Your search keyword '"Blanchard JL"' showing total 176 results

1. Complementary Metagenomic Approaches Improve Reconstruction of Microbial Diversity in a Forest Soil

Author

Alteio, LV, Schulz, F, Seshadri, R, Varghese, N, Rodriguez-Reillo, W, Ryan, E, Goudeau, D, Eichorst, SA, Malmstrom, RR, Bowers, RM, Katz, LA, Blanchard, JL, and Woyke, T

Subjects

Biological Sciences, Bioinformatics and Computational Biology, Ecology, Genetics, Microbiology, Human Genome, Generic health relevance, flow cytometry, metagenomics, microbial ecology, soil microbiology

Abstract

Soil ecosystems harbor diverse microorganisms and yet remain only partially characterized as neither single-cell sequencing nor whole-community sequencing offers a complete picture of these complex communities. Thus, the genetic and metabolic potential of this "uncultivated majority" remains underexplored. To address these challenges, we applied a pooled-cell-sorting-based mini-metagenomics approach and compared the results to bulk metagenomics. Informatic binning of these data produced 200 mini-metagenome assembled genomes (sorted-MAGs) and 29 bulk metagenome assembled genomes (MAGs). The sorted and bulk MAGs increased the known phylogenetic diversity of soil taxa by 7.2% with respect to the Joint Genome Institute IMG/M database and showed clade-specific sequence recruitment patterns across diverse terrestrial soil metagenomes. Additionally, sorted-MAGs expanded the rare biosphere not captured through MAGs from bulk sequences, exemplified through phylogenetic and functional analyses of members of the phylum Bacteroidetes Analysis of 67 Bacteroidetes sorted-MAGs showed conserved patterns of carbon metabolism across four clades. These results indicate that mini-metagenomics enables genome-resolved investigation of predicted metabolism and demonstrates the utility of combining metagenomics methods to tap into the diversity of heterogeneous microbial assemblages.IMPORTANCE Microbial ecologists have historically used cultivation-based approaches as well as amplicon sequencing and shotgun metagenomics to characterize microbial diversity in soil. However, challenges persist in the study of microbial diversity, including the recalcitrance of the majority of microorganisms to laboratory cultivation and limited sequence assembly from highly complex samples. The uncultivated majority thus remains a reservoir of untapped genetic diversity. To address some of the challenges associated with bulk metagenomics as well as low throughput of single-cell genomics, we applied flow cytometry-enabled mini-metagenomics to capture expanded microbial diversity from forest soil and compare it to soil bulk metagenomics. Our resulting data from this pooled-cell sorting approach combined with bulk metagenomics revealed increased phylogenetic diversity through novel soil taxa and rare biosphere members. In-depth analysis of genomes within the highly represented Bacteroidetes phylum provided insights into conserved and clade-specific patterns of carbon metabolism.

Published

2020

2. Global Phylogeography of Marine Synechococcus in Coastal Areas Reveals Strong Community Shifts.

Author

Blanchard, JL, Doré, H, Leconte, J, Guyet, U, Breton, S, Farrant, GK, Demory, D, Ratin, M, Hoebeke, M, Corre, E, Pitt, FD, Ostrowski, M, Scanlan, DJ, Partensky, F, Six, C, Garczarek, L, Blanchard, JL, Doré, H, Leconte, J, Guyet, U, Breton, S, Farrant, GK, Demory, D, Ratin, M, Hoebeke, M, Corre, E, Pitt, FD, Ostrowski, M, Scanlan, DJ, Partensky, F, Six, C, and Garczarek, L

Abstract

Marine Synechococcus comprise a numerically and ecologically prominent phytoplankton group, playing a major role in both carbon cycling and trophic networks in all oceanic regions except in the polar oceans. Despite their high abundance in coastal areas, our knowledge of Synechococcus communities in these environments is based on only a few local studies. Here, we use the global metagenome data set of the Ocean Sampling Day (June 21st, 2014) to get a snapshot of the taxonomic composition of coastal Synechococcus communities worldwide, by recruitment on a reference database of 141 picocyanobacterial genomes, representative of the whole Prochlorococcus, Synechococcus, and Cyanobium diversity. This allowed us to unravel drastic community shifts over small to medium scale gradients of environmental factors, in particular along European coasts. The combined analysis of the phylogeography of natural populations and the thermophysiological characterization of eight strains, representative of the four major Synechococcus lineages (clades I to IV), also brought novel insights about the differential niche partitioning of clades I and IV, which most often co-dominate the Synechococcus community in cold and temperate coastal areas. Altogether, this study reveals several important characteristics and specificities of the coastal communities of Synechococcus worldwide. IMPORTANCE Synechococcus is the second most abundant phytoplanktonic organism on Earth, and its wide genetic diversity allowed it to colonize all the oceans except for polar waters, with different clades colonizing distinct oceanic niches. In recent years, the use of global metagenomics data sets has greatly improved our knowledge of "who is where" by describing the distribution of Synechococcus clades or ecotypes in the open ocean. However, little is known about the global distribution of Synechococcus ecotypes in coastal areas, where Synechococcus is often the dominant phytoplanktonic organism. Here, we leverage

Published

2022

3. A genomic catalog of Earth’s microbiomes

Author

Nayfach, S, Roux, S, Seshadri, R, Udwary, D, Varghese, N, Schulz, F, Wu, D, Paez-Espino, D, Chen, IM, Huntemann, M, Palaniappan, K, Ladau, J, Mukherjee, S, Reddy, TBK, Nielsen, T, Kirton, E, Faria, JP, Edirisinghe, JN, Henry, CS, Jungbluth, SP, Chivian, D, Dehal, P, Wood-Charlson, EM, Arkin, AP, Tringe, SG, Visel, A, Abreu, H, Acinas, SG, Allen, E, Allen, MA, Alteio, LV, Andersen, G, Anesio, AM, Attwood, G, Avila-Magaña, V, Badis, Y, Bailey, J, Baker, B, Baldrian, P, Barton, HA, Beck, DAC, Becraft, ED, Beller, HR, Beman, JM, Bernier-Latmani, R, Berry, TD, Bertagnolli, A, Bertilsson, S, Bhatnagar, JM, Bird, JT, Blanchard, JL, Blumer-Schuette, SE, Bohannan, B, Borton, MA, Brady, A, Brawley, SH, Brodie, J, Brown, S, Brum, JR, Brune, A, Bryant, DA, Buchan, A, Buckley, DH, Buongiorno, J, Cadillo-Quiroz, H, Caffrey, SM, Campbell, AN, Campbell, B, Carr, S, Carroll, JL, Cary, SC, Cates, AM, Cattolico, RA, Cavicchioli, R, Chistoserdova, L, Coleman, ML, Constant, P, Conway, JM, Mac Cormack, WP, Crowe, S, Crump, B, Currie, C, Daly, R, DeAngelis, KM, Denef, V, Denman, SE, Desta, A, Dionisi, H, Dodsworth, J, Dombrowski, N, Donohue, T, Dopson, M, Driscoll, T, Dunfield, P, Dupont, CL, Dynarski, KA, Edgcomb, V, Edwards, EA, Elshahed, MS, Figueroa, I, Nayfach, S, Roux, S, Seshadri, R, Udwary, D, Varghese, N, Schulz, F, Wu, D, Paez-Espino, D, Chen, IM, Huntemann, M, Palaniappan, K, Ladau, J, Mukherjee, S, Reddy, TBK, Nielsen, T, Kirton, E, Faria, JP, Edirisinghe, JN, Henry, CS, Jungbluth, SP, Chivian, D, Dehal, P, Wood-Charlson, EM, Arkin, AP, Tringe, SG, Visel, A, Abreu, H, Acinas, SG, Allen, E, Allen, MA, Alteio, LV, Andersen, G, Anesio, AM, Attwood, G, Avila-Magaña, V, Badis, Y, Bailey, J, Baker, B, Baldrian, P, Barton, HA, Beck, DAC, Becraft, ED, Beller, HR, Beman, JM, Bernier-Latmani, R, Berry, TD, Bertagnolli, A, Bertilsson, S, Bhatnagar, JM, Bird, JT, Blanchard, JL, Blumer-Schuette, SE, Bohannan, B, Borton, MA, Brady, A, Brawley, SH, Brodie, J, Brown, S, Brum, JR, Brune, A, Bryant, DA, Buchan, A, Buckley, DH, Buongiorno, J, Cadillo-Quiroz, H, Caffrey, SM, Campbell, AN, Campbell, B, Carr, S, Carroll, JL, Cary, SC, Cates, AM, Cattolico, RA, Cavicchioli, R, Chistoserdova, L, Coleman, ML, Constant, P, Conway, JM, Mac Cormack, WP, Crowe, S, Crump, B, Currie, C, Daly, R, DeAngelis, KM, Denef, V, Denman, SE, Desta, A, Dionisi, H, Dodsworth, J, Dombrowski, N, Donohue, T, Dopson, M, Driscoll, T, Dunfield, P, Dupont, CL, Dynarski, KA, Edgcomb, V, Edwards, EA, Elshahed, MS, and Figueroa, I

Abstract

The reconstruction of bacterial and archaeal genomes from shotgun metagenomes has enabled insights into the ecology and evolution of environmental and host-associated microbiomes. Here we applied this approach to >10,000 metagenomes collected from diverse habitats covering all of Earth’s continents and oceans, including metagenomes from human and animal hosts, engineered environments, and natural and agricultural soils, to capture extant microbial, metabolic and functional potential. This comprehensive catalog includes 52,515 metagenome-assembled genomes representing 12,556 novel candidate species-level operational taxonomic units spanning 135 phyla. The catalog expands the known phylogenetic diversity of bacteria and archaea by 44% and is broadly available for streamlined comparative analyses, interactive exploration, metabolic modeling and bulk download. We demonstrate the utility of this collection for understanding secondary-metabolite biosynthetic potential and for resolving thousands of new host linkages to uncultivated viruses. This resource underscores the value of genome-centric approaches for revealing genomic properties of uncultivated microorganisms that affect ecosystem processes.

