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2. Patterns of Carbon and Nitrogen Accumulation in Seagrass (Posidonia oceanica) Meadows of the Eastern Mediterranean Sea.

Author

Apostolaki, Eugenia T., Lavery, Paul S., Litsi‐Mizan, Victoria, Serrano, Eduard, Inostroza, Karina, Gerakaris, Vasilis, Dailianis, Thanos, Glampedakis, Julius, Holitzki, Tara, Johnson, Erik, Mateo, Miguel A., and Serrano, Oscar

Subjects
POSIDONIA oceanica, CARBON cycle, CARBON sequestration, SEAGRASSES, SEAGRASS restoration, POSIDONIA
Abstract

The variability in stocks and accumulation rates of organic carbon (Corg), nitrogen (N), and carbonate (CaCO3) was studied in fifteen Posidonia oceanica meadows spread throughout the South Aegean Sea (Greece). In addition, the abiotic and biotic drivers determining the pattern of variability in the accumulation rates were assessed by exploring the influence of sediment characteristics, seagrass traits, and environmental settings. The meadows supported on average (±STDEV) 14.6 ± 5.0 kg Corg m−2, 0.47 ± 0.17 kg N m−2, and 249 ± 210 kg CaCO3 m−2 in the top meter of their sediments, with mean accumulation rates over the last 500 years of 33.6 ± 23.6 g Corg m−2 yr−1, 1.00 ± 0.62 g N m−2 yr−1, and 405 ± 336 g CaCO3 m−2 yr−1 across sites. A redundancy analysis (RDA) explained 70% of the variation in Corg, N, and CaCO3 accumulation rates, with three sediment characteristics (i.e., sediment Corg:N and Corg:Cinorg ratios and P. oceanica contribution to the sediment Corg pool) emerging as the primary set of factors shaping the accumulation of matter, followed by seagrass traits (i.e., leaf biomass and rhizome elongation) and environmental variables (i.e., suspended organic matter). The high degree of variability within the region emphasizes the need for fine‐scale assessments to understand the local conditions influencing sequestration. Our findings underscored the critical role of seagrass meadows in carbon and nitrogen sequestration in the region, urging conservation efforts to protect these ecosystems and prevent potential losses of stored carbon and nitrogen following seagrass degradation. Plain Language Summary: In the present study, we explored the abiotic and biotic factors influencing the accumulation patterns of carbon, nitrogen, and carbonate in 15 seagrass (Posidonia oceanica) meadows across the South Aegean Sea (Greece). Sediment characteristics (i.e., sediment Corg:N and Corg:Cinorg ratios and P. ocenica contribution to the sediment Corg pool) mainly drove the pattern of carbon, nitrogen, and carbonate accumulation, with seagrass traits (i.e., leaf biomass and rhizome elongation) and environmental conditions (i.e., suspended organic matter) contributing to a lesser extent. Overall, seagrass meadows play a crucial role in storing carbon and nitrogen in the studied region, serving as important natural sinks, and thus, protecting these ecosystems is important to prevent the loss of these stored elements. Additionally, understanding the factors that shape the variability in Posidonia oceanica storage capacity is crucial for management and conservation efforts. Key Points: Seagrass (Posidonia oceanica) meadows of the South Aegean Sea (Greece) represent important natural sinks for organic carbon, nitrogen, and carbonate.The accumulation pattern of organic carbon, nitrogen, and carbonate in the underlying seagrass sediments was mainly driven by sediment characteristics, followed by seagrass traits and environmental conditions.Fine‐scale assessments are crucial for understanding the local factors shaping the storage capacity of seagrass meadows to support management decisions. [ABSTRACT FROM AUTHOR]

Published
2024
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3. Escarpments within Mediterranean seagrass posidonia oceanica meadows increase habitat heterogeneity and structural complexity enhancing fish diversity and biomass

Author

Gomis, Enric, Ballesteros, Enric, Bernabeu, Irene, Inostroza, Karina, Mateo, Miguel A., Serrano, Oscar, Gomis, Enric, Ballesteros, Enric, Bernabeu, Irene, Inostroza, Karina, Mateo, Miguel A., and Serrano, Oscar

