Your search keyword '"Melbourne B"' showing total 15 results

1. Rapid adaptive evolution in novel environments acts as an architect of population range expansion

Author

Szűcs, M., Vahsen, M. L., Melbourne, B. A., Hoover, C., Weiss-Lehman, C., and Hufbauer, R. A.

Published

2017

2. Drivers of the microbial metabolic quotient across global grasslands

Author

Risch, A. C. (A. C.), Zimmermann, S. (S.), Schütz, M. (M.), Borer, E. T. (E. T.), Broadbent, A. A. (A. A. D.), Caldeira, M. C. (M. C.), Davies, K. F. (K. F.), Eisenhauer, N. (N.), Eskelinen, A. (A.), Fay, P. A. (P. A.), Hagedorn, F. (F.), Knops, J. M. (J. M. H.), Lembrechts, J. J. (J. J.), MacDougall, A. S. (A. S.), McCulley, R. L. (R. L.), Melbourne, B. A. (B. A.), Moore, J. L. (J. L.), Power, S. A. (S. A.), Seabloom, E. W. (E. W.), Silviera, M. L. (M. L.), Virtanen, R. (R.), Yahdjian, L. (L.), Ochoa-Hueso, R. (R.), Risch, A. C. (A. C.), Zimmermann, S. (S.), Schütz, M. (M.), Borer, E. T. (E. T.), Broadbent, A. A. (A. A. D.), Caldeira, M. C. (M. C.), Davies, K. F. (K. F.), Eisenhauer, N. (N.), Eskelinen, A. (A.), Fay, P. A. (P. A.), Hagedorn, F. (F.), Knops, J. M. (J. M. H.), Lembrechts, J. J. (J. J.), MacDougall, A. S. (A. S.), McCulley, R. L. (R. L.), Melbourne, B. A. (B. A.), Moore, J. L. (J. L.), Power, S. A. (S. A.), Seabloom, E. W. (E. W.), Silviera, M. L. (M. L.), Virtanen, R. (R.), Yahdjian, L. (L.), and Ochoa-Hueso, R. (R.)

Abstract

Aim: The microbial metabolic quotient (MMQ; mg CO₂-C/mg MBC/h), defined as the amount of microbial CO₂ respired (MR; mg CO₂-C/kg soil/h) per unit of microbial biomass C (MBC; mg C/kg soil), is a key parameter for understanding the microbial regulation of the carbon (C) cycle, including soil C sequestration. Here, we experimentally tested hypotheses about the individual and interactive effects of multiple nutrient addition (nitrogen + phosphorus + potassium + micronutrients) and herbivore exclusion on MR, MBC and MMQ across 23 sites (five continents). Our sites encompassed a wide range of edaphoclimatic conditions; thus, we assessed which edaphoclimatic variables affected MMQ the most and how they interacted with our treatments. Location: Australia, Asia, Europe, North/South America. Time period: 2015–2016. Major taxa: Soil microbes. Methods: Soils were collected from plots with established experimental treatments. MR was assessed in a 5-week laboratory incubation without glucose addition, MBC via substrate-induced respiration. MMQ was calculated as MR/MBC and corrected for soil temperatures (MMQsoil). Using linear mixed effects models (LMMs) and structural equation models (SEMs), we analysed how edaphoclimatic characteristics and treatments interactively affected MMQsoil. Results: MMQsoil was higher in locations with higher mean annual temperature, lower water holding capacity and lower soil organic C concentration, but did not respond to our treatments across sites as neither MR nor MBC changed. We attributed this relative homeostasis to our treatments to the modulating influence of edaphoclimatic variables. For example, herbivore exclusion, regardless of fertilization, led to greater MMQsoil only at sites with lower soil organic C (< 1.7%). Main conclusions: Our results pinpoint the main variables related to MMQsoil across grasslands and emphasize the importance of the local edaphoclimatic conditions in controlling the response of the C cycle to anthro