Published

2021

4. Author Correction: A genomic catalog of Earth’s microbiomes (Nature Biotechnology, (2021), 39, 4, (499-509), 10.1038/s41587-020-0718-6)

Author

Nayfach, S, Roux, S, Seshadri, R, Udwary, D, Varghese, N, Schulz, F, Wu, D, Paez-Espino, D, Chen, IM, Huntemann, M, Palaniappan, K, Ladau, J, Mukherjee, S, Reddy, TBK, Nielsen, T, Kirton, E, Faria, JP, Edirisinghe, JN, Henry, CS, Jungbluth, SP, Chivian, D, Dehal, P, Wood-Charlson, EM, Arkin, AP, Tringe, SG, Visel, A, Abreu, H, Acinas, SG, Allen, E, Allen, MA, Alteio, LV, Andersen, G, Anesio, AM, Attwood, G, Avila-Magaña, V, Badis, Y, Bailey, J, Baker, B, Baldrian, P, Barton, HA, Beck, DAC, Becraft, ED, Beller, HR, Beman, JM, Bernier-Latmani, R, Berry, TD, Bertagnolli, A, Bertilsson, S, Bhatnagar, JM, Bird, JT, Blanchard, JL, Blumer-Schuette, SE, Bohannan, B, Borton, MA, Brady, A, Brawley, SH, Brodie, J, Brown, S, Brum, JR, Brune, A, Bryant, DA, Buchan, A, Buckley, DH, Buongiorno, J, Cadillo-Quiroz, H, Caffrey, SM, Campbell, AN, Campbell, B, Carr, S, Carroll, JL, Cary, SC, Cates, AM, Cattolico, RA, Cavicchioli, R, Chistoserdova, L, Coleman, ML, Constant, P, Conway, JM, Mac Cormack, WP, Crowe, S, Crump, B, Currie, C, Daly, R, DeAngelis, KM, Denef, V, Denman, SE, Desta, A, Dionisi, H, Dodsworth, J, Dombrowski, N, Donohue, T, Dopson, M, Driscoll, T, Dunfield, P, Dupont, CL, Dynarski, KA, Edgcomb, V, Edwards, EA, Elshahed, MS, Figueroa, I, Nayfach, S, Roux, S, Seshadri, R, Udwary, D, Varghese, N, Schulz, F, Wu, D, Paez-Espino, D, Chen, IM, Huntemann, M, Palaniappan, K, Ladau, J, Mukherjee, S, Reddy, TBK, Nielsen, T, Kirton, E, Faria, JP, Edirisinghe, JN, Henry, CS, Jungbluth, SP, Chivian, D, Dehal, P, Wood-Charlson, EM, Arkin, AP, Tringe, SG, Visel, A, Abreu, H, Acinas, SG, Allen, E, Allen, MA, Alteio, LV, Andersen, G, Anesio, AM, Attwood, G, Avila-Magaña, V, Badis, Y, Bailey, J, Baker, B, Baldrian, P, Barton, HA, Beck, DAC, Becraft, ED, Beller, HR, Beman, JM, Bernier-Latmani, R, Berry, TD, Bertagnolli, A, Bertilsson, S, Bhatnagar, JM, Bird, JT, Blanchard, JL, Blumer-Schuette, SE, Bohannan, B, Borton, MA, Brady, A, Brawley, SH, Brodie, J, Brown, S, Brum, JR, Brune, A, Bryant, DA, Buchan, A, Buckley, DH, Buongiorno, J, Cadillo-Quiroz, H, Caffrey, SM, Campbell, AN, Campbell, B, Carr, S, Carroll, JL, Cary, SC, Cates, AM, Cattolico, RA, Cavicchioli, R, Chistoserdova, L, Coleman, ML, Constant, P, Conway, JM, Mac Cormack, WP, Crowe, S, Crump, B, Currie, C, Daly, R, DeAngelis, KM, Denef, V, Denman, SE, Desta, A, Dionisi, H, Dodsworth, J, Dombrowski, N, Donohue, T, Dopson, M, Driscoll, T, Dunfield, P, Dupont, CL, Dynarski, KA, Edgcomb, V, Edwards, EA, Elshahed, MS, and Figueroa, I

Abstract

In the version of this article initially published, four people were missing from the alphabetical list of IMG/M Data Consortium members: Lauren V. Alteio of the Centre for Microbiology and Environmental Systems Science, University of Vienna, Vienna, Austria; Jeffrey L. Blanchard of the Biology Department, University of Massachusetts Amherst, Amherst, MA, USA; Kristen M. DeAngelis of the Department of Microbiology, University of Massachusetts Amherst, Amherst, MA, USA; and William Rodriguez-Reillo of the Research Computing Division, Harvard Medical School, Boston, MA, USA. The error has been corrected in the PDF and HTML versions of the article.

Published

2021

5. Accounting for the bin structure of data removes bias when fitting size spectra

Author

Edwards, AM, primary, Robinson, JPW, additional, Blanchard, JL, additional, Baum, JK, additional, and Plank, MJ, additional

Published

2020

6. Early warning signals of recovery in complex systems

Author

Clements, CF, McCarthy, MA, Blanchard, JL, Clements, CF, McCarthy, MA, and Blanchard, JL

Abstract

Early warning signals (EWSs) offer the hope that patterns observed in data can predict the future states of ecological systems. While a large body of research identifies such signals prior to the collapse of populations, the prediction that such signals should also be present before a system's recovery has thus far been overlooked. We assess whether EWSs are present prior to the recovery of overexploited marine systems using a trait-based ecological model and analysis of real-world fisheries data. We show that both abundance and trait-based signals are independently detectable prior to the recovery of stocks, but that combining these two signals provides the best predictions of recovery. This work suggests that the efficacy of conservation interventions aimed at restoring systems which have collapsed may be predicted prior to the recovery of the system, with direct relevance for conservation planning and policy.

Published

2019

7. Satellite remote sensing of ecosystem functions: opportunities, challenges and way forward

Author

Pettorelli, N, Schulte to Bühne, H, Tulloch, A, Dubois, G, Macinnis-Ng, C, Queirós, AM, Keith, DA, Wegmann, M, Schrodt, F, Stellmes, M, Sonnenschein, R, Geller, GN, Roy, S, Somers, B, Murray, N, Bland, L, Geijzendorffer, I, Kerr, JT, Broszeit, S, Leitão, PJ, Duncan, C, El Serafy, G, He, KS, Blanchard, JL, Lucas, R, Mairota, P, Webb, TJ, Nicholson, E, Pettorelli, N, Schulte to Bühne, H, Tulloch, A, Dubois, G, Macinnis-Ng, C, Queirós, AM, Keith, DA, Wegmann, M, Schrodt, F, Stellmes, M, Sonnenschein, R, Geller, GN, Roy, S, Somers, B, Murray, N, Bland, L, Geijzendorffer, I, Kerr, JT, Broszeit, S, Leitão, PJ, Duncan, C, El Serafy, G, He, KS, Blanchard, JL, Lucas, R, Mairota, P, Webb, TJ, and Nicholson, E

Abstract

Societal, economic and scientific interests in knowing where biodiversity is, how it is faring and what can be done to efficiently mitigate further biodiversity loss and the associated loss of ecosystem services are at an all-time high. So far, however, biodiversity monitoring has primarily focused on structural and compositional features of ecosystems despite growing evidence that ecosystem functions are key to elucidating the mechanisms through which biological diversity generates services to humanity. This monitoring gap can be traced to the current lack of consensus on what exactly ecosystem functions are and how to track them at scales beyond the site level. This contribution aims to advance the development of a global biodiversity monitoring strategy by proposing the adoption of a set of definitions and a typology for ecosystem functions, and reviewing current opportunities and potential limitations for satellite remote sensing technology to support the monitoring of ecosystem functions worldwide. By clearly defining ecosystem processes, functions and services and their interrelationships, we provide a framework to improve communication between ecologists, land and marine managers, remote sensing specialists and policy makers, thereby addressing a major barrier in the field.

Published

2018

8. Managing consequences of climate-driven species redistribution requires integration of ecology, conservation and social science

Author

Bonebrake, TC, Brown, CJ, Bell, JD, Blanchard, JL, Chauvenet, A, Champion, C, Chen, IC, Clark, TD, Colwell, RK, Danielsen, F, Dell, AI, Donelson, JM, Evengård, B, Ferrier, S, Frusher, S, Garcia, RA, Griffis, RB, Hobday, AJ, Jarzyna, MA, Lee, E, Lenoir, J, Linnetved, H, Martin, VY, McCormack, PC, McDonald, J, McDonald-Madden, E, Mitchell, N, Mustonen, T, Pandolfi, JM, Pettorelli, N, Possingham, H, Pulsifer, P, Reynolds, M, Scheffers, BR, Sorte, CJB, Strugnell, JM, Tuanmu, MN, Twiname, S, Vergés, A, Villanueva, C, Wapstra, E, Wernberg, T, Pecl, GT, Bonebrake, TC, Brown, CJ, Bell, JD, Blanchard, JL, Chauvenet, A, Champion, C, Chen, IC, Clark, TD, Colwell, RK, Danielsen, F, Dell, AI, Donelson, JM, Evengård, B, Ferrier, S, Frusher, S, Garcia, RA, Griffis, RB, Hobday, AJ, Jarzyna, MA, Lee, E, Lenoir, J, Linnetved, H, Martin, VY, McCormack, PC, McDonald, J, McDonald-Madden, E, Mitchell, N, Mustonen, T, Pandolfi, JM, Pettorelli, N, Possingham, H, Pulsifer, P, Reynolds, M, Scheffers, BR, Sorte, CJB, Strugnell, JM, Tuanmu, MN, Twiname, S, Vergés, A, Villanueva, C, Wapstra, E, Wernberg, T, and Pecl, GT

Abstract

© 2017 Cambridge Philosophical Society Climate change is driving a pervasive global redistribution of the planet's species. Species redistribution poses new questions for the study of ecosystems, conservation science and human societies that require a coordinated and integrated approach. Here we review recent progress, key gaps and strategic directions in this nascent research area, emphasising emerging themes in species redistribution biology, the importance of understanding underlying drivers and the need to anticipate novel outcomes of changes in species ranges. We highlight that species redistribution has manifest implications across multiple temporal and spatial scales and from genes to ecosystems. Understanding range shifts from ecological, physiological, genetic and biogeographical perspectives is essential for informing changing paradigms in conservation science and for designing conservation strategies that incorporate changing population connectivity and advance adaptation to climate change. Species redistributions present challenges for human well-being, environmental management and sustainable development. By synthesising recent approaches, theories and tools, our review establishes an interdisciplinary foundation for the development of future research on species redistribution. Specifically, we demonstrate how ecological, conservation and social research on species redistribution can best be achieved by working across disciplinary boundaries to develop and implement solutions to climate change challenges. Future studies should therefore integrate existing and complementary scientific frameworks while incorporating social science and human-centred approaches. Finally, we emphasise that the best science will not be useful unless more scientists engage with managers, policy makers and the public to develop responsible and socially acceptable options for the global challenges arising from species redistributions.

Published

2018

9. Assessing National Biodiversity Trends for Rocky and Coral Reefs through the Integration of Citizen Science and Scientific Monitoring Programs

Author

Stuart-Smith, RD, Edgar, GJ, Barrett, NS, Bates, AE, Baker, SC, Bax, NJ, Becerro, MA, Berkhout, J, Blanchard, JL, Brock, DJ, Clark, GF, Cooper, AT, Davis, TR, Day, PB, Duffy, E, Holmes, TH, Howe, SA, Jordan, A, Kininmonth, S, Knott, NA, Lefcheck, JS, Ling, SD, Parr, A, Strain, E, Sweatman, H, Thomson, R, Stuart-Smith, RD, Edgar, GJ, Barrett, NS, Bates, AE, Baker, SC, Bax, NJ, Becerro, MA, Berkhout, J, Blanchard, JL, Brock, DJ, Clark, GF, Cooper, AT, Davis, TR, Day, PB, Duffy, E, Holmes, TH, Howe, SA, Jordan, A, Kininmonth, S, Knott, NA, Lefcheck, JS, Ling, SD, Parr, A, Strain, E, Sweatman, H, and Thomson, R

Abstract

Reporting progress against targets for international biodiversity agreements is hindered by a shortage of suitable biodiversity data. We describe a cost-effective system involving Reef Life Survey citizen scientists in the systematic collection of quantitative data covering multiple phyla that can underpin numerous marine biodiversity indicators at high spatial and temporal resolution. We then summarize the findings of a continental- and decadal-scale State of the Environment assessment for rocky and coral reefs based on indicators of ecosystem state relating to fishing, ocean warming, and invasive species and describing the distribution of threatened species. Fishing impacts are widespread, whereas substantial warming-related change affected some regions between 2005 and 2015. Invasive species are concentrated near harbors in southeastern Australia, and the threatened-species index is highest for the Great Australian Bight and Tasman Sea. Our approach can be applied globally to improve reporting against biodiversity targets and enhance public and policymakers' understanding of marine biodiversity trends.

