana, Ariz, Luis, Figueroa-Fábrega, Luis, Muñoz-Cordovez, Rodrigo, Fernandez-Cisternas, Italo, Smale, Dan, and Pérez-Matus, Alejandro

Subjects

MACROCYSTIS, FOREST management, KELPS, FOREST conservation, SUPPLY & demand, COASTS, VOLCANIC soils

Abstract

Kelp are foundation species that support high levels of biodiversity and, either directly or indirectly provide a wide range of ecological goods and services to human society. In recent decades, due to the high demand for kelp-derived products such as alginate, commercial wild harvesting has increased, leading to declines of kelp biomass in some regions. Chile accounts for 40% of the global kelp harvest, with the subtidal kelp, Lessonia trabeculata being one of the main target species. Currently, however, there is a lack of information on how different degrees of harvesting intensity, governed by distinct management regimes and their enforcement influences L. trabeculata populations. Here we examined the effect different management regimes, characterised by distinct levels of exploitation of kelp and kelp-associated fauna, have on L. trabeculata density and morphology along ~ 1600 km of the Chilean coastline. The findings demonstrated that harvesting intensity likely influences both L. trabeculata density and morphology. Juvenile density of L. trabeculata was five times higher in the most harvesting-affected areas, while kelp morphology values, including holdfast diameter, number of stipes and total length, were always higher in the less-intensively harvested areas. Our study suggests that different degrees of protection can influence density and morphology of subtidal L. trabeculata populations, which in turn has important implications for the conservation of the kelp forest ecosystems and management of this important fishery. [ABSTRACT FROM AUTHOR]

Published

2021

12. Patterns and drivers of understory macroalgal assemblage structure within subtidal kelp forests.

Author

Smale, Dan A., Epstein, Graham, Hughes, Esther, Mogg, Andrew O. M., and Moore, Pippa J.

Subjects

LAMINARIA, KELPS, OCEAN temperature, CORALLINE algae, KELP bed ecology, KNOWLEDGE gap theory

Abstract

Kelp species are found along ~ 25% of the world's coastlines, where they provide myriad of ecological goods and services. However, compared with many other terrestrial and marine vegetated ecosystems, kelp forests have been critically understudied in many regions, leading to pressing knowledge gaps that hinder management and conservation efforts. We conducted a large-scale survey of understorey macroalgae within subtidal kelp forests dominated by Laminaria hyperborea at 12 sites, nested within 4 regions in the United Kingdom (UK). Regions spanned ~ 9° in latitude and encompassed a gradient in average sea surface temperature of ~ 2.5 °C. We employed a combination of traditional hand-harvesting of quadrat samples and a novel 3D photogrammetry technique to quantify crustose coralline algae. The structure of understorey macroalgal assemblages was highly variable but showed clear partitioning at the spatial scales of both regions and sites. At the regional-scale, we observed a general increase in richness, diversity and biomass from north to south, most likely due to biogeographical context, ocean climate and the structure and composition of overlying kelp canopies. Site level variation was most likely driven by concurrent variability in wave exposure and kelp canopy structure. Our study shows that understorey macroalgal assemblages represent a rich and abundant component of kelp forests in the northeast Atlantic, with high biodiversity value that warrant conservation measures. As these kelp forest ecosystems are structured by multiple physical and biological processes, current and predicted environmental change will likely alter the diversity and composition of understorey macroalgal assemblages. [ABSTRACT FROM AUTHOR]

Published

2020

13. Multiple‐scale interactions structure macroinvertebrate assemblages associated with kelp understory algae.

Author

Bué, Mathilde, Smale, Dan A., Natanni, Giulia, Marshall, Helen, Moore, Pippa J., and Beger, Maria

