Your search keyword '"Robert J. Mrowicki"' showing total 8 results

1. Corallina (Corallinales, Rhodophyta) from Tristan da Cunha and the Falkland Islands: implications for South Atlantic biogeography

Author

Robert J. Mrowicki, Paul Brickle, Juliet Brodie, Sue Scott, Leanne A. Melbourne, and Stephen J. Russell

Subjects

0106 biological sciences, Ecology, 010604 marine biology & hydrobiology, Biogeography, Corallina, Plant Science, Aquatic Science, Biology, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences

Abstract

A molecular and morphological taxonomic study of Corallina (Corallinales, Rhodophyta) from Tristan da Cunha and the Falkland Islands revealed Corallina chamberlainiae J.Brodie & R.Mrowicki sp. nov....

Published

2020

2. Key Roles of Dipterocarpaceae, Bark Type Diversity and Tree Size in Lowland Rainforests of Northeast Borneo—Using Functional Traits of Lichens to Distinguish Plots of Old Growth and Regenerating Logged Forests

Author

Pat Wolseley, Glen Reynolds, Paul Eggleton, Holger Thüs, Daniel Carpenter, Robert J Mrowicki, Charles Santhanaraju Vairappan, and Gothamie Weerakoon

Subjects

0106 biological sciences, Microbiology (medical), Dipterocarpaceae, forest degradation, Rainforest, 010603 evolutionary biology, 01 natural sciences, Microbiology, Article, Genus, Virology, Bark (sound), lichenised fungi, parasitic diseases, Lichen, lcsh:QH301-705.5, Sabah, geography, geography.geographical_feature_category, biology, Ecology, Logging, Community structure, Maliau, forest assessment, Old-growth forest, biology.organism_classification, SAFE, lcsh:Biology (General), Danum, 010606 plant biology & botany

Abstract

Many lowland rainforests in Southeast Asia are severely altered by selective logging and there is a need for rapid assessment methods to identify characteristic communities of old growth forests and to monitor restoration success in regenerating forests. We have studied the effect of logging on the diversity and composition of lichen communities on trunks of trees in lowland rainforests of northeast Borneo dominated by Dipterocarpaceae. Using data from field observations and vouchers collected from plots in disturbed and undisturbed forests, we compared a taxonomy-based and a taxon-free method. Vouchers were identified to genus or genus group and assigned to functional groups based on sets of functional traits. Both datasets allowed the detection of significant differences in lichen communities between disturbed and undisturbed forest plots. Bark type diversity and the proportion of large trees, particularly those belonging to the family Dipterocarpaceae, were the main drivers of lichen community structure. Our results confirm the usefulness of a functional groups approach for the rapid assessment of tropical lowland rainforests in Southeast Asia. A high proportion of Dipterocarpaceae trees is revealed as an essential element for the restoration of near natural lichen communities in lowland rainforests of Southeast Asia.

Published

2021

3. Life-history strategies of the rock hind grouper Epinephelus adscensionis at Ascension Island

Author

K. J. Downes, Judith Brown, Paul Brickle, E. T. Nolan, Andrew J. Richardson, Robert J. Mrowicki, Nicola Weber, Sam B. Weber, Z. Shcherbich, and A. Arkhipkin

Subjects

0106 biological sciences, education.field_of_study, Range (biology), 010604 marine biology & hydrobiology, media_common.quotation_subject, Population, Marine reserve, 04 agricultural and veterinary sciences, Aquatic Science, Biology, 01 natural sciences, Life history theory, Fishery, medicine.anatomical_structure, Abundance (ecology), 040102 fisheries, medicine, 0401 agriculture, forestry, and fisheries, Sexual maturity, Reproduction, education, Ecology, Evolution, Behavior and Systematics, Otolith, media_common

