Your search keyword '"Campbell, AH"' showing total 122 results

1. The red seaweed Asparagopsis taxiformis genome and integrative -omics analysis

Author

Zhao, M, primary, Campbell, AH, additional, ZP, Patwary, additional, Wang, T, additional, Lang, T, additional, Webb, J, additional, GC, Zuccarello, additional, Wegner, A, additional, Heyne, D, additional, McKinnie, L, additional, Pascelli, C, additional, Satoh, N, additional, Shoguchi, E, additional, NA, Paul, additional, and SF, Cummins, additional

Published

2022

2. Spatial compositional turnover varies with trophic level and body size in marine assemblages of micro- and macroorganisms

Author

Pettersen, AK, Coleman, MA, Latombe, G, Gonzalez, S, Williams, NLR, Seymour, JR, Campbell, AH, Thomas, T, Ferrari, R, Stuart-Smith, RD, Edgar, GJ, Steinberg, PD, Marzinelli, E, Pettersen, AK, Coleman, MA, Latombe, G, Gonzalez, S, Williams, NLR, Seymour, JR, Campbell, AH, Thomas, T, Ferrari, R, Stuart-Smith, RD, Edgar, GJ, Steinberg, PD, and Marzinelli, E

Abstract

Aim: Spatial compositional turnover varies considerably among co-occurring assemblages of organisms, presumably shaped by common processes related to species traits. We investigated patterns of spatial turnover in a diverse set of marine assemblages using zeta diversity, which extends traditional pairwise measures of turnover to capture the roles of both rare and common species in shaping assemblage turnover. We tested the generality of hypothesized patterns related to ecological traits and provide insights into mechanisms of biodiversity change. Location: Temperate pelagic and benthic marine assemblages of micro- and macroorganisms along south-eastern Australia (30–36° S latitude). Time period: 2008–2021. Major taxa studied: Bacteria, phytoplankton, zooplankton, fish, and macrobenthic groups. Methods: Six marine datasets spanning bacteria to fishes were collated for measures of “species” occurrence, with a 1° latitude grain. For each assemblage, ecological traits of body size, habitat and trophic level were analysed for the form and rate of decline in zeta diversity and for the species retention rate. Results: Species at higher trophic levels showed two to three times the rate of zeta diversity decline compared with lower trophic levels, indicating an increase in turnover from phytoplankton to carnivorous fishes. Body size showed the hypothesized unimodal relationship with rates of turnover for macroorganisms. Patterns of bacterial turnover contrasted with those found for macroorganisms, with the highest levels of turnover in pelagic habitats compared with benthic (kelp-associated) habitats. The shape of retention rate curves showed the importance of both rare and common species in driving turnover; a finding that would not have been observable using pairwise (beta diversity) measures of turnover. Main conclusions: Our results support theoretical predictions for phytoplankton and macroorganisms, showing an increase in turnover rate with trophic level, but these pre

Published

2022

3. Operation Crayweed

Author

Verges, A, Steinberg, PD, Marzinelli, EM, Campbell, AH, Verges, A, Steinberg, PD, Marzinelli, EM, and Campbell, AH

Published

2020

4. A horizon scan of priorities for coastal marine microbiome research

Author

Trevathan-Tackett, SM, Sherman, CDH, Huggett, MJ, Campbell, AH, Laverock, B, Hurtado-McCormick, V, Seymour, JR, Firl, A, Messer, LF, Ainsworth, TD, Negandhi, KL, Daffonchio, D, Egan, S, Engelen, AH, Fusi, M, Thomas, T, Vann, L, Hernandez-Agreda, A, Gan, HM, Marzinelli, EM, Steinberg, PD, Hardtke, L, Macreadie, PI, Trevathan-Tackett, SM, Sherman, CDH, Huggett, MJ, Campbell, AH, Laverock, B, Hurtado-McCormick, V, Seymour, JR, Firl, A, Messer, LF, Ainsworth, TD, Negandhi, KL, Daffonchio, D, Egan, S, Engelen, AH, Fusi, M, Thomas, T, Vann, L, Hernandez-Agreda, A, Gan, HM, Marzinelli, EM, Steinberg, PD, Hardtke, L, and Macreadie, PI

Abstract

© 2019, The Author(s), under exclusive licence to Springer Nature Limited. Research into the microbiomes of natural environments is changing the way ecologists and evolutionary biologists view the importance of microorganisms in ecosystem function. This is particularly relevant in ocean environments, where microorganisms constitute the majority of biomass and control most of the major biogeochemical cycles, including those that regulate Earth’s climate. Coastal marine environments provide goods and services that are imperative to human survival and well-being (for example, fisheries and water purification), and emerging evidence indicates that these ecosystem services often depend on complex relationships between communities of microorganisms (the ‘microbiome’) and the environment or their hosts — termed the ‘holobiont’. Understanding of coastal ecosystem function must therefore be framed under the holobiont concept, whereby macroorganisms and their associated microbiomes are considered as a synergistic ecological unit. Here, we evaluate the current state of knowledge on coastal marine microbiome research and identify key questions within this growing research area. Although the list of questions is broad and ambitious, progress in the field is increasing exponentially, and the emergence of large, international collaborative networks and well-executed manipulative experiments are rapidly advancing the field of coastal marine microbiome research.

Published

2019

5. A communal catalogue reveals Earth's multiscale microbial diversity

Author

Thompson, LR, Sanders, JG, McDonald, D, Amir, A, Ladau, J, Locey, KJ, Prill, RJ, Tripathi, A, Gibbons, SM, Ackermann, G, Navas-Molina, JA, Janssen, S, Kopylova, E, Vázquez-Baeza, Y, González, A, Morton, JT, Mirarab, S, Xu, ZZ, Jiang, L, Haroon, MF, Kanbar, J, Zhu, Q, Song, SJ, Kosciolek, T, Bokulich, NA, Lefler, J, Brislawn, CJ, Humphrey, G, Owens, SM, Hampton-Marcell, J, Berg-Lyons, D, McKenzie, V, Fierer, N, Fuhrman, JA, Clauset, A, Stevens, RL, Shade, A, Pollard, KS, Goodwin, KD, Jansson, JK, Gilbert, JA, Knight, R, Agosto Rivera, JL, Al-Moosawi, L, Alverdy, J, Amato, KR, Andras, J, Angenent, LT, Antonopoulos, DA, Apprill, A, Armitage, D, Ballantine, K, Bárta, J, Baum, JK, Berry, A, Bhatnagar, A, Bhatnagar, M, Biddle, JF, Bittner, L, Boldgiv, B, Bottos, E, Boyer, DM, Braun, J, Brazelton, W, Brearley, FQ, Campbell, AH ; https://orcid.org/0000-0002-2322-2840, Caporaso, JG, Cardona, C, Carroll, JL, Cary, SC, Casper, BB, Charles, TC, Chu, H, Claar, DC, Clark, RG, Clayton, JB, Clemente, JC, Cochran, A, Coleman, ML, Collins, G, Colwell, RR, Contreras, M, Crary, BB, Creer, S, Cristol, DA, Crump, BC, Cui, D, Daly, SE, Davalos, L, Dawson, RD, Defazio, J, Delsuc, F, Dionisi, HM, Dominguez-Bello, MG, Dowell, R, Dubinsky, EA, Dunn, PO, Ercolini, D, Espinoza, RE, Ezenwa, V, Thomas, Torsten ; https://orcid.org/0000-0001-9557-3001, Munroe, Paul ; https://orcid.org/0000-0002-5091-2513, Steinberg, Peter ; https://orcid.org/0000-0002-1781-0726, Marzinelli, Ezequiel ; https://orcid.org/0000-0002-3762-3389, Nielsen, Shaun ; https://orcid.org/0000-0001-6855-4227, Moitinho e Silva, Lucas, Thompson, LR, Sanders, JG, McDonald, D, Amir, A, Ladau, J, Locey, KJ, Prill, RJ, Tripathi, A, Gibbons, SM, Ackermann, G, Navas-Molina, JA, Janssen, S, Kopylova, E, Vázquez-Baeza, Y, González, A, Morton, JT, Mirarab, S, Xu, ZZ, Jiang, L, Haroon, MF, Kanbar, J, Zhu, Q, Song, SJ, Kosciolek, T, Bokulich, NA, Lefler, J, Brislawn, CJ, Humphrey, G, Owens, SM, Hampton-Marcell, J, Berg-Lyons, D, McKenzie, V, Fierer, N, Fuhrman, JA, Clauset, A, Stevens, RL, Shade, A, Pollard, KS, Goodwin, KD, Jansson, JK, Gilbert, JA, Knight, R, Agosto Rivera, JL, Al-Moosawi, L, Alverdy, J, Amato, KR, Andras, J, Angenent, LT, Antonopoulos, DA, Apprill, A, Armitage, D, Ballantine, K, Bárta, J, Baum, JK, Berry, A, Bhatnagar, A, Bhatnagar, M, Biddle, JF, Bittner, L, Boldgiv, B, Bottos, E, Boyer, DM, Braun, J, Brazelton, W, Brearley, FQ, Campbell, AH ; https://orcid.org/0000-0002-2322-2840, Caporaso, JG, Cardona, C, Carroll, JL, Cary, SC, Casper, BB, Charles, TC, Chu, H, Claar, DC, Clark, RG, Clayton, JB, Clemente, JC, Cochran, A, Coleman, ML, Collins, G, Colwell, RR, Contreras, M, Crary, BB, Creer, S, Cristol, DA, Crump, BC, Cui, D, Daly, SE, Davalos, L, Dawson, RD, Defazio, J, Delsuc, F, Dionisi, HM, Dominguez-Bello, MG, Dowell, R, Dubinsky, EA, Dunn, PO, Ercolini, D, Espinoza, RE, Ezenwa, V, Thomas, Torsten ; https://orcid.org/0000-0001-9557-3001, Munroe, Paul ; https://orcid.org/0000-0002-5091-2513, Steinberg, Peter ; https://orcid.org/0000-0002-1781-0726, Marzinelli, Ezequiel ; https://orcid.org/0000-0002-3762-3389, Nielsen, Shaun ; https://orcid.org/0000-0001-6855-4227, and Moitinho e Silva, Lucas

Abstract

Our growing awareness of the microbial world's importance and diversity contrasts starkly with our limited understanding of its fundamental structure. Despite recent advances in DNA sequencing, a lack of standardized protocols and common analytical frameworks impedes comparisons among studies, hindering the development of global inferences about microbial life on Earth. Here we present a meta-analysis of microbial community samples collected by hundreds of researchers for the Earth Microbiome Project. Coordinated protocols and new analytical methods, particularly the use of exact sequences instead of clustered operational taxonomic units, enable bacterial and archaeal ribosomal RNA gene sequences to be followed across multiple studies and allow us to explore patterns of diversity at an unprecedented scale. The result is both a reference database giving global context to DNA sequence data and a framework for incorporating data from future studies, fostering increasingly complete characterization of Earth's microbial diversity.