Subjects

*KELPS, *ALGAE, *LAMINARIA, *BOTANY, *ECOLOGICAL niche, *MARINE algae

Abstract

Aim: Kelp forests provide habitat and food that supports a high diversity of flora and fauna. While numerous studies have described macroinvertebrates associated with kelp blades, stipes and holdfasts, a key kelp forest microhabitat, epilithic understory algae, remains poorly studied. Here, we used a macroecological approach and artificial seaweed units (ASUs) to explore the effects of ocean climate, wave exposure and habitat complexity on understory algal associated macroinvertebrate assemblages within Laminaria hyperborea forests in the United Kingdom. Location: 9° latitudinal gradient along the north and west coasts of the United Kingdom. Methods: Replicate ASUs comprising four different habitat complexities were deployed under mature L. hyperborea at 2 sites (along a wave exposure gradient, separated by km) within each of 4 locations (separated by 100s km) nested within two regions (warm and cold, spanning 9° of latitude). After 5 months in situ, the ASUs were collected and macroinvertebrates were identified to species level and enumerated. Results: Habitat complexity and wave exposure both influenced macroinvertebrate assemblage structure, but results also showed clear effects of ocean climate, with macroinvertebrate assemblages differing between warm and cool regions, primarily driven by higher diversity and evenness in the warmer region and greater abundance in the cooler region. Main conclusions: Predicted warming and a shift to less complex turf‐forming algal assemblages are likely to alter the structure of macroinvertebrate assemblages associated with understory algae, with potential implications for kelp forest food web dynamics. [ABSTRACT FROM AUTHOR]

Published

2020

14. Hierarchical genetic structuring in the cool boreal kelp, Laminaria digitata: implications for conservation and management.

Author

King, Nathan G, McKeown, Niall J, Smale, Dan A, Bradbury, Sunny, Stamp, Thomas, Jüterbock, Alexander, Egilsdóttir, Hrönn, Groves, Emily A, and Moore, Pippa J

Subjects

LAMINARIA, KELPS, ENVIRONMENTAL indicators, GENE flow, THERMAL stresses

Abstract

Kelp are foundation species threatened by ongoing warming trends and increased harvesting pressure. This emphasizes the need to study genetic structure over various spatial scales to resolve demographic and genetic processes underpinning resilience. Here, we investigate the genetic diversity in the kelp, Laminaria digitata , in previously understudied southern (trailing-edge) and northern (range-centre) regions in the Northeastern Atlantic Ocean. There was strong hierarchical spatial structuring with significantly lower genetic variability and gene flow among southern populations. As these span the area of the Hurd's deep Pleistocene glacial refuge, the current low variation likely reflects a fraction of previous levels that has been eroded at the species southern edge. Northern variability and private alleles also indicate contributions from cryptic northern glacial refugia. Contrary to expectations of a positive relationship between neutral genetic diversity and resilience, a previous study reported individuals from the same genetically impoverished southern populations to be better adapted to cope with thermal stress than northern individuals. This not only demonstrates that neutral genetic diversity may be a poor indicator of resilience to environmental stress but also confirms that extirpation of southern populations will result in the loss of evolved, not just potential, adaptations for resilience. [ABSTRACT FROM AUTHOR]

Published

2020

15. Impacts of ocean warming on kelp forest ecosystems.

Author

Smale, Dan A.

Subjects

*MACROCYSTIS, *KELPS, *OCEAN, *POPULATION, *ECOSYSTEMS, *ECOSYSTEM services

Abstract

Summary: Kelp forests represent some of the most diverse and productive habitats on Earth, and provide a range of ecosystem goods and services on which human populations depend. As the distribution and ecophysiology of kelp species is strongly influenced by temperature, recent warming trends in many regions have been linked with concurrent changes in kelp populations, communities and ecosystems. Over the past decade, the number of reports of ocean warming impacts on kelp forests has risen sharply. Here, I synthesise recent studies to highlight general patterns and trends. While kelp responses to climate change vary greatly between ocean basins, regions and species, there is compelling evidence to show that ocean warming poses an unequivocal threat to the persistence and integrity of kelp forest ecosystems in coming decades. [ABSTRACT FROM AUTHOR]

Published

2020

16. Intra‐Annual Variability in Responses of a Canopy Forming Kelp to Cumulative Low Tide Heat Stress: Implications for Populations at the Trailing Range Edge.

Author

Hereward, Hannah F. R., King, Nathan G., and Smale, Dan A.

Subjects

LAMINARIA, EFFECT of human beings on climate change, KELPS, PHYSIOLOGICAL stress, TIDES