Abstract

Seagrass meadows provide important ecosystem services including carbon sequestration, coastal protection from erosion, and sustained biodiversity and fisheries thereby improving the wellbeing and livelihoods of coastal communities. The erosion of millenary deposits of intertwined roots and rhizomes of Posidonia results in the formation of three-dimensional structures named escarpments that constitute a biogenic reef habitat. However, the natural history of seagrass escarpments including their formation processes and their role as habitat for reef fauna and flora remains poorly understood. This research located and characterized Posidonia oceanica escarpments in Menorca (Balearic Islands) and compared structural complexity and fish assemblages among seagrass escarpments, seagrass meadows, rocky substrates and bare sand with emphasis on its role as habitat and shelter for typical rocky fish. Fish abundance and biomass were similar between seagrass escarpments and rocky substrates (P > 0.05), but significantly lower in seagrass meadows (P < 0.001). The large number of caves found along seagrass escarpments provide shelter to fish, including species only associated to rocky substrates. Seagrass meadows form a rather homogenous habitat within their canopy, but the presence of seagrass escarpments enhances habitat heterogeneity and structural complexity along with fish abundance and biomass at the seascape level. This study enhances understanding on the ecological importance of seagrass escarpments.

Published
2024

4. Seagrass posidonia escarpments support high diversity and biomass of rocky reef fishes

Author

Serrano Gras, Oscar, Inostroza, Karina, Hyndes, Glenn, Friedlander, Alan M., Serrano, Eduard, Rae, Caitlin, Ballesteros, Enric, Serrano Gras, Oscar, Inostroza, Karina, Hyndes, Glenn, Friedlander, Alan M., Serrano, Eduard, Rae, Caitlin, and Ballesteros, Enric

Abstract

Although seagrass meadows form a relatively homogenous habitat, escarpments, which form three-dimensional structures and originate from the erosion of seagrass peat, can provide important habitat for reef fishes. Here, we compare fish assemblages and habitat structural complexity among seagrass Posidonia australis escarpments and canopies, as well as limestone reef habitats, to understand the role of seagrass escarpments as reef fish habitat in Shark Bay, Western Australia. The total number of fish species, fish biomass, and top predator biomass were significantly higher in seagrass escarpments and reef habitats than in seagrass canopies due to lower habitat structural complexity and thus becoming suitable habitats for predators and prey in the latter. Both seagrass escarpment and reef habitats host similar assemblages of top predators and carnivorous fishes, such as Epinephelus coioides, Microcanthus strigatus, and Choerodon schoenleinii, that were absent in seagrass canopies. Seagrass escarpments provide an alternative habitat for reef fishes comparable to rocky reefs, which are limited in Shark Bay. Caves and ledges within the escarpments support 13.4 Mg of fish and 3.6 Mg of top predator species of commercial interest within the Shark Bay World Heritage Site. Additional research is needed to further understand the ecological importance of seagrass escarpments in enhancing fish biomass and biodiversity, as reproduction grounds or refuge from predators, and to investigate the role of meadow edges in ecosystem function.

Published
2023

5. Seagrass Posidonia escarpments support high diversity and biomass of rocky reef fishes [dataset]

Author

Serrano, Oscar, Inostroza, Karina, Hyndes, Glenn A., Friedlander, Alan M., Serrano, Eduard, Rae, Caitlin, Ballesteros, Enric, Serrano, Oscar, Inostroza, Karina, Hyndes, Glenn A., Friedlander, Alan M., Serrano, Eduard, Rae, Caitlin, and Ballesteros, Enric

Abstract

This database contains metadata for the study sites in Serrano et al. 2023 (Ecosphere): - Latitude and longitude data for the survey transects conducted in Posidonia australis escarpments and canopies, and reef in Big Lagoon, Faure Island and Peron Peninsula in Shark Bay (Western Australia) Habitat characteristics, including abiotic factors (habitat height, cave volume, structural complexity) and biotic variables (total species, species richness, fish density, total biomass, biomass of apex predators, carnivores, hervibores, detritivores and planktivores).