Published

2017

6. 27 years of benthic and coral community dynamics on turbid, highly urbanised reefs off Singapore

Author

Guest, JR, Tun, K, Low, J, Vergés, A ; https://orcid.org/0000-0002-3507-1234, Marzinelli, EM ; https://orcid.org/0000-0002-3762-3389, Campbell, AH ; https://orcid.org/0000-0002-2322-2840, Bauman, AG, Feary, DA, Chou, LM, Steinberg, PD ; https://orcid.org/0000-0002-1781-0726, Guest, JR, Tun, K, Low, J, Vergés, A ; https://orcid.org/0000-0002-3507-1234, Marzinelli, EM ; https://orcid.org/0000-0002-3762-3389, Campbell, AH ; https://orcid.org/0000-0002-2322-2840, Bauman, AG, Feary, DA, Chou, LM, and Steinberg, PD ; https://orcid.org/0000-0002-1781-0726

Abstract

Coral cover on reefs is declining globally due to coastal development, overfishing and climate change. Reefs isolated from direct human influence can recover from natural acute disturbances, but little is known about long term recovery of reefs experiencing chronic human disturbances. Here we investigate responses to acute bleaching disturbances on turbid reefs off Singapore, at two depths over a period of 27 years. Coral cover declined and there were marked changes in coral and benthic community structure during the first decade of monitoring at both depths. At shallower reef crest sites (3-4 m), benthic community structure recovered towards pre-disturbance states within a decade. In contrast, there was a net decline in coral cover and continuing shifts in community structure at deeper reef slope sites (6-7 m). There was no evidence of phase shifts to macroalgal dominance but coral habitats at deeper sites were replaced by unstable substrata such as fine sediments and rubble. The persistence of coral dominance at chronically disturbed shallow sites is likely due to an abundance of coral taxa which are tolerant to environmental stress. In addition, high turbidity may interact antagonistically with other disturbances to reduce the impact of thermal stress and limit macroalgal growth rates.

Published

2016

7. Long-term empirical evidence of ocean warming leading to tropicalization of fish communities, increased herbivory, and loss of kelp

Author

Vergés, A ; https://orcid.org/0000-0002-3507-1234, Doropoulos, C, Malcolm, HA, Skye, M, Garcia-Pizá, M, Marzinelli, EM ; https://orcid.org/0000-0002-3762-3389, Campbell, AH ; https://orcid.org/0000-0002-2322-2840, Ballesteros, E, Hoey, AS, Vila-Concejo, A, Bozec, YM, Steinberg, PD ; https://orcid.org/0000-0002-1781-0726, Vergés, A ; https://orcid.org/0000-0002-3507-1234, Doropoulos, C, Malcolm, HA, Skye, M, Garcia-Pizá, M, Marzinelli, EM ; https://orcid.org/0000-0002-3762-3389, Campbell, AH ; https://orcid.org/0000-0002-2322-2840, Ballesteros, E, Hoey, AS, Vila-Concejo, A, Bozec, YM, and Steinberg, PD ; https://orcid.org/0000-0002-1781-0726

Abstract

Some of the most profound effects of climate change on ecological communities are due to alterations in species interactions rather than direct physiological effects of changing environmental conditions. Empirical evidence of historical changes in species interactions within climate-impacted communities is, however, rare and difficult to obtain. Here, we demonstrate the recent disappearance of key habitat-forming kelp forests from a warming tropical-temperate transition zone in eastern Australia. Using a 10-y video dataset encompassing a 0.6 °C warming period, we show how herbivory increased as kelp gradually declined and then disappeared. Concurrently, fish communities from sites where kelp was originally abundant but subsequently disappeared became increasingly dominated by tropical herbivores. Feeding assays identified two key tropical/subtropical herbivores that consumed transplanted kelp within hours at these sites. There was also a distinct increase in the abundance of fishes that consume epilithic algae, and much higher bite rates by this group at sites without kelp, suggesting a key role for these fishes in maintaining reefs in kelp-free states by removing kelp recruits. Changes in kelp abundance showed no direct relationship to seawater temperatures over the decade and were also unrelated to other measured abiotic factors (nutrients and storms). Our results show that warming-mediated increases in fish herbivory pose a significant threat to kelp-dominated ecosystems in Australia and, potentially, globally.

Published

2016

8. Does restoration of a habitat-forming seaweed restore associated faunal diversity?

Author

Marzinelli, EM ; https://orcid.org/0000-0002-3762-3389, Leong, MR, Campbell, AH ; https://orcid.org/0000-0002-2322-2840, Steinberg, PD ; https://orcid.org/0000-0002-1781-0726, Vergés, A ; https://orcid.org/0000-0002-3507-1234, Marzinelli, EM ; https://orcid.org/0000-0002-3762-3389, Leong, MR, Campbell, AH ; https://orcid.org/0000-0002-2322-2840, Steinberg, PD ; https://orcid.org/0000-0002-1781-0726, and Vergés, A ; https://orcid.org/0000-0002-3507-1234

Abstract

Declines of habitat-forming organisms in terrestrial and marine systems can lead to changes in community-wide biodiversity. The dominant habitat-forming macroalga Phyllospora comosa (Fucales) went locally extinct along the metropolitan coastline of Sydney in the 1980s. However, the consequences of that disappearance to the associated faunal diversity in these habitats, and whether Phyllospora is ecologically redundant with respect to the biodiversity it supports, are not known. Efforts are underway to restore Phyllospora, and the capacity to enhance local biodiversity is an important component of the rationale for restoration. We compared epifaunal diversity (abundances and composition) between Phyllospora and two other co-occurring habitat-forming algae, the kelp Ecklonia radiata and the fucoid Sargassum vestitum, and determined whether Phyllospora transplanted to Sydney developed different epifaunal communities than undisturbed thalli and controls. Where the 3 species naturally co-occurred, Phyllospora supported different abundances of taxa than Ecklonia and Sargassum, as well as different composition at finer scales, which suggests that this species is not completely redundant and that its disappearance may have affected local biodiversity. Similarly, assemblages on transplanted Phyllospora differed from those on Ecklonia and Sargassum at restored sites, but did not always resemble assemblages from extant natural Phyllospora populations, even 18 months after transplantation. These experiments indicate that restoration of key habitat-forming seaweeds not only recovers the algal species but also reduces risks of losing habitat diversity for epifauna and their consumers. However, restoration of all the original biodiversity associated with these seaweeds can be a difficult, complex, and long-term process.

Published

2016

9. Continental-scale variation in seaweed host-associated bacterial communities is a function of host condition, not geography

Author

Marzinelli, EM ; https://orcid.org/0000-0002-3762-3389, Campbell, AH ; https://orcid.org/0000-0002-2322-2840, Zozaya Valdes, E, Vergés, A ; https://orcid.org/0000-0002-3507-1234, Nielsen, S ; https://orcid.org/0000-0001-6855-4227, Wernberg, T, de Bettignies, T, Bennett, S, Caporaso, JG, Thomas, T ; https://orcid.org/0000-0001-9557-3001, Steinberg, PD ; https://orcid.org/0000-0002-1781-0726, Marzinelli, EM ; https://orcid.org/0000-0002-3762-3389, Campbell, AH ; https://orcid.org/0000-0002-2322-2840, Zozaya Valdes, E, Vergés, A ; https://orcid.org/0000-0002-3507-1234, Nielsen, S ; https://orcid.org/0000-0001-6855-4227, Wernberg, T, de Bettignies, T, Bennett, S, Caporaso, JG, Thomas, T ; https://orcid.org/0000-0001-9557-3001, and Steinberg, PD ; https://orcid.org/0000-0002-1781-0726

Abstract

Interactions between hosts and associated microbial communities can fundamentally shape the development and ecology of ‘holobionts’, from humans to marine habitat-forming organisms such as seaweeds. In marine systems, planktonic microbial community structure is mainly driven by geography and related environmental factors, but the large-scale drivers of host-associated microbial communities are largely unknown. Using 16S-rRNA gene sequencing, we characterized 260 seaweed-associated bacterial and archaeal communities on the kelp Ecklonia radiata from three biogeographical provinces spanning 10° of latitude and 35° of longitude across the Australian continent. These phylogenetically and taxonomically diverse communities were more strongly and consistently associated with host condition than geographical location or environmental variables, and a ‘core’ microbial community characteristic of healthy kelps appears to be lost when hosts become stressed. Microbial communities on stressed individuals were more similar to each other among locations than those on healthy hosts. In contrast to biogeographical patterns of planktonic marine microbial communities, host traits emerge as critical determinants of associated microbial community structure of these holobionts, even at a continental scale.