Published

2017

10. Assessing National Biodiversity Trends for Rocky and Coral Reefs through the Integration of Citizen Science and Scientific Monitoring Programs (vol 67, pg 134, 2017)

Author

Stuart-Smith, RD, Edgar, GJ, Barrett, NS, Bates, AE, Baker, SC, Bax, NJ, Becerro, MA, Berkhout, J, Blanchard, JL, Brock, DJ, Clark, GF, Cooper, AT, Davis, TR, Day, PB, Duffy, JE, Holmes, TH, Howe, SA, Jordan, A, Kininmonth, S, Knott, NA, Lefcheck, JS, Ling, SD, Parr, A, Strain, E, Sweatman, H, Thomson, R, Stuart-Smith, RD, Edgar, GJ, Barrett, NS, Bates, AE, Baker, SC, Bax, NJ, Becerro, MA, Berkhout, J, Blanchard, JL, Brock, DJ, Clark, GF, Cooper, AT, Davis, TR, Day, PB, Duffy, JE, Holmes, TH, Howe, SA, Jordan, A, Kininmonth, S, Knott, NA, Lefcheck, JS, Ling, SD, Parr, A, Strain, E, Sweatman, H, and Thomson, R

Abstract

[This corrects the article DOI: 10.1093/biosci/biw180.].

Published

2017

11. Making Robust Policy Decisions Using Global Biodiversity Indicators

Author

Willis, SG, Nicholson, E, Collen, B, Barausse, A, Blanchard, JL, Costelloe, BT, Sullivan, KME, Underwood, FM, Burn, RW, Fritz, S, Jones, JPG, McRae, L, Possingham, HP, Milner-Gulland, EJ, Willis, SG, Nicholson, E, Collen, B, Barausse, A, Blanchard, JL, Costelloe, BT, Sullivan, KME, Underwood, FM, Burn, RW, Fritz, S, Jones, JPG, McRae, L, Possingham, HP, and Milner-Gulland, EJ

Abstract

In order to influence global policy effectively, conservation scientists need to be able to provide robust predictions of the impact of alternative policies on biodiversity and measure progress towards goals using reliable indicators. We present a framework for using biodiversity indicators predictively to inform policy choices at a global level. The approach is illustrated with two case studies in which we project forwards the impacts of feasible policies on trends in biodiversity and in relevant indicators. The policies are based on targets agreed at the Convention on Biological Diversity (CBD) meeting in Nagoya in October 2010. The first case study compares protected area policies for African mammals, assessed using the Red List Index; the second example uses the Living Planet Index to assess the impact of a complete halt, versus a reduction, in bottom trawling. In the protected areas example, we find that the indicator can aid in decision-making because it is able to differentiate between the impacts of the different policies. In the bottom trawling example, the indicator exhibits some counter-intuitive behaviour, due to over-representation of some taxonomic and functional groups in the indicator, and contrasting impacts of the policies on different groups caused by trophic interactions. Our results support the need for further research on how to use predictive models and indicators to credibly track trends and inform policy. To be useful and relevant, scientists must make testable predictions about the impact of global policy on biodiversity to ensure that targets such as those set at Nagoya catalyse effective and measurable change.

Published

2012

12. Fishing mortality versus natural predation on diurnally migrating sandeels Ammodytes marinus

Author

Engelhard, GH, primary, van der Kooij, J, additional, Bell, ED, additional, Pinnegar, JK, additional, Blanchard, JL, additional, Mackinson, S, additional, and Righton, DA, additional

Published

2008

13. Global phylogeography of marine $Synechococcus$ in coastal areas reveals strong community shifts

Author

Hugo Doré, Jade Leconte, Ulysse Guyet, Solène Breton, Gregory K. Farrant, David Demory, Morgane Ratin, Mark Hoebeke, Erwan Corre, Frances D. Pitt, Martin Ostrowski, David J. Scanlan, Frédéric Partensky, Christophe Six, Laurence Garczarek, Adaptation et diversité en milieu marin (AD2M), Station biologique de Roscoff [Roscoff] (SBR), Université Pierre et Marie Curie - Paris 6 (UPMC)-Centre National de la Recherche Scientifique (CNRS)-Université Pierre et Marie Curie - Paris 6 (UPMC)-Centre National de la Recherche Scientifique (CNRS)-Centre National de la Recherche Scientifique (CNRS), ANR-17-CE02-0014,CINNAMON,Analyse multi-échelle de l'adaptation à la carence en Fer chez un organisme clé du phytoplancton marin, dans un contexte de changement global(2017), ANR-13-ADAP-0010,SAMOSA,Synechococcus as a model genus for studying adaptation of marine phytoplankton to environmental changes(2013), European Project: 287589,MicroB3, European Project: 730984,Assemble plus, and Blanchard, JL

Subjects

Synechococcus, metagenomics, Physiology, Oceans and Seas, marine cyanobacteria, temperature, coastal areas, Biochemistry, Microbiology, [SDV.MP.BAC]Life Sciences [q-bio]/Microbiology and Parasitology/Bacteriology, Computer Science Applications, Ocean Sampling Day, Phylogeography, [SDV.MP]Life Sciences [q-bio]/Microbiology and Parasitology, Modeling and Simulation, Phytoplankton, environmental microbiology, Genetics, Seawater, niche partitioning, [SDE.BE]Environmental Sciences/Biodiversity and Ecology, Molecular Biology, Ecology, Evolution, Behavior and Systematics, Phylogeny

Abstract

Marine Synechococcus comprise a numerically and ecologically prominent phytoplankton group, playing a major role in both carbon cycling and trophic networks in all oceanic regions except in the polar oceans. Despite their high abundance in coastal areas, our knowledge of Synechococcus communities in these environments is based on only a few local studies. Here, we use the global metagenome data set of the Ocean Sampling Day (June 21st, 2014) to get a snapshot of the taxonomic composition of coastal Synechococcus communities worldwide, by recruitment on a reference database of 141 picocyanobacterial genomes, representative of the whole Prochlorococcus, Synechococcus, and Cyanobium diversity. This allowed us to unravel drastic community shifts over small to medium scale gradients of environmental factors, in particular along European coasts. The combined analysis of the phylogeography of natural populations and the thermophysiological characterization of eight strains, representative of the four major Synechococcus lineages (clades I to IV), also brought novel insights about the differential niche partitioning of clades I and IV, which most often co-dominate the Synechococcus community in cold and temperate coastal areas. Altogether, this study reveals several important characteristics and specificities of the coastal communities of Synechococcus worldwide. IMPORTANCE Synechococcus is the second most abundant phytoplanktonic organism on Earth, and its wide genetic diversity allowed it to colonize all the oceans except for polar waters, with different clades colonizing distinct oceanic niches. In recent years, the use of global metagenomics data sets has greatly improved our knowledge of "who is where" by describing the distribution of Synechococcus clades or ecotypes in the open ocean. However, little is known about the global distribution of Synechococcus ecotypes in coastal areas, where Synechococcus is often the dominant phytoplanktonic organism. Here, we leverage the global Ocean Sampling Day metagenomics data set to describe Synechococcus community composition in coastal areas worldwide, revealing striking community shifts, in particular along the coasts of Europe. As temperature appears as an important driver of the community composition, we also characterize the thermal preferenda of 8 Synechococcus strains, bringing new insights into the adaptation to temperature of the dominant Synechococcus clades.

Published

2022

14. Mucosal Vaccination with Heterologous Viral Vectored Vaccine Targeting Subdominant SIV Accessory Antigens Strongly Inhibits Early Viral Replication

Author

Alfredo Nicosia, James Blanchard, Benjamin A. H. Jensen, Ronald S. Veazey, Stefano Colloca, Jan Pravsgaard Christensen, Emeline Ragonnaud, Allan Randrup Thomsen, Anders Tolver, Antonella Folgori, Peter Johannes Holst, Ditte Rahbæk Boilesen, Huanbin Xu, Anne-Marie C. Andersson, Riccardo Cortese, Xu, H, Andersson, Am, Ragonnaud, E, Boilesen, D, Tolver, A, Jensen, Bah, Blanchard, Jl, Nicosia, A, Folgori, A, Colloca, S, Cortese, R, Thomsen, Ar, Christensen, Jp, Veazey, R, and Holst, Pj.

Subjects

0301 basic medicine, Naive T cell, T cell, lcsh:Medicine, Viremia, Heterologous viral vectored prime-boost immunization, Genetic adjuvant, Biology, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, 0302 clinical medicine, Immune system, Antigen, medicine, lcsh:R5-920, lcsh:R, virus diseases, General Medicine, medicine.disease, Virology, 3. Good health, Vaccination, 030104 developmental biology, medicine.anatomical_structure, Viral replication, Immunology, lcsh:Medicine (General), T-cell vaccine, 030215 immunology

Abstract

Conventional HIV T cell vaccine strategies have not been successful in containing acute peak viremia, nor in providing long-term control. We immunized rhesus macaques intramuscularly and rectally using a heterologous adenovirus vectored SIV vaccine regimen encoding normally weakly immunogenic tat, vif, rev and vpr antigens fused to the MHC class II associated invariant chain. Immunizations induced broad T cell responses in all vaccinees. Following up to 10 repeated low-dose intrarectal challenges, vaccinees suppressed early viral replication (P=0.01) and prevented the peak viremia in 5/6 animals. Despite consistently undetectable viremia in 2 out of 6 vaccinees, all animals showed evidence of infection induced immune responses indicating that infection had taken place. Vaccinees, with and without detectable viremia better preserved their rectal CD4+ T cell population and had reduced immune hyperactivation as measured by naive T cell depletion, Ki-67 and PD-1 expression on T cells. These results indicate that vaccination towards SIV accessory antigens vaccine can provide a level of acute control of SIV replication with a suggestion of beneficial immunological consequences in infected animals of unknown long-term significance. In conclusion, our studies demonstrate that a vaccine encoding subdominant antigens not normally associated with virus control can exert a significant impact on acute peak viremia.

Published

2017

15. From soil to sequence: filling the critical gap in genome-resolved metagenomics is essential to the future of soil microbial ecology.

Author

Anthony WE, Allison SD, Broderick CM, Chavez Rodriguez L, Clum A, Cross H, Eloe-Fadrosh E, Evans S, Fairbanks D, Gallery R, Gontijo JB, Jones J, McDermott J, Pett-Ridge J, Record S, Rodrigues JLM, Rodriguez-Reillo W, Shek KL, Takacs-Vesbach T, and Blanchard JL

Abstract

Soil microbiomes are heterogeneous, complex microbial communities. Metagenomic analysis is generating vast amounts of data, creating immense challenges in sequence assembly and analysis. Although advances in technology have resulted in the ability to easily collect large amounts of sequence data, soil samples containing thousands of unique taxa are often poorly characterized. These challenges reduce the usefulness of genome-resolved metagenomic (GRM) analysis seen in other fields of microbiology, such as the creation of high quality metagenomic assembled genomes and the adoption of genome scale modeling approaches. The absence of these resources restricts the scale of future research, limiting hypothesis generation and the predictive modeling of microbial communities. Creating publicly available databases of soil MAGs, similar to databases produced for other microbiomes, has the potential to transform scientific insights about soil microbiomes without requiring the computational resources and domain expertise for assembly and binning., (© 2024. The Author(s).)

Published

2024

16. Mean reef fish body size decreases towards warmer waters.

Author

Coghlan AR, Blanchard JL, Wotherspoon S, Stuart-Smith RD, Edgar GJ, Barrett N, and Audzijonyte A

Subjects

Animals, Temperature, Body Size, Fishes

Abstract

Aquatic ectotherms often attain smaller body sizes at higher temperatures. By analysing ~15,000 coastal-reef fish surveys across a 15°C spatial sea surface temperature (SST) gradient, we found that the mean length of fish in communities decreased by ~5% for each 1°C temperature increase across space, or 50% decrease in mean length from 14 to 29°C mean annual SST. Community mean body size change was driven by differential temperature responses within trophic groups and temperature-driven change in their relative abundance. Herbivores, invertivores and planktivores became smaller on average in warmer temperatures, but no trend was found in piscivores. Nearly 25% of the temperature-related community mean size trend was attributable to trophic composition at the warmest sites, but at colder temperatures, this was <1% due to trophic groups being similarly sized. Our findings suggest that small changes in temperature are associated with large changes in fish community composition and body sizes, with important ecological implications., (© 2024 The Authors. Ecology Letters published by John Wiley & Sons Ltd.)