Published

2023

3. Drivers of the microbial metabolic quotient across global grasslands

Author

Risch, A. C., primary, Zimmermann, S., additional, Schütz, M., additional, Borer, E. T., additional, Broadbent, A. A. D., additional, Caldeira, M. C., additional, Davies, K. F., additional, Eisenhauer, N., additional, Eskelinen, A., additional, Fay, P. A., additional, Hagedorn, F., additional, Knops, J. M. H., additional, Lembrechts, J. J., additional, MacDougall, A. S., additional, McCulley, R. L., additional, Melbourne, B. A., additional, Moore, J. L., additional, Power, S. A., additional, Seabloom, E. W., additional, Silviera, M. L., additional, Virtanen, R., additional, Yahdjian, L., additional, and Ochoa‐Hueso, R., additional

Published

2023

4. Global impacts of fertilization and herbivore removal on soil net nitrogen mineralization are modulated by local climate and soil properties

Author

Risch, A. C. (Anita C.), Zimmermann, S. (Stefan), Moser, B. (Barbara), Schuetz, M. (Martin), Hagedorn, F. (Frank), Firn, J. (Jennifer), Fay, P. A. (Philip A.), Adler, P. B. (Peter B.), Biederman, L. A. (Lori A.), Blair, J. M. (John M.), Borer, E. T. (Elizabeth T.), Broadbent, A. A. (Arthur A. D.), Brown, C. S. (Cynthia S.), Cadotte, M. W. (Marc W.), Caldeira, M. C. (Maria C.), Davies, K. F. (Kendi F.), di Virgilio, A. (Augustina), Eisenhauer, N. (Nico), Eskelinen, A. (Anu), Knops, J. M. (Johannes M. H.), MacDougall, A. S. (Andrew S.), McCulley, R. L. (Rebecca L.), Melbourne, B. A. (Brett A.), Moore, J. L. (Joslin L.), Power, S. A. (Sally A.), Prober, S. M. (Suzanne M.), Seabloom, E. W. (Eric W.), Siebert, J. (Julia), Silveira, M. L. (Maria L.), Speziale, K. L. (Karina L.), Stevens, C. J. (Carly J.), Tognetti, P. M. (Pedro M.), Virtanen, R. (Risto), Yahdjian, L. (Laura), Ochoa-Hueso, R. (Raul), Risch, A. C. (Anita C.), Zimmermann, S. (Stefan), Moser, B. (Barbara), Schuetz, M. (Martin), Hagedorn, F. (Frank), Firn, J. (Jennifer), Fay, P. A. (Philip A.), Adler, P. B. (Peter B.), Biederman, L. A. (Lori A.), Blair, J. M. (John M.), Borer, E. T. (Elizabeth T.), Broadbent, A. A. (Arthur A. D.), Brown, C. S. (Cynthia S.), Cadotte, M. W. (Marc W.), Caldeira, M. C. (Maria C.), Davies, K. F. (Kendi F.), di Virgilio, A. (Augustina), Eisenhauer, N. (Nico), Eskelinen, A. (Anu), Knops, J. M. (Johannes M. H.), MacDougall, A. S. (Andrew S.), McCulley, R. L. (Rebecca L.), Melbourne, B. A. (Brett A.), Moore, J. L. (Joslin L.), Power, S. A. (Sally A.), Prober, S. M. (Suzanne M.), Seabloom, E. W. (Eric W.), Siebert, J. (Julia), Silveira, M. L. (Maria L.), Speziale, K. L. (Karina L.), Stevens, C. J. (Carly J.), Tognetti, P. M. (Pedro M.), Virtanen, R. (Risto), Yahdjian, L. (Laura), and Ochoa-Hueso, R. (Raul)

