Your search keyword '"Ian J. Wright"' showing total 206 results

1. Constraints of commercially available seed diversity in restoration: Implications for plant functional diversity

Author

Samantha E. Andres, Joe Atkinson, David Coleman, James Brazill‐Boast, Ian J. Wright, Stuart Allen, and Rachael V. Gallagher

Subjects

biodiversity, conservation, data simulation, functional dispersion, nature repair, regeneration, Environmental sciences, GE1-350, Botany, QK1-989

Abstract

Societal Impact Statement Large quantities of diverse native seeds are required to scale up global restoration efforts. However, it remains unclear for many ecosystems how the diversity of available seed in commercial stocks reflects the composition of the ecosystems where vegetation is being remade. This study highlights existing shortfalls in the diversity of seed presently available for use in restoration and identifies gaps in the seed supply chain while providing a new method for optimising species selection given these constraints. This work underscores how improved collaboration between stakeholders is required to strengthen the seed supply chain and help remake functionally diverse vegetation. Summary Restoration using native seed is frequently implemented to restore degraded ecosystems. However, it remains unclear how constraints on the diversity of germplasm available for use in restoration may limit the recovery of both species and plant functional diversity. Using a dataset of seed availability for Australia's major vegetation types, we explore variation in the diversity and breadth of functional traits (leaf mass per area, seed mass, plant height) for species where seed is available on commercial markets relative to unavailable. Using these data, we simulate theoretical seed mixes derived from two species pools: (1) constrained by the current market of commercially available seed, and (2) assuming all native species can be planted; then we compare differences in functional diversity (dispersion) as an exercise to explore possible limitations within the current seed supply. Seed from only 12% of Australian plant species (2992 species) is presently available for immediate purchase. Seed was more frequently available for trees and shrubs than for understorey species. Available species were on average taller, with thicker, longer‐lived leaves than unavailable species. Overall, functional dispersion was lower for seed mixes generated using available seed compared with those drawn from all species. Solutions are required to address seed shortfalls so that plantings are not only species rich but also functionally diverse. We develop two options: (1) quantifying and addressing gaps in the seed supply chain that currently limit the capacity for practitioners to restore diverse vegetation; and (2) applying a trait‐informed species‐selection method to plantings that maximises functional diversity using available seed.

Published

2024

2. The AusTraits plant dictionary

Author

Elizabeth H. Wenk, Hervé Sauquet, Rachael V. Gallagher, Rowan Brownlee, Carl Boettiger, David Coleman, Sophie Yang, Tony Auld, Russell Barrett, Timothy Brodribb, Brendan Choat, Lily Dun, David Ellsworth, Carl Gosper, Lydia Guja, Gregory J. Jordan, Tom Le Breton, Andrea Leigh, Patricia Lu-Irving, Belinda Medlyn, Rachael Nolan, Mark Ooi, Karen D. Sommerville, Peter Vesk, Matthew White, Ian J. Wright, and Daniel S. Falster

Subjects

Science

Abstract

Abstract Traits with intuitive names, a clear scope and explicit description are essential for all trait databases. The lack of unified, comprehensive, and machine-readable plant trait definitions limits the utility of trait databases, including reanalysis of data from a single database, or analyses that integrate data across multiple databases. Both can only occur if researchers are confident the trait concepts are consistent within and across sources. Here we describe the AusTraits Plant Dictionary (APD), a new data source of terms that extends the trait definitions included in a recent trait database, AusTraits. The development process of the APD included three steps: review and formalisation of the scope of each trait and the accompanying trait description; addition of trait metadata; and publication in both human and machine-readable forms. Trait definitions include keywords, references, and links to related trait concepts in other databases, enabling integration of AusTraits with other sources. The APD will both improve the usability of AusTraits and foster the integration of trait data across global and regional plant trait databases.

Published

2024

3. Global shortfalls in threat assessments for endemic flora by country

Author

Rachael V. Gallagher, Stuart P. Allen, Rafaël Govaerts, Malin C. Rivers, Andrew P. Allen, David A. Keith, Cory Merow, Brian Maitner, Nathalie Butt, Tony D. Auld, Brian J. Enquist, Wolf L. Eiserhardt, Ian J. Wright, Jonathon C. O. Mifsud, Silvia Espinosa‐Ruiz, Hugh Possingham, and Vanessa M. Adams

Subjects

endemism, extinction risk, global strategy, IUCN red list of threatened species, national red list, plant conservation, Environmental sciences, GE1-350, Botany, QK1-989

Abstract

Societal Impact Statement Plants are fundamental to terrestrial and aquatic ecosystems and are key to human livelihoods. To protect plant diversity, systematic approaches to conservation assessment are needed. Many nations have legislation or other policy instruments that seek to protect biodiversity (including plants), and species‐level assessments are essential for identifying the most threatened species that require special and immediate protection measures. Some plants occur in only one place (for instance, a single country) and here we have estimated how many of these ‘endemic’ species have had their threats assessed in each country or close country‐equivalent worldwide. We show that the level of assessment completion is only weakly related to the income of countries or the likely level of threat that species face. Summary The Global Strategy for Plant Conservation ambitiously called for an assessment of the conservation status of all recognised plant taxa by 2020. This target was not met in the short term. Nevertheless, the need for conservation assessments remains urgent as plants go extinct and face increasing threats from human impacts on the biosphere. Here, the completeness of threat assessments for endemic flora in 179 countries or their close equivalents was assessed. To do so, distribution information from the World Checklist of Vascular Plants was combined with assessments collated in the ThreatSearch database. The completeness of assessments was expected to be associated with the objective affluence of countries (measured using inequality‐adjusted Human Development Index (IHDI)) and/or the exposure of their plant species to threats associated with human impacts (measured using Global Human Modification index (GHM)). The number of endemic species per country was also hypothesised to influence the completion of assessments. Overall, 58% of all country‐based endemic species examined have no conservation assessment (127,643 species). Countries' progress toward the completion of threat assessments for endemic plants could not be confidently predicted by IHDI, GHM or the richness of endemic plant flora. The shortfall in threat assessments identified here restricts national regulation of actions which imperil plant species, with particular consequences for endemic plant species subject to local laws. Some nations with high IHDI scores (i.e. wealthier nations) are not systematically assessing extinction risk in their endemic species. Scarce funding should be directed to global hotspots of endemism with few available resources for assessment.

Published

2023

4. Leaf-level coordination principles propagate to the ecosystem scale

Author

Ulisse Gomarasca, Mirco Migliavacca, Jens Kattge, Jacob A. Nelson, Ülo Niinemets, Christian Wirth, Alessandro Cescatti, Michael Bahn, Richard Nair, Alicia T. R. Acosta, M. Altaf Arain, Mirela Beloiu, T. Andrew Black, Hans Henrik Bruun, Solveig Franziska Bucher, Nina Buchmann, Chaeho Byun, Arnaud Carrara, Adriano Conte, Ana C. da Silva, Gregory Duveiller, Silvano Fares, Andreas Ibrom, Alexander Knohl, Benjamin Komac, Jean-Marc Limousin, Christopher H. Lusk, Miguel D. Mahecha, David Martini, Vanessa Minden, Leonardo Montagnani, Akira S. Mori, Yusuke Onoda, Josep Peñuelas, Oscar Perez-Priego, Peter Poschlod, Thomas L. Powell, Peter B. Reich, Ladislav Šigut, Peter M. van Bodegom, Sophia Walther, Georg Wohlfahrt, Ian J. Wright, and Markus Reichstein

Subjects

Science

Abstract

Abstract Fundamental axes of variation in plant traits result from trade-offs between costs and benefits of resource-use strategies at the leaf scale. However, it is unclear whether similar trade-offs propagate to the ecosystem level. Here, we test whether trait correlation patterns predicted by three well-known leaf- and plant-level coordination theories – the leaf economics spectrum, the global spectrum of plant form and function, and the least-cost hypothesis – are also observed between community mean traits and ecosystem processes. We combined ecosystem functional properties from FLUXNET sites, vegetation properties, and community mean plant traits into three corresponding principal component analyses. We find that the leaf economics spectrum (90 sites), the global spectrum of plant form and function (89 sites), and the least-cost hypothesis (82 sites) all propagate at the ecosystem level. However, we also find evidence of additional scale-emergent properties. Evaluating the coordination of ecosystem functional properties may aid the development of more realistic global dynamic vegetation models with critical empirical data, reducing the uncertainty of climate change projections.

Published

2023

5. The global spectrum of plant form and function: enhanced species-level trait dataset

Author

Sandra Díaz, Jens Kattge, Johannes H. C. Cornelissen, Ian J. Wright, Sandra Lavorel, Stéphane Dray, Björn Reu, Michael Kleyer, Christian Wirth, I. Colin Prentice, Eric Garnier, Gerhard Bönisch, Mark Westoby, Hendrik Poorter, Peter B. Reich, Angela T. Moles, John Dickie, Amy E. Zanne, Jérôme Chave, S. Joseph Wright, Serge N. Sheremetiev, Hervé Jactel, Christopher Baraloto, Bruno E. L. Cerabolini, Simon Pierce, Bill Shipley, Fernando Casanoves, Julia S. Joswig, Angela Günther, Valeria Falczuk, Nadja Rüger, Miguel D. Mahecha, Lucas D. Gorné, Bernard Amiaud, Owen K. Atkin, Michael Bahn, Dennis Baldocchi, Michael Beckmann, Benjamin Blonder, William Bond, Ben Bond-Lamberty, Kerry Brown, Sabina Burrascano, Chaeho Byun, Giandiego Campetella, Jeannine Cavender-Bares, F. Stuart Chapin, Brendan Choat, David Anthony Coomes, William K. Cornwell, Joseph Craine, Dylan Craven, Matteo Dainese, Alessandro Carioca de Araujo, Franciska T. de Vries, Tomas Ferreira Domingues, Brian J. Enquist, Jaime Fagúndez, Jingyun Fang, Fernando Fernández-Méndez, Maria T. Fernandez-Piedade, Henry Ford, Estelle Forey, Gregoire T. Freschet, Sophie Gachet, Rachael Gallagher, Walton Green, Greg R. Guerin, Alvaro G. Gutiérrez, Sandy P. Harrison, Wesley Neil Hattingh, Tianhua He, Thomas Hickler, Steven I. Higgins, Pedro Higuchi, Jugo Ilic, Robert B. Jackson, Adel Jalili, Steven Jansen, Fumito Koike, Christian König, Nathan Kraft, Koen Kramer, Holger Kreft, Ingolf Kühn, Hiroko Kurokawa, Eric G. Lamb, Daniel C. Laughlin, Michelle Leishman, Simon Lewis, Frédérique Louault, Ana C. M. Malhado, Peter Manning, Patrick Meir, Maurizio Mencuccini, Julie Messier, Regis Miller, Vanessa Minden, Jane Molofsky, Rebecca Montgomery, Gabriel Montserrat-Martí, Marco Moretti, Sandra Müller, Ülo Niinemets, Romà Ogaya, Kinga Öllerer, Vladimir Onipchenko, Yusuke Onoda, Wim A. Ozinga, Juli G. Pausas, Begoña Peco, Josep Penuelas, Valério D. Pillar, Clara Pladevall, Christine Römermann, Lawren Sack, Norma Salinas, Brody Sandel, Jordi Sardans, Brandon Schamp, Michael Scherer-Lorenzen, Ernst-Detlef Schulze, Fritz Schweingruber, Satomi Shiodera, Ênio Sosinski, Nadejda Soudzilovskaia, Marko J. Spasojevic, Emily Swaine, Nathan Swenson, Susanne Tautenhahn, Ken Thompson, Alexia Totte, Rocío Urrutia-Jalabert, Fernando Valladares, Peter van Bodegom, François Vasseur, Kris Verheyen, Denis Vile, Cyrille Violle, Betsy von Holle, Patrick Weigelt, Evan Weiher, Michael C. Wiemann, Mathew Williams, Justin Wright, and Gerhard Zotz

Subjects

Science

Abstract

Measurement(s) plant trait Technology Type(s) various Factor Type(s) none Sample Characteristic - Organism Tracheophyta Sample Characteristic - Environment natural environment Sample Characteristic - Location global

Published

2022

6. Leaf water content contributes to global leaf trait relationships

Author

Zhiqiang Wang, Heng Huang, Han Wang, Josep Peñuelas, Jordi Sardans, Ülo Niinemets, Karl J. Niklas, Yan Li, Jiangbo Xie, and Ian J. Wright

Subjects

Science

Abstract

Leaf functional traits are increasingly used as proxies for plant functions. Here, the authors show that leaf water affects other leaf traits and is a better predictor of whole-leaf photosynthesis and leaf area than leaf nitrogen or phosphorus content.