Published

2024

17. A database of mapped global fishing activity 1950-2017.

Author

Rousseau Y, Blanchard JL, Novaglio C, Pinnell KA, Tittensor DP, Watson RA, and Ye Y

Abstract

A new database on historical country-level fishing fleet capacity and effort is described, derived from a range of publicly available sources that were harmonized, converted to fishing effort, and mapped to 30-min spatial cells. The resulting data is comparable with widely used but more temporally-limited satellite-sourced Automatic Identification System (AIS) datasets for large vessels, while also documenting important smaller fleets and artisanal segments. It ranges from 1950 to 2017, and includes information on number of vessels, engine power, gross tonnage, and nominal effort, categorized by vessel length, gear type and targeted functional groups. The data can be aggregated to Large Marine Ecosystem, region and/or fishing country scales and provides a temporally and spatially explicit source for fishing effort and fleet capacity for studies aimed at understanding the implications of long-term changes in fishing activity in the global ocean., (© 2024. The Author(s).)

Published

2024

18. Changes in sea floor productivity are crucial to understanding the impact of climate change in temperate coastal ecosystems according to a new size-based model.

Author

Audzijonyte A, Delius GW, Stuart-Smith RD, Novaglio C, Edgar GJ, Barrett NS, and Blanchard JL

Subjects

Animals, Food Chain, Biomass, Oceans and Seas, Fishes physiology, Ecosystem, Climate Change

Abstract

The multifaceted effects of climate change on physical and biogeochemical processes are rapidly altering marine ecosystems but often are considered in isolation, leaving our understanding of interactions between these drivers of ecosystem change relatively poor. This is particularly true for shallow coastal ecosystems, which are fuelled by a combination of distinct pelagic and benthic energy pathways that may respond to climate change in fundamentally distinct ways. The fish production supported by these systems is likely to be impacted by climate change differently to those of offshore and shelf ecosystems, which have relatively simpler food webs and mostly lack benthic primary production sources. We developed a novel, multispecies size spectrum model for shallow coastal reefs, specifically designed to simulate potential interactive outcomes of changing benthic and pelagic energy inputs and temperatures and calculate the relative importance of these variables for the fish community. Our model, calibrated using field data from an extensive temperate reef monitoring program, predicts that changes in resource levels will have much stronger impacts on fish biomass and yields than changes driven by physiological responses to temperature. Under increased plankton abundance, species in all fish trophic groups were predicted to increase in biomass, average size, and yields. By contrast, changes in benthic resources produced variable responses across fish trophic groups. Increased benthic resources led to increasing benthivorous and piscivorous fish biomasses, yields, and mean body sizes, but biomass decreases among herbivore and planktivore species. When resource changes were combined with warming seas, physiological responses generally decreased species' biomass and yields. Our results suggest that understanding changes in benthic production and its implications for coastal fisheries should be a priority research area. Our modified size spectrum model provides a framework for further study of benthic and pelagic energy pathways that can be easily adapted to other ecosystems., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2023 Audzijonyte et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2023

19. Modeling the effects of ration on individual growth of Oncorhynchus tshawytscha under controlled conditions.

Author

Johne AS, Carter CG, Wotherspoon S, Hadley S, Symonds JE, Walker SP, and Blanchard JL

Subjects

Humans, Animals, Eating, Aquaculture, Salmon, Salmonidae

Abstract

Fed aquaculture is one of the fastest-growing and most valuable food production industries in the world. The efficiency with which farmed fish convert feed into biomass influences both environmental impact and economic revenue. Salmonid species, such as king salmon (Oncorhynchus tshawytscha), exhibit high levels of plasticity in vital rates such as feed intake and growth rates. Accurate estimations of individual variability in vital rates are important for production management. The use of mean trait values to evaluate feeding and growth performance can mask individual-level differences that potentially contribute to inefficiencies. Here, the authors apply a cohort integral projection model (IPM) framework to investigate individual variation in growth performance of 1625 individually tagged king salmon fed one of three distinct rations of 60%, 80%, and 100% satiation and tracked over a duration of 276 days. To capture the observed sigmoidal growth of individuals, they compared a nonlinear mixed-effects (logistic) model to a linear model used within the IPM framework. Ration significantly influenced several aspects of growth, both at the individual and at the cohort level. Mean final body mass and mean growth rate increased with ration; however, variance in body mass and feed intake also increased significantly over time. Trends in mean body mass and individual body mass variation were captured by both logistic and linear models, suggesting the linear model to be suitable for use in the IPM. The authors also observed that higher rations resulted in a decreasing proportion of individuals reaching the cohort's mean body mass or larger by the end of the experiment. This suggests that, in the present experiment, feeding to satiation did not produce the desired effects of efficient, fast, and uniform growth in juvenile king salmon. Although monitoring individuals through time is challenging in commercial aquaculture settings, recent technological advances combined with an IPM approach could provide new scope for tracking growth performance in experimental and farmed populations. Using the IPM framework might allow the exploration of other size-dependent processes affecting vital rate functions, such as competition and mortality., (© 2023 The Authors. Journal of Fish Biology published by John Wiley & Sons Ltd on behalf of Fisheries Society of the British Isles.)

Published

2023

20. Improving the biological realism of predator-prey size relationships in food web models alters ecosystem dynamics.

Author

Murphy KJ, Pecl GT, Everett JD, Heneghan RF, Richards SA, Richardson AJ, Semmens JM, and Blanchard JL

Subjects

Animals, Biomass, Body Size, Feeding Behavior, Predatory Behavior, Models, Biological, Ecosystem, Food Chain

Abstract

Body-size relationships between predators and prey exhibit remarkable diversity. However, the assumption that predators typically consume proportionally smaller prey often underlies size-dependent predation in ecosystem models. In reality, some animals can consume larger prey or exhibit limited changes in prey size as they grow larger themselves. These distinct predator-prey size relationships challenge the conventional assumptions of traditional size-based models. Cephalopods, with their diverse feeding behaviours and life histories, offer an excellent case study to investigate the impact of greater biological realism in predator-prey size relationships on energy flow within a size-structured ecosystem model. By categorizing cephalopods into high and low-activity groups, in line with empirically derived, distinct predator-prey size relationships, we found that incorporating greater biological realism in size-based feeding reduced ecosystem biomass and production, while simultaneously increasing biomass stability and turnover. Our results have broad implications for ecosystem modelling, since distinct predator-prey size relationships extend beyond cephalopods, encompassing a wide array of major taxonomic groups from filter-feeding fishes to baleen whales. Incorporating a diversity of size-based feeding in food web models can enhance their ecological and predictive accuracy when studying ecosystem dynamics.

Published

2023

21. Trophic amplification: A model intercomparison of climate driven changes in marine food webs.

Author

Guibourd de Luzinais V, du Pontavice H, Reygondeau G, Barrier N, Blanchard JL, Bornarel V, Büchner M, Cheung WWL, Eddy TD, Everett JD, Guiet J, Harrison CS, Maury O, Novaglio C, Petrik CM, Steenbeek J, Tittensor DP, and Gascuel D

Subjects

Animals, Nutritional Status, Climate, Biomass, Food Chain, Ecosystem

Abstract

Marine animal biomass is expected to decrease in the 21st century due to climate driven changes in ocean environmental conditions. Previous studies suggest that the magnitude of the decline in primary production on apex predators could be amplified through the trophodynamics of marine food webs, leading to larger decreases in the biomass of predators relative to the decrease in primary production, a mechanism called trophic amplification. We compared relative changes in producer and consumer biomass or production in the global ocean to assess the extent of trophic amplification. We used simulations from nine marine ecosystem models (MEMs) from the Fisheries and Marine Ecosystem Models Intercomparison Project forced by two Earth System Models under the high greenhouse gas emissions Shared Socioeconomic Pathways (SSP5-8.5) and a scenario of no fishing. Globally, total consumer biomass is projected to decrease by 16.7 ± 9.5% more than net primary production (NPP) by 2090-2099 relative to 1995-2014, with substantial variations among MEMs and regions. Total consumer biomass is projected to decrease almost everywhere in the ocean (80% of the world's oceans) in the model ensemble. In 40% of the world's oceans, consumer biomass was projected to decrease more than NPP. Additionally, in another 36% of the world's oceans consumer biomass is expected to decrease even as projected NPP increases. By analysing the biomass response within food webs in available MEMs, we found that model parameters and structures contributed to more complex responses than a consistent amplification of climate impacts of higher trophic levels. Our study provides additional insights into the ecological mechanisms that will impact marine ecosystems, thereby informing model and scenario development., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2023 Luzinais et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2023

22. Environmental footprints of farmed chicken and salmon bridge the land and sea.

Author

Kuempel CD, Frazier M, Verstaen J, Rayner PE, Blanchard JL, Cottrell RS, Froehlich HE, Gephart JA, Jacobsen NS, McIntyre PB, Metian M, Moran D, Nash KL, Többen J, Williams DR, and Halpern BS

Subjects

Animals, Seafood, Agriculture, Farms, Aquaculture, Salmon, Chickens

Abstract

Food production, particularly of fed animals, is a leading cause of environmental degradation globally. 1 , 2 Understanding where and how much environmental pressure different fed animal products exert is critical to designing effective food policies that promote sustainability. 3 Here, we assess and compare the environmental footprint of farming industrial broiler chickens and farmed salmonids (salmon, marine trout, and Arctic char) to identify opportunities to reduce environmental pressures. We map cumulative environmental pressures (greenhouse gas emissions, nutrient pollution, freshwater use, and spatial disturbance), with particular focus on dynamics across the land and sea. We found that farming broiler chickens disturbs 9 times more area than farming salmon (∼924,000 vs. ∼103,500 km 2 ) but yields 55 times greater production. The footprints of both sectors are extensive, but 95% of cumulative pressures are concentrated into <5% of total area. Surprisingly, the location of these pressures is similar (85.5% spatial overlap between chicken and salmon pressures), primarily due to shared feed ingredients. Environmental pressures from feed ingredients account for >78% and >69% of cumulative pressures of broiler chicken and farmed salmon production, respectively, and could represent a key leverage point to reduce environmental footprints. The environmental efficiency (cumulative pressures per tonne of production) also differs geographically, with areas of high efficiency revealing further potential to promote sustainability. The propagation of environmental pressures across the land and sea underscores the importance of integrating food policies across realms and sectors to advance food system sustainability., Competing Interests: Declaration of interests H.E.F. is a member of the Technical Advisory Group for Aquaculture Stewardship Council. J.L.B. and R.S.C. acknowledge a relationship with BioMar Group A/S including funding grants., (Copyright © 2023 Elsevier Inc. All rights reserved.)

Published

2023

23. Temperature impacts on fish physiology and resource abundance lead to faster growth but smaller fish sizes and yields under warming.