Abstract

Soil nitrogen (N) availability is critical for grassland functioning. However, human activities have increased the supply of biologically limiting nutrients, and changed the density and identity of mammalian herbivores. These anthropogenic changes may alter net soil N mineralization (soil net Nmin), that is, the net balance between N mineralization and immobilization, which could severely impact grassland structure and functioning. Yet, to date, little is known about how fertilization and herbivore removal individually, or jointly, affect soil net Nmin across a wide range of grasslands that vary in soil and climatic properties. Here we collected data from 22 grasslands on five continents, all part of a globally replicated experiment, to assess how fertilization and herbivore removal affected potential (laboratory‐based) and realized (field‐based) soil net Nmin. Herbivore removal in the absence of fertilization did not alter potential and realized soil net Nmin. However, fertilization alone and in combination with herbivore removal consistently increased potential soil net Nmin. Realized soil net Nmin, in contrast, significantly decreased in fertilized plots where herbivores were removed. Treatment effects on potential and realized soil net Nmin were contingent on site‐specific soil and climatic properties. Fertilization effects on potential soil net Nmin were larger at sites with higher mean annual precipitation (MAP) and temperature of the wettest quarter (T.q.wet). Reciprocally, realized soil net Nmin declined most strongly with fertilization and herbivore removal at sites with lower MAP and higher T.q.wet. In summary, our findings show that anthropogenic nutrient enrichment, herbivore exclusion and alterations in future climatic conditions can negatively impact soil net Nmin across global grasslands under realistic field conditions. This is an important context‐dependent knowledge for grassland management worldwide.

Published

2020

5. Anthropogenic nitrogen deposition predicts local grassland primary production worldwide

Author

Stevens, C.J., Lind, E.M., Hautier, Y., Harpole, William Stanley, Borer, E.T., Hobbie, S., Seabloom, E.W., Ladwig, L., Bakker, J.D., Chu, C., Collins, S., Davies, K.F., Firn, J., Hillebrand, H., Pierre, K.J.L., MacDougall, A., Melbourne, B., McCulley, R.L., Morgan, J., Orrock, J.L., Prober, S.M., Risch, A.C., Schuetz, M., Wragg, P.D., Stevens, C.J., Lind, E.M., Hautier, Y., Harpole, William Stanley, Borer, E.T., Hobbie, S., Seabloom, E.W., Ladwig, L., Bakker, J.D., Chu, C., Collins, S., Davies, K.F., Firn, J., Hillebrand, H., Pierre, K.J.L., MacDougall, A., Melbourne, B., McCulley, R.L., Morgan, J., Orrock, J.L., Prober, S.M., Risch, A.C., Schuetz, M., and Wragg, P.D.

Abstract

Humans dominate many important Earth system processes including the nitrogen (N) cycle. Atmospheric N deposition affects fundamental processes such as carbon cycling, climate regulation, and biodiversity, and could result in changes to fundamental Earth system processes such as primary production. Both modelling and experimentation have suggested a role for anthropogenically altered N deposition in increasing productivity, nevertheless, current understanding of the relative strength of N deposition with respect to other controls on production such as edaphic conditions and climate is limited. Here we use an international multiscale data set to show that atmospheric N deposition is positively correlated to aboveground net primary production (ANPP) observed at the 1-m2 level across a wide range of herbaceous ecosystems. N deposition was a better predictor than climatic drivers and local soil conditions, explaining 16% of observed variation in ANPP globally with an increase of 1 kg N·ha−1·yr−1 increasing ANPP by 3%. Soil pH explained 8% of observed variation in ANPP while climatic drivers showed no significant relationship. Our results illustrate that the incorporation of global N deposition patterns in Earth system models are likely to substantially improve estimates of primary production in herbaceous systems. In herbaceous systems across the world, humans appear to be partially driving local ANPP through impacts on the N cycle.

Published

2015

6. Rapid adaptive evolution in novel environments acts as an architect of population range expansion.

Author

Hoover, C., Szucsa, M., Vahsen, M. L., Hufbauer, R. A., Melbourne, B. A., and Weiss-Lehman, C.