Published
2023

6. Seagrass Posidonia escarpments support high diversity and biomass of rocky reef fishes

Author

Ministerio de Ciencia e Innovación (España), Agencia Estatal de Investigación (España), Serrano, Oscar, Inostroza, Karina, Hyndes, Glenn, Friedlander, Alan M., Serrano, Eduard, Rae, Caitlin, Ballesteros, Enric, Ministerio de Ciencia e Innovación (España), Agencia Estatal de Investigación (España), Serrano, Oscar, Inostroza, Karina, Hyndes, Glenn, Friedlander, Alan M., Serrano, Eduard, Rae, Caitlin, and Ballesteros, Enric

Abstract

Although seagrass meadows form a relatively homogenous habitat, escarpments, which form three-dimensional structures and originate from the erosion of seagrass peat, can provide important habitat for reef fishes. Here, we compare fish assemblages and habitat structural complexity among seagrass Posidonia australis escarpments and canopies, as well as limestone reef habitats, to understand the role of seagrass escarpments as reef fish habitat in Shark Bay, Western Australia. The total number of fish species, fish biomass, and top predator biomass were significantly higher in seagrass escarpments and reef habitats than in seagrass canopies due to lower habitat structural complexity and thus becoming suitable habitats for predators and prey in the latter. Both seagrass escarpment and reef habitats host similar assemblages of top predators and carnivorous fishes, such as Epinephelus coioides, Microcanthus strigatus, and Choerodon schoenleinii, that were absent in seagrass canopies. Seagrass escarpments provide an alternative habitat for reef fishes comparable to rocky reefs, which are limited in Shark Bay. Caves and ledges within the escarpments support 13.4 Mg of fish and 3.6 Mg of top predator species of commercial interest within the Shark Bay World Heritage Site. Additional research is needed to further understand the ecological importance of seagrass escarpments in enhancing fish biomass and biodiversity, as reproduction grounds or refuge from predators, and to investigate the role of meadow edges in ecosystem function.

Published
2023

7. Dataset Serrano et al 2023 Ecosphere Seagrass Posidonia escarpments support high diversity and biomass of rocky reef fishes

Author

Agencia Estatal de Investigación (España), Ministerio de Ciencia e Innovación (España), Edith Cowan University, European Commission, Serrano, Oscar [oserrano@ceab.csic.es], Serrano, Oscar, Inostroza, Karina, Hyndes, Glenn, Friedlander, Alan M., Serrano, Eduard, Rae, Caitlin, Ballesteros, Enric, Agencia Estatal de Investigación (España), Ministerio de Ciencia e Innovación (España), Edith Cowan University, European Commission, Serrano, Oscar [oserrano@ceab.csic.es], Serrano, Oscar, Inostroza, Karina, Hyndes, Glenn, Friedlander, Alan M., Serrano, Eduard, Rae, Caitlin, and Ballesteros, Enric

Abstract

This database contains metadata for the study sites in Serrano et al. 2023 (Ecosphere): Latitude and longitude data for the survey transects conducted in Posidonia australis escarpments and canopies, and reef in Big Lagoon, Faure Island and Peron Peninsula in Shark Bay (Western Australia) This database contains data on habitat characteristics, including abiotic factors (habitat height, cave volume, structural complexity) and biotic variables (total species, species richness, fish density, total biomass, biomass of apex predators, carnivores, hervibores, detritivores and planktivores).

Published
2023

8. Global dataset on seagrass meadow structure, biomass and production

Author

Environmental Protection Authority (Australia), Edith Cowan University, Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Strydom, Simone, McCallum, Roisin, Lafratta, Anna, Webster, Chanelle, O'Dea, Caitlyn M., Said, Nicole E., Dunham, Natasha, Inostroza, Karina, Salinas, Cristian, Billinghurst, Samuel, Phelps, Charlie M., Campbell, Connor, Gorham, Connor, Bernasconi, Rachele, Frouws, Anna M., Werner, Axel, Vitelli, Federico, Puigcorbé, Viena, D'Cruz, Alexandra, McMahon, Kathryn M., Robinson, Jack, Huggett, Megan J., McNamara, Sian, Hyndes, Glenn, Serrano, Oscar, Environmental Protection Authority (Australia), Edith Cowan University, Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Strydom, Simone, McCallum, Roisin, Lafratta, Anna, Webster, Chanelle, O'Dea, Caitlyn M., Said, Nicole E., Dunham, Natasha, Inostroza, Karina, Salinas, Cristian, Billinghurst, Samuel, Phelps, Charlie M., Campbell, Connor, Gorham, Connor, Bernasconi, Rachele, Frouws, Anna M., Werner, Axel, Vitelli, Federico, Puigcorbé, Viena, D'Cruz, Alexandra, McMahon, Kathryn M., Robinson, Jack, Huggett, Megan J., McNamara, Sian, Hyndes, Glenn, and Serrano, Oscar