Author

Lindmark M, Audzijonyte A, Blanchard JL, and Gårdmark A

Subjects

Animals, Ecosystem, Fisheries, Food Chain, Temperature, Climate Change, Fishes physiology

Abstract

Resolving the combined effect of climate warming and exploitation in a food web context is key for predicting future biomass production, size-structure and potential yields of marine fishes. Previous studies based on mechanistic size-based food web models have found that bottom-up processes are important drivers of size-structure and fisheries yield in changing climates. However, we know less about the joint effects of 'bottom-up' and physiological effects of temperature; how do temperature effects propagate from individual-level physiology through food webs and alter the size-structure of exploited species in a community? Here, we assess how a species-resolved size-based food web is affected by warming through both these pathways and by exploitation. We parameterize a dynamic size spectrum food web model inspired by the offshore Baltic Sea food web, and investigate how individual growth rates, size-structure, and relative abundances of species and yields are affected by warming. The magnitude of warming is based on projections by the regional coupled model system RCA4-NEMO and the RCP 8.5 emission scenario, and we evaluate different scenarios of temperature dependence on fish physiology and resource productivity. When accounting for temperature-effects on physiology in addition to on basal productivity, projected size-at-age in 2050 increases on average for all fish species, mainly for young fish, compared to scenarios without warming. In contrast, size-at-age decreases when temperature affects resource dynamics only, and the decline is largest for young fish. Faster growth rates due to warming, however, do not always translate to larger yields, as lower resource carrying capacities with increasing temperature tend to result in decline in the abundance of larger fish and hence spawning stock biomass. These results suggest that to understand how global warming affects the size structure of fish communities, both direct metabolic effects and indirect effects of temperature via basal resources must be accounted for., (© 2022 The Authors. Global Change Biology published by John Wiley & Sons Ltd.)

Published

2022

24. A Conceptual Framework to Integrate Biodiversity, Ecosystem Function, and Ecosystem Service Models.

Author

Weiskopf SR, Myers BJE, Arce-Plata MI, Blanchard JL, Ferrier S, Fulton EA, Harfoot M, Isbell F, Johnson JA, Mori AS, Weng E, HarmáCˇková ZV, Londoño-Murcia MC, Miller BW, Pereira LM, and Rosa IMD

Abstract

Global biodiversity and ecosystem service models typically operate independently. Ecosystem service projections may therefore be overly optimistic because they do not always account for the role of biodiversity in maintaining ecological functions. We review models used in recent global model intercomparison projects and develop a novel model integration framework to more fully account for the role of biodiversity in ecosystem function, a key gap for linking biodiversity changes to ecosystem services. We propose two integration pathways. The first uses empirical data on biodiversity-ecosystem function relationships to bridge biodiversity and ecosystem function models and could currently be implemented globally for systems and taxa with sufficient data. We also propose a trait-based approach involving greater incorporation of biodiversity into ecosystem function models. Pursuing both approaches will provide greater insight into biodiversity and ecosystem services projections. Integrating biodiversity, ecosystem function, and ecosystem service modeling will enhance policy development to meet global sustainability goals., (© The Author(s) 2022. Published by Oxford University Press on behalf of the American Institute of Biological Sciences. Elements of the work have been written by employees of the US Government.)

Published

2022

25. Potential impacts of climate change on agriculture and fisheries production in 72 tropical coastal communities.

Author

Cinner JE, Caldwell IR, Thiault L, Ben J, Blanchard JL, Coll M, Diedrich A, Eddy TD, Everett JD, Folberth C, Gascuel D, Guiet J, Gurney GG, Heneghan RF, Jägermeyr J, Jiddawi N, Lahari R, Kuange J, Liu W, Maury O, Müller C, Novaglio C, Palacios-Abrantes J, Petrik CM, Rabearisoa A, Tittensor DP, Wamukota A, and Pollnac R

Subjects

Agriculture, Indonesia, Madagascar, Climate Change, Fisheries

Abstract

Climate change is expected to profoundly affect key food production sectors, including fisheries and agriculture. However, the potential impacts of climate change on these sectors are rarely considered jointly, especially below national scales, which can mask substantial variability in how communities will be affected. Here, we combine socioeconomic surveys of 3,008 households and intersectoral multi-model simulation outputs to conduct a sub-national analysis of the potential impacts of climate change on fisheries and agriculture in 72 coastal communities across five Indo-Pacific countries (Indonesia, Madagascar, Papua New Guinea, Philippines, and Tanzania). Our study reveals three key findings: First, overall potential losses to fisheries are higher than potential losses to agriculture. Second, while most locations (> 2/3) will experience potential losses to both fisheries and agriculture simultaneously, climate change mitigation could reduce the proportion of places facing that double burden. Third, potential impacts are more likely in communities with lower socioeconomic status., (© 2022. The Author(s).)

Published

2022

26. Managing fisheries for maximum nutrient yield.

Author

Robinson JPW, Nash KL, Blanchard JL, Jacobsen NS, Maire E, Graham NAJ, MacNeil MA, Zamborain-Mason J, Allison EH, and Hicks CC

Abstract

Wild-caught fish are a bioavailable source of nutritious food that, if managed strategically, could enhance diet quality for billions of people. However, optimising nutrient production from the sea has not been a priority, hindering development of nutrition-sensitive policies. With fisheries management increasingly effective at rebuilding stocks and regulating sustainable fishing, we can now begin to integrate nutritional outcomes within existing management frameworks. Here, we develop a conceptual foundation for managing fisheries for multispecies Maximum Nutrient Yield (mMNY). We empirically test our approach using size-based models of North Sea and Baltic Sea fisheries and show that mMNY is predicted by the relative contribution of nutritious species to total catch and their vulnerability to fishing, leading to trade-offs between catch and specific nutrients. Simulated nutrient yield curves suggest that vitamin D, which is deficient in Northern European diets, was underfished at fishing levels that returned maximum catch weights. Analysis of global catch data shows there is scope for nutrient yields from most of the world's marine fisheries to be enhanced through nutrient-sensitive fisheries management. With nutrient composition data now widely available, we expect our mMNY framework to motivate development of nutrient-based reference points in specific contexts, such as data-limited fisheries. Managing for mMNY alongside policies that promote access to fish could help close nutrient gaps for coastal populations, maximising the contribution of wild-caught fish to global food and nutrition security., Competing Interests: Authors declare that they have no competing interests., (© 2022 The Authors. Fish and Fisheries published by John Wiley & Sons Ltd.)

Published

2022

27. Trade and foreign fishing mediate global marine nutrient supply.

Author

Nash KL, MacNeil MA, Blanchard JL, Cohen PJ, Farmery AK, Graham NAJ, Thorne-Lyman AL, Watson RA, and Hicks CC

Subjects

Animals, Commerce, Conservation of Natural Resources, Fisheries, Fishes, Food Supply, Humans, Hunting, Nutrients, Internationality, Malnutrition

Abstract

Fish are an important source of bioavailable micronutrients and essential fatty acids, and capture fisheries have potential to substantially reduce dietary deficiencies. Vigorous debate has focused on trade and fishing in foreign waters as drivers of inequitable distribution of volume and value of fish, but their impact on nutrient supplies from fish is unknown. We analyze global catch, trade, and nutrient composition data for marine fisheries to quantify distribution patterns among countries with differing prevalence of inadequate nutrient intake. We find foreign fishing relocates 1.5 times more nutrients than international trade in fish. Analysis of nutrient flows among countries of different levels of nutrient intake shows fishing in foreign waters predominantly (but not exclusively) benefits nutrient-secure nations, an outcome amplified by trade. Next, we developed a nutritional vulnerability framework that shows those small island developing states and/or African nations currently benefiting from trade and foreign fishing, and countries with low adaptive capacity, are most vulnerable to future changes in nutrient supplies. Climate change exacerbates vulnerabilities for many nations. Harnessing the potential of global fisheries to address dietary deficiencies will require greater attention to nutrition objectives in fisheries’ licensing deals and trade negotiations.

Published

2022

28. Community size structure varies with predator-prey size relationships and temperature across Australian reefs.

Author

Coghlan AR, Blanchard JL, Heather FJ, Stuart-Smith RD, Edgar GJ, and Audzijonyte A

Abstract

Climate change and fisheries exploitation are dramatically changing the abundances, species composition, and size spectra of fish communities. We explore whether variation in 'abundance size spectra', a widely studied ecosystem feature, is influenced by a parameter theorized to govern the shape of size-structured ecosystems-the relationship between the sizes of predators and their prey (predator-prey mass ratios, or PPMRs). PPMR estimates are lacking for avast number of fish species, including at the scale of trophic guilds. Using measurements of 8128 prey items in gut contents of 97 reef fish species, we established predator-prey mass ratios (PPMRs) for four major trophic guilds (piscivores, invertivores, planktivores, and herbivores) using linear mixed effects models. To assess the theoretical predictions that higher community-level PPMRs leads to shallower size spectrum slopes, we compared observations of both ecosystem metrics for ~15,000 coastal reef sites distributed around Australia. PPMRs of individual fishes were remarkably high (median ~71,000), with significant variation between different trophic guilds (~890 for piscivores; ~83,000 for planktivores), and ~8700 for whole communities. Community-level PPMRs were positively related to size spectrum slopes, broadly consistent with theory, however, this pattern was also influenced by the latitudinal temperature gradient. Tropical reefs showed a stronger relationship between community-level PPMRs and community size spectrum slopes than temperate reefs. The extent that these patterns apply outside Australia and consequences for community structure and dynamics are key areas for future investigation., Competing Interests: The authors declare no competing interests., (© 2022 The Authors. Ecology and Evolution published by John Wiley & Sons Ltd.)

Published

2022

29. Food for all: designing sustainable and secure future seafood systems.

Author

Farmery AK, Alexander K, Anderson K, Blanchard JL, Carter CG, Evans K, Fischer M, Fleming A, Frusher S, Fulton EA, Haas B, MacLeod CK, Murray L, Nash KL, Pecl GT, Rousseau Y, Trebilco R, van Putten IE, Mauli S, Dutra L, Greeno D, Kaltavara J, Watson R, and Nowak B

Abstract

Food from the sea can make a larger contribution to healthy and sustainable diets, and to addressing hunger and malnutrition, through improvements in production, distribution and equitable access to wild harvest and mariculture resources and products. The supply and consumption of seafood is influenced by a range of 'drivers' including ecosystem change and ocean regulation, the influence of corporations and evolving consumer demand, as well as the growing focus on the importance of seafood for meeting nutritional needs. These drivers need to be examined in a holistic way to develop an informed understanding of the needs, potential impacts and solutions that align seafood production and consumption with relevant 2030 Sustainable Development Goals (SDGs). This paper uses an evidence-based narrative approach to examine how the anticipated global trends for seafood might be experienced by people in different social, geographical and economic situations over the next ten years. Key drivers influencing seafood within the global food system are identified and used to construct a future scenario based on our current trajectory (Business-as-usual 2030). Descriptive pathways and actions are then presented for a more sustainable future scenario that strives towards achieving the SDGs as far as technically possible (More sustainable 2030). Prioritising actions that not only sustainably produce more seafood, but consider aspects of access and utilisation, particularly for people affected by food insecurity and malnutrition, is an essential part of designing sustainable and secure future seafood systems., Supplementary Information: The online version contains supplementary material available at 10.1007/s11160-021-09663-x., Competing Interests: Conflicts of interestThe authors declare that they have no conflict of interest., (© The Author(s), under exclusive licence to Springer Nature Switzerland AG 2021.)

Published

2022

30. Refocusing multiple stressor research around the targets and scales of ecological impacts.

Author

Simmons BI, Blyth PSA, Blanchard JL, Clegg T, Delmas E, Garnier A, Griffiths CA, Jacob U, Pennekamp F, Petchey OL, Poisot T, Webb TJ, and Beckerman AP

Subjects

Biodiversity, Biota, Anthropogenic Effects, Ecosystem

Abstract

Ecological communities face a variety of environmental and anthropogenic stressors acting simultaneously. Stressor impacts can combine additively or can interact, causing synergistic or antagonistic effects. Our knowledge of when and how interactions arise is limited, as most models and experiments only consider the effect of a small number of non-interacting stressors at one or few scales of ecological organization. This is concerning because it could lead to significant underestimations or overestimations of threats to biodiversity. Furthermore, stressors have been largely classified by their source rather than by the mechanisms and ecological scales at which they act (the target). Here, we argue, first, that a more nuanced classification of stressors by target and ecological scale can generate valuable new insights and hypotheses about stressor interactions. Second, that the predictability of multiple stressor effects, and consistent patterns in their impacts, can be evaluated by examining the distribution of stressor effects across targets and ecological scales. Third, that a variety of existing mechanistic and statistical modelling tools can play an important role in our framework and advance multiple stressor research., (© 2021. Springer Nature Limited.)