Subjects

BIOLOGICAL evolution, EVOLUTIONARY developmental biology, DISPERSAL (Ecology), BIOLOGICAL adaptation, POPULATION biology

Abstract

Colonization and expansion into novel landscapes determine the distribution and abundance of species in our rapidly changing ecosystems worldwide. Colonization events are crucibles for rapid evolution, but it is not known whether evolutionary changes arise mainly after successful colonization has occurred, or if evolution plays an immediate role, governing the growth and expansion speed of colonizing populations. There is evidence that spatial evolutionary processes can speed range expansion within a few generations because dispersal tendencies may evolve upwards at range edges. Additionally, rapid adaptation to a novel environment can increase population growth rates, which also promotes spread. However, the role of adaptive evolution and the relative contributions of spatial evolution and adaptation to expansion are unclear. Using a model system, red flour beetles (Tribolium castaneum), we either allowed or constrained evolution of populations colonizing a novel environment and measured population growth and spread. At the end of the experiment we assessed the fitness and dispersal tendency of individuals originating either from the core or edge of evolving populations or from nonevolving populations in a common garden. Within six generations, evolving populations grew three times larger and spread 46% faster than populations in which evolution was constrained. Increased size and expansion speed were strongly driven by adaptation, whereas spatial evolutionary processes acting on edge subpopulations contributed less. This experimental evidence demonstrates that rapid evolution drives both population growth and expansion speed and is thus crucial to consider for managing biological invasions and successfully introducing or reintroducing species for management and conservation. [ABSTRACT FROM AUTHOR]

Published

2017

7. Author Correction: Widening global variability in grassland biomass since the 1980s.

Author

MacDougall AS, Esch E, Chen Q, Carroll O, Bonner C, Ohlert T, Siewert M, Sulik J, Schweiger AK, Borer ET, Naidu D, Bagchi S, Hautier Y, Wilfahrt P, Larson K, Olofsson J, Cleland E, Muthukrishnan R, O'Halloran L, Alberti J, Anderson TM, Arnillas CA, Bakker JD, Barrio IC, Biederman L, Boughton EH, Brudvig LA, Bruschetti M, Buckley Y, Bugalho MN, Cadotte MW, Caldeira MC, Catford JA, D'Antonio C, Davies K, Daleo P, Dickman CR, Donohue I, DuPre ME, Elgersma K, Eisenhauer N, Eskelinen A, Estrada C, Fay PA, Feng Y, Gruner DS, Hagenah N, Haider S, Harpole WS, Hersch-Green E, Jentsch A, Kirkman K, Knops JMH, Laanisto L, Lannes LS, Laungani R, Lkhagva A, Macek P, Martina JP, McCulley RL, Melbourne B, Mitchell R, Moore JL, Morgan JW, Muraina TO, Niu Y, Pärtel M, Peri PL, Power SA, Price JN, Prober SM, Ren Z, Risch AC, Smith NG, Sonnier G, Standish RJ, Stevens CJ, Tedder M, Tognetti P, Veen GFC, Virtanen R, Wardle GM, Waring E, Wolf AA, Yahdjian L, and Seabloom EW

Published

2024

8. Widening global variability in grassland biomass since the 1980s.

Author

MacDougall AS, Esch E, Chen Q, Carroll O, Bonner C, Ohlert T, Siewert M, Sulik J, Schweiger AK, Borer ET, Naidu D, Bagchi S, Hautier Y, Wilfahrt P, Larson K, Olofsson J, Cleland E, Muthukrishnan R, O'Halloran L, Alberti J, Anderson TM, Arnillas CA, Bakker JD, Barrio IC, Biederman L, Boughton EH, Brudvig LA, Bruschetti M, Buckley Y, Bugalho MN, Cadotte MW, Caldeira MC, Catford JA, D'Antonio C, Davies K, Daleo P, Dickman CR, Donohue I, DuPre ME, Elgersma K, Eisenhauer N, Eskelinen A, Estrada C, Fay PA, Feng Y, Gruner DS, Hagenah N, Haider S, Harpole WS, Hersch-Green E, Jentsch A, Kirkman K, Knops JMH, Laanisto L, Lannes LS, Laungani R, Lkhagva A, Macek P, Martina JP, McCulley RL, Melbourne B, Mitchell R, Moore JL, Morgan JW, Muraina TO, Niu Y, Pärtel M, Peri PL, Power SA, Price JN, Prober SM, Ren Z, Risch AC, Smith NG, Sonnier G, Standish RJ, Stevens CJ, Tedder M, Tognetti P, Veen GFC, Virtanen R, Wardle GM, Waring E, Wolf AA, Yahdjian L, and Seabloom EW

