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Brad M. Potts
Researcher at University of Tasmania
Publications - 331
Citations - 11980
Brad M. Potts is an academic researcher from University of Tasmania. The author has contributed to research in topics: Population & Eucalyptus globulus. The author has an hindex of 51, co-authored 318 publications receiving 10789 citations. Previous affiliations of Brad M. Potts include Central Science Laboratory & Hobart Corporation.
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Journal ArticleDOI
A framework for community and ecosystem genetics: from genes to ecosystems
Thomas G. Whitham,Joseph K. Bailey,Joseph K. Bailey,Jennifer A. Schweitzer,Jennifer A. Schweitzer,Stephen M. Shuster,Randy K. Bangert,Carri J. LeRoy,Carri J. LeRoy,Eric V. Lonsdorf,Eric V. Lonsdorf,G. J. Allan,Stephen P. DiFazio,Brad M. Potts,Dylan G. Fischer,Catherine A. Gehring,Richard L. Lindroth,Jane C. Marks,Stephen C. Hart,Gina M. Wimp,Stuart C. Wooley +20 more
TL;DR: This framework could allow us to understand, for the first time, the genetic basis of ecosystem processes, and the effect of such phenomena as climate change and introduced transgenic organisms on entire communities.
Journal ArticleDOI
The genome of Eucalyptus grandis
Alexander Andrew Myburg,Dario Grattapaglia,Dario Grattapaglia,Gerald A. Tuskan,Gerald A. Tuskan,Uffe Hellsten,Richard D. Hayes,Jane Grimwood,Jerry Jenkins,Erika Lindquist,Hope Tice,Diane Bauer,David Goodstein,Inna Dubchak,Alexandre Poliakov,Eshchar Mizrachi,Anand Raj Kumar Kullan,Steven G. Hussey,Desre Pinard,Karen Van der Merwe,Pooja Singh,Ida Van Jaarsveld,Orzenil B. Silva-Junior,Roberto C. Togawa,Marília de Castro Rodrigues Pappas,Danielle A. Faria,Carolina Sansaloni,Cesar Petroli,Xiaohan Yang,Priya Ranjan,Timothy J. Tschaplinski,Chu-Yu Ye,Ting Li,Lieven Sterck,Kevin Vanneste,Florent Murat,Marçal Soler,Hélène San Clemente,Naijib Saidi,Hua Cassan-Wang,Christophe Dunand,Charles A. Hefer,Charles A. Hefer,Erich Bornberg-Bauer,Anna R. Kersting,Anna R. Kersting,Kelly J. Vining,Vindhya Amarasinghe,Martin Ranik,Sushma Naithani,Justin Elser,Alexander Boyd,Aaron Liston,Joseph W. Spatafora,Palitha Dharmwardhana,Rajani Raja,Christopher M. Sullivan,Elisson Romanel,Elisson Romanel,Marcio Alves-Ferreira,Carsten Külheim,William J. Foley,Victor Carocha,Jorge A. P. Paiva,David Kudrna,Sérgio Hermínio Brommonschenkel,Giancarlo Pasquali,Margaret Byrne,Philippe Rigault,Josquin Tibbits,Antanas V. Spokevicius,Rebecca C. Jones,Dorothy A. Steane,Dorothy A. Steane,René E. Vaillancourt,Brad M. Potts,Fourie Joubert,Kerrie Barry,Georgios J. Pappas,Steven H. Strauss,Pankaj Jaiswal,Jacqueline Grima-Pettenati,Jérôme Salse,Yves Van de Peer,Yves Van de Peer,Daniel S. Rokhsar,Jeremy Schmutz,Jeremy Schmutz +87 more
TL;DR: Of 36,376 predicted protein-coding genes, 34% occur in tandem duplications, the largest proportion thus far in plant genomes, which shows the highest diversity of genes for specialized metabolites such as terpenes that act as chemical defence and provide unique pharmaceutical oils.
Journal ArticleDOI
Climate-adjusted provenancing: a strategy for climate-resilient ecological restoration
Suzanne M. Prober,Margaret Byrne,Elizabeth H. McLean,Dorothy A. Steane,Dorothy A. Steane,Brad M. Potts,René E. Vaillancourt,William D. Stock +7 more
TL;DR: It is argued that a "climate-adjusted" provenancing strategy should combine genetic diversity and adaptability, targeting projected climate change directions whilst allowing for uncertainty in such projections as well as unforeseen selective agents.
Journal ArticleDOI
Progress in Myrtaceae genetics and genomics: Eucalyptus as the pivotal genus
Dario Grattapaglia,Dario Grattapaglia,René E. Vaillancourt,Merv Shepherd,Bala R. Thumma,William J. Foley,Carsten Külheim,Brad M. Potts,Alexander Andrew Myburg +8 more
TL;DR: The status of genomics and genetics research in the Myrtaceae, a large family of dicotyledonous woody plants, is reviewed with Eucalyptus as the focal genus, to find candidate gene-based association genetics have successfully found marker–trait associations for wood and fiber traits.
Journal ArticleDOI
Plant genetics affects arthropod community richness and composition: evidence from a synthetic eucalypt hybrid population.
TL;DR: It is argued that hybridization has important community‐level consequences and that the genetic variation present in hybrid zones can be used to explore the genetic‐based mechanisms that structure communities.