Published

2021

31. Reef communities show predictable undulations in linear abundance size spectra from copepods to sharks.

Author

Heather FJ, Stuart-Smith RD, Blanchard JL, Fraser KM, and Edgar GJ

Subjects

Animals, Body Size, Coral Reefs, Ecology, Copepoda, Sharks

Abstract

Among the more widely accepted general hypotheses in ecology is that community relationships between abundance and body size follow a log-linear size spectrum, from the smallest consumers to the largest predators (i.e. 'bacteria to whales'). Nevertheless, most studies only investigate small subsets of this spectrum, and note that extreme size classes in survey data deviate from linear expectations. In this study, we fit size spectra to field data from 45 rocky and coral reef sites along a 28° latitudinal gradient, comprising individuals from 0.125 mm to 2 m in body size. We found that 96% of the variation in abundance along this 'extended' size gradient was described by a single linear function across all sites. However, consistent 'wobbles' were also observed, with subtle peaks and troughs in abundance along the spectrum, which varied with sea temperature, as predicted by theory relating to trophic cascades., (© 2021 John Wiley & Sons Ltd.)

Published

2021

32. The Transcriptional Response of Soil Bacteria to Long-Term Warming and Short-Term Seasonal Fluctuations in a Terrestrial Forest.

Author

Roy Chowdhury P, Golas SM, Alteio LV, Stevens JTE, Billings AF, Blanchard JL, Melillo JM, and DeAngelis KM

Abstract

Terrestrial ecosystems are an important carbon store, and this carbon is vulnerable to microbial degradation with climate warming. After 30 years of experimental warming, carbon stocks in a temperate mixed deciduous forest were observed to be reduced by 30% in the heated plots relative to the controls. In addition, soil respiration was seasonal, as was the warming treatment effect. We therefore hypothesized that long-term warming will have higher expressions of genes related to carbohydrate and lipid metabolism due to increased utilization of recalcitrant carbon pools compared to controls. Because of the seasonal effect of soil respiration and the warming treatment, we further hypothesized that these patterns will be seasonal. We used RNA sequencing to show how the microbial community responds to long-term warming (~30 years) in Harvard Forest, MA. Total RNA was extracted from mineral and organic soil types from two treatment plots (+5°C heated and ambient control), at two time points (June and October) and sequenced using Illumina NextSeq technology. Treatment had a larger effect size on KEGG annotated transcripts than on CAZymes, while soil types more strongly affected CAZymes than KEGG annotated transcripts, though effect sizes overall were small. Although, warming showed a small effect on overall CAZymes expression, several carbohydrate-associated enzymes showed increased expression in heated soils (~68% of all differentially expressed transcripts). Further, exploratory analysis using an unconstrained method showed increased abundances of enzymes related to polysaccharide and lipid metabolism and decomposition in heated soils. Compared to long-term warming, we detected a relatively small effect of seasonal variation on community gene expression. Together, these results indicate that the higher carbohydrate degrading potential of bacteria in heated plots can possibly accelerate a self-reinforcing carbon cycle-temperature feedback in a warming climate., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Roy Chowdhury, Golas, Alteio, Stevens, Billings, Blanchard, Melillo and DeAngelis.)

Published

2021

33. Blocking α 4 β 7 integrin delays viral rebound in SHIV SF162P3 -infected macaques treated with anti-HIV broadly neutralizing antibodies.

Author

Frank I, Cigoli M, Arif MS, Fahlberg MD, Maldonado S, Calenda G, Pegu A, Yang ES, Rawi R, Chuang GY, Geng H, Liu C, Zhou T, Kwong PD, Arthos J, Cicala C, Grasperge BF, Blanchard JL, Gettie A, Fennessey CM, Keele BF, Vaccari M, Hope TJ, Fauci AS, Mascola JR, and Martinelli E

Subjects

Animals, Antibodies, Neutralizing, Antibodies, Viral, Broadly Neutralizing Antibodies, HIV Antibodies, Integrins, Macaca mulatta, HIV Infections drug therapy, HIV-1, Simian Acquired Immunodeficiency Syndrome drug therapy, Simian Immunodeficiency Virus

Abstract

Anti-HIV broadly neutralizing antibodies (bNAbs) may favor development of antiviral immunity by engaging the immune system during immunotherapy. Targeting integrin α 4 β 7 with an anti-α 4 β 7 monoclonal antibody (Rh-α 4 β 7 ) affects immune responses in SIV/SHIV-infected macaques. To explore the therapeutic potential of combining bNAbs with α 4 β 7 integrin blockade, SHIV SF162P3 -infected, viremic rhesus macaques were treated with bNAbs only (VRC07-523LS and PGT128 anti-HIV antibodies) or a combination of bNAbs and Rh-α 4 β 7 or were left untreated as a control. Treatment with bNAbs alone decreased viremia below 200 copies/ml in all macaques, but seven of eight macaques (87.5%) in the bNAbs-only group rebounded within a median of 3 weeks (95% CI: 2 to 9). In contrast, three of six macaques treated with a combination of Rh-α 4 β 7 and bNAbs (50%) maintained a viremia below 200 copies/ml until the end of the follow-up period; viremia in the other three macaques rebounded within a median of 6 weeks (95% CI: 5 to 11). Thus, there was a modest delay in viral rebound in the macaques treated with the combination antibody therapy compared to bNAbs alone. Our study suggests that α 4 β 7 integrin blockade may prolong virologic control by bNAbs in SHIV SF162P3 -infected macaques., (Copyright © 2021 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works.)

Published

2021

34. Invaplex functions as an intranasal adjuvant for subunit and DNA vaccines co-delivered in the nasal cavity of nonhuman primates.

Author

Camp JV, Wilson RL, Singletary M, Blanchard JL, Aldovini A, Kaminski RW, Oaks EV, and Kozlowski PA

Abstract

Development of intranasal vaccines for HIV-1 and other mucosal pathogens has been hampered by the lack of adjuvants that can be given safely to humans. We have found that an intranasal Shigella vaccine (Invaplex) which is well tolerated in humans can also function as an adjuvant for intranasal protein and DNA vaccines in mice. To determine whether Invaplex could potentially adjuvant similar vaccines in humans, we simultaneously administered a simian immunodeficiency virus (SIV) envelope (Env) protein and DNA encoding simian-human immunodeficiency virus (SHIV) with or without Invaplex in the nasal cavity of female rhesus macaques. Animals were intranasally boosted with adenoviral vectors expressing SIV env or gag,pol to evaluate memory responses. Anti-SIV antibodies in sera and nasal, genital tract and rectal secretions were quantitated by ELISA. Intracellular cytokine staining was used to measure Th1-type T cells in blood. Macaques given DNA/protein immunizations with 0.5 mg Invaplex developed greater serum IgG, nasal IgA and cervicovaginal IgA responses to SIV Env and SHIV Gag,Pol proteins when compared to non-adjuvanted controls. Rectal IgA responses to Env were only briefly elevated and not observed to Gag,Pol. Invaplex increased frequencies of IFNγ-producing CD4 and CD8 T cells to the Env protein, but not T cell responses induced by the DNA. Ad-SIV boosting increased Env-specific polyfunctional T cells and Env- and Gag,Pol-specific antibodies in serum and all secretions. The data suggest that Invaplex could be highly effective as an adjuvant for intranasal protein vaccines in humans, especially those intended to prevent infections in the genital or respiratory tract., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2021 The Authors.)

Published

2021

35. Globally consistent reef size spectra integrating fishes and invertebrates.

Author

Heather FJ, Blanchard JL, Edgar GJ, Trebilco R, and Stuart-Smith RD

Subjects

Animals, Body Size, Food Chain, Invertebrates, Coral Reefs, Fishes

Abstract

The frequency distribution of individual body sizes in animal communities (i.e. the size spectrum) provides powerful insights for understanding the energy flux through food webs. However, studies of size spectra in rocky and coral reef communities typically focus only on fishes or invertebrates due to taxonomic and data constraints, and consequently ignore energy pathways involving the full range of macroscopic consumer taxa. We analyse size spectra with co-located fish and mobile macroinvertebrate data from 3369 reef sites worldwide, specifically focusing on how the addition of invertebrate data alters patterns. The inclusion of invertebrates steepens the size spectrum, more so in temperate regions, resulting in a consistent size spectrum slope across latitudes, and bringing slopes closer to theoretical expectations based on energy flow through the system. These results highlight the importance of understanding contributions of both invertebrates and fishes to reef food webs worldwide., (© 2021 John Wiley & Sons Ltd.)

Published

2021

36. Next-generation ensemble projections reveal higher climate risks for marine ecosystems.

Author

Tittensor DP, Novaglio C, Harrison CS, Heneghan RF, Barrier N, Bianchi D, Bopp L, Bryndum-Buchholz A, Britten GL, Büchner M, Cheung WWL, Christensen V, Coll M, Dunne JP, Eddy TD, Everett JD, Fernandes-Salvador JA, Fulton EA, Galbraith ED, Gascuel D, Guiet J, John JG, Link JS, Lotze HK, Maury O, Ortega-Cisneros K, Palacios-Abrantes J, Petrik CM, du Pontavice H, Rault J, Richardson AJ, Shannon L, Shin YJ, Steenbeek J, Stock CA, and Blanchard JL

Abstract

Projections of climate change impacts on marine ecosystems have revealed long-term declines in global marine animal biomass and unevenly distributed impacts on fisheries. Here we apply an enhanced suite of global marine ecosystem models from the Fisheries and Marine Ecosystem Model Intercomparison Project (Fish-MIP), forced by new-generation Earth system model outputs from Phase 6 of the Coupled Model Intercomparison Project (CMIP6), to provide insights into how projected climate change will affect future ocean ecosystems. Compared with the previous generation CMIP5-forced Fish-MIP ensemble, the new ensemble ecosystem simulations show a greater decline in mean global ocean animal biomass under both strong-mitigation and high-emissions scenarios due to elevated warming, despite greater uncertainty in net primary production in the high-emissions scenario. Regional shifts in the direction of biomass changes highlight the continued and urgent need to reduce uncertainty in the projected responses of marine ecosystems to climate change to help support adaptation planning., Competing Interests: Competing interestsThe authors declare no competing interests., (© The Author(s) 2021.)

Published

2021

37. Energy Flow Through Marine Ecosystems: Confronting Transfer Efficiency.

Author

Eddy TD, Bernhardt JR, Blanchard JL, Cheung WWL, Colléter M, du Pontavice H, Fulton EA, Gascuel D, Kearney KA, Petrik CM, Roy T, Rykaczewski RR, Selden R, Stock CA, Wabnitz CCC, and Watson RA

Subjects

Climate Change, Fisheries, Ecosystem, Food Chain

Abstract

Transfer efficiency is the proportion of energy passed between nodes in food webs. It is an emergent, unitless property that is difficult to measure, and responds dynamically to environmental and ecosystem changes. Because the consequences of changes in transfer efficiency compound through ecosystems, slight variations can have large effects on food availability for top predators. Here, we review the processes controlling transfer efficiency, approaches to estimate it, and known variations across ocean biomes. Both process-level analysis and observed macroscale variations suggest that ecosystem-scale transfer efficiency is highly variable, impacted by fishing, and will decline with climate change. It is important that we more fully resolve the processes controlling transfer efficiency in models to effectively anticipate changes in marine ecosystems and fisheries resources., (Crown Copyright © 2020. Published by Elsevier Ltd. All rights reserved.)