Published

2022

7. Convergence in phosphorus constraints to photosynthesis in forests around the world

Author

David S. Ellsworth, Kristine Y. Crous, Martin G. De Kauwe, Lore T. Verryckt, Daniel Goll, Sönke Zaehle, Keith J. Bloomfield, Philippe Ciais, Lucas A. Cernusak, Tomas F. Domingues, Mirindi Eric Dusenge, Sabrina Garcia, Rossella Guerrieri, F. Yoko Ishida, Ivan A. Janssens, Tanaka Kenzo, Tomoaki Ichie, Belinda E. Medlyn, Patrick Meir, Richard J. Norby, Peter B. Reich, Lucy Rowland, Louis S. Santiago, Yan Sun, Johan Uddling, Anthony P. Walker, K. W. Lasantha K. Weerasinghe, Martine J. van de Weg, Yun-Bing Zhang, Jiao-Lin Zhang, and Ian J. Wright

Subjects

Science

Abstract

Phosphorus (P) limitation is pervasive in tropical forests. Here the authors analyse the dependence of photosynthesis on leaf N and P in tropical forests, and show that incorporating leaf P constraints in a terrestrial biosphere model enhances its predictive power.

Published

2022

8. AnimalTraits - a curated animal trait database for body mass, metabolic rate and brain size

Author

Marie E. Herberstein, Donald James McLean, Elizabeth Lowe, Jonas O. Wolff, Md Kawsar Khan, Kaitlyn Smith, Andrew P. Allen, Matthew Bulbert, Bruno A. Buzatto, Mark D. B. Eldridge, Daniel Falster, Laura Fernandez Winzer, Simon C. Griffith, Joshua S. Madin, Ajay Narendra, Mark Westoby, Martin J. Whiting, Ian J. Wright, and Alexandra J. R. Carthey

Subjects

Science

Abstract

Measurement(s) metabolic rate quantification • body mass • brain size Technology Type(s) metabolic rate measurement • body mass quantification • brain mass brain volume

Published

2022

9. Environmental associations of abundance-weighted functional traits in Australian plant communities

Author

Greg R. Guerin, Rachael V. Gallagher, Ian J. Wright, Samuel C. Andrew, Daniel S. Falster, Elizabeth Wenk, Samantha E.M. Munroe, Andrew J. Lowe, and Ben Sparrow

Subjects

Leaf size, Seed mass, Plant height, Functional trait, Plant community, Climate gradient, Ecology, QH540-549.5

Abstract

Predictions of how vegetation responds to spatial and temporal differences in climate rely on established links with plant functional traits and vegetation types that can be encoded into Dynamic Global Vegetation Models. Individual traits have been linked to climate at species level and at community level within regions. However, a recent global assessment of aggregated community level traits found unexpectedly weak links with macroclimate, bringing into question broadscale trait–climate associations and implicating local-scale environmental differences in the filtering of communities. To further evaluate patterns in light of these somewhat contradictory results, we quantified the power of macro-environmental variables to explain aggregated plant community traits, taking advantage of new trait data for leaf area, plant height and seed mass combined with a national survey that records cover-abundance using consistent methods for a large number of plots across Australia. In contrast to the global study, we found that abundance-weighted community mean and variance of leaf area and maximum height were correlated with macroclimate. Height and leaf area were highest in wet (especially warm, wet) environments, with actual evapotranspiration explaining 30% of variation in leaf area and 26% in maximum height. Seed mass was weakly related to environment, with no variable explaining more than 5% of variance. Considering all three traits together in a redundancy analysis, the complete set of environmental variables explained 43% of variation in site-mean traits and 29% of within-site trait variance. While significant trait variation remains unexplained, the trait–environment relationships reported here suggest climatically-driven filtering plays a strong role in assembling these vegetation communities. Regional assessments using standardised species abundances can therefore be used to predict aspects of vegetation function. Our quantification of plant community trait patterns along macroclimatic gradients at continental scale thereby contributes a much-needed functional basis for Australian vegetation.

Published

2022

10. Rising CO2 and warming reduce global canopy demand for nitrogen

Author

Ning Dong, Ian J. Wright, Jing M. Chen, Xiangzhong Luo, Han Wang, Trevor F. Keenan, Nicholas G. Smith, and Iain Colin Prentice

Published

2022

11. AusTraits, a curated plant trait database for the Australian flora

Author

Daniel Falster, Rachael Gallagher, Elizabeth H. Wenk, Ian J. Wright, Dony Indiarto, Samuel C. Andrew, Caitlan Baxter, James Lawson, Stuart Allen, Anne Fuchs, Anna Monro, Fonti Kar, Mark A. Adams, Collin W. Ahrens, Matthew Alfonzetti, Tara Angevin, Deborah M. G. Apgaua, Stefan Arndt, Owen K. Atkin, Joe Atkinson, Tony Auld, Andrew Baker, Maria von Balthazar, Anthony Bean, Chris J. Blackman, Keith Bloomfield, David M. J. S. Bowman, Jason Bragg, Timothy J. Brodribb, Genevieve Buckton, Geoff Burrows, Elizabeth Caldwell, James Camac, Raymond Carpenter, Jane A. Catford, Gregory R. Cawthray, Lucas A. Cernusak, Gregory Chandler, Alex R. Chapman, David Cheal, Alexander W. Cheesman, Si-Chong Chen, Brendan Choat, Brook Clinton, Peta L. Clode, Helen Coleman, William K. Cornwell, Meredith Cosgrove, Michael Crisp, Erika Cross, Kristine Y. Crous, Saul Cunningham, Timothy Curran, Ellen Curtis, Matthew I. Daws, Jane L. DeGabriel, Matthew D. Denton, Ning Dong, Pengzhen Du, Honglang Duan, David H. Duncan, Richard P. Duncan, Marco Duretto, John M. Dwyer, Cheryl Edwards, Manuel Esperon-Rodriguez, John R. Evans, Susan E. Everingham, Claire Farrell, Jennifer Firn, Carlos Roberto Fonseca, Ben J. French, Doug Frood, Jennifer L. Funk, Sonya R. Geange, Oula Ghannoum, Sean M. Gleason, Carl R. Gosper, Emma Gray, Philip K. Groom, Saskia Grootemaat, Caroline Gross, Greg Guerin, Lydia Guja, Amy K. Hahs, Matthew Tom Harrison, Patrick E. Hayes, Martin Henery, Dieter Hochuli, Jocelyn Howell, Guomin Huang, Lesley Hughes, John Huisman, Jugoslav Ilic, Ashika Jagdish, Daniel Jin, Gregory Jordan, Enrique Jurado, John Kanowski, Sabine Kasel, Jürgen Kellermann, Belinda Kenny, Michele Kohout, Robert M. Kooyman, Martyna M. Kotowska, Hao Ran Lai, Etienne Laliberté, Hans Lambers, Byron B. Lamont, Robert Lanfear, Frank van Langevelde, Daniel C. Laughlin, Bree-Anne Laugier-Kitchener, Susan Laurance, Caroline E. R. Lehmann, Andrea Leigh, Michelle R. Leishman, Tanja Lenz, Brendan Lepschi, James D. Lewis, Felix Lim, Udayangani Liu, Janice Lord, Christopher H. Lusk, Cate Macinnis-Ng, Hannah McPherson, Susana Magallón, Anthony Manea, Andrea López-Martinez, Margaret Mayfield, James K. McCarthy, Trevor Meers, Marlien van der Merwe, Daniel J. Metcalfe, Per Milberg, Karel Mokany, Angela T. Moles, Ben D. Moore, Nicholas Moore, John W. Morgan, William Morris, Annette Muir, Samantha Munroe, Áine Nicholson, Dean Nicolle, Adrienne B. Nicotra, Ülo Niinemets, Tom North, Andrew O’Reilly-Nugent, Odhran S. O’Sullivan, Brad Oberle, Yusuke Onoda, Mark K. J. Ooi, Colin P. Osborne, Grazyna Paczkowska, Burak Pekin, Caio Guilherme Pereira, Catherine Pickering, Melinda Pickup, Laura J. Pollock, Pieter Poot, Jeff R. Powell, Sally A. Power, Iain Colin Prentice, Lynda Prior, Suzanne M. Prober, Jennifer Read, Victoria Reynolds, Anna E. Richards, Ben Richardson, Michael L. Roderick, Julieta A. Rosell, Maurizio Rossetto, Barbara Rye, Paul D. Rymer, Michael A. Sams, Gordon Sanson, Hervé Sauquet, Susanne Schmidt, Jürg Schönenberger, Ernst-Detlef Schulze, Kerrie Sendall, Steve Sinclair, Benjamin Smith, Renee Smith, Fiona Soper, Ben Sparrow, Rachel J. Standish, Timothy L. Staples, Ruby Stephens, Christopher Szota, Guy Taseski, Elizabeth Tasker, Freya Thomas, David T. Tissue, Mark G. Tjoelker, David Yue Phin Tng, Félix de Tombeur, Kyle Tomlinson, Neil C. Turner, Erik J. Veneklaas, Susanna Venn, Peter Vesk, Carolyn Vlasveld, Maria S. Vorontsova, Charles A. Warren, Nigel Warwick, Lasantha K. Weerasinghe, Jessie Wells, Mark Westoby, Matthew White, Nicholas S. G. Williams, Jarrah Wills, Peter G. Wilson, Colin Yates, Amy E. Zanne, Graham Zemunik, and Kasia Ziemińska

Subjects

Science

Abstract

Measurement(s) plant trait Technology Type(s) digital curation Sample Characteristic - Organism Viridiplantae Sample Characteristic - Location Australia Machine-accessible metadata file describing the reported data: https://doi.org/10.6084/m9.figshare.14545755

Published

2021

12. Applying the economic concept of profitability to leaves

Author

Rafael Villar, Manuel Olmo, Pedro Atienza, Antonio J. Garzón, Ian J. Wright, Hendrik Poorter, and Luis A. Hierro

Subjects

Medicine, Science

Abstract

Abstract Economic principles can be extended to biological organisms as they optimize the use of resources, but their use in biology has been limited. We applied concepts from traditional economics to the main production unit of plants, the leaf. We quantified the profitability (profit/cost of investment) of leaves from seven biomes worldwide and compared those to the profitability of companies. Here we demonstrate for the first time key similarities and differences between leaf and human economics. First, there was a weak, but positive relationship between profitability and size, both for leaves and companies. Second, environment has a strong effect on profitability, with high values in leaves from biomes with short growth periods and, for companies associated with innovation. Third, shorter longevity of productive units was related to higher profitability. In summary, by comparing economic behaviours of plants and humans there is potential to develop new perspectives on plant ecological strategies and plant evolution.