Abstract

Seagrass meadows provide valuable socio-ecological ecosystem services, including a key role in climate change mitigation and adaption. Understanding the natural history of seagrass meadows across environmental gradients is crucial to deciphering the role of seagrasses in the global ocean. In this data collation, spatial and temporal patterns in seagrass meadow structure, biomass and production data are presented as a function of biotic and abiotic habitat characteristics. The biological traits compiled include measures of meadow structure (e.g. percent cover and shoot density), biomass (e.g. above-ground biomass) and production (e.g. shoot production). Categorical factors include bioregion, geotype (coastal or estuarine), genera and year of sampling. This dataset contains data extracted from peer-reviewed publications published between 1975 and 2020 based on a Web of Science search and includes 11 data variables across 12 seagrass genera. The dataset excludes data from mesocosm and field experiments, contains 14 271 data points extracted from 390 publications and is publicly available on the PANGAEA® data repository (https://doi.org/10.1594/PANGAEA.929968; Strydom et al., 2021). The top five most studied genera are Zostera, Thalassia, Cymodocea, Halodule and Halophila (84 % of data), and the least studied genera are Phyllospadix, Amphibolis and Thalassodendron (2.3 % of data). The data hotspot bioregion is the Tropical Indo-Pacific (25 % of data) followed by the Tropical Atlantic (21 %), whereas data for the other four bioregions are evenly spread (ranging between 13 and 15 % of total data within each bioregion). From the data compiled, 57 % related to seagrass biomass and 33 % to seagrass structure, while the least number of data were related to seagrass production (11 % of data). This data collation can inform several research fields beyond seagrass ecology, such as the development of nature-based solutions for climate change mitigation, which include readership i

Published
2023

9. Global dataset on seagrass meadow structure, biomass and production

Author

Strydom, Simone, McCallum, Roisin, Lafratta, Anna, Webster, Chanelle L., O'Dea, Caitlyn M., Said, Nicole E., Dunham, Natasha, Inostroza, Karina, Salinas, Cristian, Billinghurst, Samuel, Phelps, Charlie M., Campbell, Connor, Gorham, Connor, Bernasconi, Rachele, Frouws, Anna M., Werner, Axel, Vitelli, Federico, Puigcorbé, Viena, D'Cruz, Alexandra, McMahon, Kathryn M., Robinson, Jack, Huggett, Megan J., McNamara, Sian, Hyndes, Glenn A., Serrano, Oscar, Strydom, Simone, McCallum, Roisin, Lafratta, Anna, Webster, Chanelle L., O'Dea, Caitlyn M., Said, Nicole E., Dunham, Natasha, Inostroza, Karina, Salinas, Cristian, Billinghurst, Samuel, Phelps, Charlie M., Campbell, Connor, Gorham, Connor, Bernasconi, Rachele, Frouws, Anna M., Werner, Axel, Vitelli, Federico, Puigcorbé, Viena, D'Cruz, Alexandra, McMahon, Kathryn M., Robinson, Jack, Huggett, Megan J., McNamara, Sian, Hyndes, Glenn A., and Serrano, Oscar