Published

2015

10. Spatial variability of microbial assemblages associated with a dominant habitat-forming seaweed

Author

Campbell, AH ; https://orcid.org/0000-0002-2322-2840, Marzinelli, EM ; https://orcid.org/0000-0002-3762-3389, Gelber, J, Steinberg, PD ; https://orcid.org/0000-0002-1781-0726, Campbell, AH ; https://orcid.org/0000-0002-2322-2840, Marzinelli, EM ; https://orcid.org/0000-0002-3762-3389, Gelber, J, and Steinberg, PD ; https://orcid.org/0000-0002-1781-0726

Abstract

Macroalgal surfaces support abundant and diverse microorganisms within biofilms, which are often involved in fundamental functions relating to the health and defense of their seaweed hosts, including algal development, facilitation of spore release, and chemical antifouling. Given these intimate and important interactions, environmental changes have the potential to negatively impact macroalgae by disrupting seaweed-microbe interactions. We used the disappearance of the dominant canopy-forming fucoid Phyllospora comosa from the metropolitan coast of Sydney, NSW, Australia as a model system to study these interactions. We transplanted Phyllospora individuals from nearby, extant populations back onto reefs in Sydney to test whether bacterial assemblages associated with seaweed surfaces would be influenced by (i) the host itself, independently of where it occurs, (ii) the type of habitat where the host occurs, or (iii) site-specific differences. Analyses of bacterial DNA fingerprints (terminal fragment length polymorphisms) indicated that assemblages of bacteria on Phyllospora were not habitat-specific. Rather, they were primarily influenced by local, site-specific conditions with some evidence for host-specificity in some cases. This could suggest a lottery model of host-surface colonization, by which hosts are colonized by 'suitable' bacteria available in the local species pool, resulting in high variability in assemblage structure across sites, but where some species in the community are specific to the host and possibly influenced by differences in host traits.

Published

2015

11. Restoring seaweeds: does the declining fucoid Phyllospora comosa support different biodiversity than other habitats?

Author

Marzinelli, EM ; https://orcid.org/0000-0002-3762-3389, Campbell, AH ; https://orcid.org/0000-0002-2322-2840, Vergés, A ; https://orcid.org/0000-0002-3507-1234, Coleman, MA, Kelaher, BP, Steinberg, PD ; https://orcid.org/0000-0002-1781-0726, Marzinelli, EM ; https://orcid.org/0000-0002-3762-3389, Campbell, AH ; https://orcid.org/0000-0002-2322-2840, Vergés, A ; https://orcid.org/0000-0002-3507-1234, Coleman, MA, Kelaher, BP, and Steinberg, PD ; https://orcid.org/0000-0002-1781-0726

Abstract

Degradation and loss of natural habitats due to human activities is a main cause of global biodiversity loss. In temperate systems, seaweeds are a main habitat former and support extremely diverse communities, including many economically important species. Coastal urbanisation is, however, causing significant declines of key habitat-forming seaweeds. To develop successful management strategies such as seaweed habitat restoration, it is necessary to first determine what additional ecosystem values are likely to be added through restoration and to provide baseline data against which goals can be established and success can be measured. The habitat-forming fucoid Phyllospora comosa was once common on shallow subtidal reefs around Sydney, Australia’s largest city, but disappeared in the 1980s, coincident with heavy sewage outfall discharges. To provide the baseline data necessary for restoring and managing Phyllospora in areas from where it has disappeared, we quantified the community composition and abundance of fish and large invertebrates (abalone and sea urchins) in healthy Phyllospora habitats and compared them to those in Ecklonia radiata (the other major habitat-forming kelp in the region) as well as other common shallow subtidal habitats. Fish assemblage structure was similar between Phyllospora vs Ecklonia beds, but Phyllospora supported much greater numbers of abalone and urchins than any other habitat. This suggests that, in terms of some components of the biodiversity it supports, Phyllospora is functionally unique and not a redundant species. Restoring this seaweed will, therefore, also contribute to biodiversity rehabilitation by restoring unique faunal assemblages that are supported by Phyllospora, including economically important species.

Published

2014

12. Spatial variability of microbial assemblages associated with a dominant habitat-forming seaweed

Author

Campbell, AH, Marzinelli, EM, Gelber, J, Steinberg, PD, Campbell, AH, Marzinelli, EM, Gelber, J, and Steinberg, PD

Abstract

© 2014 Campbell, Marzinelli, Gelber and Steinberg. Macroalgal surfaces support abundant and diverse microorganisms within biofilms, which are often involved in fundamental functions relating to the health and defence of their seaweed hosts, including algal development, facilitation of spore release and chemical antifouling. Given these intimate and important interactions, environmental changes have the potential to negatively impact macroalgae by disrupting seaweed-microbe interactions. We used the disappearance of the dominant canopy-forming fucoid Phyllospora comosa from the metropolitan coast of Sydney, Australia as a model system to study these interactions. We transplanted Phyllospora individuals from nearby, extant populations back onto reefs in Sydney to test whether bacterial assemblages associated with seaweed surfaces would be influenced by (i) the host itself, independently of where it occurs, (ii) the type of habitat where the host occurs or (iii) site-specific differences. Analyses of bacterial DNA fingerprints (TRFLPs) indicated that assemblages of bacteria on Phyllospora were not habitat-specific. Rather, they were primarily influenced by local, site-specific conditions with some evidence for host-specificity in some cases. This could suggest a lottery model of host-surface colonisation, by which hosts are colonised by 'suitable' bacteria available in the local species pool, resulting in high variability in assemblage structure across sites, but where some species in the community are specific to the host and possibly influenced by differences in host traits.

Published

2014

13. The tropicalization of temperate marine ecosystems: Climate-mediated changes in herbivory and community phase shifts

Author

Vergés, A, Steinberg, PD, Hay, ME, Poore, AGB, Campbell, AH, Ballesteros, E, Heck, KL, Booth, DJ, Coleman, MA, Feary, DA, Figueira, W, Langlois, T, Marzinelli, EM, Mizerek, T, Mumby, PJ, Nakamura, Y, Roughan, M, van Sebille, E, Gupta, AS, Smale, DA, Tomas, F, Wernberg, T, Wilson, SK, Vergés, A, Steinberg, PD, Hay, ME, Poore, AGB, Campbell, AH, Ballesteros, E, Heck, KL, Booth, DJ, Coleman, MA, Feary, DA, Figueira, W, Langlois, T, Marzinelli, EM, Mizerek, T, Mumby, PJ, Nakamura, Y, Roughan, M, van Sebille, E, Gupta, AS, Smale, DA, Tomas, F, Wernberg, T, and Wilson, SK

Abstract

Climate-driven changes in biotic interactions can profoundly alter ecological communities, particularly when they impact foundation species. In marine systems, changes in herbivory and the consequent loss of dominant habitat forming species can result in dramatic community phase shifts, such as from coral to macroalgal dominance when tropical fish herbivory decreases, and from algal forests to 'barrens' when temperate urchin grazing increases. Here, we propose a novel phase-shift away from macroalgal dominance caused by tropical herbivores extending their range into temperate regions. We argue that this phase shift is facilitated by poleward-flowing boundary currents that are creating ocean warming hotspots around the globe, enabling the range expansion of tropical species and increasing their grazing rates in temperate areas. Overgrazing of temperate macroalgae by tropical herbivorous fishes has already occurred in Japan and the Mediterranean. Emerging evidence suggests similar phenomena are occurring in other temperate regions, with increasing occurrence of tropical fishes on temperate reefs. © 2014 The Author(s) Published by the Royal Society. All rights reserved.

Published

2014

14. Interfaces between bacterial and eukaryotic 'neuroecology'

Author

Steinberg, PD, Rice, SA, Campbell, AH, McDougald, D, Harder, T, Steinberg, PD, Rice, SA, Campbell, AH, McDougald, D, and Harder, T

Abstract

The sensory capacity of bacteria and macroalgae (seaweeds) is limited with respect to many modalities (visual, auditory) common in "higher" organisms such as animals. Thus, we expect that other modalities, such as chemical signaling and sensing, would play particularly important roles in their sensory ecology. Here, we discuss two examples of chemical signaling in bacteria and seaweeds: (1) the role of chemical defenses and quorum-sensing (QS) regulatory systems in bacterial colonization and infection of the red alga Delisea pulchra and their ecological consequences, and (2) the regulation of dispersal and differentiation by nitric oxide (NO) in bacterial biofilms. Consistent with the goals of neuroecology, in both cases, we investigate the links between specific signal-mediated molecular mechanisms, and ecological outcomes, for populations or assemblages of bacteria or seaweeds. We conclude by suggesting that because of the fundamental role played by chemical signaling in bacteria, bacterial systems, either by themselves or in interactions with other organisms, have much to offer for understanding general issues in neuroecology. Thus, further integration of microbiology with the biology of eukaryotes would seem warranted and is likely to prove illuminating. © The Author 2011. Published by Oxford University Press on behalf of the Society for Integrative and Comparative Biology. All rights reserved.

Published

2011

15. Retrospective evaluation of an inpatient psychiatric pharmacist consultation service.

Author

Suehs BT, Mican LM, and Campbell AH

Published

2011

16. Effectiveness of physical therapy for patients with neck pain: an individualized approach using a clinical decision-making algorithm.