Published

2021

13. Discriminating electrocardiographic responses to His-bundle pacing using machine learning

Author

Ahran D. Arnold, MBBS, James P. Howard, MB BChir, Aiswarya Gopi, BSc, Cheng Pou Chan, BSc, Nadine Ali, BMBCh, Daniel Keene, MBChB, PhD, Matthew J. Shun-Shin, BMBCh, PhD, Yousif Ahmad, BMBS, PhD, Ian J. Wright, BSc, Fu Siong Ng, MBBS, PhD, Nick W.F. Linton, MBBS, PhD, Prapa Kanagaratnam, MB BChir, PhD, Nicholas S. Peters, MBBS, MD, FHRS, Daniel Rueckert, PhD, Darrel P. Francis, MB BChir, MD, and Zachary I. Whinnett, BMBS, PhD

Subjects

Artificial intelligence, Conduction system pacing, Electrocardiography, His-bundle pacing, Machine learning, Neural networks, Diseases of the circulatory (Cardiovascular) system, RC666-701, Medical technology, R855-855.5

Abstract

Background: His-bundle pacing (HBP) has emerged as an alternative to conventional ventricular pacing because of its ability to deliver physiological ventricular activation. Pacing at the His bundle produces different electrocardiographic (ECG) responses: selective His-bundle pacing (S-HBP), non-selective His bundle pacing (NS-HBP), and myocardium-only capture (MOC). These 3 capture types must be distinguished from each other, which can be challenging and time-consuming even for experts. Objective: The purpose of this study was to use artificial intelligence (AI) in the form of supervised machine learning using a convolutional neural network (CNN) to automate HBP ECG interpretation. Methods: We identified patients who had undergone HBP and extracted raw 12-lead ECG data during S-HBP, NS-HBP, and MOC. A CNN was trained, using 3-fold cross-validation, on 75% of the segmented QRS complexes labeled with their capture type. The remaining 25% was kept aside as a testing dataset. Results: The CNN was trained with 1297 QRS complexes from 59 patients. Cohen kappa for the neural network’s performance on the 17-patient testing set was 0.59 (95% confidence interval 0.30 to 0.88; P

Published

2020

14. Replicated Evolution in Plants

Author

Maddie E, James, Tim, Brodribb, Ian J, Wright, Loren H, Rieseberg, and Daniel, Ortiz-Barrientos

Subjects

Physiology, Cell Biology, Plant Science, Molecular Biology

Abstract

Similar traits and functions commonly evolve in nature. Here, we explore patterns of replicated evolution across the plant kingdom and discuss the processes responsible for such patterns. We begin this review by defining replicated evolution and the theoretical, genetic, and ecological concepts that help explain it. We then focus our attention on empirical cases of replicated evolution at the phenotypic and genotypic levels. We find that replication at the ecotype level is common, but evidence for repeated ecological speciation is surprisingly sparse. On the other hand, the replicated evolution of ecological strategies and physiological mechanisms across similar biomes appears to be pervasive. We conclude by highlighting where future efforts can help us bridge the understanding of replicated evolution across different levels of biological organization. Earth's landscape is diverse but also repeats itself. Organisms seem to have followed suit. Expected final online publication date for the

Published

2023

15. Global photosynthetic capacity is optimized to the environment

Author

Nicholas G. Smith, Trevor F. Keenan, I. Colin Prentice, Han Wang, Ian J. Wright, Ülo Niinemets, Kristine Y. Crous, Tomas F. Domingues, Rossella Guerrieri, F. Yoko Ishida, Jens Kattge, Eric L. Kruger, Vincent Maire, Alistair Rogers, Shawn P. Serbin, Lasse Tarvainen, Henrique F. Togashi, Philip A. Townsend, Meng Wang, Lasantha K. Weerasinghe, and Shuang‐Xi Zhou

Published

2019

16. Parenchyma Abundance in Wood of Evergreen Trees Varies Independently of Nutrients

Author

Martyna M. Kotowska, Ian J. Wright, and Mark Westoby

Subjects

hydraulic traits, plant adaptation strategy, plant functional traits, soil phosphorus, tissue fractions, wood anatomy, Plant culture, SB1-1110

Abstract

The abundance of living cells in wood—mainly as interconnected axial and ray parenchyma networks—varies widely between species. However, the functional significance of this variation and its role in plant ecological strategies is poorly understood, as is the extent to which different parenchyma fractions are favored in relation to soil nutrients and hydraulic functions. We analyzed wood tissue fractions of 16 Australian angiosperm species sampled from two nearby areas with similar climate but very different soil nutrient profiles and investigated structure-function links with soil and tissue nutrient concentrations and other plant traits. We expected the variation in parenchyma fractions to influence nutrient concentrations in wood xylem, and to find species with lower parenchyma fractions and accordingly lower nutrient requirements on lower-nutrient soils. Surprisingly, both axial and ray parenchyma fractions were mostly unrelated to tissue and soil nutrient concentrations, except for nitrogen concentration in stem sapwood. Species from low nutrient soils showed higher fractional P translocation from both leaves and sapwood, but little patterning with respect to tissue nitrogen. While species from high and low nutrient soils clearly clustered along the soil-fertility axis, their tissue composition varied independently from plant functional traits related to construction costs and hydraulic anatomy. Our findings imply that there is considerable variation among species in the nutrient concentrations within different parenchyma tissues. The anatomical composition of wood tissue seems unrelated to plant nutrient requirements. Even though xylem parenchyma is involved in metabolic functions such as nutrient translocation and storage, parenchyma abundance on its own does not directly explain variation in these functions, even in co-occurring species. While parenchyma is highly abundant in wood of angiosperm trees, we are still lacking a convincing ecological interpretation of its variability and role in whole-tree nutrient budgets.

Published

2020

17. ETIB‐T: An Equilibrium Theory of Island Biogeography for plant traits

Author

Julian Schrader, Ian J. Wright, Holger Kreft, Patrick Weigelt, Samuel C. Andrew, Ian Abbott, and Mark Westoby

Subjects

Ecology, Ecology, Evolution, Behavior and Systematics

Published

2022

18. How do functional traits influence tree demographic properties in a subtropical monsoon forest?

Author

Pengcheng He, Juyu Lian, Qing Ye, Hui Liu, Yi Zheng, Kailiang Yu, Shidan Zhu, Ronghua Li, Deyi Yin, Wanhui Ye, and Ian J. Wright

Subjects

Ecology, Evolution, Behavior and Systematics

Published

2022

19. Leaf trait covariation and controls on leaf mass per area (LMA) following cotton domestication

Author

Zhangying Lei, Andrea C Westerband, Ian J Wright, Yang He, Wangfeng Zhang, Xiaoyan Cai, Zhongli Zhou, Fang Liu, and Yali Zhang

Subjects

Domestication, Plant Leaves, Gossypium, Plant Science, Photosynthesis, Plants

Abstract

Background and Aims The process of domestication has driven dramatic shifts in plant functional traits, including leaf mass per area (LMA). It remains unclear whether domestication has produced concerted shifts in the lower-level anatomical traits that underpin LMA and how these traits in turn affect photosynthesis. Methods In this study we investigated controls of LMA and leaf gas exchange by leaf anatomical properties at the cellular, tissue and whole-leaf levels, comparing 26 wild and 31 domesticated genotypes of cotton (Gossypium). Key Results As expected, domesticated plants expressed lower LMA, higher photosynthesis and higher stomatal conductance, suggesting a shift towards the ‘faster’ end of the leaf economics spectrum. At whole-leaf level, variation in LMA was predominantly determined by leaf density (LD) both in wild and domesticated genotypes. At tissue level, higher leaf volume per area (Vleaf) in domesticated genotypes was driven by a simultaneous increase in the volume of epidermal, mesophyll and vascular bundle tissue and airspace, while lower LD resulted from a lower volume of palisade tissue and vascular bundles (which are of high density), paired with a greater volume of epidermis and airspace, which are of low density. The volume of spongy mesophyll exerted direct control on photosynthesis in domesticated genotypes but only indirect control in wild genotypes. At cellular level, a shift to larger but less numerous cells with thinner cell walls underpinned a lower proportion of cell wall mass, and thus a reduction in LD. Conclusions Taken together, cotton domestication has triggered synergistic shifts in the underlying determinants of LMA but also photosynthesis, at cell, tissue and whole-leaf levels, resulting in a marked shift in plant ecological strategy.

Published

2022

20. Enhanced leaf turnover and nitrogen recycling sustain CO2 fertilization effect on tree-ring growth

Author

Ying Guo, Lin Zhang, Liu Yang, Wei Shen, Yude Pan, Ian J. Wright, Yiqi Luo, and Tianxiang Luo

Subjects

Ecology, Ecology, Evolution, Behavior and Systematics

Published

2022

21. Convergence in Maximum Stomatal Conductance of C3 Woody Angiosperms in Natural Ecosystems Across Bioclimatic Zones

Author

Michelle Murray, Wuu Kuang Soh, Charilaos Yiotis, Sven Batke, Andrew C. Parnell, Robert A. Spicer, Tracy Lawson, Rodrigo Caballero, Ian J. Wright, Conor Purcell, and Jennifer C. McElwain

Subjects

biomes, convergence, habitat, maximum stomatal conductance, natural ecosystems, understory, Plant culture, SB1-1110

Abstract

Stomatal conductance (gs) in terrestrial vegetation regulates the uptake of atmospheric carbon dioxide for photosynthesis and water loss through transpiration, closely linking the biosphere and atmosphere and influencing climate. Yet, the range and pattern of gs in plants from natural ecosystems across broad geographic, climatic, and taxonomic ranges remains poorly quantified. Furthermore, attempts to characterize gs on such scales have predominantly relied upon meta-analyses compiling data from many different studies. This approach may be inherently problematic as it combines data collected using unstandardized protocols, sometimes over decadal time spans, and from different habitat groups. Using a standardized protocol, we measured leaf-level gs using porometry in 218 C3 woody angiosperm species in natural ecosystems representing seven bioclimatic zones. The resulting dataset of 4273 gs measurements, which we call STraits (Stomatal Traits), was used to determine patterns in maximum gs (gsmax) across bioclimatic zones and whether there was similarity in the mean gsmax of C3 woody angiosperms across ecosystem types. We also tested for differential gsmax in two broadly defined habitat groups – open-canopy and understory-subcanopy – within and across bioclimatic zones. We found strong convergence in mean gsmax of C3 woody angiosperms in the understory-subcanopy habitats across six bioclimatic zones, but not in open-canopy habitats. Mean gsmax in open-canopy habitats (266 ± 100 mmol m-2 s-1) was significantly higher than in understory-subcanopy habitats (233 ± 86 mmol m-2 s-1). There was also a central tendency in the overall dataset to operate toward a gsmax of ∼250 mmol m-2 s-1. We suggest that the observed convergence in mean gsmax of C3 woody angiosperms in the understory-subcanopy is due to a buffering of gsmax against macroclimate effects which will lead to differential response of C3 woody angiosperm vegetation in these two habitats to future global change. Therefore, it will be important for future studies of gsmax to categorize vegetation according to habitat group.