Abstract

Seagrass meadows provide valuable socio-ecological ecosystem services, including a key role in climate change mitigation and adaption. Understanding the natural history of seagrass meadows across environmental gradients is crucial to deciphering the role of seagrasses in the global ocean. In this data collation, spatial and temporal patterns in seagrass meadow structure, biomass and production data are presented as a function of biotic and abiotic habitat characteristics. The biological traits compiled include measures of meadow structure (e.g. percent cover and shoot density), biomass (e.g. above-ground biomass) and production (e.g. shoot production). Categorical factors include bioregion, geotype (coastal or estuarine), genera and year of sampling. This dataset contains data extracted from peer-reviewed publications published between 1975 and 2020 based on a Web of Science search and includes 11 data variables across 12 seagrass genera. The dataset excludes data from mesocosm and field experiments, contains 14271 data points extracted from 390 publications and is publicly available on the PANGAEA® data repository (10.1594/PANGAEA.929968; Strydom et al., 2021). The top five most studied genera are Zostera, Thalassia, Cymodocea, Halodule and Halophila (84 % of data), and the least studied genera are Phyllospadix, Amphibolis and Thalassodendron (2.3 % of data). The data hotspot bioregion is the Tropical Indo-Pacific (25 % of data) followed by the Tropical Atlantic (21 %), whereas data for the other four bioregions are evenly spread (ranging between 13 and 15 % of total data within each bioregion). From the data compiled, 57 % related to seagrass biomass and 33 % to seagrass structure, while the least number of data were related to seagrass production (11 % of data). This data collation can inform several research fields beyond seagrass ecology, such as the development of nature-based solutions for climate change mitigation, which include readership interested in blue

Published
2023

11. Global dataset on seagrass meadow structure, biomass, production and reproduction

Author

Strydom, Simone, primary, Webster, Chanelle L., additional, O'Dea, Caitlyn M., additional, Said, Nicole E., additional, McCallum, Roisin, additional, Inostroza, Karina, additional, Salinas, Cristian, additional, Billinghurst, Samuel, additional, Lafratta, Anna, additional, Phelps, Charlie M., additional, Campbell, Connor, additional, Gorham, Connor, additional, Dunham, Natasha, additional, Bernasconi, Rachele, additional, Frouws, Anna M., additional, Werner, Axel, additional, Vitelli, Frederico, additional, Puigcorbé, Viena, additional, D'Cruz, Alexandra, additional, McMahon, Kathryn M., additional, Robinson, Jack, additional, Huggett, Megan J., additional, McNamara, Sian, additional, Hyndes, Glenn A., additional, and Serrano, Oscar, additional

Published
2022
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13. Quantifying Patterns in Fish Assemblages and Habitat Use Along a Deep Submarine Canyon-Valley Feature Using a Remotely Operated Vehicle

Author

Saunders, Ben, Galaiduk, Ronen, Inostroza, Karina, Myers, Elisabeth M, Goetze, Jordan S, Westera, Mark, Twomey, Luke, McCorry, Denise, Harvey, Euan S, Saunders, Ben, Galaiduk, Ronen, Inostroza, Karina, Myers, Elisabeth M, Goetze, Jordan S, Westera, Mark, Twomey, Luke, McCorry, Denise, and Harvey, Euan S

Abstract

The aim of this study was to document the composition and distribution of deep-water fishes associated with a submarine canyon-valley feature. A work-class Remotely Operated Vehicle (ROV) fitted with stereo-video cameras was used to record fish abundance and assemblage composition along transects at water depths between 300 and 900 metres. Three areas (A, B, C) were sampled along a submarine canyon-valley feature on the continental slope of tropical north-western Australia. Water conductivity/salinity, temperature, and depth were also collected using an ROV mounted Conductivity Temperature and Depth (CTD) instrument. Multivariate analyses were used to investigate fish assemblage composition, and species distribution models were fitted using boosted regression trees. These models were used to generate predictive maps of the occurrence of four abundant taxa over the survey areas. CTD data identified three water masses, tropical surface water, South Indian Central Water (centred ∼200 m depth), and a lower salinity Antarctic Intermediate Water (AAIW) ∼550 m depth. Distinct fish assemblages were found among areas and between canyon-valley and non-canyon habitats. The canyon-valley habitats supported more fish and taxa than non-canyon habitats. The fish assemblages of the deeper location (∼700–900 m, Area A) were different to that of the shallower locations (∼400–700 m, Areas B and C). Deep-water habitats were characterised by a Paraliparis (snail fish) species, while shallower habitats were characterised by the family Macrouridae (rat tails). Species distribution models highlighted the fine-scale environmental niche associations of the four most abundant taxa. The survey area had a high diversity of fish taxa and was dominated by the family Macrouridae. The deepest habitat had a different fish fauna to the shallower areas. This faunal break can be attributed to the influence of AAIW. ROVs provide a platform on which multiple instruments can be mounted and complementary s