Abstract

Anthropogenic climate change is driving the redistribution of species at a global scale. For marine species, populations at trailing edges often live very close to their upper thermal limits and, as such, poleward range contractions are one of the most pervasive effects of ongoing and predicted warming. However, the mechanics of processes driving such contractions are poorly understood. Here, we examined the response of the habitat forming kelp, Laminaria digitata, to realistic terrestrial heatwave simulations akin to those experienced by intertidal populations persisting at the trailing range edge in the northeast Atlantic (SW England). We conducted experiments in both spring and autumn to determine temporal variability in the effects of heatwaves. In spring, heatwave scenarios caused minimal stress to L. digitata but in autumn all scenarios tested resulted in tissue being nonviable by the end of each assay. The effects of heatwave scenarios were only apparent after consecutive exposures, indicating erosion of resilience over time. Monthly field surveys corroborated experimental evidence as the prevalence of bleaching (an indication of physiological stress and tissue damage) in natural populations was greatest in autumn and early winter. Overall, our data showed that L. digitata populations in SW England persist close to their upper physiological limits for emersion stress in autumn. As the intensity of extreme warming events is likely to increase with anthropogenic climate change, thermal conditions experienced during periods of emersion will soon exceed physiological thresholds and will likely induce widespread mortality and consequent changes at the population level. [ABSTRACT FROM AUTHOR]

Published

2020

17. Author Correction: The value of ecosystem services in global marine kelp forests.

Author

Eger, Aaron M., Marzinelli, Ezequiel M., Beas-Luna, Rodrigo, Blain, Caitlin O., Blamey, Laura K., Byrnes, Jarrett E. K., Carnell, Paul E., Choi, Chang Geun, Hessing-Lewis, Margot, Kim, Kwang Young, Kumagai, Naoki H., Lorda, Julio, Moore, Pippa, Nakamura, Yohei, Pérez-Matus, Alejandro, Pontier, Ondine, Smale, Dan, Steinberg, Peter D., and Vergés, Adriana

Subjects

ECOSYSTEM services, MARINE service, KELPS, MACROCYSTIS, FISHERIES, AGRICULTURAL economics

Abstract

In particular, we thank Johanna Zimmerhackel, Cristina Pineiro-Corbeira, Kjell-Magnus Norderhaug, Karen Filbee-Dexter, and Thomas Wernberg for their thinking and work on fisheries dependencies in kelp forest ecosystems'. Available at: https://www.nespmarinecoastal.edu.au/project-1-9-final-report-2/'and 'Zimmerhackel et al. 2023 - Zimmerhackel, J. S., Pineiro-Corbeira, C., Norderhaug, K. M., Filbee-Dexter, K., & Wernberg, T. (2023) Dependency of commercial fisheries on kelp forests for valuation of ecosystem services. [Extracted from the article]

Published

2023

18. Community development on subtidal temperate reefs: the influences of wave energy and the stochastic recruitment of a dominant kelp.

Author

Smale, Dan A., Wernberg, Thomas, and Vance, Thomas

Subjects

*CORAL reefs & islands, *ALGAE ecology, *STOCHASTIC analysis, *KELPS, *BRYOZOA, *ECOLOGICAL disturbances

Abstract

Patterns of community development on subtidal rocky reefs in Marmion Lagoon, southwest Australia, were investigated with a settlement panel experiment. We tested the hypothesis that community development would differ between outer and inner reefs lines, because exposure to swell and wave energy was significantly greater on outer reefs. Following a 14-month deployment, we recorded pronounced variability between panels and sites, but did not detect any effect of wave exposure on the structure of panel assemblages. Subsequent data exploration suggested the importance of the presence of kelp recruits ( Ecklonia radiata) in structuring the overall assemblage. Panel assemblages with kelp recruits were significantly different in structure to those without, principally because of greater space coverage of encrusting coralline algae and less coverage of red turfing algae, spirorbids, and bryozoans. Mature E. radiata act as ecosystem engineers in subtidal rocky reefs in southwest Australia. Our results suggested the importance of young, recruiting kelps in determining patterns of early community development on newly available hard substrata. [ABSTRACT FROM AUTHOR]

Published

2011

19. Assemblage turnover and taxonomic sufficiency of subtidal macroalgae at multiple spatial scales

Author

Smale, Dan A., Kendrick, Gary A., and Wernberg, Thomas

Subjects

*ALGAE, *BIOLOGICAL classification, *BIODIVERSITY, *KELPS, *ECOLOGY, *BIOLOGICAL variation, *BIOTIC communities, *MULTIVARIATE analysis