Published

2019

22. Interventricular Differences in Action Potential Duration Restitution Contribute to Dissimilar Ventricular Rhythms in ex vivo Perfused Hearts

Author

Balvinder S. Handa, Saheed Lawal, Ian J. Wright, Xinyang Li, Javier Cabello-García, Catherine Mansfield, Rasheda A. Chowdhury, Nicholas S. Peters, and Fu Siong Ng

Subjects

ventricular tachycardia, ventricular fibrillation, implantable cardioverter-defibrillator, dissimilar rhythms, dissimilar ventricular rhythms, action potential duration restitution, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

Background: Dissimilar ventricular rhythms refer to the occurrence of different ventricular tachyarrhythmias in the right and left ventricles or different rates of the same tachyarrhythmia in the two ventricles.Objective: We investigated the inducibility of dissimilar ventricular rhythms, their underlying mechanisms, and the impact of anti-arrhythmic drugs (lidocaine and amiodarone) on their occurrence.Methods: Ventricular tachyarrhythmias were induced with burst pacing in 28 Langendorff-perfused Sprague Dawley rat hearts (14 control, 8 lidocaine, 6 amiodarone) and bipolar electrograms recorded from the right and left ventricles. Fourteen (6 control, 4 lidocaine, 4 amiodarone) further hearts underwent optical mapping of transmembrane voltage to study interventricular electrophysiological differences and mechanisms of dissimilar rhythms.Results: In control hearts, dissimilar ventricular rhythms developed in 8/14 hearts (57%). In lidocaine treated hearts, there was a lower cycle length threshold for developing dissimilar rhythms, with 8/8 (100%) hearts developing dissimilar rhythms in comparison to 0/6 in the amiodarone group. Dissimilar ventricular tachycardia (VT) rates occurred at longer cycle lengths with lidocaine vs. control (57.1 ± 7.9 vs. 36.6 ± 8.4 ms, p < 0.001). The ratio of LV:RV VT rate was greater in the lidocaine group than control (1.91 ± 0.30 vs. 1.76 ± 0.36, p < 0.001). The gradient of the action potential duration (APD) restitution curve was shallower in the RV compared with LV (Control - LV: 0.12 ± 0.03 vs RV: 0.002 ± 0.03, p = 0.015), leading to LV-to-RV conduction block during VT.Conclusion: Interventricular differences in APD restitution properties likely contribute to the occurrence of dissimilar rhythms. Sodium channel blockade with lidocaine increases the likelihood of dissimilar ventricular rhythms.

Published

2019

23. Global variation in the ratio of sapwood to leaf area explained by optimality principles

Author

Huiying Xu, Han Wang, I. Colin Prentice, Sandy P. Harrison, Lucy Rowland, Maurizio Mencuccini, Pablo Sanchez-Martinez, Pengcheng He, Ian J. Wright, Stephen Sitch, and Qing Ye

Abstract

The sapwood area supporting a given leaf area (vH) reflects a coordinated coupling between carbon uptake, water transport and loss at a whole plant level. Worldwide variation in vH reflects diverse plants strategies adapt to prevailing environments, and impact the evolution of global carbon and water cycles. Why such a variation has not been convincingly explained yet, thus hinder its representation in Earth System Models. Here we hypothese that optimal vH tends to mediate between sapwood conductance and climates so that leaf water loss matches both sapwood hydraulics and leaf photosynthesis. By compiling and testing against two extensive datasets, we show that our hypothesis explains nearly 60% of vH variation responding to light, vapor pressure deficit, temperature, and sapwood conductance in a quantitively predictable manner. Sapwood conductance or warming-enhanced hydraulic efficiency reduces the demand on sapwood area for a given total leaf area and, whereas brightening and air dryness enhance photosynthetic capacities consequently increasing the demand. This knowledge can enrich Earth System Models where carbon allocation and water hydraulics play key roles in predicting future climate-carbon feedback.

Published

2023

24. Global leaf‐trait mapping based on optimality theory

Author

Ning Dong, Benjamin Dechant, Han Wang, Ian J. Wright, and Iain Colin Prentice

Subjects

Global and Planetary Change, Ecology, Ecology, Evolution, Behavior and Systematics

Abstract

Aim Leaf traits are central to plant function, and key variables in ecosystem models. However recently published global trait maps, made by applying statistical or machine-learning techniques to large compilations of trait and environmental data, differ substantially from one another. This paper aims to demonstrate the potential of an alternative approach, based on eco-evolutionary optimality theory, to yield predictions of spatio-temporal patterns in leaf traits that can be independently evaluated. Innovation Global patterns of community-mean specific leaf area (SLA) and photosynthetic capacity (Vcmax) are predicted from climate via existing optimality models. Then leaf nitrogen per unit area (Narea) and mass (Nmass) are inferred using their (previously derived) empirical relationships to SLA and Vcmax. Trait data are thus reserved for testing model predictions across sites. Temporal trends can also be predicted, as consequences of environmental change, and compared to those inferred from leaf-level measurements and/or remote-sensing methods, which are an increasingly important source of information on spatio-temporal variation in plant traits. Main conclusions Model predictions evaluated against site-mean trait data from > 2,000 sites in the Plant Trait database yielded R2 = 73% for SLA, 38% for Nmass and 28% for Narea. Declining species-level Nmass, and increasing community-level SLA, have both been recently reported and were both correctly predicted. Leaf-trait mapping via optimality theory holds promise for macroecological applications, including an improved understanding of community leaf-trait responses to environmental change.

Published

2023

25. A survey of leaf phosphorus fractions and leaf economic traits among 12 co-occurring woody species on phosphorus-impoverished soils

Author

Yuki Tsujii, Baoli Fan, Brian J. Atwell, Hans Lambers, Zhangying Lei, and Ian J. Wright

Subjects

Soil Science, Plant Science

Abstract

Background and Aims The leaf economic spectrum (LES) is related to dry mass and nutrient investments towards photosynthetic processes and leaf structures, and to the duration of returns on those investments (leaf lifespan, LL). Phosphorus (P) is a key limiting nutrient for plant growth, yet it is unclear how the allocation of leaf P among different functions is coordinated with the LES. We addressed this question among 12 evergreen woody species co-occurring on P-impoverished soils in south-eastern Australia. Methods Leaf ‘economic’ traits, including LL, leaf mass per area (LMA), light-saturated net photosynthetic rate per mass (Amass), dark respiration rate, P concentration ([Ptotal]), nitrogen concentration, and P resorption, were measured for three pioneer and nine non-pioneer species. Leaf P was separated into five functional fractions: orthophosphate P (Pi), metabolite P (PM), nucleic acid P (PN), lipid P (PL), and residual P (PR; phosphorylated proteins and unidentified compounds that contain P). Results LL was negatively correlated with Amass and positively correlated with LMA, representing the LES. Pioneers occurred towards the short-LL end of the spectrum and exhibited higher [Ptotal] than non-pioneer species, primarily associated with higher concentrations of Pi, PN and PL. There were no significant correlations between leaf P fractions and LL or LMA, while Amass was positively correlated with the concentration of PR. Conclusions Allocation of leaf P to different fractions varied substantially among species. This variation was partially associated with the LES, which may provide a mechanism underlying co-occurrence of species with different ecological strategies under P limitation.

Published

2023

26. Assessing the vulnerability of plant functional trait strategies to climate change

Author

Samuel C. Andrew, Rachael V. Gallagher, Ian J. Wright, Karel Mokany, and Arndt Hampe

Subjects

Global and Planetary Change, Ecology, Ecology, Evolution, Behavior and Systematics

Published

2022

27. Environmental associations of abundance-weighted functional traits in Australian plant communities

Author

Ben Sparrow, Andrew J. Lowe, Ian J. Wright, Samuel C. Andrew, Samantha E. M. Munroe, Daniel S. Falster, Elizabeth Wenk, Greg R. Guerin, and Rachael V. Gallagher

Subjects

Abundance (ecology), Ecology, Evapotranspiration, Variance (land use), Trait, food and beverages, Contrast (statistics), Plant community, Vegetation, Biology, Scale (map), Ecology, Evolution, Behavior and Systematics

Abstract

Predictions of how vegetation responds to spatial and temporal differences in climate rely on established links with plant functional traits and vegetation types that can be encoded into Dynamic Global Vegetation Models. Individual traits have been linked to climate at species level and at community level within regions. However, a recent global assessment of aggregated community level traits found unexpectedly weak links with macroclimate, bringing into question broadscale trait–climate associations and implicating local-scale environmental differences in the filtering of communities. To further evaluate patterns in light of these somewhat contradictory results, we quantified the power of macro-environmental variables to explain aggregated plant community traits, taking advantage of new trait data for leaf area, plant height and seed mass combined with a national survey that records cover-abundance using consistent methods for a large number of plots across Australia. In contrast to the global study, we found that abundance-weighted community mean and variance of leaf area and maximum height were correlated with macroclimate. Height and leaf area were highest in wet (especially warm, wet) environments, with actual evapotranspiration explaining 30% of variation in leaf area and 26% in maximum height. Seed mass was weakly related to environment, with no variable explaining more than 5% of variance. Considering all three traits together in a redundancy analysis, the complete set of environmental variables explained 43% of variation in site-mean traits and 29% of within-site trait variance. While significant trait variation remains unexplained, the trait–environment relationships reported here suggest climatically-driven filtering plays a strong role in assembling these vegetation communities. Regional assessments using standardised species abundances can therefore be used to predict aspects of vegetation function. Our quantification of plant community trait patterns along macroclimatic gradients at continental scale thereby contributes a much-needed functional basis for Australian vegetation.

Published

2022

28. Enhanced photosynthetic nitrogen use efficiency and increased nitrogen allocation to photosynthetic machinery under cotton domestication

Author

Wangfeng Zhang, Xin-Guang Zhu, Ian J. Wright, Dong-Sheng Sun, Zhangying Lei, Fang Liu, Ning Dong, Yali Zhang, Zi-Liang Li, Zhong-Li Zhou, Heng Wang, and Ülo Niinemets

Subjects

Cytochrome f, biology, Bioenergetics, RuBisCO, chemistry.chemical_element, Plant physiology, Cell Biology, Plant Science, General Medicine, Photosynthesis, Biochemistry, Nitrogen, chemistry, Agronomy, biology.protein, Domestication, Ferredoxin—NADP(+) reductase

Abstract

Domestication involves dramatic phenotypic and physiological diversifications due to successive selection by breeders toward high yield and quality. Although photosynthetic nitrogen use efficiency (PNUE) is a major trait for understanding leaf nitrogen economy, it is unclear whether PNUE of cotton has been improved under domestication. Here, we investigated the effect of domestication on nitrogen allocation to photosynthetic machinery and PNUE in 25 wild and 37 domesticated cotton genotypes. The results showed that domesticated genotypes had higher nitrogen content per mass (Nm), net photosynthesis under saturated light (Asat), and PNUE but similar nitrogen content per area (Na) compared with wild genotypes. As expected, in both genotypes, PNUE was positively related to Asat but negatively correlated with Na. However, the relative contribution of Asat to PNUE was greater than the contribution from Na. Domesticated genotypes had higher nitrogen allocation to light-harvesting (NL, nitrogen in light-harvesting chlorophyll-protein complex), to bioenergetics (Nb, total nitrogen of cytochrome f, ferredoxin NADP reductase, and the coupling factor), and to Rubisco (Nr) than wild genotypes; however, the two genotype groups did not differ in PNUEp, the ratio of Asat to Np (itself the sum of NL, Nb, and Nr). Our results suggest that more nitrogen allocation to photosynthetic machinery has boosted Asat under cotton domestication. Improving the efficiency of nitrogen use in photosynthetic machinery might be future aim to enhance Asat of cotton.