Published
2021

14. Global dataset on seagrass meadow structure, biomass, production and reproduction.

Author

Strydom, Simone, Webster, Chanelle L., O'Dea, Caitlyn M., Said, Nicole E., McCallum, Roisin, Inostroza, Karina, Salinas, Cristian, Billinghurst, Samuel, Lafratta, Anna, Phelps, Charlie M., Campbell, Connor, Gorham, Connor, Dunham, Natasha, Bernasconi, Rachele, Frouws, Anna M., Werner, Axel, Vitelli, Federico, Puigcorbé, Viena, D'Cruz, Alexandra, and McMahon, Kathryn M.

Subjects
SEAGRASSES, SEAGRASS restoration, CLIMATE change mitigation, BIOMASS, ZOSTERA, FLOWER seeds, ECOSYSTEM services
Abstract

Seagrass meadows provide valuable socio-ecological ecosystem services, including a key role in climate change mitigation and adaption. Understanding the natural history of seagrass meadows across environmental gradients is crucial to decipher the role of seagrasses in the global ocean. In this data collation, spatial and temporal patterns in seagrass meadow structure, biomass, production and reproduction data are presented as a function of biotic and abiotic habitat characteristics. The biological traits compiled include measures of meadow structure (e.g., percent cover and shoot density), biomass (e.g., above-ground biomass), production (e.g., shoot production), and reproduction effort (e.g., flowering intensity and seed bank density). Categorical factors include bioregion, geotype (coastal or estuarine), genera and year of sampling. This dataset contains data extracted from peer-reviewed publications published between 1975 and 2020 based on a Web of Science search, and includes 15 data variables across 12 seagrass genera. The top four most studied genera are Zostera, Thalassia, Halophila and Cymodocea (80% of data), and the least studied genera are Phyllospadix, Amphibolis and Thalassodendron (2.3% of data). The data hotspot bioregion is the Tropical Indo Pacific (25% of data), whereas data for the other five bioregions are evenly spread (ranging between 13 and 16% of total data within each bioregion). From the data compiled, 39% related to seagrass biomass, while the least number of data were related to seagrass production (10% of data). This data collation can inform several research fields beyond seagrass ecology, such as the development of nature-based solutions for climate change mitigation, which include readership interested in blue carbon, engineering, fisheries, global change, conservation and policy. [ABSTRACT FROM AUTHOR]

Published
2022
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16. epower: An r package for power analysis of Before-After-Control-Impact (BACI) designs

Author

Fisher, Rebecca, Shiell, Glenn R., Sadler, Rohan J., Inostroza, Karina, Shedrawi, George, Holmes, Thomas H., McGree, James M., Fisher, Rebecca, Shiell, Glenn R., Sadler, Rohan J., Inostroza, Karina, Shedrawi, George, Holmes, Thomas H., and McGree, James M.

Abstract

Before-After-Control-Impact (BACI) designs are widespread in environmental science, however their implicitly hierarchical nature complicates the evaluation of statistical power. Here, we describe epower, an r package for assessing statistical power of BACI designs. The package uses Bayesian statistical methods via the r-package INLA to fit the appropriate hierarchical model to user supplied pilot survey data. A posterior sample is then used to build a Monte Carlo simulation to test statistical power specifically for the Before/After × Control/Impact interaction term in the BACI model. Power can be assessed for any number of user-specified effect sizes for the existing design, or across a range of levels of replication for any part of the sampling design hierarchy. The package offers a user friendly robust approach for assessing statistical power of BACI designs whilst accounting for uncertainty in parameter values within a fully generalized framework.