Author

Wang WTJ, Olson SL, Campbell AH, Hanten WP, and Gleeson PB

Published

2003

17. CHEMOTHERAPY OF PULMONARY TUBERCULOSIS IN PATIENTS AT HOME AND AT WORK

Author

Campbell Ah and O'brien D

Subjects

Chemotherapy, medicine.medical_specialty, Tuberculosis, business.industry, medicine.medical_treatment, General Medicine, medicine.disease, Work (electrical), Pulmonary tuberculosis, medicine, Physical therapy, In patient, business, Intensive care medicine

Published

1956

18. Laryngeal swabs for the detection of tubercle bacilli in patients without sputum

Author

Banks J, Campbell Ah, and Kelly Jh

Subjects

Larynx, medicine.medical_specialty, Bacilli, Pathology, Tuberculosis, Tubercle, Bacillus, Gram-Positive Bacteria, Medicine, Humans, In patient, Tuberculosis, Pulmonary, biology, business.industry, Stomach, Sputum, Bacteriology, General Medicine, biology.organism_classification, medicine.disease, Surgery, medicine.anatomical_structure, medicine.symptom, business

Published

1955

19. Some observations on the treatment of tuberculous pleural effusions

Author

Campbell Ah and Moon Aj

Subjects

Pleural Effusion, business.industry, Medicine, Humans, Pleura, Tuberculosis, Disease, General Medicine, Pleural Diseases, business, Tuberculosis, Pulmonary

Published

1955

20. Isolation and Hormone-Responsiveness of Intact Cells from a Transplantable Osteogenic Sarcoma in the Rat

Author

Campbell Ah, Patricia M. Ingleton, Hunt Nh, D. Atkins, and T. J. Martin

Subjects

Osteosarcoma, Isolation (health care), Neoplasms, Experimental, Carbon Dioxide, Biology, medicine.disease, Biochemistry, Phosphates, Rats, Kinetics, Glucose, Parathyroid Hormone, Cyclic AMP, medicine, Cancer research, Animals, Sarcoma, Neoplasm Transplantation, Hormone

Published

1976

21. Molecular responses of seaweeds to biotic interactions: A systematic review.

Author

Lang T, Cummins SF, Paul NA, and Campbell AH

Subjects

Aquaculture, Seaweed physiology

Abstract

Seaweed farming is the single largest aquaculture commodity with >30 million tonnes produced each year. Furthermore, the restoration of lost seaweed forests is gaining significant momentum, particularly for kelps in warming temperate areas. Whether in aquaculture settings, following restoration practices, or in the wild, all seaweeds undergo biotic interactions with a diverse range of co-occurring or cocultured organisms. To date, most research assessing such biotic interactions has focused on the response of the organism interacting with seaweeds, rather than on the seaweeds themselves. However, understanding how seaweeds respond to other organisms, particularly on a molecular scale, is crucial for optimizing outcomes of seaweed farming or restoration efforts and, potentially, also for the conservation of natural populations. In this systematic review, we assessed the molecular processes that seaweeds undergo during biotic interactions and propose priority areas for future research. Despite some insights into the response of seaweeds to biotic interactions, this review specifically highlights a lack of characterization of biomolecules involved in the response to chemical cues derived from interacting organisms (four studies in the last 20 years) and a predominant use of laboratory-based experiments conducted under controlled conditions. Additionally, this review reveals that studies targeting metabolites (70%) are more common than those examining the role of genes (22%) and proteins (8%). To effectively inform seaweed aquaculture efforts, it will be crucial to conduct larger scale experiments simulating natural environments. Also, employing a holistic approach targeting genes and proteins would be beneficial to complement the relatively well-established role of metabolites., (© 2024 The Author(s). Journal of Phycology published by Wiley Periodicals LLC on behalf of Phycological Society of America.)

Published

2024

22. Progressive muscle relaxation, meditation, and mental practice-based interventions for the treatment of tremor after traumatic brain injury.

Author

Campbell AH, Barta K, Sawtelle M, and Walters A

Subjects

Humans, Male, Middle Aged, Activities of Daily Living, Treatment Outcome, Electromyography, Tremor therapy, Tremor etiology, Meditation, Brain Injuries, Traumatic complications, Brain Injuries, Traumatic therapy, Quality of Life

Abstract

Background and Purpose: Individuals post traumatic brain injury (TBI) are likely to experience cognitive, sensory, and motor impairments. Tremor is a common movement disorder that can affect this patient population. The purpose of this case report was to describe the effects that progressive muscle relaxation, meditation, and mental practice-based interventions have on the treatment of chronic right upper extremity tremor in a patient post-TBI., Case Description: A 47-year-old male with a traumatic brain injury presented with a resting and postural tremor of the right wrist flexors and deficits in cognition, sensation, proprioception, balance, and motor function. The patient's primary goal for therapy was to decrease the tremor to improve his quality of life and ability to perform activities of daily living., Methods: Progressive muscle relaxation, breath-focused meditation, and mental practice-based intervention were administered to the patient. Active range of motion activities occurred during weekly in-person sessions and daily practice occurred at home., Results: The patient demonstrated improvements in quality of life, self-ratings of tremor severity, ratings of tremor impact on ADL's, gross motor object manipulation, frequency of tremor via surface electromyography, and visual inspection of a spirograph., Conclusion: A combination of progressive muscle relaxation, meditation, and mental practice-based interventions appeared to positively impact tremor across physical and psychosocial domains in a patient with a chronic tremor. Further investigation is needed to verify these findings.

Published

2024

23. Effect of marine heatwaves and warming on kelp microbiota influence trophic interactions.

Author

Castro LC, Vergés A, Straub SC, Campbell AH, Coleman MA, Wernberg T, Steinberg P, Thomas T, Dworjanyn S, Cetina-Heredia P, Roughan M, and Marzinelli EM

Subjects

Ecosystem, Climate Change, Oceans and Seas, Kelp physiology, Seaweed, Microbiota

Abstract

The range-expansion of tropical herbivores due to ocean warming can profoundly alter temperate reef communities by overgrazing the seaweed forests that underpin them. Such ecological interactions may be mediated by changes to seaweed-associated microbiota in response to warming, but empirical evidence demonstrating this is rare. We experimentally simulated ocean warming and marine heatwaves (MHWs) to quantify effects on two dominant temperate seaweed species and their microbiota, as well as grazing by a tropical herbivore. The kelp Ecklonia radiata's microbiota in sustained warming and MHW treatments was enriched with microorganisms associated with seaweed disease and tissue degradation. In contrast, the fucoid Sargassum linearifolium's microbiota was unaffected by temperature. Consumption by the tropical sea-urchin Tripneustes gratilla was greater on Ecklonia where the microbiota had been altered by higher temperatures, while Sargassum's consumption was unaffected. Elemental traits (carbon, nitrogen), chemical defences (phenolics) and tissue bleaching of both seaweeds were generally unaffected by temperature. Effects of warming and MHWs on seaweed holobionts (host plus its microbiota) are likely species-specific. The effect of increased temperature on Ecklonia's microbiota and subsequent increased consumption suggest that changes to kelp microbiota may underpin kelp-herbivore interactions, providing novel insights into potential mechanisms driving change in species' interactions in warming oceans., (© 2024 The Authors. Molecular Ecology published by John Wiley & Sons Ltd.)

Published

2024

24. Host genetics, phenotype and geography structure the microbiome of a foundational seaweed.

Author

Wood G, Steinberg PD, Campbell AH, Vergés A, Coleman MA, and Marzinelli EM

Subjects

Geography, Phenotype, RNA, Ribosomal, 16S genetics, Microbiota genetics, Phaeophyceae genetics, Seaweed genetics

Abstract

Interactions between hosts and their microbiota are vital to the functioning and resilience of macro-organisms. Critically, for hosts that play foundational roles in communities, understanding what drives host-microbiota interactions is essential for informing ecosystem restoration and conservation. We investigated the relative influence of host traits and the surrounding environment on microbial communities associated with the foundational seaweed Phyllospora comosa. We quantified 16 morphological and functional phenotypic traits, including host genetics (using 354 single nucleotide polymorphisms) and surface-associated microbial communities (using 16S rRNA gene amplicon sequencing) from 160 individuals sampled from eight sites spanning Phyllospora's entire latitudinal distribution (1,300 km). Combined, these factors explained 54% of the overall variation in Phyllospora's associated microbial community structure, much of which was related to the local environment (~32%). We found that putative "core" microbial taxa (i.e., present on all Phyllospora individuals sampled) exhibited slightly higher associations with host traits when compared to "variable" taxa (not present on all individuals). We identified several key genetic loci and phenotypic traits in Phyllospora that were strongly related to multiple microbial amplicon sequence variants, including taxa with known associations to seaweed defence, disease and tissue degradation. This information on how host-associated microbial communities vary with host traits and the environment enhances our current understanding of how "holobionts" (hosts plus their microbiota) are structured. Such understanding can be used to inform management strategies of these important and vulnerable habitats., (© 2022 The Authors. Molecular Ecology published by John Wiley & Sons Ltd.)

Published

2022

25. Is the Intestinal Bacterial Community in the Australian Rabbitfish Siganus fuscescens Influenced by Seaweed Supplementation or Geography?

Author

Thépot V, Slinger J, Rimmer MA, Paul NA, and Campbell AH

Abstract

We recently demonstrated that dietary supplementation with seaweed leads to dramatic improvements in immune responses in S. fuscescens , a candidate species for aquaculture development in Asia. Here, to assess whether the immunostimulatory effect was facilitated by changes to the gut microbiome, we investigated the effects of those same seaweed species and four commercial feed supplements currently used in aquaculture on the bacterial communities in the hindgut of the fish. Since we found no correlations between the relative abundance of any particular taxa and the fish enhanced innate immune responses, we hypothesised that S. fuscescens might have a core microbiome that is robust to dietary manipulation. Two recently published studies describing the bacteria within the hindgut of S. fuscescens provided an opportunity to test this hypothesis and to compare our samples to those from geographically distinct populations. We found that, although hindgut bacterial communities were clearly and significantly distinguishable between studies and populations, a substantial proportion (55 of 174 taxa) were consistently detected across all populations. Our data suggest that the importance of gut microbiota to animal health and the extent to which they can be influenced by dietary manipulations might be species-specific or related to an animals' trophic level.

Published

2022

26. Molecular analysis of a fungal disease in the habitat-forming brown macroalga Phyllospora comosa (Fucales) along a latitudinal gradient.

