T
Tim Wardlaw
Researcher at University of Tasmania
Publications - 103
Citations - 2200
Tim Wardlaw is an academic researcher from University of Tasmania. The author has contributed to research in topics: Secondary forest & Forest ecology. The author has an hindex of 25, co-authored 99 publications receiving 1766 citations. Previous affiliations of Tim Wardlaw include Hobart Corporation & Forestry Commission.
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Journal ArticleDOI
An introduction to the Australian and New Zealand flux tower network - OzFlux
Jason Beringer,Lindsay B. Hutley,Ian McHugh,Stefan K. Arndt,David I. Campbell,Helen A. Cleugh,James Cleverly,Víctor Resco de Dios,Derek Eamus,Bradley Evans,Caecilia Ewenz,Peter Grace,Anne Griebel,Vanessa Haverd,Nina Hinko-Najera,Alfredo Huete,Peter Isaac,Kasturi Devi Kanniah,Ray Leuning,Michael J. Liddell,Craig Macfarlane,Wayne S. Meyer,Caitlin E. Moore,Elise Pendall,Alison Phillips,Rebecca L. Phillips,Suzanne M. Prober,Natalia Restrepo-Coupe,Susanna Rutledge,Ivan Schroder,Richard Silberstein,Patricia Southall,Mei Sun Yee,Nigel J. Tapper,Eva van Gorsel,Camilla Vote,Jeffrey P. Walker,Tim Wardlaw +37 more
TL;DR: OzFlux as discussed by the authors is the regional Australian and New Zealand flux tower network that aims to provide a continental-scale national research facility to monitor and assess trends, and improve predictions, of Australia's terrestrial biosphere and climate.
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The harvested side of edges: Effect of retained forests on the re-establishment of biodiversity in adjacent harvested areas
TL;DR: This paper reviewed global knowledge of mechanisms and scales at which forest influence operates, and showed that these are highly variable, and that variability in harvest layouts will positively benefit biodiversity conservation in managed forest landscapes.
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The contribution of insects to global forest deadwood decomposition
Sebastian Seibold,Werner Rammer,Torsten Hothorn,Rupert Seidl,Michael D. Ulyshen,Janina Lorz,Marc W. Cadotte,David B. Lindenmayer,Yagya Prasad Adhikari,Roxana Aragón,Soyeon Bae,Petr Baldrian,Hassan Barimani Varandi,Jos Barlow,Jos Barlow,Claus Bässler,Claus Bässler,Jacques Beauchêne,Erika Berenguer,Erika Berenguer,Rodrigo Scarton Bergamin,Tone Birkemoe,Gergely Boros,Roland Brandl,Hervé Brustel,Philip J. Burton,Yvonne Tété Cakpo-Tossou,Jorge Castro,Eugénie Cateau,Tyler P. Cobb,Nina Farwig,Romina Daiana Fernandez,Jennifer Firn,Kee Seng Gan,Grizelle González,Martin M. Gossner,Jan Christian Habel,Christian Hébert,Christoph Heibl,Osmo Heikkala,Andreas Hemp,Claudia Hemp,Joakim Hjältén,Stefan Hotes,Jari Kouki,Thibault Lachat,Jie Liu,Yu Liu,Ya-Huang Luo,Damasa M. Macandog,Pablo E. Martina,Sharif A. Mukul,Baatarbileg Nachin,Kurtis Nisbet,John O'Halloran,Anne Oxbrough,Jeev Nath Pandey,Tomáš Pavlíček,Stephen M. Pawson,Stephen M. Pawson,Jacques S. Rakotondranary,Jacques S. Rakotondranary,Jean-Baptiste Ramanamanjato,Liana Chesini Rossi,Jürgen Schmidl,Mark Schulze,Stephen Seaton,Marisa J. Stone,Nigel E. Stork,Byambagerel Suran,Anne Sverdrup-Thygeson,Simon Thorn,Ganesh Thyagarajan,Tim Wardlaw,Wolfgang W. Weisser,Sung-Soo Yoon,Naili Zhang,Jörg Müller,Jörg Müller +78 more
TL;DR: In this paper, the authors present a field experiment of wood decomposition across 55 forest sites and 6 continents and find that the deadwood decomposition rates increase with temperature, and the strongest temperature effect is found at high precipitation levels.
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Microclimate through space and time: Microclimatic variation at the edge of regeneration forests over daily, yearly and decadal time scales
Thomas P. Baker,Gregory J. Jordan,E. Ashley Steel,Nicholas M. Fountain-Jones,Tim Wardlaw,Susan C. Baker,Susan C. Baker +6 more
TL;DR: In this paper, the authors investigated whether microclimate within a regenerating forest changes with increasing distance from a mature forest edge, and whether the magnitude of microclimatic change varies over diurnal, seasonal and successional time scales.
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Macrofungal diversity and community ecology in mature and regrowth wet eucalypt forest in Tasmania: A multivariate study
TL;DR: Mature and young regrowth forests were found to have distinctly different macrofungal floras, with approximately 40% of the taxa in each forest type being restricted to that type of site.