Published

2021

38. Decades of dietary data demonstrate regional food web structures in the Southern Ocean.

Author

McCormack SA, Melbourne-Thomas J, Trebilco R, Blanchard JL, Raymond B, and Constable A

Abstract

Understanding regional-scale food web structure in the Southern Ocean is critical to informing fisheries management and assessments of climate change impacts on Southern Ocean ecosystems and ecosystem services. Historically, a large component of Southern Ocean ecosystem research has focused on Antarctic krill, which provide a short, highly efficient food chain, linking primary producers to higher trophic levels. Over the last 15 years, the presence of alternative energy pathways has been identified and hypotheses on their relative importance in different regions raised. Using the largest circumpolar dietary database ever compiled, we tested these hypotheses using an empirical circumpolar comparison of food webs across the four major regions/sectors of the Southern Ocean (defined as south of 40°S) within the austral summer period. We used network analyses and generalizations of taxonomic food web structure to confirm that while Antarctic krill are dominant as the mid-trophic level for the Atlantic and East Pacific food webs (including the Scotia Arc and Western Antarctic Peninsula), mesopelagic fish and other krill species are dominant contributors to predator diets in the Indian and West Pacific regions (East Antarctica and the Ross Sea). We also highlight how tracking data and habitat modeling for mobile top predators in the Southern Ocean show that these species integrate food webs over large regional scales. Our study provides a quantitative assessment, based on field observations, of the degree of regional differentiation in Southern Ocean food webs and the relative importance of alternative energy pathways between regions., Competing Interests: The authors declare that there are no conflicts of interest., (© 2020 The Authors. Ecology and Evolution published by John Wiley & Sons Ltd.)

Published

2020

39. Interacting forces of predation and fishing affect species' maturation size.

Author

Forestier R, Blanchard JL, Nash KL, Fulton EA, Johnson C, and Audzijonyte A

Abstract

Fishing is a strong selective force and is supposed to select for earlier maturation at smaller body size. However, the extent to which fishing-induced evolution is shaping ecosystems remains debated. This is in part because it is challenging to disentangle fishing from other selective forces (e.g., size-structured predation and cannibalism) in complex ecosystems undergoing rapid change.Changes in maturation size from fishing and predation have previously been explored with multi-species physiologically structured models but assumed separation of ecological and evolutionary timescales. To assess the eco-evolutionary impact of fishing and predation at the same timescale, we developed a stochastic physiologically size-structured food-web model, where new phenotypes are introduced randomly through time enabling dynamic simulation of species' relative maturation sizes under different types of selection pressures.Using the model, we carried out a fully factorial in silico experiment to assess how maturation size would change in the absence and presence of both fishing and predation (including cannibalism). We carried out ten replicate stochastic simulations exposed to all combinations of fishing and predation in a model community of nine interacting fish species ranging in their maximum sizes from 10 g to 100 kg. We visualized and statistically analyzed the results using linear models.The effects of fishing on maturation size depended on whether or not predation was enabled and differed substantially across species. Fishing consistently reduced the maturation sizes of two largest species whether or not predation was enabled and this decrease was seen even at low fishing intensities ( F  = 0.2 per year). In contrast, the maturation sizes of the three smallest species evolved to become smaller through time but this happened regardless of the levels of predation or fishing. For the four medium-size species, the effect of fishing was highly variable with more species showing significant and larger fishing effects in the presence of predation.Ultimately our results suggest that the interactive effects of predation and fishing can have marked effects on species' maturation sizes, but that, at least for the largest species, predation does not counterbalance the evolutionary effect of fishing. Our model also produced relative maturation sizes that are broadly consistent with empirical estimates for many fish species., (© 2020 The Authors. Ecology and Evolution published by John Wiley & Sons Ltd.)

Published

2020

40. Functional traits explain trophic allometries of cephalopods.

Author

Murphy KJ, Pecl GT, Richards SA, Semmens JM, Revill AT, Suthers IM, Everett JD, Trebilco R, and Blanchard JL

Subjects

Animals, Aquatic Organisms, Food Chain, Nutritional Status, Oceans and Seas, Cephalopoda, Ecosystem

Abstract

Individual body size strongly influences the trophic role of marine organisms and the structure and function of marine ecosystems. Quantifying trophic position-individual body size relationships (trophic allometries) underpins the development of size-structured ecosystem models to predict abundance and the transfer of energy through ecosystems. Trophic allometries are well studied for fishes but remain relatively unexplored for cephalopods. Cephalopods are important components of coastal, oceanic and deep-sea ecosystems, and they play a key role in the transfer of biomass from low trophic positions to higher predators. It is therefore important to resolve cephalopod trophic allometries to accurately represent them within size-structured ecosystem models. We assessed the trophic positions of cephalopods in an oceanic pelagic (0-500 m) community (sampled by trawling in a cold-core eddy in the western Tasman Sea), comprising 22 species from 12 families, using bulk tissue stable isotope analysis and amino acid compound-specific stable isotope analysis. We assessed whether ontogenetic trophic position shifts were evident at the species-level and tested for the best predictor of community-level trophic allometry among body size, taxonomy and functional grouping (informed by fin and mantle morphology). Individuals in this cephalopod community spanned two trophic positions and fell into three functional groups on an activity level gradient: low, medium and high. The relationship between trophic position and ontogeny varied among species, with the most marked differences evident between species from different functional groups. Activity-level-based functional group and individual body size are best explained by cephalopod trophic positions (marginal R 2  = 0.43). Our results suggest that the morphological traits used to infer activity level, such as fin-to-mantle length ratio, fin musculature and mantle musculature are strong predictors of cephalopod trophic allometries. Contrary to established theory, not all cephalopods are voracious predators. Low activity level cephalopods have a distinct feeding mode, with low trophic positions and little-to-no ontogenetic increases. Given the important role of cephalopods in marine ecosystems, distinct feeding modes could have important consequences for energy pathways and ecosystem structure and function. These findings will facilitate trait-based and other model estimates of cephalopod abundance in the changing global ocean., (© 2020 British Ecological Society.)

Published

2020

41. Effects of Social Housing Changes on Immunity and Vaccine-Specific Immune Responses in Adolescent Male Rhesus Macaques.

Author

Pahar B, Baker KC, Jay AN, Russell-Lodrigue KE, Srivastav SK, Aye PP, Blanchard JL, and Bohm RP

Subjects

Animals, Macaca mulatta, Male, Animal Husbandry methods, B-Lymphocytes immunology, CD8-Positive T-Lymphocytes immunology, Housing, Animal, Measles Vaccine administration & dosage

Abstract

Nonhuman primates (NHPs) in research institutions may be housed in a variety of social settings, such as group housing, pair housing or single housing based on the needs of studies. Furthermore, housing may change over the course of studies. The effects of housing and changes in housing on cell activation and vaccine mediated immune responses are not well documented. We hypothesized that animals moved indoors from group to single housing (GH-SH) would experience more stress than those separated from groups into pair housing (GH-PH), or those placed briefly into pair housing and separated 5 weeks later into single housing (GH-PH-SH). We also compared the effects of separation from group to pair housing with the separation from pair to single housing. Eighteen male rhesus macaques were followed over the course of changes in housing condition over 10-14 weeks, as well as prior to and after primary vaccination with a commercially available measles vaccine. We identified two phenotypic biomarkers, namely total CD8 population and proliferating B cells, that differed significantly across treatment groups over time. At 10 weeks post-separation, levels of proliferating B cells were higher in GH-SH subjects compared to GH-PH subjects, and in the latter, levels were lower at 10 weeks than prior to removal from group housing. At 2 weeks post-separation from group to single housing, the frequency of CD8+ T cells was higher in GH-SH subjects compared to one week post separation from pair into single housing in the GH-PH-SH subjects. Comparing the same elapsed time since the most recent separation activated CD20 populations were persistently higher in the GH-SH animals than the GH-PH-SH animals. Housing configuration did not influence vaccine-mediated responses. Overall, our study found benefits of pair housing over single housing, suggesting that perturbations in immune function will be more severe following separation from group to single housing than from pair to single housing, and supporting the use of short-duration pair housing even when animals must subsequently be separated. These findings are useful for planning the housing configurations of research NHPs used for vaccine studies and other studies where immune response is being assessed., (Copyright © 2020 Pahar, Baker, Jay, Russell-Lodrigue, Srivastav, Aye, Blanchard and Bohm.)

Published

2020

42. Rewilding the small stuff: the effect of ecological restoration on prokaryotic communities of peatland soils.

Author

Andras JP, Rodriguez-Reillo WG, Truchon A, Blanchard JL, Pierce EA, and Ballantine KA

Subjects

Carbon, Carbon Sequestration, Soil Microbiology, Wetlands, Microbiota, Soil

Abstract

To investigate the effect that restoration has on the microbiome of wetland soils, we used 16S amplicon sequencing to characterize the soil prokaryotic communities of retired cranberry farms that were restored to approximate the peat wetlands they once were. For comparison, we also surveyed the soil communities of active cranberry farms, retired cranberry farms and natural peat wetlands that were never farmed. Our results show that the prokaryotic communities of active cranberry farms are distinct from those of natural peat wetlands. Moreover, 4 years after restoration, the prokaryotic community structure of restored cranberry farms had shifted, resulting in a community more similar to natural peat wetlands than to active farms. Meanwhile, the prokaryotic communities of retired cranberry farms remained similar to those of active farms. The observed differences in community structure across site types corresponded with significant differences in inferred capacity for denitrification, methanotrophy and methanogenesis, and community composition was also correlated with previously published patterns of denitrification and carbon sequestration measured from the same soil samples. Taken together, these results suggest that ecological restoration efforts have the potential to restore ecosystem functions of soils and that they do so by 'rewilding' the communities of resident soil microbes., (© The Author(s) 2020. Published by Oxford University Press on behalf of FEMS.)

Published

2020

43. A pre and post intervention study measuring the effect of interactive education on adolescent perceptions of vaccines, vaccine safety and disease risk.

Author

Blanchard JL, Johnson C, McIntyre M, Crowcroft NS, and McLellan A

Subjects

Adolescent, Child, Humans, Parents, Health Knowledge, Attitudes, Practice, Vaccination psychology, Vaccines adverse effects

Abstract

Background: Adolescents make decisions about their own vaccinations and will be the childhood vaccine decision makers of tomorrow. It is therefore essential to educate adolescents about the risks of vaccine-preventable diseases and immunization safety. This study evaluated the impact of an interactive education initiative among adolescents at a high school in North Bay Ontario., Methods: An anonymized questionnaire to assess students' knowledge, attitudes and beliefs about immunization and vaccine-preventable diseases was administered before and after delivering an interactive session. Chi-squared and Kruskal-Wallis tests were performed to test for differences between pre and post responses., Results: The intervention increased the students' awareness that measles is a disease that affects their generation (P < 0.05). Improvements were also noted in the perceived risk of pertussis (P < 0.05) and tetanus (0.05). After the session, respondents were also more willing to participate with their parents in decisions affecting their healthcare (P < 0.05). Students' perception of vaccine safety also improved (P < 0.001)., Conclusions: Post survey results suggest that the interactive educational intervention had a positive effect on the adolescents' perceptions and attitudes towards immunization. Further research is required to determine the impact of this type of intervention on adolescents' future decision-making with respect to immunization., (© Crown copyright 2019.)