Abstract

Abstract: Spatial variability in the structure of subtidal macroalgal assemblages in southwest Australia was examined at multiple spatial scales using a three-factor hierarchal design. Spatial extents ranged from metres (between quadrats) to many hundreds of kilometres (between regions), and the study encompassed >2000km of temperate coastline. In addition, the influence of taxonomic resolution, from species level data to class level, on spatial patterns was investigated to assess the potential evolutionary timescales of the pattern and for developing cost effective regionally applicable surrogates for biodiversity monitoring. Almost 300 species were identified from 14 sites, representing considerable biodiversity and a significant subset of the total benthic macroalgal diversity in the region (∼1000 species). Multivariate variability was significant at all spatial scales examined, but most prominent at smallest spatial scales, regardless of taxonomic resolution. Assemblage and species turnover was pronounced at scales of metres to hundreds of metres. Generally, small scale patchiness was a ubiquitous pattern for all individual taxa examined, regardless of taxonomic resolution, while variability at the scale of 10s of km was less important. Even so, differences in spatial variability between taxa were observed, and ecological and historical reasons for such differences are proposed. Taxonomic aggregation to family level had minimal effect on spatial patterns, but aggregation to order level led to changes in some aspects of patterns of assemblage structure. The unique and speciose macroalgal assemblages on subtidal reefs in southwest Australia are shaped by a complex array of historical and contemporary processes that act at multiple spatial (and temporal) scales. Understanding the relative importance of these processes requires that further manipulative and correlative work is conducted across a range of ecologically-important spatial scales. [Copyright &y& Elsevier]

Published

2010

20. Ecological performance differs between range centre and trailing edge populations of a cold-water kelp: implications for estimating net primary productivity.

Author

King, Nathan G., Moore, Pippa J., Pessarrodona, Albert, Burrows, Michael T., Porter, Joanne, Bue, Mathilde, and Smale, Dan A.

Subjects

LAMINARIA, PRIMARY productivity (Biology), CARBON cycle, KELPS, BIOMASS

Abstract

Kelp forests are extensive, widely distributed and highly productive. However, despite their importance, reliable estimates of net primary productivity (NPP) are currently unknown for most species and regions. In particular, how performance and subsequent NPP change throughout a species range is lacking. Here, we attempted to resolve this by examining growth and performance of the boreal kelp, Laminaria digitata, from range centre and trailing edge regions in the United Kingdom. During the peak growth season (March/April), range-centre individuals were up to three times heavier and accumulated biomass twice as fast as their trailing-edge counterparts. This was not apparent during the reduced growth season (August/September), when populations within both regions had similar biomass profiles. In total, annual NPP estimates were considerably lower for trailing-edge (181 ± 34 g C m−2 year−1) compared to range-centre (344 ± 33 g C m−2 year−1) populations. Our first-order UK estimates of total standing stock and NPP for L. digitata suggest this species makes a significant contribution to coastal carbon cycling. Further work determining the ultimate fate of this organic matter is needed to understand the overall contribution of kelp populations to regional and global carbon cycles. Nevertheless, we highlight the need for large-scale sampling across multiple populations and latitudes to accurately evaluate kelp species' contributions to coastal carbon cycling. [ABSTRACT FROM AUTHOR]

Published

2020

21. Inconspicuous impacts: Widespread marine invader causes subtle but significant changes in native macroalgal assemblages.

Author

Epstein, Graham, Foggo, Andrew, and Smale, Dan A.

Subjects

LAMINARIA, ECOLOGICAL impact, INTRODUCED species, UNDARIA pinnatifida, KELPS, BIOMASS

Abstract

Invasive species are a major cause of global biodiversity decline; however, under certain environmental settings, some invaders can co‐exist with native species with little detectable impact. Even so, in many cases the realized impact of invasive species may be underestimated due to procedural or temporal constraints related to observation or experimentation. The invasive kelp, Undaria pinnatifida, is considered to have limited impact on macroalgal assemblages on rocky reefs of the northeast Atlantic, although this is largely based on correlative or observational findings. Here, a high intensity press‐removal manipulation was maintained for two years at a heavily invaded, Undaria dominated study site to improve current understanding of the potential impacts of Undaria on native macroalgal assemblages. Population and community effects as well as organismal performance effects (biochemical measures of condition and stress) were examined to investigate the potential for cryptic impacts. Where Undaria was removed, there was no difference in understory macroalgal assemblages; however, for three native kelp species, significant increases in abundance, biomass, and condition were recorded. The two perennial native kelps (Laminaria digitata and Saccharina latissima) exhibited small and inconsistent increases in all impact metrics where Undaria was removed, and therefore, the overall effects of Undaria on their populations are likely to be negligible. However, the native annual kelp, Saccorhiza polyschides, was consistently and significantly higher (3–6 times when compared to controls) in abundance and biomass under reduced competition from Undaria and exhibited significant changes in organismal‐level responses which indicated improved condition of sporophytes. Whether the potential replacement of this native species could alter ecosystem functioning requires further investigation. Targeted long‐term manipulative experiments can identify previously undetected impacts of invasive species in coastal ecosystems. Caution must be used when broadly classifying invasive species as having limited ecological impacts on recipient communities. Subtle impacts manifesting at the organism, population, and community levels should be considered before robust management prioritizations can be made. [ABSTRACT FROM AUTHOR]

Published

2019

22. Mechanistic simulations of kelp populations in a dynamic landscape of light, temperature, and winter storms.

Author

Szewczyk, Tim M., Moore, Pippa J., Smale, Dan A., Adams, Thomas, and Burrows, Michael T.