Published
2019

17. Seagrass Meadows Provide 3D Habitat for Reef Fish

Author

Serrano, Oscar, Serrano, Eduard, Inostroza, Karina, Lavery, Paul S., Mateo, Miguel A., and Ballesteros, Enric

Subjects
behavior, Mediterranean Sea, Marine Science, Posidonia, fish ecology, Indian Ocean, biodiversity
Abstract

For large fishes, seagrass canopies typically provide a relatively flat habitat on seabeds, but seagrasses in the genus Posidonia can provide additional habitat complexity by forming organic-rich deposits known as mats. Erosional processes can scour channels through the mats, resulting in the formation of escarpments with caves. Here we report that reef fishes, such as groupers, inhabit the caves found within mat escarpments. The characteristics of the cavities are highly variable, ranging from small-elongated holes to deep caves with large entrances. The origin of these caves (biological and/or geological) is unknown, but it is possible that fish behavior enhance their formation. Posidonia seagrass escarpments provide a complex 3D habitat for reef fish that is not provided by typical canopy structure of seagrass. Further studies are required to gain insights into the natural history of seagrass escarpments and their ecological importance.

Published
2017
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18. Polyp bail-out by the coral Astroides calycularis (Scleractinia, Dendrophylliidae)

Author

Serrano, Eduard, Coma, Rafael, Inostroza, Karina, Serrano, Oscar, Serrano, Eduard, Coma, Rafael, Inostroza, Karina, and Serrano, Oscar

Abstract

Knowledge of reproductive biology is essential for ecological studies on coral population dynamics. The azooxanthellate colonial coral Astroides calycularis is endemic to the western Mediterranean Sea and adjacent Atlantic coasts. Specimens of this species in artificial conditions, an aquarium with enclosed seawater and low food availability, appeared to show an asexual dispersal mechanism. This mechanism consisted of the detachment and release of single, skeletonless polyps from the underlying colony skeleton (i.e., polyp bail-out). While the released free-living polyps regularly showed extended tentacles and most of them survived, they did not show re-attachment to the substrate or any skeleton formation until the end of the experiment, ∼2–3 months after bail-out. Formation of new reproductive colonies, thereby the eventual completion of asexual reproduction through polyp bail-out in A. calycularis, still needs to be confirmed. In addition to sexual reproduction, polyp bail-out may constitute an alternative propagation mechanism during periods of environmental stress, thereby potentially increasing the survival rate of the parental genotype and the dispersal by drifting soft polyps.

Published
2017

20. Seagrass sediments reveal the long-term deterioration of an estuarine ecosystem [dataset]

Author

Serrano, Oscar, Lavery, Paul S., Masque, Pere, Inostroza, Karina, Bongiovanni, James, Duarte, Carlos, Serrano, Oscar, Lavery, Paul S., Masque, Pere, Inostroza, Karina, Bongiovanni, James, and Duarte, Carlos

Abstract

The database compiles published data (in Serrano et al. 2016, Global Change Biology, doi:10.1111/gcb.13195) on temporal trends in biogeochemical variables in the Posidonia australis sediment core from Oyster Harbour, Western Australia. The core studied encompasses the last 500 years of history. Data on dry bulk density, carbonate content, sedimentso.serranogras@ecu.edu.au.

Published
2016

21. Seagrass sediments reveal the long-term deterioration of an estuarine ecosystem

Author

Serrano, Oscar, Lavery, Paul S., Masqué, Pere, Inostroza, Karina, Bongiovanni, J., Duarte, Carlos M., Serrano, Oscar, Lavery, Paul S., Masqué, Pere, Inostroza, Karina, Bongiovanni, J., and Duarte, Carlos M.

Abstract

The study of a Posidonia australis sediment archive has provided a record of ecosystem dynamics and processes over the last 600 years in Oyster Harbour (SW Australia). Ecosystem shifts are a widespread phenomenon in coastal areas, and this study identifies baseline conditions and the time-course of ecological change (cycles, trends, resilience and thresholds of ecosystem change) under environmental stress in seagrass-dominated ecosystem. The shifts in the concentrations of chemical elements, carbonates, sediments <0.125 mm and stable carbon isotope signatures (d13C) of the organic matter were detected between 1850s and 1920s, whereas the shift detected in P concentration occurred several decades later (1960s). The first degradation phase (1850s–1950s) follows the onset of European settlement in Australia and was characterized by a strong increase in sediment accumulation rates and fine-grained particles, driven primarily by enhanced run-off due to land clearance and agriculture in the catchment. About 80% of total seagrass area at Oyster Harbour was lost during the second phase of environmental degradation (1960s until present). The sharp increase in P concentration and the increasing contribution of algae and terrestrial inputs into the sedimentary organic matter pool around 1960s provides compelling evidence of the documented eutrophication of the estuary and the subsequent loss of seagrass meadows. The results presented demonstrate the power of seagrass sedimentary archives to reconstruct the trajectories of anthropogenic pressures on estuarine ecosystem and the associated regime shifts, which can be used to improve the capacity of scientists and environmental managers to understand, predict and better manage ecological change in these ecosystems.