Subjects

Climate Change, Seasons, Biodiversity, Grassland, Biomass

Abstract

Global change is associated with variable shifts in the annual production of aboveground plant biomass, suggesting localized sensitivities with unclear causal origins. Combining remotely sensed normalized difference vegetation index data since the 1980s with contemporary field data from 84 grasslands on 6 continents, we show a widening divergence in site-level biomass ranging from +51% to -34% globally. Biomass generally increased in warmer, wetter and species-rich sites with longer growing seasons and declined in species-poor arid areas. Phenological changes were widespread, revealing substantive transitions in grassland seasonal cycling. Grazing, nitrogen deposition and plant invasion were prevalent in some regions but did not predict overall trends. Grasslands are undergoing sizable changes in production, with implications for food security, biodiversity and carbon storage especially in arid regions where declines are accelerating., (© 2024. The Author(s), under exclusive licence to Springer Nature Limited.)

Published

2024

9. Community context and dispersal stochasticity drive variation in spatial spread.

Author

Dallas T, Melbourne B, and Hastings A

Subjects

Animals, Body Size, Population Dynamics, Probability, Ecosystem, Tribolium

Abstract

Dispersal is a key process in shaping species spatial distributions. Species interactions and variation in dispersal probabilities may jointly influence species spatial dynamics. However, many studies examine dispersal as a neutral process, independent of community context or intraspecific variation in dispersal behaviour. Here, we use controlled, replicated communities of two Tribolium species (T. castaneum and T. confusum) to examine how intraspecific variation in dispersal behaviour and community context influence dispersal dynamics in simple experimental landscapes composed of homogeneous habitat patches. We found considerable individual-level variation in dispersal probability that was unrelated to body size variation. Further, the context of dispersal mattered, as T. castaneum dispersal was reduced in two-species communities, while T. confusum dispersal was unaffected by community composition. Incorporating individual-level variation into a two-species stochastic spatial Ricker model, we provide evidence that individual-level variability in dispersal behaviour results in more variable spatial spread than assuming individuals have the same dispersal probability. Further, interspecific competition resulted in more variable spatial spread. The variability in spatial spread observed in our tightly controlled and replicated experimental system and in our stochastic model simulations points to potential fundamental limitations in forecasting species shifting ranges without considering potential interspecific interactions and demographic variability in dispersal behaviour., (© 2020 British Ecological Society.)

Published

2020

10. The OMERACT Emerging Leaders Program: The Good, the Bad, and the Future.

Author

Flurey CA, Tugwell PS, Black RJ, Halls S, Page MJ, Robson JC, Sahbudin I, Siddle HJ, Sinnathurai P, Stok KS, and Richards B

Subjects

Humans, Career Mobility, Leadership, Mentors, Rheumatologists

Abstract

Objective: To describe the experience of the first OMERACT Emerging Leaders Program (ELP)., Methods: A Delphi process identified positive aspects, areas for improvement, and future directions. Core items were defined as essential if they received ≥ 70% ratings., Results: Participants valued relatable/accessible mentors (100%), including an OMERACT Executive mentor (100%), and a support network of peers (90%). Key items for future development were funding support (100%) and developing knowledge about OMERACT processes (90%) and politics (80%)., Conclusion: The ELP has the potential to provide targeted training for early career researchers to develop relevant skills for future leadership roles within OMERACT.