Author

Ferrari J, Goncalves P, Campbell AH, Sudatti DB, Wood GV, Thomas T, Pereira RC, Steinberg PD, and Marzinelli EM

Subjects

Ecosystem, Herbivory, Fungi pathogenicity, Phaeophyceae microbiology, Seaweed microbiology

Abstract

Infectious diseases affecting habitat-forming species can have significant impacts on population dynamics and alter the structure and functioning of marine ecosystems. Recently, a fungal infection was described as the causative agent of necrotic lesions on the stipe of the forest-forming macroalga Phyllospora comosa, a disease named "stipe rot" (SR). Here, we developed a quantitative PCR (qPCR) method for rapid detection and quantification of this pathogen, which was applied to evaluate the level of SR infection in eight P. comosa populations spanning the entire latitudinal distribution of this species along southeastern Australia. We also investigated the relationship between the abundance and prevalence of Stipe Rot Fungus (SRF) and potential host chemical defenses as well as its relationship with morphological and ecophysiological traits of P. comosa. qPCR estimates of SRF abundance reflected the levels of infection estimated by visual assessment, with higher numbers of SRF copies being observed in individuals showing high or intermediate levels of visual symptoms of SR. Concordance of conventional PCR and visual assessments was 92 and 94%, respectively, compared to qPCR detection. SRF prevalence was positively related to fucoxanthin content and herbivory, but not significant related to other traits measured (phlorotannin content, total length, thallus diameter, stipe width, number of branches, frond width, fouling, bleaching, gender, and photosynthetic efficiency). These results provide confidence for previous reports of this disease based upon visual assessments only, contribute to the development of monitoring and conservation strategies for safeguarding P. comosa forests, and generate insights into potential factors influencing host-pathogen interactions in this system., (© 2021 Phycological Society of America.)

Published

2021

27. Application of omics research in seaweeds with a focus on red seaweeds.

Author

Patwary ZP, Paul NA, Nishitsuji K, Campbell AH, Shoguchi E, Zhao M, and Cummins SF

Subjects

Biodiversity, Seaweed

Abstract

Targeted 'omics' research for seaweeds, utilizing various computational and informatics frameworks, has the potential to rapidly develop our understanding of biological processes at the molecular level and contribute to solutions for the most pressing environmental and social issues of our time. Here, a systematic review into the current status of seaweed omics research was undertaken to evaluate the biological diversity of seaweed species investigated (red, green and brown phyla), the levels to which the work was undertaken (from full genome to transcripts, proteins or metabolites) and the field of research to which it has contributed. We report that from 1994 to 2021 the majority of seaweed omics research has been performed on the red seaweeds (45% of total studies), with more than half of these studies based upon two genera Pyropia and Gracilaria. A smaller number of studies examined brown seaweed (key genera Saccharina and Sargassum) and green seaweed (primarily Ulva). Overall, seaweed omics research is most highly associated with the field of evolution (46% of total studies), followed by the fields of ecology, natural products and their biosynthesis, omics methodology and seaweed-microbe interactions. Synthesis and specific outcomes derived from omics studies in the red seaweeds are provided. Together, these studies have provided a broad-scale interrogation of seaweeds, facilitating our ability to answer fundamental queries and develop applied outcomes. Crucial to the next steps will be establishing analytical tools and databases that can be more broadly utilized by practitioners and researchers across the globe because of their shared interest in the key seaweed genera., (© The Author(s) 2021. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published

2021

28. Seaweed dietary supplements enhance the innate immune response of the mottled rabbitfish, Siganus fuscescens.

Author

Thépot V, Campbell AH, Paul NA, and Rimmer MA

Subjects

Animals, Diet veterinary, Dietary Supplements analysis, Animal Feed analysis, Chlorophyta chemistry, Immunity, Innate drug effects, Perciformes immunology, Phaeophyceae chemistry, Rhodophyta chemistry, Seaweed chemistry

Abstract

Disease is one of the major bottlenecks for aquaculture development, costing the industry in excess of US $6 billion each year. The increase in pressure to phase out some traditional approaches to disease control (e.g. antibiotics) is pushing farmers to search for alternatives to treat and prevent disease outbreaks, which do not have detrimental consequences (e.g. antibiotic resistance). We tested the effects of eleven seaweed species and four established fish immunostimulants on the innate immune response (cellular and humoral immunity) of the rabbitfish Siganus fuscescens. All supplements including different seaweeds from the three groups (Chlorophyta, Phaeophyta and Rhodophyta) were included in the fish pellet at 3% (by weight) and had variably positive effects across the four innate immune parameters we measured compared to control fish. Diets supplemented with the red seaweed Asparagopsis taxiformis and the brown seaweed Dictyota intermedia led to the largest boosts in humoral and cellular innate immune defences, including particularly significant increases in haemolytic activity. Diets supplemented with Ulva fasciata also led to promising positive effects on the fish innate immune responses. We conclude that dietary seaweed supplements can boost the immune response of S. fuscescens and thus the top three species highlighted in this study should be further investigated for this emerging aquaculture species and other fish species., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published

2021

29. Genomic vulnerability of a dominant seaweed points to future-proofing pathways for Australia's underwater forests.

Author

Wood G, Marzinelli EM, Campbell AH, Steinberg PD, Vergés A, and Coleman MA

Subjects

Australia, Climate Change, Forests, Genomics, Oceans and Seas, Seaweed

Abstract

Globally, critical habitats are in decline, threatening ecological, economic and social values and prompting calls for 'future proofing' efforts that enhance resilience to climate change. Such efforts rely on predicting how neutral and adaptive genomic patterns across a species' distribution will change under future climate scenarios, but data is scant for most species of conservation concern. Here, we use seascape genomics to characterise genetic diversity, structure and gene-environmental associations in a dominant forest-forming seaweed, Phyllospora comosa, along its entire latitudinal (12° latitude), and thermal (~14°C) range. Phyllospora showed high connectivity throughout its central range, with evidence of genetic structure and potential selection associated with sea surface temperatures (SSTs) at its rear and leading edges. Rear and leading-edge populations harboured only half the genetic diversity of central populations. By modelling genetic turnover as a function of SST, we assessed the genomic vulnerability across Phyllospora's distributional range under climate change scenarios. Despite low diversity, range-edge populations were predicted to harbour beneficial adaptations to marginal conditions and overall adaptability of the species may be compromised by their loss. Assisted gene flow from range edge populations may be required to enhance adaptation and increase resilience of central and leading-edge populations under warming oceans. Understanding genomic vulnerability can inform proactive restoration and future-proofing strategies for underwater forests and ensure their persistence in changing oceans., (© 2021 John Wiley & Sons Ltd.)

Published

2021

30. Kelp forests.

Author

Vergés A and Campbell AH

Subjects

Climate Change, Ecosystem, Food Chain, Forests, Kelp physiology

Abstract

Vergés and Campbell introduce the kelp forest ecosystem., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published

2020

31. Genomic, metabolic and phenotypic variability shapes ecological differentiation and intraspecies interactions of Alteromonas macleodii.

Author

Koch H, Germscheid N, Freese HM, Noriega-Ortega B, Lücking D, Berger M, Qiu G, Marzinelli EM, Campbell AH, Steinberg PD, Overmann J, Dittmar T, Simon M, and Wietz M

Subjects

Adaptation, Biological, Alteromonas metabolism, Biological Variation, Population, Ecosystem, Ecotype, Genetic Variation, Genome, Bacterial, Iron metabolism, Pacific Ocean, Phylogeny, Plasmids, Polysaccharides metabolism, Prochlorococcus physiology, Seawater microbiology, Seaweed metabolism, Secondary Metabolism, Alteromonas physiology

Abstract

Ecological differentiation between strains of bacterial species is shaped by genomic and metabolic variability. However, connecting genotypes to ecological niches remains a major challenge. Here, we linked bacterial geno- and phenotypes by contextualizing pangenomic, exometabolomic and physiological evidence in twelve strains of the marine bacterium Alteromonas macleodii, illuminating adaptive strategies of carbon metabolism, microbial interactions, cellular communication and iron acquisition. In A. macleodii strain MIT1002, secretion of amino acids and the unique capacity for phenol degradation may promote associations with Prochlorococcus cyanobacteria. Strain 83-1 and three novel Pacific isolates, featuring clonal genomes despite originating from distant locations, have profound abilities for algal polysaccharide utilization but without detrimental implications for Ecklonia macroalgae. Degradation of toluene and xylene, mediated via a plasmid syntenic to terrestrial Pseudomonas, was unique to strain EZ55. Benzoate degradation by strain EC673 related to a chromosomal gene cluster shared with the plasmid of A. mediterranea EC615, underlining that mobile genetic elements drive adaptations. Furthermore, we revealed strain-specific production of siderophores and homoserine lactones, with implications for nutrient acquisition and cellular communication. Phenotypic variability corresponded to different competitiveness in co-culture and geographic distribution, indicating linkages between intraspecific diversity, microbial interactions and biogeography. The finding of "ecological microdiversity" helps understanding the widespread occurrence of A. macleodii and contributes to the interpretation of bacterial niche specialization, population ecology and biogeochemical roles.

Published

2020

32. Measuring continuous compositional change using decline and decay in zeta diversity.

Author

McGeoch MA, Latombe G, Andrew NR, Nakagawa S, Nipperess DA, Roigé M, Marzinelli EM, Campbell AH, Vergés A, Thomas T, Steinberg PD, Selwood KE, Henriksen MV, and Hui C

Subjects

Longitudinal Studies, Biodiversity, Ecology

Abstract

Incidence, or compositional, matrices are generated for a broad range of research applications in biology. Zeta diversity provides a common currency and conceptual framework that links incidence-based metrics with multiple patterns of interest in biology, ecology, and biodiversity science. It quantifies the variation in species (or OTU) composition of multiple assemblages (or cases) in space or time, to capture the contribution of the full suite of narrow, intermediate, and wide-ranging species to biotic heterogeneity. Here we provide a conceptual framework for the application and interpretation of patterns of continuous change in compositional diversity using zeta diversity. This includes consideration of the survey design context, and the multiple ways in which zeta diversity decline and decay can be used to examine and test turnover in the identity of elements across space and time. We introduce the zeta ratio-based retention rate curve to quantify rates of compositional change. We illustrate these applications using 11 empirical data sets from a broad range of taxa, scales, and levels of biological organization-from DNA molecules and microbes to communities and interaction networks-including one of the original data sets used to express compositional change and distance decay in ecology. We show (1) how different sample selection schemes used during the calculation of compositional change are appropriate for different data types and questions, (2) how higher orders of zeta may in some cases better detect shifts and transitions, and (3) the relative roles of rare vs. common species in driving patterns of compositional change. By exploring the application of zeta diversity decline and decay, including the retention rate, across this broad range of contexts, we demonstrate its application for understanding continuous turnover in biological systems., (© 2019 by the Ecological Society of America.)