Abstract

Epinephelus adscensionis sampled from Ascension Island, South Atlantic Ocean, exhibits distinct life-history traits, including larger maximum size and size at sexual maturity than previous studies have demonstrated for this species in other locations. Otolith analysis yielded a maximum estimated age of 25 years, with calculated von Bertalanffy growth parameters of: L∞ = 55·14, K = 0·19, t0 = −0·88. Monthly gonad staging and analysis of gonad-somatic index (IG) provide evidence for spawning from July to November with an IG peak in August (austral winter), during which time somatic growth is also suppressed. Observed patterns of sexual development were supportive of protogyny, although further work is needed to confirm this. Mean size at sexual maturity for females was 28·9 cm total length (LT; 95% C.I. 27·1–30·7 cm) and no females were found >12 years and 48·0 cm LT, whereas all confirmed males sampled were mature, >35·1 cm LT with an age range from 3 to 18 years. The modelled size at which 50% of individuals were male was 41·8 cm (95% C.I. 40·4–43·2 cm). As far as is known, this study represents the first comprehensive investigation into the growth and reproduction of E. adscensionis at its type locality of Ascension Island and suggests that the population may be affected less by fisheries than elsewhere in its range. Nevertheless, improved regulation of the recreational fishery and sustained monitoring of abundance, length frequencies and life-history parameters are needed to inform long-term management measures, which could include the creation of marine reserves, size or temporal catch limits and stricter export controls.

Published

2017

4. Biological and physical characterization of the seabed surrounding Ascension Island from 100–1000 m

Author

Chester J. Sands, Oliver T. Hogg, Robert J. Mrowicki, Simon A. Morley, Peter Enderlein, Vladimir Laptikhovsky, Sam B. Weber, David K. A. Barnes, Nicola Weber, Andrew J. Richardson, K. J. Downes, Joyce C. Brown, E. T. Nolan, Paul Brickle, and E. Gowland

Subjects

0106 biological sciences, Rugosity, biology, 010604 marine biology & hydrobiology, Aquatic Science, Caryophyllia, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Black coral, Paleontology, Lophelia, Oceanography, Benthic zone, Bathymetry, Marine ecosystem, 14. Life underwater, Geology, Seabed

Abstract

Recent studies have improved our understanding of nearshore marine ecosystems surrounding Ascension Island (central Atlantic Ocean), but little is known about Ascension's benthic environment beyond its shallow coastal waters. Here, we report the first detailed physical and biological examination of the seabed surrounding Ascension Island at 100–1000 m depth. Multibeam swath data were used to map fine scale bathymetry and derive seabed slope and rugosity indices for the entire area. Water temperature and salinity profiles were obtained from five Conductivity, Temperature, Depth (CTD) deployments, revealing a spatially consistent thermocline at 80 m depth. A camera lander (Shelf Underwater Camera System; SUCS) provided nearly 400 images from 21 sites (100 m transects) at depths of 110–1020 m, showing high variability in the structure of benthic habitats and biological communities. These surveys revealed a total of 95 faunal morphotypes (mean richness >14 per site), complemented by 213 voucher specimens constituting 60 morphotypes collected from seven targeted Agassiz trawl (AGT) deployments. While total faunal density (maximum >300 m−2 at 480 m depth) increased with rugosity, characteristic shifts in multivariate assemblage structure were driven by depth and substratum type. Shallow assemblages (~100 m) were dominated by black coral (Antipatharia sp.) on rocky substrata, cup corals (Caryophyllia sp.) and sea urchins (Cidaris sp.) were abundant on fine sediment at intermediate depths (250–500 m), and shrimps (Nematocarcinus spp.) were common at greater depths (>500 m). Other ubiquitous taxa included serpulid and sabellid polychaetes and brittle stars (Ophiocantha sp.). Cold-water corals (Lophelia cf. pertusa), indicative of Vulnerable Marine Ecosystems (VMEs) and representing substantial benthic carbon accumulation, occurred in particularly dense aggregations at