Published

2019

11. The Participation of Mothers, Fathers, and Siblings in Family-Based Treatment for Adolescent Anorexia Nervosa.

Author

Hughes EK, Burton C, Le Grange D, and Sawyer SM

Subjects

Adolescent, Adolescent Behavior psychology, Adult, Anorexia Nervosa epidemiology, Australia epidemiology, Child, Female, Humans, Male, Middle Aged, Treatment Outcome, Anorexia Nervosa psychology, Anorexia Nervosa therapy, Family Therapy methods, Fathers psychology, Mothers psychology, Siblings psychology

Abstract

In family-based treatment (FBT) for adolescent anorexia nervosa, all family members are encouraged to attend sessions with the understanding that absences negatively impact treatment. There are, however, many obstacles to family members' attendance, and there is no research to indicate whether family member attendance improves treatment outcomes. We examined attendance patterns of 198 families who participated in FBT at a specialist pediatric eating disorders program and assessed the extent to which participation by mothers (n = 194), fathers (n = 175), and siblings (n = 165; 50% female) predicted outcome. All mothers attended at least one session, and 74% attended all sessions. By comparison, 95% of fathers and 73% of siblings attended at least one session, and 33% of fathers and 1% of siblings attended all sessions. The mean proportion of sessions attended was 94% for mothers, 72% for fathers, and 20% for siblings. Over 6 months of treatment, the proportion of mothers who attended each session was largely stable; fathers' attendance declined slowly, and siblings' attendance declined more rapidly. Greater attendance by fathers predicted higher weight and lower eating disorder symptoms in adolescents at end of treatment. Remission at end of treatment was associated with higher attendance by fathers (M = 81% vs. M = 69%). Achieving sustained engagement of the whole family system in FBT is a considerable challenge. However, this study demonstrates that implementing processes that encourage and enable family members to attend treatment sessions could have significant benefits for patient outcomes.

Published

2018

12. Strand breakage by decay of DNA-bound 124 I provides a basis for combined PET imaging and Auger endoradiotherapy.

Author

Lobachevsky P, Clark GR, Pytel PD, Leung B, Skene C, Andrau L, White JM, Karagiannis T, Cullinane C, Lee BQ, Stuchbery A, Kibedi T, Hicks RJ, and Martin RF

Subjects

Animals, DNA chemistry, Humans, Iodine Radioisotopes pharmacokinetics, Isotope Labeling, K562 Cells, Mice, Mice, Inbred BALB C, Mice, Nude, Neoplasms, Experimental metabolism, Radiopharmaceuticals pharmacokinetics, Radiopharmaceuticals therapeutic use, Radiotherapy methods, Radiotherapy Dosage, Tissue Distribution, Treatment Outcome, DNA pharmacokinetics, Electrons therapeutic use, Iodine Radioisotopes therapeutic use, Neoplasms, Experimental diagnostic imaging, Neoplasms, Experimental radiotherapy, Radiotherapy, Image-Guided methods

Abstract

Purpose DNA ligands labelled with 125 I induce cytotoxic DNA double-strand breaks (DSB), suggesting a potential for Auger endoradiotherapy. Since the 60-day half-life of 125 I is suboptimal for therapy, we have investigated another Auger-emitter 124 I, with shorter half-life (4.18 days), and the additional feature of positron-emission, enabling positron emission tomography (PET) imaging. The purpose of this study was to compare the two radionuclides on the basis of DNA DSB per decay. Materials and methods Using a 124 I- (or 125 I)-labelled minor groove binding DNA ligand, we investigated DNA breakage using the plasmid DNA assay. Biodistribution of the conjugate of the labelled ligand with transferrin was investigated in nude mice bearing a K562 human lymphoma xenograft. Results The probability of DSB per decay was 0.58 and 0.85 for 124 I and 125 I, respectively, confirming the therapeutic potential of the former. The crystal structure of the ligand DNA complex shows the iodine atom deep within the minor groove, consistent with the high efficiency of induced damage. Biodistribution studies, including PET imaging, showed distinctive results for the conjugate, compared to the free ligand and transferrin, consistent with receptor-mediated delivery of the ligand. Conclusions Conjugation of 124 I-labelled DNA ligands to tumor targeting peptides provides a feasible strategy for Auger endoradiotherapy, with the advantage of monitoring tumor targeting by PET imaging.