Published

2019

33. A horizon scan of priorities for coastal marine microbiome research.

Author

Trevathan-Tackett SM, Sherman CDH, Huggett MJ, Campbell AH, Laverock B, Hurtado-McCormick V, Seymour JR, Firl A, Messer LF, Ainsworth TD, Negandhi KL, Daffonchio D, Egan S, Engelen AH, Fusi M, Thomas T, Vann L, Hernandez-Agreda A, Gan HM, Marzinelli EM, Steinberg PD, Hardtke L, and Macreadie PI

Subjects

Climate, Fisheries, Humans, Microbiota

Abstract

Research into the microbiomes of natural environments is changing the way ecologists and evolutionary biologists view the importance of microorganisms in ecosystem function. This is particularly relevant in ocean environments, where microorganisms constitute the majority of biomass and control most of the major biogeochemical cycles, including those that regulate Earth's climate. Coastal marine environments provide goods and services that are imperative to human survival and well-being (for example, fisheries and water purification), and emerging evidence indicates that these ecosystem services often depend on complex relationships between communities of microorganisms (the 'microbiome') and the environment or their hosts - termed the 'holobiont'. Understanding of coastal ecosystem function must therefore be framed under the holobiont concept, whereby macroorganisms and their associated microbiomes are considered as a synergistic ecological unit. Here, we evaluate the current state of knowledge on coastal marine microbiome research and identify key questions within this growing research area. Although the list of questions is broad and ambitious, progress in the field is increasing exponentially, and the emergence of large, international collaborative networks and well-executed manipulative experiments are rapidly advancing the field of coastal marine microbiome research.

Published

2019

34. Future climate change is predicted to affect the microbiome and condition of habitat-forming kelp.

Author

Qiu Z, Coleman MA, Provost E, Campbell AH, Kelaher BP, Dalton SJ, Thomas T, Steinberg PD, and Marzinelli EM

Subjects

Ecosystem, Global Warming, Hydrogen-Ion Concentration, Kelp microbiology, Climate Change, Kelp physiology, Microbiota, Seawater chemistry

Abstract

Climate change is driving global declines of marine habitat-forming species through physiological effects and through changes to ecological interactions, with projected trajectories for ocean warming and acidification likely to exacerbate such impacts in coming decades. Interactions between habitat-formers and their microbiomes are fundamental for host functioning and resilience, but how such relationships will change in future conditions is largely unknown. We investigated independent and interactive effects of warming and acidification on a large brown seaweed, the kelp Ecklonia radiata, and its associated microbiome in experimental mesocosms. Microbial communities were affected by warming and, during the first week, by acidification. During the second week, kelp developed disease-like symptoms previously observed in the field. The tissue of some kelp blistered, bleached and eventually degraded, particularly under the acidification treatments, affecting photosynthetic efficiency. Microbial communities differed between blistered and healthy kelp for all treatments, except for those under future conditions of warming and acidification, which after two weeks resembled assemblages associated with healthy hosts. This indicates that changes in the microbiome were not easily predictable as the severity of future climate scenarios increased. Future ocean conditions can change kelp microbiomes and may lead to host disease, with potentially cascading impacts on associated ecosystems.

Published

2019

35. Interactions within the microbiome alter microbial interactions with host chemical defences and affect disease in a marine holobiont.

Author

Longford SR, Campbell AH, Nielsen S, Case RJ, Kjelleberg S, and Steinberg PD

Subjects

Aquatic Organisms classification, Colony Count, Microbial, Phylogeny, Principal Component Analysis, Seaweed classification, Aquatic Organisms microbiology, Microbial Interactions, Microbiota, Seaweed chemistry, Seaweed microbiology

Abstract

Our understanding of diseases has been transformed by the realisation that people are holobionts, comprised of a host and its associated microbiome(s). Disease can also have devastating effects on populations of marine organisms, including dominant habitat formers such as seaweed holobionts. However, we know very little about how interactions between microorganisms within microbiomes - of humans or marine organisms - affect host health and there is no underpinning theoretical framework for exploring this. We applied ecological models of succession to bacterial communities to understand how interactions within a seaweed microbiome affect the host. We observed succession of surface microbiomes on the red seaweed Delisea pulchra in situ, following a disturbance, with communities 'recovering' to resemble undisturbed states after only 12 days. Further, if this recovery was perturbed, a bleaching disease previously described for this seaweed developed. Early successional strains of bacteria protected the host from colonisation by a pathogenic, later successional strain. Host chemical defences also prevented disease, such that within-microbiome interactions were most important when the host's chemical defences were inhibited. This is the first experimental evidence that interactions within microbiomes have important implications for host health and disease in a dominant marine habitat-forming organism.

Published

2019

36. Attitudes Toward Medications and the Relationship to Outcomes in Patients with Schizophrenia.

Author

Campbell AH, Scalo JF, Crismon ML, Barner JC, Argo TR, Lawson KA, and Miller A

Subjects

Adult, Antipsychotic Agents adverse effects, Cognition, Drug-Related Side Effects and Adverse Reactions psychology, Female, Humans, Male, Middle Aged, Outpatients psychology, Outpatients statistics & numerical data, Psychiatric Status Rating Scales, Retrospective Studies, Symptom Assessment, United States, Antipsychotic Agents therapeutic use, Attitude to Health, Medication Adherence, Schizophrenia diagnosis, Schizophrenia drug therapy, Schizophrenic Psychology

Abstract

The determinants of attitudes toward medication (ATM) are not well elucidated. In particular, literature remains equivocal regarding the influence of cognition, adverse events, and psychiatric symptomatology. This study evaluated relationships between those outcomes in schizophrenia and ATM. This is a retrospective analysis of data collected during the Texas Medication Algorithm Project (TMAP, n=307 with schizophrenia-related diagnoses), in outpatient clinics at baseline and every 3 months for ≥1 year (for cognition: 3rd and 9th month only). The Drug Attitude Inventory (DAI-30) measured ATM, and independent variables were: cognition (Trail Making Test [TMT], Verbal Fluency Test, Hopkins Verbal Learning Test), adverse events (Systematic Assessment for Treatment-Emergent Adverse Events, Barnes Akathisia Rating Scale), psychiatric symptomatology (Brief Psychiatric Rating Scale, Scale for Assessment of Negative Symptoms [SANS]), and medication adherence (Medication Compliance Scale). Analyses included binary logistic regression (cognition, psychiatric symptoms) and chi-square (adverse events, adherence) for baseline comparisons, and linear regression (cognition) or ANOVA (adverse events, adherence) for changes over time. Mean DAI-30 scores did not change over 12 months. Odds of positive ATM increased with higher TMT Part B scores (p=0.03) and lower SANS scores (p=0.02). Worsening of general psychopathology (p<0.001), positive symptoms (p<0.001), and negative symptoms (p=0.007) correlated with negative changes in DAI-30 scores. Relationships between cognition, negative symptoms, and ATM warrant further investigation. Studies evaluating therapies for cognitive deficits and negative symptoms should consider including ATM measures as endpoints. Patterns and inconsistencies in findings across studies raise questions about whether some factors thought to influence ATM have nonlinear relationships.

Published

2018

37. Long-term empirical evidence of ocean warming leading to tropicalization of fish communities, increased herbivory, and loss of kelp.

Author

Vergés A, Doropoulos C, Malcolm HA, Skye M, Garcia-Pizá M, Marzinelli EM, Campbell AH, Ballesteros E, Hoey AS, Vila-Concejo A, Bozec YM, and Steinberg PD

Subjects

Animals, Australia, Climate Change, Food Chain, Herbivory physiology, Temperature, Tropical Climate, Ecosystem, Fishes physiology, Kelp growth & development, Oceans and Seas

Abstract

Some of the most profound effects of climate change on ecological communities are due to alterations in species interactions rather than direct physiological effects of changing environmental conditions. Empirical evidence of historical changes in species interactions within climate-impacted communities is, however, rare and difficult to obtain. Here, we demonstrate the recent disappearance of key habitat-forming kelp forests from a warming tropical-temperate transition zone in eastern Australia. Using a 10-y video dataset encompassing a 0.6 °C warming period, we show how herbivory increased as kelp gradually declined and then disappeared. Concurrently, fish communities from sites where kelp was originally abundant but subsequently disappeared became increasingly dominated by tropical herbivores. Feeding assays identified two key tropical/subtropical herbivores that consumed transplanted kelp within hours at these sites. There was also a distinct increase in the abundance of fishes that consume epilithic algae, and much higher bite rates by this group at sites without kelp, suggesting a key role for these fishes in maintaining reefs in kelp-free states by removing kelp recruits. Changes in kelp abundance showed no direct relationship to seawater temperatures over the decade and were also unrelated to other measured abiotic factors (nutrients and storms). Our results show that warming-mediated increases in fish herbivory pose a significant threat to kelp-dominated ecosystems in Australia and, potentially, globally., Competing Interests: The authors declare no conflict of interest.

Published

2016

38. 27 years of benthic and coral community dynamics on turbid, highly urbanised reefs off Singapore.

Author

Guest JR, Tun K, Low J, Vergés A, Marzinelli EM, Campbell AH, Bauman AG, Feary DA, Chou LM, and Steinberg PD

Subjects

Animals, Anthozoa microbiology, Climate Change, Coral Reefs, Disease Resistance, Population Dynamics, Singapore, Anthozoa physiology, Environmental Monitoring methods

Abstract

Coral cover on reefs is declining globally due to coastal development, overfishing and climate change. Reefs isolated from direct human influence can recover from natural acute disturbances, but little is known about long term recovery of reefs experiencing chronic human disturbances. Here we investigate responses to acute bleaching disturbances on turbid reefs off Singapore, at two depths over a period of 27 years. Coral cover declined and there were marked changes in coral and benthic community structure during the first decade of monitoring at both depths. At shallower reef crest sites (3-4 m), benthic community structure recovered towards pre-disturbance states within a decade. In contrast, there was a net decline in coral cover and continuing shifts in community structure at deeper reef slope sites (6-7 m). There was no evidence of phase shifts to macroalgal dominance but coral habitats at deeper sites were replaced by unstable substrata such as fine sediments and rubble. The persistence of coral dominance at chronically disturbed shallow sites is likely due to an abundance of coral taxa which are tolerant to environmental stress. In addition, high turbidity may interact antagonistically with other disturbances to reduce the impact of thermal stress and limit macroalgal growth rates.