Published

2021

29. Leaf economics fundamentals explained by optimality principles

Author

Han Wang, I. Colin Prentice, Ian J. Wright, David I. Warton, Shengchao Qiao, Xiangtao Xu, Jian Zhou, Kihachiro Kikuzawa, and Nils Chr. Stenseth

Subjects

Multidisciplinary

Abstract

The life span of leaves increases with their mass per unit area (LMA). It is unclear why. Here, we show that this empirical generalization (the foundation of the worldwide leaf economics spectrum) is a consequence of natural selection, maximizing average net carbon gain over the leaf life cycle. Analyzing two large leaf trait datasets, we show that evergreen and deciduous species with diverse construction costs (assumed proportional to LMA) are selected by light, temperature, and growing-season length in different, but predictable, ways. We quantitatively explain the observed divergent latitudinal trends in evergreen and deciduous LMA and show how local distributions of LMA arise by selection under different environmental conditions acting on the species pool. These results illustrate how optimality principles can underpin a new theory for plant geography and terrestrial carbon dynamics.

Published

2022

30. Physiological trait networks enhance understanding of crop growth and water use in contrasting environments

Author

Sean M. Gleason, Dave M. Barnard, Timothy R. Green, Scott Mackay, Diane R. Wang, Elizabeth A. Ainsworth, Jon Altenhofen, Timothy J. Brodribb, Hervé Cochard, Louise H. Comas, Mark Cooper, Danielle Creek, Kendall C. DeJonge, Sylvain Delzon, Felix B. Fritschi, Graeme Hammer, Cameron Hunter, Danica Lombardozzi, Carlos D. Messina, Troy Ocheltree, Bo Maxwell Stevens, Jared J. Stewart, Vincent Vadez, Joshua Wenz, Ian J. Wright, Kevin Yemoto, Huihui Zhang, Water Management and Systems Research (WMSR), United States Department of Agriculture (USDA), University at Buffalo [SUNY] (SUNY Buffalo), State University of New York (SUNY), Purdue University [West Lafayette], University of Tasmania [Hobart, Australia] (UTAS), Laboratoire de Physique et Physiologie Intégratives de l’Arbre en environnement Fluctuant (PIAF), Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE)-Université Clermont Auvergne (UCA), Queensland Alliance for Agriculture and Food Innovation (QAAFI), University of Queensland [Brisbane], Biodiversité, Gènes & Communautés (BioGeCo), Université de Bordeaux (UB)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), University of Missouri [Columbia] (Mizzou), University of Missouri System, Colorado State University [Fort Collins] (CSU), National Center for Atmospheric Research [Boulder] (NCAR), University of Florida [Gainesville] (UF), International Crops Research Institute for the Semi-Arid Tropics [Inde] (ICRISAT), Consultative Group on International Agricultural Research [CGIAR] (CGIAR), and Macquarie University

Subjects

photosynthesis, Physiology, stomata, Water, food and beverages, Plant Science, plant growth, xylem, maize, process simulation, crop improvement, Droughts, Plant Leaves, Soil, breeding, Plant Stomata, hydraulic traits, [SDE]Environmental Sciences, water potential, Edible Grain, Ecosystem

Abstract

Plant function arises from a complex network of structural and physiological traits. Explicit representation of these traits, as well as their connections with other biophysical processes, is required to advance our understanding of plant-soil-climate interactions. We used the Terrestrial Regional Ecosystem Exchange Simulator (TREES) to evaluate physiological trait networks in maize. Net primary productivity (NPP) and grain yield were simulated across five contrasting climate scenarios. Simulations achieving high NPP and grain yield in high precipitation environments featured trait networks conferring high water use strategies: deep roots, high stomatal conductance at low water potential (“risky” stomatal regulation), high xylem hydraulic conductivity, and high maximal leaf area index. In contrast, high NPP and grain yield was achieved in dry environments with low late-season precipitation via water conserving trait networks: deep roots, high embolism resistance, and low stomatal conductance at low leaf water potential (“conservative” stomatal regulation). We suggest that our approach, which allows for the simultaneous evaluation of physiological traits and their interactions (i.e., networks), has potential to improve crop growth predictions in different environments. In contrast, evaluating single traits in isolation of other coordinated traits does not appear to be an effective strategy for predicting plant performance.Summary statementOur process-based model uncovered two beneficial but contrasting trait networks for maize which can be understood by their integrated effect on water use/conservation. Modification of multiple, physiologically aligned, traits were required to bring about meaningful improvements in NPP and yield.

Published

2022

31. High exposure of global tree diversity to human pressure

Author

Wen-Yong Guo, Josep M. Serra-Diaz, Franziska Schrodt, Wolf L. Eiserhardt, Brian S. Maitner, Cory Merow, Cyrille Violle, Madhur Anand, Michaël Belluau, Hans Henrik Bruun, Chaeho Byun, Jane A. Catford, Bruno E. L. Cerabolini, Eduardo Chacón-Madrigal, Daniela Ciccarelli, J. Hans C. Cornelissen, Anh Tuan Dang-Le, Angel de Frutos, Arildo S. Dias, Aelton B. Giroldo, Kun Guo, Alvaro G. Gutiérrez, Wesley Hattingh, Tianhua He, Peter Hietz, Nate Hough-Snee, Steven Jansen, Jens Kattge, Tamir Klein, Benjamin Komac, Nathan J. B. Kraft, Koen Kramer, Sandra Lavorel, Christopher H. Lusk, Adam R. Martin, Maurizio Mencuccini, Sean T. Michaletz, Vanessa Minden, Akira S. Mori, Ülo Niinemets, Yusuke Onoda, Josep Peñuelas, Valério D. Pillar, Jan Pisek, Bjorn J. M. Robroek, Brandon Schamp, Martijn Slot, Ênio Egon Sosinski, Nadejda A. Soudzilovskaia, Nelson Thiffault, Peter van Bodegom, Fons van der Plas, Ian J. Wright, Wu-Bing Xu, Jingming Zheng, Brian J. Enquist, Jens-Christian Svenning, Aarhus University [Aarhus], East China Normal University [Shangaï] (ECNU), University of Nottingham, UK (UON), Royal Botanic Gardens [Kew], Ecology and Evolutionary Biology [Tucson] (EEB), University of Arizona, Smithsonian Environmental Research Center (SERC), Centre d’Ecologie Fonctionnelle et Evolutive (CEFE), Université Paul-Valéry - Montpellier 3 (UPVM)-École Pratique des Hautes Études (EPHE), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD [France-Sud])-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE)-Institut Agro Montpellier, Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Université de Montpellier (UM), School of Environmental Sciences, University of Guelph, Département des Science, Université du Québec À Montréal, Montreal, QC, Canada, University of Copenhagen = Københavns Universitet (UCPH), Andong National University, King‘s College London, Universitá degli Studi dell’Insubria = University of Insubria [Varese] (Uninsubria), University of Pisa - Università di Pisa, German Centre for Integrative Biodiversity Research (iDiv), Helmholtz Centre for Environmental Research – UFZ, Leipzig, Germany, Goethe-University Frankfurt am Main, Instituto Federal de Educação Ciência e Tecnologia do Cearà, Laboratoire d'Ecologie Alpine (LECA ), Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])-Centre National de la Recherche Scientifique (CNRS)-Université Grenoble Alpes (UGA), Schrodt, Franziska/0000-0001-9053-8872, Bruun, Hans, Henrik/0000-0003-0674-2577, Soudzilovskaia, Nadejda/0000-0002-9584-2109, He, Tianhua/0000-0002-0924-3637, Adam/0000-0002-7207-4004, Serra-Diaz, Josep M/0000-0003-1988-1154, Guo, Wen-Yong, Serra-Diaz, Josep M., Schrodt, Franziska, Eiserhardt, Wolf L., Maitner, Brian S., Merow, Cory, Violle, Cyrille, Anand, Madhur, Belluau, Michael, Bruun, Hans Henrik, Byun, Chaeho, Catford, Jane A., Cerabolini, Bruno E. L., Chacon-Madrigal, Eduardo, Ciccarelli, Daniela, Cornelissen, J. Hans C., Dang-Le, Anh Tuan, de Frutos, Angel, Dias, Arildo S., Giroldo, Aelton B., Guo, Kun, Gutierrez, Alvaro G., Hattingh, Wesley, He , Tianhua, Hietz, Peter, Hough-Snee, Nate, Jansen, Steven, Kattge, Jens, Klein , Tamir, Komac, Benjamin, Kraft, Nathan J. B., Kramer, Koen, Lavorel, Sandra, Lusk, Christopher H., Martin, Adam R., Mencuccini, Maurizio, Michaletz, Sean T., Minden, Vanessa, Mori, Akira S., Niinemets, Ulo, Onoda, Yusuke, Penuelas, Josep, Pillar, Valerio D., Pisek, Jan, Robroek, Bjorn J. M., Schamp, Brandon, Slot, Martijn, Sosinski, Enio Egon, SOUDZILOVSKAIA, Nadia, Thiffault, Nelson, van Bodegom, Peter, van der Plas, Fons, Wright, Ian J., Xu, Wu-Bing, Zheng, Jingming, Enquist, Brian J., Svenning, Jens-Christian, Systems Ecology, WEN-YONG GUO, JOSEP M. SERRA-DIAZE, FRANZISKA SCHRODTF, WOLF L. EISERHARDT, BRIAN S. MAITNER, CORY MEROW, CYRILLE VIOLLEJ, MADHUR ANAND, MICHA?EL BELLUAU, HANS HENRIK BRUUN, CHAEHO BYUN, JANE A. CATFORD, BRUNO E. L. CERABOLINI, EDUARDO CHACÓN-MADRIGAL, DANIELA CICCARELLI, J. HANS C. CORNELISSEN, ANH TUAN DANG-LE, ANGEL DE FRUTOS, ARILDO S. DIAS, AELTON B. GIROLDO, KUN GUO, ALVARO G. GUTIÉRREZ, WESLEY HATTINGH, TIANHUA HE, PETER HIETZ, NATE HOUGH-SNEE, STEVEN JANSEN, JENS KATTGE, TAMIR KLEIN, BENJAMIN KOMAC, NATHAN J. B. KRAFT, KOEN KRAMER, SANDRA LAVOREL, CHRISTOPHER H. LUSK, ADAM R. MARTIN, MAURIZIO MENCUCCINI, SEAN T. MICHALETZ, VANESSA MINDENT, AKIRA S. MORI, ÜLO NIINEMETS, YUSUKE ONODA, JOSEP PEÑUELAS, VALÉRIO D. PILLAR, JAN PISEK, BJORN J. M. ROBROEK, BRANDON SCHAMP, MARTIJN SLOT, ENIO EGON SOSINSKI JUNIOR, CPACT, NADEJDA A. SOUDZILOVSKAIA, NELSON THIFFAULT, PETER VAN BODEGOM, FONS VAN DER PLAS, IAN J. WRIGHT, WU-BING XU, JINGMING ZHENG, BRIAN J. ENQUIST, JENS-CHRISTIAN SVENNING., Biology, and General Botany and Nature Management