Published

2016

13. Matchplay characteristics of Grand Slam tennis: implications for training and conditioning.

Author

Reid M, Morgan S, and Whiteside D

Subjects

Biomechanical Phenomena, Female, Humans, Male, Physical Education and Training, Sex Factors, Athletic Performance, Movement, Task Performance and Analysis, Tennis

Abstract

The purpose of this study was to probe the sex-based differences in the stroke and movement dynamics of Grand Slam hard-court tennis. Player and ball tracking data were collated for 102 male and 95 female players during the 2012-2014 Australian Open tournaments. Serve, serve return, groundstroke and movement data were compared between sexes. Serve statistics were the subject of the largest differences, with males achieving significantly faster speeds, aces and unreturned serves while also winning a greater percentage of service points. When returning serve, women contacted the ball closer to the net, lower to the ground and achieved flatter ball trajectories than males. Groundstroke frequencies were similar between sexes, although males hit with greater speed, flatter trajectories and impacted more shots inside the baseline. Distance covered per set or during points won or lost was not sex dependent, yet men exhibited faster average movement speeds. These findings highlight the need for sex-specific training and practice designs that cater to the different stroke dynamics, particularly in relation to the first serve and serve-return, as well as movement speeds.

Published

2016

14. Maintenance intravenous fluids for children: enough evidence, now for translation and action.

Author

Duke T

Subjects

Administration, Intravenous, Child, Fluid Therapy adverse effects, Glucose administration & dosage, Guidelines as Topic, Humans, Hypotonic Solutions administration & dosage, Sodium Chloride administration & dosage, Water-Electrolyte Imbalance therapy, Drug Monitoring methods, Fluid Therapy methods

Published

2016

15. Decreases in average bacterial community rRNA operon copy number during succession.

Author

Nemergut DR, Knelman JE, Ferrenberg S, Bilinski T, Melbourne B, Jiang L, Violle C, Darcy JL, Prest T, Schmidt SK, and Townsend AR

Subjects

Colorado, Ecosystem, Gene Dosage, Operon, Phylogeny, RNA, Ribosomal, 16S genetics, Sequence Analysis, RNA, Soil, Stochastic Processes, Bacteria genetics, Soil Microbiology, rRNA Operon genetics

Abstract

Trait-based studies can help clarify the mechanisms driving patterns of microbial community assembly and coexistence. Here, we use a trait-based approach to explore the importance of rRNA operon copy number in microbial succession, building on prior evidence that organisms with higher copy numbers respond more rapidly to nutrient inputs. We set flasks of heterotrophic media into the environment and examined bacterial community assembly at seven time points. Communities were arrayed along a geographic gradient to introduce stochasticity via dispersal processes and were analyzed using 16 S rRNA gene pyrosequencing, and rRNA operon copy number was modeled using ancestral trait reconstruction. We found that taxonomic composition was similar between communities at the beginning of the experiment and then diverged through time; as well, phylogenetic clustering within communities decreased over time. The average rRNA operon copy number decreased over the experiment, and variance in rRNA operon copy number was lowest both early and late in succession. We then analyzed bacterial community data from other soil and sediment primary and secondary successional sequences from three markedly different ecosystem types. Our results demonstrate that decreases in average copy number are a consistent feature of communities across various drivers of ecological succession. Importantly, our work supports the scaling of the copy number trait over multiple levels of biological organization, ranging from cells to populations and communities, with implications for both microbial ecology and evolution.

Published

2016