Published

2016

39. Central and rear-edge populations can be equally vulnerable to warming.

Author

Bennett S, Wernberg T, Arackal Joy B, de Bettignies T, and Campbell AH

Abstract

Rear (warm) edge populations are often considered more susceptible to warming than central (cool) populations because of the warmer ambient temperatures they experience, but this overlooks the potential for local variation in thermal tolerances. Here we provide conceptual models illustrating how sensitivity to warming is affected throughout a species' geographical range for locally adapted and non-adapted populations. We test these models for a range-contracting seaweed using observations from a marine heatwave and a 12-month experiment, translocating seaweeds among central, present and historic range edge locations. Growth, reproductive development and survivorship display different temperature thresholds among central and rear-edge populations, but share a 2.5 °C anomaly threshold. Range contraction, therefore, reflects variation in local anomalies rather than differences in absolute temperatures. This demonstrates that warming sensitivity can be similar throughout a species geographical range and highlights the importance of incorporating local adaptation and acclimatization into climate change vulnerability assessments.

Published

2015

40. Continental-scale variation in seaweed host-associated bacterial communities is a function of host condition, not geography.

Author

Marzinelli EM, Campbell AH, Zozaya Valdes E, Vergés A, Nielsen S, Wernberg T, de Bettignies T, Bennett S, Caporaso JG, Thomas T, and Steinberg PD

Subjects

Archaea genetics, Australia, Bacteria genetics, Ecosystem, Environment, Geography, Humans, Microbiota physiology, Phenotype, Phylogeny, RNA, Ribosomal, 16S genetics, Archaea classification, Bacteria classification, Kelp microbiology, Microbiota genetics, Plankton microbiology

Abstract

Interactions between hosts and associated microbial communities can fundamentally shape the development and ecology of 'holobionts', from humans to marine habitat-forming organisms such as seaweeds. In marine systems, planktonic microbial community structure is mainly driven by geography and related environmental factors, but the large-scale drivers of host-associated microbial communities are largely unknown. Using 16S-rRNA gene sequencing, we characterized 260 seaweed-associated bacterial and archaeal communities on the kelp Ecklonia radiata from three biogeographical provinces spanning 10° of latitude and 35° of longitude across the Australian continent. These phylogenetically and taxonomically diverse communities were more strongly and consistently associated with host condition than geographical location or environmental variables, and a 'core' microbial community characteristic of healthy kelps appears to be lost when hosts become stressed. Microbial communities on stressed individuals were more similar to each other among locations than those on healthy hosts. In contrast to biogeographical patterns of planktonic marine microbial communities, host traits emerge as critical determinants of associated microbial community structure of these holobionts, even at a continental scale., (© 2015 Society for Applied Microbiology and John Wiley & Sons Ltd.)

Published

2015

41. Spatial variability of microbial assemblages associated with a dominant habitat-forming seaweed.

Author

Campbell AH, Marzinelli EM, Gelber J, and Steinberg PD

Abstract

Macroalgal surfaces support abundant and diverse microorganisms within biofilms, which are often involved in fundamental functions relating to the health and defense of their seaweed hosts, including algal development, facilitation of spore release, and chemical antifouling. Given these intimate and important interactions, environmental changes have the potential to negatively impact macroalgae by disrupting seaweed-microbe interactions. We used the disappearance of the dominant canopy-forming fucoid Phyllospora comosa from the metropolitan coast of Sydney, NSW, Australia as a model system to study these interactions. We transplanted Phyllospora individuals from nearby, extant populations back onto reefs in Sydney to test whether bacterial assemblages associated with seaweed surfaces would be influenced by (i) the host itself, independently of where it occurs, (ii) the type of habitat where the host occurs, or (iii) site-specific differences. Analyses of bacterial DNA fingerprints (terminal fragment length polymorphisms) indicated that assemblages of bacteria on Phyllospora were not habitat-specific. Rather, they were primarily influenced by local, site-specific conditions with some evidence for host-specificity in some cases. This could suggest a lottery model of host-surface colonization, by which hosts are colonized by 'suitable' bacteria available in the local species pool, resulting in high variability in assemblage structure across sites, but where some species in the community are specific to the host and possibly influenced by differences in host traits.

Published

2015

42. The tropicalization of temperate marine ecosystems: climate-mediated changes in herbivory and community phase shifts.

Author

Vergés A, Steinberg PD, Hay ME, Poore AG, Campbell AH, Ballesteros E, Heck KL Jr, Booth DJ, Coleman MA, Feary DA, Figueira W, Langlois T, Marzinelli EM, Mizerek T, Mumby PJ, Nakamura Y, Roughan M, van Sebille E, Gupta AS, Smale DA, Tomas F, Wernberg T, and Wilson SK

Subjects

Animals, Aquatic Organisms, Biodiversity, Fishes, Models, Biological, Seaweed, Climate Change, Ecosystem, Herbivory

Abstract

Climate-driven changes in biotic interactions can profoundly alter ecological communities, particularly when they impact foundation species. In marine systems, changes in herbivory and the consequent loss of dominant habitat forming species can result in dramatic community phase shifts, such as from coral to macroalgal dominance when tropical fish herbivory decreases, and from algal forests to 'barrens' when temperate urchin grazing increases. Here, we propose a novel phase-shift away from macroalgal dominance caused by tropical herbivores extending their range into temperate regions. We argue that this phase shift is facilitated by poleward-flowing boundary currents that are creating ocean warming hotspots around the globe, enabling the range expansion of tropical species and increasing their grazing rates in temperate areas. Overgrazing of temperate macroalgae by tropical herbivorous fishes has already occurred in Japan and the Mediterranean. Emerging evidence suggests similar phenomena are occurring in other temperate regions, with increasing occurrence of tropical fishes on temperate reefs., (© 2014 The Author(s) Published by the Royal Society. All rights reserved.)

Published

2014

43. Towards restoration of missing underwater forests.

Author

Campbell AH, Marzinelli EM, Vergés A, Coleman MA, and Steinberg PD

Subjects

Photosynthesis, Seaweed physiology, Conservation of Natural Resources, Ecosystem, Trees physiology

Abstract

Degradation of natural habitats due to urbanization is a major cause of biodiversity loss. Anthropogenic impacts can drive phase shifts from productive, complex ecosystems to less desirable, less diverse systems that provide fewer services. Macroalgae are the dominant habitat-forming organisms on temperate coastlines, providing habitat and food to entire communities. In recent decades, there has been a decline in macroalgal cover along some urbanised shorelines, leading to a shift from diverse algal forests to more simple turf algae or barren habitats. Phyllospora comosa, a major habitat forming macroalga in south-eastern Australia, has disappeared from the urban shores of Sydney. Its disappearance is coincident with heavy sewage outfall discharges along the metropolitan coast during 1970s and 1980s. Despite significant improvements in water-quality since that time, Phyllospora has not re-established. We experimentally transplanted adult Phyllospora into two rocky reefs in the Sydney metropolitan region to examine the model that Sydney is now suitable for the survival and recruitment of Phyllospora and thus assess the possibility of restoring Phyllospora back onto reefs where it was once abundant. Survival of transplanted individuals was high overall, but also spatially variable: at one site most individuals were grazed, while at the other site survival was similar to undisturbed algae and procedural controls. Transplanted algae reproduced and recruitment rates were higher than in natural populations at one experimental site, with high survival of new recruits after almost 18 months. Low supply and settlement success of propagules in the absence of adults and herbivory (in some places) emerge as three potential processes that may have been preventing natural re-establishment of this alga. Understanding of the processes and interactions that shape this system are necessary to provide ecologically sensible goals and the information needed to successfully restore these underwater forests.

Published

2014

44. Demographic consequences of disease in a habitat-forming seaweed and impacts on interactions between natural enemies.

Author

Campbell AH, Vergés A, and Steinberg PD

Subjects

Animals, Herbivory, Invertebrates physiology, Plant Diseases, Population Dynamics, Ecosystem, Rhodophyta physiology, Seaweed

Abstract

Diseases affecting natural ecosystems are increasing in frequency and severity, but unless obviously catastrophic, the consequences of disease outbreaks are often overlooked, relative to other ecological processes (e.g., predation, competition). Disease can have profound effects on individuals and can also strongly influence interactions between infected hosts and their natural enemies. We investigated whether a novel bleaching disease affected the survival or performance of a habitat-forming red seaweed, Delisea pulchra. In addition, we investigated bidirectional, multipartite interactions between this seaweed host, its pathogens, and consumers. Although we found no negative impacts of disease on survival of D. pulchra, bleaching had substantial, negative consequences for affected individuals, including a dramatic drop in fecundity and a significant decrease in size. In the first direct demonstration of bacterial disease-mediated herbivory of seaweeds, herbivores generally preferred to consume bleached tissue in feeding trials, and we also found higher densities of herbivores on bleached than co-occurring, healthy algae at sites where herbivores were abundant. In a conceptually reciprocal test of the effects of herbivores on infection, we showed that simulated herbivory increased susceptibility to bleaching when algae were also exposed to cultures of a bacterial pathogen. Given the high proportions of D. pulchra affected by bleaching during peak periods, the impacts of this disease are likely to have important implications at the population level. This work highlights complex interactions between habitat-forming organisms and their natural enemies and further emphasizes the need to consider disease in ecological research.