Published
2016

22. Polyp bail-out by the coral Astroides calycularis (Scleractinia, Dendrophylliidae).

Author

Serrano, Eduard, Coma, Rafel, Inostroza, Karina, and Serrano, Oscar

Abstract

Knowledge of reproductive biology is essential for ecological studies on coral population dynamics. The azooxanthellate colonial coral Astroides calycularis is endemic to the western Mediterranean Sea and adjacent Atlantic coasts. Specimens of this species in artificial conditions, an aquarium with enclosed seawater and low food availability, appeared to show an asexual dispersal mechanism. This mechanism consisted of the detachment and release of single, skeletonless polyps from the underlying colony skeleton (i.e., polyp bail-out). While the released free-living polyps regularly showed extended tentacles and most of them survived, they did not show re-attachment to the substrate or any skeleton formation until the end of the experiment, ∼2-3 months after bail-out. Formation of new reproductive colonies, thereby the eventual completion of asexual reproduction through polyp bail-out in A. calycularis, still needs to be confirmed. In addition to sexual reproduction, polyp bail-out may constitute an alternative propagation mechanism during periods of environmental stress, thereby potentially increasing the survival rate of the parental genotype and the dispersal by drifting soft polyps. [ABSTRACT FROM AUTHOR]

Published
2018
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24. Do different levels of fishing pressure, through spatial management, influence communities and ecological interactions in seagrass meadows in South Western Australia?

Author

Inostroza, Karina and Inostroza, Karina

Abstract

Marine Protected Areas (MPAs) are internationally recognised as a significant spatial management and cost-effective strategy to restore and conserve the marine ecosystems structure and function from human impact. MPAs have been declared with the aim to address a single or a set of management objectives in response to anthropogenic threats, such as fishing, which can have repercussions on biodiversity through indirect interactions or top-down control within an ecosystem or across ecosystems where consumers migrate to forage. However, this indirect impact of fishing remains poorly understood, and as a consequence, the effectiveness of MP As in conserving those ecological processes and broader biodiversity is also poorly understood. Therefore, this study investigated the potential effects of sanctuary zones (no-take MPAs) on higher-order consumers and their effects on benthic assemblage structure both on the reef and in adjacent seagrass meadows. Consumer assemblages were examined using underwater visual census (UVC) on reefs and seagrass meadows at a range of sites in sanctuary and fished zones in Marmion Marine Park (MMP) and Rottnest Island Marine Reserve (RIMP) over three seasons between July 2009 and March 2010. Epibenthic fauna and flora were also sampled using quadrats on reefs and at set distances away from reefs in adjacent Amphibolis seagrass meadows over the same period. Sanctuary zones had higher mean total abundance and biomass of fish compared to adjacent fished zones, and while not significant, there was also a trend of higher means rock lobsters abundance in sanctuary zones. However, there was a high degree of variability among sites nested in zone, and among seasons. Kingston Reefs sanctuary zone contained the highest rock lobster and fish abundance, biomass, and species richness across all seasons. In addition, there was a trend of decreasing mean abundance, biomass, and species richness of fish with increasing distance away from the reef in Amphiboli

Published
2010

25. Seagrass sediments reveal the long-term deterioration of an estuarine ecosystem

Author

Serrano, Oscar, Lavery, Paul, Masque´, Pere, Inostroza, Karina, Bongiovanni, James, Duarte, Carlos, Serrano, Oscar, Lavery, Paul, Masque´, Pere, Inostroza, Karina, Bongiovanni, James, and Duarte, Carlos

Abstract

Serrano, Oscar (04.2016). "Seagrass sediments reveal the long-term deterioration of an estuarine ecosystem". Global change biology (1354-1013), 22 (4), p. 1523-1531. Available here

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