Published

2017

5. Consistent effects of consumer species loss across different habitats

Author

Robert J. Mrowicki, Christine A. Maggs, and Nessa E. O'Connor

Subjects

geography, geography.geographical_feature_category, biology, Ecology, Biodiversity, Intertidal zone, biology.organism_classification, Rocky shore, Gibbula umbilicalis, Habitat, Ecosystem, Species richness, Tide pool, Ecology, Evolution, Behavior and Systematics

Abstract

Our knowledge of the eff ects of consumer species loss on ecosystem functioning is limited by a paucity of manipulative fi eld studies, particularly those that incorporate inter-trophic eff ects. Further, given the ongoing transformation of natural habitats by anthropogenic activities, studies should assess the relative importance of biodiversity for ecosystem processes across diff erent environmental contexts by including multiple habitat types. We tested the context-dependency of the eff ects of consumer species loss by conducting a 15-month fi eld experiment in two habitats (mussel beds and rock pools) on a temperate rocky shore, focussing on the responses of algal assemblages following the single and combined removals of key gastropod grazers ( Patella vulgata , P. ulyssiponensis , Littorina littorea and Gibbula umbilicalis ). In both habitats, the removal of limpets resulted in a larger increase in macroalgal richness than that of either L. littorea or G. umbilicalis . Further, by the end of the study, macroalgal cover and richness were greater following the removal of multiple grazer species compared to single species removals. Despite substantial diff erences in physical properties and the structure of benthic assemblages between mussel beds and rock pools, the eff ects of grazer loss on macroalgal cover, richness, evenness and assemblage structure were remarkably consistent across both habitats. Th ere was, however, a transient habitat-dependent eff ect of grazer removal on macroalgal assemblage structure that emerged after three months, which was replaced by non-interactive eff ects of grazer removal and habitat after 15 months. Th is study shows that the eff ects of the loss of key consumers may transcend large abiotic and biotic diff erences between habitats in rocky intertidal systems. While it is clear that consumer diversity is a primary driver of ecosystem functioning, determining its relative importance across multiple contexts is necessary to understand the consequences of consumer species loss against a background of environmental change.

Published

2015

6. Does wave exposure determine the interactive effects of losing key grazers and ecosystem engineers?

Author

Robert J. Mrowicki, Christine A. Maggs, and Nessa E. O'Connor

Subjects

Shore, geography, geography.geographical_feature_category, biology, Ecology, Limpet, Ephemeral key, Intertidal zone, Aquatic Science, biology.organism_classification, Ecosystem engineer, Fishery, Barnacle, Rocky shore, Ecosystem, Ecology, Evolution, Behavior and Systematics

Abstract

The consequences of biodiversity loss in the face of environmental change remain difficult to predict, given the complexity of interactions among species and the context-dependency of their functional roles within ecosystems. Predictions may be enhanced by studies testing how the interactive effects of species loss from different functional groups vary with important environmental drivers. On rocky shores, limpets and barnacles are recognised as key grazers and ecosystem engineers, respectively. Despite the large body of research examining the combined effects of limpet and barnacle removal, it is unclear how their relative importance varies according to wave exposure, which is a dominant force structuring intertidal communities. We tested the responses of algal communities to the removal of limpets and barnacles on three sheltered and three wave-exposed rocky shores on the north coast of Ireland. Limpet removal resulted in a relative increase in microalgal biomass on a single sheltered shore only, but led to the enhanced accumulation of ephemeral macroalgae on two sheltered shores and one exposed shore. On average, independently of wave exposure or shore, ephemeral macroalgae increased in response to limpet removal, but only when barnacles were removed. On two sheltered shores and one exposed shore, however, barnacles facilitated the establishment of fucoid macroalgae following limpet removal. Therefore, at the scale of this study, variability among individual shores was more important than wave exposure per se in determining the effect of limpet removal and its interaction with that of barnacles. Overall, these findings demonstrate that the interactive effects of losing key species from different functional groups may not vary predictably according to dominant environmental factors.