Subjects

*LAMINARIA, *MACROCYSTIS, *CARBON sequestration in forests, *KELPS, *WINTER storms, *CLIMATE extremes, *WINTER, *HEAT waves (Meteorology), *POPULATION dynamics

Abstract

• A stochastic simulated environment drove process-based kelp population dynamics. • Frond and stipe dynamics were interlinked to allow season-specific light competition. • Fluctuations in light and winter storms induced opposing 6-yr population oscillations. • Detritus production was heavily skewed across years, increasingly so at greater depth. • More empirical work on survival and recruitment is needed, particularly for heatwaves. Kelp forests are widely distributed across the coastal ocean, support high levels of biodiversity and primary productivity, and underpin a range of ecosystem services. Laminaria hyperborea is a forest-forming kelp species in the Northeast Atlantic that alters the local environment, providing biogenic structure for a diversity of associated organisms. Populations are strongly affected by light availability, temperature, and storm-related disturbance. We constructed a stage-based, two-season model of L. hyperborea populations along the coast of Great Britain and Ireland to predict biomass across a range of depths, drawing on extensive surveys and data from the literature. Population dynamics were driven by wave exposure, historic winter storm intensity, and simulated interannual variation in temperature and depth-attenuated light intensity, with density-dependent competition for light and space. High biomass was predicted in shallow depths across the domain on suitable substrate, with populations extending deeper in the north and west where light penetration was greater. Detritus production was heavily skewed across years, particularly at greater depths, with 10 % of years comprising more than 50 % of detritus on average below 10 m depth. Annual fluctuations in light and storm intensity produced opposing population oscillations with a ∼6-year period persisting for up to a decade but diminishing sharply with depth. Interannual variation in temperature had minimal impact. Biomass was most sensitive to survival and settlement rates, with negligible sensitivity to individual growth rates. This model highlights the need for an improved understanding of canopy and subcanopy mortality, particularly regarding increasingly frequent heatwaves. Estimations of kelp forest contributions to carbon sequestration should consider the high variability among years or risk underestimating the potential value of kelp forests. Process-based simulations of populations with realistic spatiotemporal environmental variability are a valuable approach to forecasting biotic responses to an increasingly extreme climate. [ABSTRACT FROM AUTHOR]

Published

2024

23. Evidence for different thermal ecotypes in range centre and trailing edge kelp populations.

Author

King, Nathan G., McKeown, Niall J., Smale, Dan A., Wilcockson, David C., Hoelters, Laura, Groves, Emily A., Stamp, Thomas, and Moore, Pippa J.

Subjects

*LAMINARIA, *KELPS, *THERMAL stresses, *GENE flow, *CLIMATE change, *POPULATION genetics

Abstract

Determining and predicting species' responses to climate change is a fundamental goal of contemporary ecology. When interpreting responses to warming species are often treated as a single physiological unit with a single species-wide thermal niche. This assumes that trailing edge populations are most vulnerable to warming, as it is here where a species' thermal niche will be exceeded first. Local adaptation can, however, result in narrower thermal tolerance limits for local populations, so that similar relative increases in temperature can exceed local niches throughout a species range. We used a combination of common garden temperature heat-shock experiments (8–32 °C) and population genetics (microsatellites) to identify thermal ecotypes of northeast Atlantic range centre and trailing edge populations of the habitat-forming kelp, Laminaria digitata. Using upregulation of hsp70 as an indicator of thermal stress, we found that trailing edge populations were better equipped to tolerate acute temperature shocks. This pattern was consistent across seasons, indicating that between-population variability is fixed. High genetic structuring was also observed, with range centre and trailing edge populations representing highly distinct clusters with little gene flow between regions. Taken together, this suggests the presence of distinct thermal ecotypes for L. digitata, which may mean responses to future warming are more complex than linear range contractions. • Warmer trailing edge kelp populations are more thermotolerant than cooler range centre populations. • Differences were fixed across season and population's exhibit restricted gene flow, indicating local adaptation. • Local adaptation may make species responses to future climate changes more complex than previously thought. [ABSTRACT FROM AUTHOR]

Published

2019

24. Seasonal variability in the population structure of a habitat-forming kelp and a conspicuous gastropod grazer: Do blue-rayed limpets (Patella pellucida) exert top-down pressure on Laminaria digitata populations?