Subjects

Conservation of Natural Resources, Life on Land, [SDV]Life Sciences [q-bio], Plant Ecology and Nature Conservation, Trees, Filosofie, tree species, Humans, biodiversity j conservation frameworks j land use j protected areas j tree species, Área protegida, Ecosystem, Phylogeny, SDG 15 - Life on Land, biodiversity, Multidisciplinary, conservation frameworks, Conservação, Anthropogenic Effects, Biodiversidade, Aquatic Ecology, land use, Árvore, Philosophy, [SDE]Environmental Sciences, Plantenecologie en Natuurbeheer, protected areas

Abstract

Safeguarding Earth?s tree diversity is a conservation priority due to the importance of trees for biodiversity and ecosystem functions and services such as carbon sequestration. Here, we improve the foundation for effective conservation of global tree diversity by analyzing a recently developed database of tree species covering 46,752 species. We quantify range protection and anthropogenic pressures for each species and develop conservation priorities across taxonomic, phylogenetic, and functional diversity dimensions. We also assess the effectiveness of several influential proposed conservation prioritization frameworks to protect the top 17% and top 50% of tree priority areas. We find that an average of 50.2% of a tree species? range occurs in 110-km grid cells without any protected areas (PAs), with 6,377 small-range tree species fully unprotected, and that 83% of tree species experience nonnegligible human pressure across their range on average. Protecting highpriority areas for the top 17% and 50% priority thresholds would increase the average protected proportion of each tree species? range to 65.5% and 82.6%, respectively, leaving many fewer species (2,151 and 2,010) completely unprotected. The priority areas identified for trees match well to the Global 200 Ecoregions framework, revealing that priority areas for trees would in large part also optimize protection for terrestrial biodiversity overall. Based on range estimates for >46,000 tree species, our findings show that a large proportion of tree species receive limited protection by current PAs and are under substantial human pressure. Improved protection of biodiversity overall would also strongly benefit global tree diversity. Made available in DSpace on 2022-06-21T15:23:55Z (GMT). No. of bitstreams: 1 Guo-et-al.-2022-PNAS-High-exposure-of-global-tree-diversity-to-human-pressure.pdf: 2523289 bytes, checksum: 245be3df3fb487ed152d25bf50f4e984 (MD5) Previous issue date: 2022 Proceedings of the National Academy of Sciences of the United States of America.

Published

2022

32. Comparisons of photosynthetic and anatomical traits between wild and domesticated cotton

Author

Wangfeng Zhang, Fang Liu, Ian J. Wright, Yali Zhang, Xiaoyan Cai, Ülo Niinemets, Jimei Han, Brian J. Atwell, Mengmeng Jia, Zhong-Li Zhou, Marc Carriquí, and Zhangying Lei

Subjects

0106 biological sciences, 0301 basic medicine, Gossypium, Chloroplasts, Physiology, Plant Science, Carbon Dioxide, Biology, Photosynthesis, biology.organism_classification, 01 natural sciences, Mesophyll Cell, Plant Leaves, Cell wall, Chloroplast, 03 medical and health sciences, 030104 developmental biology, Botany, Mesophyll Cells, Domestication, 010606 plant biology & botany, Field conditions

Abstract

Mesophyll conductance (gm) is a crucial leaf trait contributing to the photosynthetic rate (AN). Plant domestication typically leads to an enhancement of AN that is often associated with profound anatomical modifications, but it is unclear which of these structural alterations influence gm. We analyzed the implication of domestication on leaf anatomy and its effect on gm in 26 wild and 31 domesticated cotton genotypes (Gossypium sp.) grown under field conditions. We found that domesticated genotypes had higher AN but similar gm to wild genotypes. Consistent with this, domestication did not translate into significant differences in the fraction of mesophyll occupied by intercellular air spaces (fias) or mesophyll and chloroplast surface area exposed to intercellular air space (Sm/S and Sc/S, respectively). However, leaves of domesticated genotypes were significantly thicker, with larger but fewer mesophyll cells with thinner cell walls. Moreover, domesticated genotypes had higher cell wall conductance (gcw) but smaller cytoplasmic conductance (gcyt) than wild genotypes. It appears that domestication in cotton has not generally led to significant improvement in gm, in part because their thinner mesophyll cell walls (increasing gcw) compensate for their lower gcyt, itself due to larger distance between plasmalemma and chloroplast envelopes.

Published

2021

33. Ecological strategies of (pl)ants: Towards a world-wide worker economic spectrum for ants

Author

Heloise Gibb, Tom R. Bishop, Lily Leahy, Catherine L. Parr, Jean‐Philippe Lessard, Nathan J. Sanders, Jonathan Z. Shik, Javier Ibarra‐Isassi, Ajay Narendra, Robert R. Dunn, and Ian J. Wright

Subjects

leaf economic spectrum, plant traits, worker economic spectrum, ecological strategy, ants, functional trait, Ecology, Evolution, Behavior and Systematics, trade-off

Abstract

Current global challenges call for a rigorously predictive ecology. Our understanding of ecological strategies, imputed through suites of measurable functional traits, comes from decades of work that largely focussed on plants. However, a key question is whether plant ecological strategies resemble those of other organisms. Among animals, ants have long been recognised to possess similarities with plants: as (largely) central place foragers. For example, individual ant workers play similar foraging roles to plant leaves and roots and are similarly expendable. Frameworks that aim to understand plant ecological strategies through key functional traits, such as the ‘leaf economics spectrum’, offer the potential for significant parallels with ant ecological strategies. Here, we explore these parallels across several proposed ecological strategy dimensions, including an ‘economic spectrum’, propagule size-number trade-offs, apparency-defence trade-offs, resource acquisition trade-offs and stress-tolerance trade-offs. We also highlight where ecological strategies may differ between plants and ants. Furthermore, we consider how these strategies play out among the different modules of eusocial organisms, where selective forces act on the worker and reproductive castes, as well as the colony. Finally, we suggest future directions for ecological strategy research, including highlighting the availability of data and traits that may be more difficult to measure, but should receive more attention in future to better understand the ecological strategies of ants. The unique biology of eusocial organisms provides an unrivalled opportunity to bridge the gap in our understanding of ecological strategies in plants and animals and we hope that this perspective will ignite further interest. Read the free Plain Language Summary for this article on the Journal blog.

Published

2022

34. Disentangling direct and indirect effects of island area on plant functional trait distributions

Author

Julian Schrader, Holger Kreft, Mark Westoby, and Ian J. Wright

Subjects

0106 biological sciences, 0303 health sciences, 03 medical and health sciences, Ecology, Trait, Forest structure, Biology, 010603 evolutionary biology, 01 natural sciences, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology

Published

2021

35. Hydraulic failure and tree size linked with canopy die‐back in eucalypt forest during extreme drought

Author

Shubham S. Chhajed, Belinda E. Medlyn, Alice Gauthey, Brendan Choat, Adriano Losso, Xine Li, Kathryn J. Fuller, Linda J. Beaumont, Rachael H. Nolan, Rhiannon Smith, Matthias M. Boer, Magnolia Song, and Ian J. Wright

Subjects

0106 biological sciences, 0301 basic medicine, Canopy, Physiology, Plant Science, Forests, Biology, 01 natural sciences, Trees, Eucalypt forest, 03 medical and health sciences, Hydraulic conductivity, Xylem, Australia, Water, Die back, 15. Life on land, Eucalyptus, Droughts, Plant Leaves, 030104 developmental biology, Agronomy, Tree (set theory), Tree health, 010606 plant biology & botany

Abstract

Eastern Australia was subject to its hottest and driest year on record in 2019. This extreme drought resulted in massive canopy die-back in eucalypt forests. The role of hydraulic failure and tree size on canopy die-back in three eucalypt tree species during this drought was examined. We measured pre-dawn and midday leaf water potential (Ψleaf ), per cent loss of stem hydraulic conductivity and quantified hydraulic vulnerability to drought-induced xylem embolism. Tree size and tree health was also surveyed. Trees with most, or all, of their foliage dead exhibited high rates of native embolism (78-100%). This is in contrast to trees with partial canopy die-back (30-70% canopy die-back: 72-78% native embolism), or relatively healthy trees (little evidence of canopy die-back: 25-31% native embolism). Midday Ψleaf was significantly more negative in trees exhibiting partial canopy die-back (-2.7 to -6.3 MPa), compared with relatively healthy trees (-2.1 to -4.5 MPa). In two of the species the majority of individuals showing complete canopy die-back were in the small size classes. Our results indicate that hydraulic failure is strongly associated with canopy die-back during drought in eucalypt forests. Our study provides valuable field data to help constrain models predicting mortality risk.

Published

2021

36. Multispectral, Aerial Disease Detection for Myrtle Rust (Austropuccinia psidii) on a Lemon Myrtle Plantation

Author

René H.J. Heim, Ian J. Wright, Peter Scarth, Angus J. Carnegie, Dominique Taylor, and Jens Oldeland

Subjects

disease detection, drones, plant disease, precision agriculture, random forest, remote sensing, rust fungus, shadow, UAS, Motor vehicles. Aeronautics. Astronautics, TL1-4050

Abstract

Disease management in agriculture often assumes that pathogens are spread homogeneously across crops. In practice, pathogens can manifest in patches. Currently, disease detection is predominantly carried out by human assessors, which can be slow and expensive. A remote sensing approach holds promise. Current satellite sensors are not suitable to spatially resolve individual plants or lack temporal resolution to monitor pathogenesis. Here, we used multispectral imaging and unmanned aerial systems (UAS) to explore whether myrtle rust (Austropuccinia psidii) could be detected on a lemon myrtle (Backhousia citriodora) plantation. Multispectral aerial imagery was collected from fungicide treated and untreated tree canopies, the fungicide being used to control myrtle rust. Spectral vegetation indices and single spectral bands were used to train a random forest classifier. Treated and untreated trees could be classified with high accuracy (95%). Important predictors for the classifier were the near-infrared (NIR) and red edge (RE) spectral band. Taking some limitations into account, that are discussedherein, our work suggests potential for mapping myrtle rust-related symptoms from aerial multispectral images. Similar studies could focus on pinpointing disease hotspots to adjust management strategies and to feed epidemiological models.