Published

2020

44. Trio housing of adult male rhesus macaques (Macaca mulatta): Methodology and outcome predictors.

Author

Ruhde AA, Baker KC, Russell-Lodrigue KE, Blanchard JL, and Bohm RP

Subjects

Animals, Male, Aggression, Animal Husbandry methods, Housing, Animal statistics & numerical data, Macaca mulatta psychology, Social Behavior

Abstract

Background: This study evaluated the feasibility of trio housing caged adult male rhesus macaques and attempted to identify outcome predictors for trio housing formation and its intermediary introduction steps., Methods: Subjects were familiarized consecutively to each potential group member via protected contact prior to introduction into the trio. Seven trios were attempted, involving 18 males, with three males attempted in two different trios., Results: One group was deemed successful, with a tenure of 51 days. Five were disbanded within minutes, and one was deemed unsuccessful the following morning. Two males sustained wounds requiring veterinary care over the course of the study. Outcome of the protected contact phase was predicted by age and temperament disparities as well as initial behavior., Conclusions: While outcomes were poor, it suggests that attempts can be made relatively safely, and alternative introduction strategies should be explored to increase the feasibility of trio housing for adult males., (© 2020 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd.)

Published

2020

45. Quantifying the contribution of Fc-mediated effector functions to the antiviral activity of anti-HIV-1 IgG1 antibodies in vivo.

Author

Wang P, Gajjar MR, Yu J, Padte NN, Gettie A, Blanchard JL, Russell-Lodrigue K, Liao LE, Perelson AS, Huang Y, and Ho DD

Subjects

Animals, Antibodies, Neutralizing immunology, Disease Models, Animal, HIV Infections virology, Host-Pathogen Interactions immunology, Humans, Mice, Mice, Transgenic, Neutralization Tests, HIV Antibodies immunology, HIV Infections immunology, HIV Infections metabolism, HIV-1 immunology, Immunoglobulin G immunology, Receptors, IgG metabolism

Abstract

In combating viral infections, the Fab portion of an antibody could mediate virus neutralization, whereas Fc engagement of Fc-γ receptors (FcγRs) could mediate an array of effector functions. Evidence abounds that effector functions are important in controlling infections by influenza, Ebola, or HIV-1 in animal models. However, the relative contribution of virus neutralization versus effector functions to the overall antiviral activity of an antibody remains unknown. To address this fundamental question in immunology, we utilized our knowledge of HIV-1 dynamics to compare the kinetics of the viral load decline (ΔVL) in infected animals given a wild-type (WT) anti-HIV-1 immunoglobulin G1 (IgG1) versus those given a Fc-Null variant of the same antibody. In three independent experiments in HIV-1-infected humanized mice and one pivotal experiment in simian-human immunodeficiency virus (SHIV)-infected rhesus macaques, an earlier and sharper decline in viral load was consistently detected for the WT antibody. Quantifications of the observed differences indicate that Fc-mediated effector functions accounted for 25-45% of the total antiviral activity in these separate experiments. In this study, Fc-mediated effector functions have been quantified in vivo relative to the contribution of virus neutralization mediated by the Fab., Competing Interests: Competing interest statement: J.Y., Y.H., and D.D.H. are inventors on a patent describing 10E8.2/iMab and 10E8.4/iMab. D.D.H. is the scientific founder of TaiMed Biologics, Inc., which is focused on antibody therapies for HIV/AIDS., (Copyright © 2020 the Author(s). Published by PNAS.)

Published

2020

46. Clinical and Immunological Metrics During Pediatric Rhesus Macaque Development.

Author

Merino KM, Slisarenko N, Taylor JM, Falkenstein KP, Gilbert MH, Bohm RP, Blanchard JL, Ardeshir A, Didier ES, Kim WK, and Kuroda MJ

Abstract

Background: Clinical measurements commonly used to evaluate overall health of laboratory animals including complete blood count, serum chemistry, weight, and immunophenotyping, differ with respect to age, development, and environment. This report provides comprehensive clinical and immunological reference ranges for pediatric rhesus macaques over the first year of life. Methods: We collected and analyzed blood samples from 151 healthy rhesus macaques, aged 0-55 weeks, and compared mother-reared infants to two categories of nursery-reared infants; those on an active research protocol and those under derivation for the expanded specific-pathogen-free breeding colony. Hematology was performed on EDTA-anticoagulated blood using a Sysmex XT2000i, and serum clinical chemistry was performed using the Beckman AU480 chemistry analyzer. Immunophenotyping of whole blood was performed with immunofluorescence staining and subsequent flow cytometric analysis on a BD LSRFortessa. Plasma cytokine analysis was performed using a Millipore multiplex Luminex assay. Results: For hematological and chemistry measurements, pediatric reference ranges deviate largely from adults. Comparison of mother-reared and nursery-reared animals revealed that large differences depend on rearing conditions and diet. Significant differences found between two nursery-reared cohorts (research and colony animals) indicate large influences of experimental factors and anesthetic events on these parameters. Immune cells and cytokine responses presented with distinct patterns for infants depending on age, birth location, and rearing conditions. Conclusions: Our results illustrate how the immune system changed over time and that there was variability among pediatric age groups. Reference ranges of results reported here will support interpretations for how infection and treatment may skew common immune correlates used for assessment of pathology or protection in research studies as well as help veterinarians in the clinical care of infant non-human primates. We highlighted the importance of using age-specific reference comparisons for pediatric studies and reiterated the utility of rhesus macaques as a model for human studies. Given the rapid transformation that occurs in multiple tissue compartments after birth and cumulative exposures to antigens as individuals grow, a better understanding of immunological development and how this relates to timing of infection or vaccination will support optimal experimental designs for developing vaccines and treatment interventions., (Copyright © 2020 Merino, Slisarenko, Taylor, Falkenstein, Gilbert, Bohm, Blanchard, Ardeshir, Didier, Kim and Kuroda.)

Published

2020

47. Fish body sizes change with temperature but not all species shrink with warming.

Author

Audzijonyte A, Richards SA, Stuart-Smith RD, Pecl G, Edgar GJ, Barrett NS, Payne N, and Blanchard JL

Subjects

Animals, Australia, Body Size, Fishes, Temperature, Climate Change, Ecosystem

Abstract

Ectotherms generally shrink under experimental warming, but whether this pattern extends to wild populations is uncertain. We analysed ten million visual survey records, spanning the Australian continent and multiple decades and comprising the most common coastal reef fishes (335 species). We found that temperature indeed drives spatial and temporal changes in fish body size, but not consistently in the negative fashion expected. Around 55% of species were smaller in warmer waters (especially among small-bodied species), while 45% were bigger. The direction of a species' response to temperature through space was generally consistent with its response to temperature increase through time at any given location, suggesting that spatial trends could help forecast fish responses to long-term warming. However, temporal changes were about ten times faster than spatial trends (~4% versus ~40% body size change per 1 °C change through space and time, respectively). The rapid and variable responses of fish size to warming may herald unexpected impacts on ecosystem restructuring, with potentially greater consequences than if all species were shrinking.

Published

2020

48. Once-Weekly Oral Dosing of MK-8591 Protects Male Rhesus Macaques From Intrarectal Challenge With SHIV109CP3.

Author

Markowitz M, Gettie A, St Bernard L, Andrews CD, Mohri H, Horowitz A, Grasperge BF, Blanchard JL, Niu T, Sun L, Fillgrove K, Hazuda DJ, and Grobler JA

Subjects

Administration, Rectal, Animals, Macaca mulatta, Male, Rectum virology, Simian Acquired Immunodeficiency Syndrome virology, Deoxyadenosines therapeutic use, Reverse Transcriptase Inhibitors therapeutic use, Simian Acquired Immunodeficiency Syndrome prevention & control, Simian Immunodeficiency Virus drug effects

Abstract

Background: MK-8591 (4'-ethynyl-2-fluoro-2'-deoxyadenosine [EFdA]) is a novel reverse transcriptase-translocation inhibitor., Methods: We assessed MK-8591 as preexposure prophylaxis in the rhesus macaque model of intrarectal challenge with simian/human immunodeficiency virus (SHIV). In study 1, 8 rhesus macaques received 3.9 mg/kg of MK-8591 orally on day 0 and once weekly for the next 14 weeks. Eight controls were treated with vehicle. All rhesus macaques were challenged with SHIV109CP3 on day 6 and weekly for up to 12 challenges or until infection was confirmed. The dose of MK-8591 was reduced to 1.3 and 0.43 mg/kg/week in study 2 and further to 0.1 and 0.025 mg/kg/week in study 3. In studies 2 and 3, each dose was given up to 6 times once weekly, and animals were challenged 4 times once weekly with SHIV109CP3., Results: Control macaques were infected after a median of 1 challenge (range, 1-4 challenges). All treated animals in studies 1 and 2 were protected, consistent with a 41.5-fold lower risk of infection (P < .0001, by the log-rank test). In study 3, at a 0.1-mg/kg dose, 2 rhesus macaques became infected, consistent with a 7.2-fold lower risk of infection (P = .0003, by the log-rank test). The 0.025-mg/kg dose offered no protection., Conclusions: These data support MK-8591's potential as a preexposure prophylaxis agent., (© The Author(s) 2019. Published by Oxford University Press for the Infectious Diseases Society of America. All rights reserved. For permissions, e-mail: journals.permissions@oup.com.)

Published

2020

49. Reclassification of the Clostridium clostridioforme and Clostridium sphenoides clades as Enterocloster gen. nov. and Lacrimispora gen. nov., including reclassification of 15 taxa.

Author

Haas KN and Blanchard JL

Subjects

DNA, Bacterial genetics, RNA, Ribosomal, 16S genetics, Clostridiales classification, Phylogeny

Abstract

The genus Clostridium belongs to the family Clostridiaceae. However, many species with the genus name Clostridium are found in different families and even crossing into a different phylum. Motivated by recently completed genome sequences, we propose the reclassification of two separate clades that include misclassified Clostridium species which phylogenetically lie within the family Lachnospiraceae , known for being benign members of gut microbiomes and for their plant-degrading capabilities. We use several phylogenetic and phylogenomic perspectives as well as phenotypic comparisons to gain insight into the evolutionary history of these taxa. One clade, which includes Clostridium clostridioforme , Clostridium aldenense , Clostridium asparagiforme , Clostridium bolteae , Clostridium citroniae and Clostridium lavalense , we propose to reclassify as Enterocloster gen. nov., and reclassify the species as Enterocloster clostridioformis comb. nov., Enterocloster aldensis comb. nov., Enterocloster asparagiformis comb. nov., Enterocloster bolteae comb. nov., Enterocloster citroniae comb. nov. and Enterocloster lavalensis comb. nov. The other clade comprises Clostridium sphenoides , Clostridium aerotolerans , Clostridium algidixylanolyticum , Clostridium amygdalinum , Clostridium celerecrescens , Clostridium indolis , Clostridium saccharolyticum , Clostridium xylanolyticum and Desulfotomaculum guttoideum , and we propose to reclassify it as Lacrimispora gen. nov., including reclassification of the members as Lacrimispora sphenoides comb. nov., Lacrimispora aerotolerans comb. nov., Lacrimispora algidixylanolytica comb. nov., Lacrimispora amygdalina comb. nov., Lacrimispora celerecrescens comb. nov., Lacrimispora indolis comb. nov., Lacrimispora saccharolytica comb. nov. and Lacrimispora xylanolytica comb. nov. We emend the description of D. guttoideum to reflect that it is a later heterotypic synonym of Clostridiums phenoides , which we have reclassified as Lacrimispora sphenoides .

Published

2020

50. Opinion: Putting all foods on the same table: Achieving sustainable food systems requires full accounting.

Author

Halpern BS, Cottrell RS, Blanchard JL, Bouwman L, Froehlich HE, Gephart JA, Sand Jacobsen N, Kuempel CD, McIntyre PB, Metian M, Moran DD, Nash KL, Többen J, and Williams DR

Abstract

Competing Interests: The authors declare no conflict of interest.

Published

2019