Published

2014

7. Temporal variability of a single population can determine the vulnerability of communities to pertubations

Author

Robert J. Mrowicki, Nessa E. O'Connor, and Ian Donohue

Subjects

0106 biological sciences, education.field_of_study, Ecology, biology, 010604 marine biology & hydrobiology, Field experiment, Population, Community structure, Littorina, Global change, Plant Science, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Population density, Species evenness, Ecosystem, education, Ecology, Evolution, Behavior and Systematics

Abstract

Summary Many aspects of global change affect the variability of species population densities, in terms of both the magnitude and pattern of density fluctuations. However, we have limited empirical understanding of the consequences of altered temporal variability of populations, independent of changes in their mean densities, for the structure and stability of natural communities and the responses of ecosystems to additional stressors. We used a field experiment to test the effects of altered temporal variability of a single consumer species on community structure and stability. Specifically, we manipulated the temporal variability of populations of a key grazer species on temperate rocky shores (Littorina littorea), independent of their mean densities, over 12 months and measured the responses of algal communities in terms of multiple measures of structure and stability. Further, we tested whether consumer variability determined the effects of an additional perturbation, elevated sedimentation, on algal communities. The effects of sedimentation on the structure and stability of algal communities were regulated by the temporal variability of consumer populations. In particular, elevated sedimentation led to a decrease in algal evenness, but only when consumer densities were held constant, and resulted in a decrease in the rate of local algal extinctions, but only when consumer temporal variability was increased. Independent of sedimentation, increased temporal variability of consumer populations led to a shift in algal assemblage structure and affected the stability of algal communities in terms of both compositional turnover and resistance to environmental perturbations. Further, these effects varied according to the temporal pattern of consumer density fluctuations. Synthesis. Our results demonstrate that changes in the temporal variability of a single species can modify multiple aspects of both the structure and stability of natural communities and alter their responses to perturbations. However, the effects of consumer variability cannot be predicted without knowledge of the temporal pattern of density fluctuations. These findings have profound implications for our understanding of the effects of multiple disturbances on ecosystems.

Published

2016

8. Wave action modifies the effects of consumer diversity and warming on algal assemblages

Author

Nessa E. O'Connor and Robert J. Mrowicki

Subjects

Biomass (ecology), Food Chain, Environmental change, biology, Ecology, Effects of global warming on oceans, Biodiversity, biology.organism_classification, Seaweed, Global Warming, Gibbula umbilicalis, Disturbance (ecology), Water Movements, SDG 13 - Climate Action, Environmental science, Animals, Species richness, Herbivory, SDG 14 - Life Below Water, Ecology, Evolution, Behavior and Systematics, Trophic level

Abstract

To understand the consequences of biodiversity loss, it is necessary to test how biodiversity-ecosystem functioning relationships may vary with predicted environmental change. In particular, our understanding will be advanced by studies addressing the interactive effects of multiple stressors on the role of biodiversity across trophic levels. Predicted increases in wave disturbance and ocean warming, together with climate-driven range shifts of key consumer species, are likely to have profound impacts on the dynamics of coastal marine communities. We tested whether wave action and temperature modified the effects of gastropod grazer diversity (Patella vulgata, Littorina littorea and Gibbula umbilicalis) on algal assemblages in experimental rock pools. The presence or absence of L. littorea appeared to drive changes in microalgal and macroalgal biomass and macroalgal assemblage structure. Macroalgal biomass also decreased with increasing grazer species richness, but only when wave action was enhanced. Further, independently of grazer diversity, wave action and temperature had interactive effects on macroalgal assemblage structure. Warming also led to a reversal of grazer-macroalgal interaction strengths from negative to positive, but only when there was no wave action. Our results show that hydrodynamic disturbance can exacerbate the effects of changing consumer diversity, and may also disrupt the influence of other environmental stressors on key consumer-resource interactions. These findings suggest that the combined effects of anticipated abiotic and biotic change on the functioning of coastal marine ecosystems, although difficult to predict, may be substantial.

Published

2015