Published

2014

45. Global patterns in the impact of marine herbivores on benthic primary producers.

Author

Poore AG, Campbell AH, Coleman RA, Edgar GJ, Jormalainen V, Reynolds PL, Sotka EE, Stachowicz JJ, Taylor RB, Vanderklift MA, and Duffy JE

Subjects

Animals, Models, Theoretical, Oceans and Seas, Phylogeny, Plant Development, Population Density, Temperature, Food Chain, Herbivory

Abstract

Despite the importance of consumers in structuring communities, and the widespread assumption that consumption is strongest at low latitudes, empirical tests for global scale patterns in the magnitude of consumer impacts are limited. In marine systems, the long tradition of experimentally excluding herbivores in their natural environments allows consumer impacts to be quantified on global scales using consistent methodology. We present a quantitative synthesis of 613 marine herbivore exclusion experiments to test the influence of consumer traits, producer traits and the environment on the strength of herbivore impacts on benthic producers. Across the globe, marine herbivores profoundly reduced producer abundance (by 68% on average), with strongest effects in rocky intertidal habitats and the weakest effects on habitats dominated by vascular plants. Unexpectedly, we found little or no influence of latitude or mean annual water temperature. Instead, herbivore impacts differed most consistently among producer taxonomic and morphological groups. Our results show that grazing impacts on plant abundance are better predicted by producer traits than by large-scale variation in habitat or mean temperature, and that there is a previously unrecognised degree of phylogenetic conservatism in producer susceptibility to consumption., (© 2012 Blackwell Publishing Ltd/CNRS.)

Published

2012

46. Chemical mediation of ternary interactions between marine holobionts and their environment as exemplified by the red alga Delisea pulchra.

Author

Harder T, Campbell AH, Egan S, and Steinberg PD

Subjects

Bacterial Physiological Phenomena, Furans metabolism, Herbivory, Rhodophyta metabolism, Ecosystem, Rhodophyta physiology

Abstract

The need for animals and plants to control microbial colonization is important in the marine environment with its high densities of microscopic propagules and seawater that provides an ideal medium for their dispersal. In contrast to the traditional emphasis on antagonistic interactions of marine organisms with microbes, emerging studies lend support to the notion that health and performance of many marine organisms are functionally regulated and assisted by associated microbes, an ecological concept defined as a holobiont. While antimicrobial activities of marine secondary metabolites have been studied in great depth ex-situ, we are beginning to understand how some of these compounds function in an ecological context to maintain the performance of marine holobionts. The present article reviews two decades of our research on the red seaweed Delisea pulchra by addressing: the defense chemistry of this seaweed; chemically-mediated interactions between the seaweed and its natural enemies; and the negative influence of elevated seawater temperature on these interactions. Our understanding of these defense compounds and the functional roles they play for D. pulchra extends from molecular interactions with bacterial cell signaling molecules, to ecosystem-scale consequences of chemically-controlled disease and herbivory. Delisea pulchra produces halogenated furanones that antagonize the same receptor as acylated homoserine lactones (AHL)-a group of widespread intercellular communication signals among bacteria. Halogenated furanones compete with and inhibit bacterial cell-to-cell communication, and thus interfere with important bacterial communication-regulated processes, such as biofilm formation. In a predictable pattern that occurs at the ecological level of entire populations, environmental stress interferes with the production of halogenated furanones, causing downstream processes that ultimately result in disease of the algal holobiont.

Published

2012

47. Interfaces between bacterial and eukaryotic "neuroecology".

Author

Steinberg PD, Rice SA, Campbell AH, McDougald D, and Harder T

Subjects

Bacteria genetics, Bacteria growth & development, Bacteria pathogenicity, Bacterial Physiological Phenomena, Escape Reaction, Gene Expression Regulation, Bacterial, Genes, Bacterial, Genetic Variation, Host-Pathogen Interactions, Marine Biology, Nitric Oxide chemistry, Quorum Sensing, Rhodophyta microbiology, Rhodophyta physiology, Bacteria chemistry, Biofilms, Eukaryota physiology

Abstract

The sensory capacity of bacteria and macroalgae (seaweeds) is limited with respect to many modalities (visual, auditory) common in "higher" organisms such as animals. Thus, we expect that other modalities, such as chemical signaling and sensing, would play particularly important roles in their sensory ecology. Here, we discuss two examples of chemical signaling in bacteria and seaweeds: (1) the role of chemical defenses and quorum-sensing (QS) regulatory systems in bacterial colonization and infection of the red alga Delisea pulchra and their ecological consequences, and (2) the regulation of dispersal and differentiation by nitric oxide (NO) in bacterial biofilms. Consistent with the goals of neuroecology, in both cases, we investigate the links between specific signal-mediated molecular mechanisms, and ecological outcomes, for populations or assemblages of bacteria or seaweeds. We conclude by suggesting that because of the fundamental role played by chemical signaling in bacteria, bacterial systems, either by themselves or in interactions with other organisms, have much to offer for understanding general issues in neuroecology. Thus, further integration of microbiology with the biology of eukaryotes would seem warranted and is likely to prove illuminating., (© The Author 2011. Published by Oxford University Press on behalf of the Society for Integrative and Comparative Biology. All rights reserved.)

Published

2011

48. Enumerating bacterial cells on bioadhesive coated slides.

Author

Franklin RB, Campbell AH, Higgins CB, Barker MK, and Brown BL

Subjects

Bacteria chemistry, Bacterial Adhesion, Bacterial Load, Bacterial Physiological Phenomena, Colony Count, Microbial instrumentation, Staining and Labeling, Bacteria growth & development, Colony Count, Microbial methods

Abstract

Quantifying bacterial abundance and biomass is fundamental to many microbiological studies. Directly counting via epifluorescence microscopy has become the method of choice, especially for environmental samples, and conventional techniques require filtration of cells onto black polycarbonate membrane filters. We investigated the utility of instead capturing stained bacterial suspensions on bioadhesive slides, performing tests using pure cultures of bacteria, mixtures of cultured bacteria, and environmental samples from five habitat types. When compared to the standard filtration and flow cytometric approaches, bioadhesive slides were found to be an accurate and precise platform for rapid enumeration of bacteria. Total bacterial counts made using the three methods were positively correlated for acridine orange and Live/Dead® (L/D) staining (0.81≤r≤0.95, all p≤0.002). All platforms had similar precision, though counts obtained using bioadhesive slides were significantly higher than those made with polycarbonate filters and flow cytometry. The specific bioadhesive slides we used resulted in substantial cell mortality for certain pure cultures and river water samples, limiting their use for L/D determination. Cell enumeration using bioadhesive slides is particularly effective because it is highly precise at a wide range of cell concentrations, allows observation of cells that are not readily discernible on filters, reduces the number of steps and processing materials associated with sample analysis, and increases throughput., (Copyright © 2011 Elsevier B.V. All rights reserved.)

Published

2011

49. Effects of age and composition of field-produced biofilms on oyster larval setting.

Author

Campbell AH, Meritt DW, Franklin RB, Boone EL, Nicely CT, and Brown BL

Subjects

Animals, Larva growth & development, Rivers microbiology, Seasons, Time Factors, Biofilms, Biofouling, Crassostrea growth & development

Abstract

Lack of success in restoring the native Eastern oyster, Crassostrea virginica, to Chesapeake Bay has been linked to the low occurrence of oyster larval setting in tributaries to the Bay. Among the many potential factors that could affect efforts to produce oysters through aquaculture or supplementation of shell beds is substratum condition. The present study examined larval setting on field-produced biofilms from Little Wicomico River (Virginia, USA) to assess whether bacterial community structure (examined by terminal restriction fragment length polymorphism, T-RFLP) or other characteristics of contemporary biofilms in this tributary (biofilm age and mass, algal abundance, and percentage organic matter) inhibited setting of larval oysters. The structure of the natural and heterogenous bacterial community in the biofilms and the success of oyster set were correlated, suggesting that specific microbial species may play a role in oyster setting. Larval set increased with biofilm age and mass, suggesting that established field-produced biofilms have no inhibitory effect. In contrast, the percentage of organic matter was negatively correlated with oyster set, whereas chlorophyll a concentration had no observed effect. The study expands prior knowledge by providing a more realistic timeframe for biofilm development (weeks as opposed to days), recounting effects of biofilms that are more representative of the natural dynamic and disturbance processes that would be expected to occur on submerged structures, and by incorporating seasonal and spatial variation. An important negative effect observed during the study period was heavy predation by Stylochus ellipticus on newly set oysters. Overall, the results of this study, which is the first assessment of the effects of biofilms produced naturally within a Chesapeake Bay tributary, suggest that the absence of large numbers of oysters in Little Wicomico River is not related to microbes or other specific characteristics of biofilms that develop on suitable setting substrata, but rather to heavy predation of newly set larvae.

Published

2011

50. Temperature induced bacterial virulence and bleaching disease in a chemically defended marine macroalga.

Author

Case RJ, Longford SR, Campbell AH, Low A, Tujula N, Steinberg PD, and Kjelleberg S

Subjects

Australia, Bacteria pathogenicity, Biofilms drug effects, Furans metabolism, Gene Expression Regulation, Bacterial, Quorum Sensing drug effects, Seaweed metabolism, Virulence drug effects, Bacteria drug effects, Furans pharmacology, Host-Pathogen Interactions, Seaweed microbiology, Temperature

Abstract

Host-pathogen interactions have been widely studied in humans and terrestrial plants, but are much less well explored in marine systems. Here we show that a marine macroalga, Delisea pulchra, utilizes a chemical defence - furanones - to inhibit colonization and infection by a novel bacterial pathogen, Ruegeria sp. R11, and that infection by R11 is temperature dependent. Ruegeria sp. R11 formed biofilms, invaded and bleached furanone-free, but not furanone-producing D. pulchra thalli, at high (24°C) but not low (19°C) temperatures. Bleaching is commonly observed in natural populations of D. pulchra near Sydney, Australia, during the austral summer when ocean temperatures are at their peak and the chemical defences of the alga are reduced. Furanones, produced by D. pulchra as a chemical defence, inhibit quorum sensing (QS) in bacteria, and this may play a role in furanone inhibition of R11 infection of furanone-free thalli as R11 produces QS signals. This interplay between temperature, an algal chemical defence mechanism and bacterial virulence demonstrates the complex impact environmental change can have on an ecosystem.

Published

2011