Published

2019

37. Effects of plant hydraulic traits on the flammability of live fine canopy fuels

Author

Fiona R. Scarff, Amy E. Zanne, Tanja Lenz, Anna E. Richards, Ian J. Wright, and Mark Westoby

Subjects

040101 forestry, Canopy, 010504 meteorology & atmospheric sciences, 0401 agriculture, forestry, and fisheries, 04 agricultural and veterinary sciences, Biology, Atmospheric sciences, 01 natural sciences, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences, Flammability

Published

2021

38. Functional biogeography of Neotropical moist forests : Trait–climate relationships and assembly patterns of tree communities

Author

Ferry Slik, Víctor Arroyo-Rodríguez, Valdecir Júnior, Richard Condit, Juan Ernesto Guevara Andino, Miguel Martínez-Ramos, G. A. Mendes, Simon Pierce, Steven Jansen, Nathan G. Swenson, Davi Jamelli, Bruno X. Pinho, Sandra Cristina Müller, Bráulio A. Santos, Manuel A. Hernández-Ruedas, Ülo Niinemets, Renato A. F. de Lima, S. Joseph Wright, Martijn Slot, Eduardo Chacón-Madrigal, Nancy C. Garwood, Eduardo Mariano-Neto, Cajo J. F. ter Braak, Maíra Benchimol, Nathan J. B. Kraft, Madelon Lohbeck, Ian J. Wright, Jens Kattge, Nigel C. A. Pitman, Frans Bongers, Bettina M. J. Engelbrecht, Felipe P. L. Melo, Carlos A. Peres, Peter Hietz, Jos Barlow, Marcelo Tabarelli, and Deborah Faria

Subjects

climate seasonality, Biogeography, Niche, Climate change, Biology, precipitation, species pool, Correspondence analysis, Latitude, functional composition, Abundance (ecology), Bosecologie en Bosbeheer, functional traits, Laboratorium voor Nematologie, Ecology, Evolution, Behavior and Systematics, Global and Planetary Change, Ecology, Public Administration and Policy, temperature, latitude, PE&RC, Forest Ecology and Forest Management, Taxon, Biometris, climate change, Trait, community assembly, Water Systems and Global Change, Bestuurskunde, Laboratory of Nematology

Abstract

Aim: Here we examine the functional profile of regional tree species pools across the latitudinal distribution of Neotropical moist forests, and test trait–climate relationships among local communities. We expected opportunistic strategies (acquisitive traits, small seeds) to be overrepresented in species pools further from the equator, but also in terms of abundance in local communities in currently wetter, warmer and more seasonal climates. Location: Neotropics. Time period: Recent. Major taxa studied: Trees. Methods: We obtained abundance data from 471 plots across nine Neotropical regions, including c. 100,000 trees of 3,417 species, in addition to six functional traits. We compared occurrence-based trait distributions among regional species pools, and evaluated single trait–climate relationships across local communities using community abundance-weighted means (CWMs). Multivariate trait–climate relationships were assessed by a double-constrained correspondence analysis that tests both how CWMs relate to climate and how species distributions, parameterized by niche centroids in climate space, relate to their traits. Results: Regional species pools were undistinguished in functional terms, but opportunistic strategies dominated local communities further from the equator, particularly in the Northern Hemisphere. Climate explained up to 57% of the variation in CWM traits, with increasing prevalence of lower-statured, light-wooded and softer-leaved species bearing smaller seeds in more seasonal, wetter and warmer climates. Species distributions were significantly but weakly related to functional traits. Main conclusions: Neotropical moist forest regions share similar sets of functional strategies, from which local assembly processes, driven by current climatic conditions, select for species with different functional strategies. We can thus expect functional responses to climate change driven by changes in relative abundances of species already present regionally. Particularly, equatorial forests holding the most conservative traits and large seeds are likely to experience the most severe changes if climate change triggers the proliferation of opportunistic tree species.

Published

2021

39. Leaf manganese concentrations as a tool to assess belowground plant functioning in phosphorus-impoverished environments

Author

Hans Lambers, William Foulds, Mark Westoby, Erik J. Veneklaas, Emma F. Gray, Michael W. Shane, Christiana Staudinger, Nigel D. Swarts, William D. Stock, John Turner, Jun Wasaki, Yanggui Xu, Peter J. Bellingham, Lisa Patrick Bentley, Sean M. Gleason, Ian J. Wright, Robert M. Kooyman, Alex Boonman, Yadvinder Malhi, Benjamin L. Turner, Sarah J. Richardson, Caio Guilherme Pereira, Patrick E. Hayes, and Lucas A. Cernusak

Subjects

0106 biological sciences, Rhizosphere, Functional type, food and beverages, Soil Science, Plant physiology, Climatic variables, chemistry.chemical_element, 04 agricultural and veterinary sciences, Plant Science, Manganese, 15. Life on land, 01 natural sciences, chemistry.chemical_compound, chemistry, Soil pH, Botany, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Substrate specificity, Carboxylate, 010606 plant biology & botany

Abstract

Root-released carboxylates enhance the availability of manganese (Mn), which enters roots through transporters with low substrate specificity. Leaf Mn concentration ([Mn]) has been proposed as a signature for phosphorus (P)-mobilising carboxylates in the rhizosphere. Here we test whether leaf [Mn] provides a signature for root functional types related to P acquisition. Across 727 species at 66 sites in Australia and New Zealand, we measured leaf [Mn] as related to root functional type, while also considering soil and climate variables. To further assess the specific situations under which leaf [Mn] is a suitable proxy for rhizosphere carboxylate concentration, we studied leaf [Mn] along a strong gradient in water availability on one representative site. In addition, we focused on two systems where a species produced unexpected results. Controlling for background site-specific variation in leaf [Mn] with soil pH and mean annual precipitation, we established that mycorrhizal species have significantly lower leaf [Mn] than non-mycorrhizal species with carboxylate-releasing root structures, e.g., cluster roots. In exception to the general tendency, leaf [Mn] did not provide information about root functional types under seasonally waterlogged conditions, which increase iron availability and thereby interfere with Mn-uptake capacity. Two further exceptions were scrutinised, leading to the conclusion that they were ‘anomalous’ in not functioning like typical species in their families, as expected according to the literature. Leaf [Mn] variation provides considerable insights on differences in belowground functioning among co-occurring species. Using this approach, we concluded that, within typical mycorrhizal families, some species actually depend on a carboxylate-releasing P-mobilising strategy. Likewise, within families that are known to produce carboxylate-releasing cluster roots, some do not produce functional cluster roots when mature. An analysis of leaf [Mn] can alert us to such ‘anomalous’ species.

Published

2020

40. Towards a New Generation of Trait-Flexible Vegetation Models

Author

Koen Kramer, Sylvie Oddou-Muratorio, Friedrich J. Bohn, Christopher P. O. Reyer, Ian J. Wright, Florian Hartig, Santiago Sabaté, Fabio Berzaghi, Tanja G. M. Sanders, Laboratoire des Sciences du Climat et de l'Environnement [Gif-sur-Yvette] (LSCE), Institut national des sciences de l'Univers (INSU - CNRS)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université de Versailles Saint-Quentin-en-Yvelines (UVSQ), Modélisation des Surfaces et Interfaces Continentales (MOSAIC), Institut national des sciences de l'Univers (INSU - CNRS)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université de Versailles Saint-Quentin-en-Yvelines (UVSQ)-Institut national des sciences de l'Univers (INSU - CNRS)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université de Versailles Saint-Quentin-en-Yvelines (UVSQ), Wageningen University, Ecologie des Forêts Méditerranéennes (URFM), Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Helmholtz Zentrum für Umweltforschung = Helmholtz Centre for Environmental Research (UFZ), Karlsruhe Institute of Technology (KIT), Potsdam Institute for Climate Impact Research (PIK), University of Barcelona, Centre for Ecological Research and Forestry Applications (CREAF), Thuenen Institute of Forest Ecosystems, Partenaires INRAE, 845265,DP170103410,01LS1711A,FP1304, Université de Versailles Saint-Quentin-en-Yvelines (UVSQ)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut national des sciences de l'Univers (INSU - CNRS)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS), Université de Versailles Saint-Quentin-en-Yvelines (UVSQ)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut national des sciences de l'Univers (INSU - CNRS)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)-Université de Versailles Saint-Quentin-en-Yvelines (UVSQ)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut national des sciences de l'Univers (INSU - CNRS)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS), and Wageningen University and Research [Wageningen] (WUR)

Subjects

0106 biological sciences, Range (biology), Climate Change, [SDE.MCG]Environmental Sciences/Global Changes, Bos- en Landschapsecologie, Biodiversity, Climate change, Biology, 010603 evolutionary biology, 01 natural sciences, eco-evolution, medicine, Forest and Landscape Ecology, Ecology, Evolution, Behavior and Systematics, Vegetatie, Genetic diversity, Vegetation, Ecology, Biosphere, Global change, Plants, 15. Life on land, plant genetics, PE&RC, Biological Evolution, vegetation modeling, Phenotype, intraspecific variation, 13. Climate action, plant traits, Trait, Vegetatie, Bos- en Landschapsecologie, Vegetation, Forest and Landscape Ecology, medicine.symptom, Vegetation (pathology), 010606 plant biology & botany

Abstract

International audience; Plant trait variability, emerging from eco-evolutionary dynamics that range from alleles to macroecological scales, is one of the most elusive, but possibly most consequential, aspects of biodiversity. Plasticity, epigenetics, and genetic diversity are major determinants of how plants will respond to climate change, yet these processes are rarely represented in current vegetation models. Here, we provide an overview of the challenges associated with understanding the causes and consequences of plant trait variability, and review current developments to include plasticity and evolutionary mechanisms in vegetation models. We also present a roadmap of research priorities to develop a next generation of vegetation models with flexible traits. Including trait variability in vegetation models is necessary to better represent biosphere responses to global change.

Published

2020

41. Author response for 'Leaf nitrogen from the perspective of optimal plant function'

Author

null Ning Dong, null Iain Colin Prentice, null Ian J. Wright, null Han Wang, null Owen K. Atkin, null Keith J. Bloomfield, null Tomas F. Domingues, null Sean M. Gleason, null Vincent Maire, null Yusuke Onoda, null Hendrik Poorter, and null Nicholas G. Smith

Published

2022

42. Coordination of photosynthetic traits across soil and climate gradients

Author

Andrea C. Westerband, Ian J. Wright, Vincent Maire, Jennifer Paillassa, Iain Colin Prentice, Owen K. Atkin, Keith J. Bloomfield, Lucas A. Cernusak, Ning Dong, Sean M. Gleason, Caio Guilherme Pereira, Hans Lambers, Michelle R. Leishman, Yadvinder Malhi, and Rachael H. Nolan

Subjects

Global and Planetary Change, Ecology, Environmental Chemistry, General Environmental Science

Abstract

"Least-cost theory" posits that C3 plants should balance rates of photosynthetic water loss and carboxylation in relation to the relative acquisition and maintenance costs of resources required for these activities. Here we investigated the dependency of photosynthetic traits on climate and soil properties using a new Australia-wide trait dataset spanning 528 species from 67 sites. We tested the hypotheses that plants on relatively cold or dry sites, or on relatively more fertile sites, would typically operate at greater CO2 drawdown (lower ratio of leaf internal to ambient CO2 , Ci :Ca ) during light-saturated photosynthesis, and at higher leaf N per area (Narea ) and higher carboxylation capacity (Vcmax 25 ) for a given rate of stomatal conductance to water vapour, gsw . These results would be indicative of plants having relatively higher water costs than nutrient costs. In general, our hypotheses were supported. Soil total phosphorus (P) concentration and (more weakly) soil pH exerted positive effects on the Narea -gsw and Vcmax 25 -gsw slopes, and negative effects on Ci :Ca . The P effect strengthened when the effect of climate was removed via partial regression. We observed similar trends with increasing soil cation exchange capacity and clay content, which affect soil nutrient availability, and found that soil properties explained similar amounts of variation in the focal traits as climate did. Although climate typically explained more trait variation than soil did, together they explained up to 52% of variation in the slope relationships and soil properties explained up to 30% of the variation in individual traits. Soils influenced photosynthetic traits as well as their coordination. In particular, the influence of soil P likely reflects the Australia's geologically ancient low-relief landscapes with highly leached soils. Least-cost theory provides a valuable framework for understanding trade-offs between resource costs and use in plants, including limiting soil nutrients.