Author

Hereward, Hannah F.R., Foggo, Andrew, Hinckley, Sarah L., Greenwood, Joanna, and Smale, Dan A.

Subjects

*KELPS, *BROWN algae, *HABITATS, *REEFS, *GASTROPODA

Abstract

Kelp forests dominate wave-exposed rocky reefs along mid-to-high latitude coastlines. The distribution and structure of kelp forests is determined by a range of physical and biological processes operating across varying spatial and temporal scales. Many kelp forest systems are strongly influenced by herbivory, and overgrazing by urchins, in particular, is a recognised driver of kelp forest distribution and structure. The ecological significance of herbivory by kelp-associated limpets, however, has received far less attention. We quantified seasonal population dynamics of Laminaria digitata and the blue-rayed limpet Patella pellucida on two rocky shores in North Devon, UK. For the kelp, we quantified density, percent cover, morphology, standing biomass, elongation and erosion rates, and C:N and phenol content. For the limpet, we measured abundance, biomass, and morphology, and for the limpet-kelp interaction we recorded observable grazing damage on the blade. Both populations exhibited typical seasonality with kelp growth rates peaking in spring, maximum standing biomass observed in summer and increased erosion rates in autumn. Blue-rayed limpets, which were recorded within kelp holdfasts as well as on stipes and blades, recruited in spring and peaked in abundance in late summer, with length and biomass generally increasing through the year. The area of kelp blade damaged by limpet grazing was low (a maximum of ~4%) and relatively consistent throughout the year, and the number and size of grazing scars exhibited limited seasonality. Survey data from other L. digitata populations in the UK suggested that the limpet abundances recorded in North Devon were comparable with other sites in the region. Although the impact of P. pellucida grazing on kelp blade tissue appears to be minimal, further research into cavity grazing by limpets on the stipe and in the holdfast is needed to formerly assess the impact these cavities have on dislodgement and fracture rates, especially when increased occupancy and grazing coincides with periods of intense wave action. We conclude that while herbivory is an important processes acting upon many kelp populations globally, the grazing pressure exerted by P. pellucida on L. digitata is unlikely to strongly influence population structure on UK rocky shores. [ABSTRACT FROM AUTHOR]

Published

2018

25. The influence of light and temperature on detritus degradation rates for kelp species with contrasting thermal affinities.

Author

Frontier, Nadia, Mulas, Martina, Foggo, Andrew, and Smale, Dan A.

Subjects

*DETRITUS, *KELPS, *MACROCYSTIS, *CARBON cycle, *CARBON sequestration, *TERRITORIAL waters, *FAST reactors

Abstract

Kelp detritus fuels coastal food webs and may play an important role as a source of organic matter for natural carbon sequestration. Here, we conducted ex situ and in situ manipulations to evaluate the role of temperature and light availability in the breakdown of detrital material. We examined degradation rates of two North Atlantic species with contrasting thermal affinities: the 'warm water' kelp Laminaria ochroleuca and the 'cool water' Laminaria hyperborea. Detrital fragments were exposed to different temperatures in controlled conditions and across an in situ gradient of depth, corresponding to light availability. Overall, degradation rates (i.e. changes in F v /F m and biomass) were faster under lower light conditions and at higher temperatures, although responses were highly variable between plants and fragments. Crucially, as L. ochroleuca degraded faster than L. hyperborea under some conditions, a climate-driven substitution of the 'cool' for the 'warm' kelp, which has been observed at some locations, will likely increase detritus turnover rates and alter detrital pathways in certain environments. More importantly, ocean warming combined with decreased coastal water quality will likely accelerate kelp detritus decomposition, with potential implications for coastal food webs and carbon cycles. • Kelp detritus an important for inshore food webs and carbon cycling. • Decomposition of kelp detritus was fastest under low light and high temperature. • Decomposition was highly variable between fragments and individuals. • Climate driven range shifts, warming and coastal darkening may hasten turnover. • Implications for trophic connectivity and carbon transfer between habitats. [ABSTRACT FROM AUTHOR]

Published

2022