Published

2022

43. Rising CO

Author

Ning, Dong, Ian J, Wright, Jing M, Chen, Xiangzhong, Luo, Han, Wang, Trevor F, Keenan, Nicholas G, Smith, and Iain Colin, Prentice

Subjects

Chlorophyll, Plant Leaves, Nitrogen, Carbon Dioxide, Photosynthesis

Abstract

Nitrogen (N) limitation has been considered as a constraint on terrestrial carbon uptake in response to rising CO

Published

2022

44. Growing‐season temperature and precipitation are independent drivers of global variation in xylem hydraulic conductivity

Author

En-Rong Yan, Guilin Wu, Xiangcheng Mi, Hui Liu, Qi Luo, Guang-You Hao, David S. Ellsworth, Mingzhen Lu, Qing Ye, Pengcheng He, Peter B. Reich, Ian J. Wright, Ying-Ping Wang, Yanjun Song, Ensheng Weng, Shi-Dan Zhu, Sean M. Gleason, and Ronghua Li

Subjects

0106 biological sciences, Global and Planetary Change, Water transport, 010504 meteorology & atmospheric sciences, Ecology, Biome, Species distribution, Temperature, Water, Growing season, Climate change, Plant Transpiration, Atmospheric sciences, 010603 evolutionary biology, 01 natural sciences, Tundra, Xylem, Environmental Chemistry, Environmental science, Seasons, Precipitation, 0105 earth and related environmental sciences, General Environmental Science, Transpiration

Abstract

Stem xylem-specific hydraulic conductivity (KS ) represents the potential for plant water transport normalized by xylem cross section, length, and driving force. Variation in KS has implications for plant transpiration and photosynthesis, growth and survival, and also the geographic distribution of species. Clarifying the global-scale patterns of KS and its major drivers is needed to achieve a better understanding of how plants adapt to different environmental conditions, particularly under climate change scenarios. Here, we compiled a xylem hydraulics dataset with 1,186 species-at-site combinations (975 woody species representing 146 families, from 199 sites worldwide), and investigated how KS varied with climatic variables, plant functional types, and biomes. Growing-season temperature and growing-season precipitation drove global variation in KS independently. Both the mean and the variation in KS were highest in the warm and wet tropical regions, and lower in cold and dry regions, such as tundra and desert biomes. Our results suggest that future warming and redistribution of seasonal precipitation may have a significant impact on species functional diversity, and is likely to be particularly important in regions becoming warmer or drier, such as high latitudes. This highlights an important role for KS in predicting shifts in community composition in the face of climate change.

Published

2019

45. Enhanced leaf turnover and nitrogen recycling sustain CO

Author

Ying, Guo, Lin, Zhang, Liu, Yang, Wei, Shen, Yude, Pan, Ian J, Wright, Yiqi, Luo, and Tianxiang, Luo

Subjects

Plant Leaves, Nitrogen, Fertilization, Carbon Dioxide, Trees

Abstract

Whether increased photosynthates under elevated atmospheric CO

Published

2021

46. Ectopy-triggering ganglionated plexus ablation to prevent atrial fibrillation: GANGLIA-AF study

Author

Min-Young Kim, Clare Coyle, David R. Tomlinson, Markus B. Sikkel, Afzal Sohaib, Vishal Luther, Kevin M. Leong, Louisa Malcolme-Lawes, Benjamin Low, Belinda Sandler, Elaine Lim, Michelle Todd, Michael Fudge, Ian J. Wright, Michael Koa-Wing, Fu Siong Ng, Norman A. Qureshi, Zachary I. Whinnett, Nicholas S. Peters, Daniel Newcomb, Cherith Wood, Gurpreet Dhillon, Ross J. Hunter, Phang Boon Lim, Nicholas W.F. Linton, Prapa Kanagaratnam, British Cardiac Trust, St Mary's Coronary Flow Trust, and British Heart Foundation

Subjects

Paroxysmal atrial fibrillation, Neuromodulation, autonomic nervous system, ganglionated plexi, Treatment Outcome, Cardiovascular System & Hematology, 0903 Biomedical Engineering, Pulmonary Veins, Recurrence, Physiology (medical), Atrial Fibrillation, Ganglionated plexuses, Catheter Ablation, Humans, ganglionated plexus, Ganglia, Heart Atria, Prospective Studies, Cardiology and Cardiovascular Medicine, 1102 Cardiorespiratory Medicine and Haematology

Abstract

The ganglionated plexuses (GPs) of the intrinsic cardiac autonomic system may play a role in atrial fibrillation (AF).We hypothesized that ablating the ectopy-triggering GPs (ET-GPs) prevents AF.GANGLIA-AF (ClinicalTrials.gov identifier NCT02487654) was a prospective, randomized, controlled, 3-center trial. ET-GPs were mapped using high frequency stimulation, delivered within the atrial refractory period and ablated until nonfunctional. If triggered AF became incessant, atrioventricular dissociating GPs were ablated. We compared GP ablation (GPA) without pulmonary vein isolation (PVI) against PVI in patients with paroxysmal AF. Follow-up was for 12 months including 3-monthly 48-hour Holter monitors. The primary end point was documented ≥30 seconds of atrial arrhythmia after a 3-month blanking period.A total of 102 randomized patients were analyzed on a per-protocol basis after GPA (n = 52; 51%) or PVI (n = 50; 49%). Patients who underwent GPA had 89 ± 26 high frequency stimulation sites tested, identifying a median of 18.5% (interquartile range 16%-21%) of GPs. The radiofrequency ablation time was 22.9 ± 9.8 minutes in GPA and 38 ± 14.4 minutes in PVI (P.0001). The freedom from ≥30 seconds of atrial arrhythmia at 12-month follow-up was 50% (26 of 52) with GPA vs 64% (32 of 50) with PVI (log-rank, P = .09). ET-GPA without atrioventricular dissociating GPA achieved 58% (22 of 38) freedom from the primary end point. There was a significantly higher reduction in antiarrhythmic drug usage postablation after GPA than after PVI (55.5% vs 36%; P = .05). Patients were referred for redo ablation procedures in 31% (16 of 52) after GPA and 24% (12 of 50) after PVI (P = .53).GPA did not prevent atrial arrhythmias more than PVI. However, less radiofrequency ablation was delivered to achieve a higher reduction in antiarrhythmic drug usage with GPA than with PVI.

Published

2021

47. Climatic and soil factors explain the two-dimensional spectrum of global plant trait variation

Author

Julia S. Joswig, Christian Wirth, Meredith C. Schuman, Jens Kattge, Björn Reu, Ian J. Wright, Sebastian D. Sippel, Nadja Rüger, Ronny Richter, Michael E. Schaepman, Peter M. van Bodegom, J. H. C. Cornelissen, Sandra Díaz, Wesley N. Hattingh, Koen Kramer, Frederic Lens, Ülo Niinemets, Peter B. Reich, Markus Reichstein, Christine Römermann, Franziska Schrodt, Madhur Anand, Michael Bahn, Chaeho Byun, Giandiego Campetella, Bruno E. L. Cerabolini, Joseph M. Craine, Andres Gonzalez-Melo, Alvaro G. Gutiérrez, Tianhua He, Pedro Higuchi, Hervé Jactel, Nathan J. B. Kraft, Vanessa Minden, Vladimir Onipchenko, Josep Peñuelas, Valério D. Pillar, Ênio Sosinski, Nadejda A. Soudzilovskaia, Evan Weiher, Miguel D. Mahecha, JULIA S. JOSWIG, SEBASTIAN D. SIPPEL, NADJA RÜGER, RONNY RICHTER, MICHAEL E. SCHAEPMAN, PETER M. VAN BODEGOM, J. H. C. CORNELISSEN, SANDRA DÍAZ, WESLEY N. HATTINGH, KOEN KRAMER, FREDERIC LENS, ÜLO NIINEMETS, PETER B. REICH, MARKUS REICHSTEIN, CHRISTINE RÖMERMANN, FRANZISKA SCHRODT, MADHUR ANAND, MICHAEL BAHN, CHAEHO BYUN, GIANDIEGO CAMPETELLA, BRUNO E. L. CERABOLINI, JOSEPH M. CRAINE, ANDRES GONZALEZ-MELO, ALVARO G. GUTIÉRREZ, TIANHUA HE, PEDRO HIGUCHI, HERVÉ JACTEL, NATHAN J. B. KRAFT, VANESSA MINDEN, VLADIMIR ONIPCHENKO, JOSEP PEÑUELAS, ENIO EGON SOSINSKI JUNIOR, Cenargen, NADEJDA A. SOUDZILOVSKAIA, EVAN WEIHER, MIGUEL D. MAHECHA., VALÉRIO D. PILLAR, CHRISTIAN WIRTH, MEREDITH C. SCHUMAN, JENS KATTGE, BJÖRN REU, IAN J. WRIGHT, Mahecha, Miguel D/0000-0003-3031-613X, Bahn, Michael/0000-0001-7482-9776, De Patta Pillar, Valerio/0000-0001-6408-2891, Schuman, Meredith/0000-0003-3159-3534, Joswig, Julia S., Wirth, Christian, Schuman, Meredith C., Kattge, Jens, Reu, Bjorn, Wright, Ian J., Sippel, Sebastian D., Rueger, Nadja, Richter, Ronny, Schaepman, Michael E., van Bodegom, Peter M., Cornelissen, J. H. C., Diaz, Sandra, Hattingh, Wesley N., Kramer, Koen, Lens, Frederic, Niinemets, Ulo, Reich, Peter B., Reichstein, Markus, Roemermann, Christine, Schrodt, Franziska, Anand, Madhur, Bahn, Michael, Byun, Chaeho, Campetella, Giandiego, Cerabolini, Bruno E. L., Craine, Joseph M., Gonzalez-Melo, Andres, Gutierrez, Alvaro G., He , Tianhua, Higuchi, Pedro, Jactel, Herve, Kraft, Nathan J. B., Minden, Vanessa, Onipchenko, Vladimir, Penuelas, Josep, Pillar, Valerio D., Sosinski, Enio, SOUDZILOVSKAIA, Nadia, Weiher, Evan, Mahecha, Miguel D., and Systems Ecology

Subjects

0106 biological sciences, Planta, Vegetação, Ecophysiology, 010603 evolutionary biology, 01 natural sciences, Article, Mudança Climática, Meio Ambiente, Soil, SDG 13 - Climate Action, Life Science, Macroecology, Plant ecology, Ecology, Evolution, Behavior and Systematics, Ecosystem, 2. Zero hunger, Ecology, Biodiversidade, 15. Life on land, Plants, Plant Leaves, Solo, Phenotype, Biogeography, 13. Climate action, Technologie and Innovatie, Knowledge Technology and Innovation, Kennis, Clima, Kennis, Technologie and Innovatie, 010606 plant biology & botany

Abstract

Plant functional traits can predict community assembly and ecosystem functioning and are thus widely used in global models of vegetation dynamics and land–climate feedbacks. Still, we lack a global understanding of how land and climate affect plant traits. A previous global analysis of six traits observed two main axes of variation: (1) size variation at the organ and plant level and (2) leaf economics balancing leaf persistence against plant growth potential. The orthogonality of these two axes suggests they are differently influenced by environmental drivers. We find that these axes persist in a global dataset of 17 traits across more than 20,000 species. We find a dominant joint effect of climate and soil on trait variation. Additional independent climate effects are also observed across most traits, whereas independent soil effects are almost exclusively observed for economics traits. Variation in size traits correlates well with a latitudinal gradient related to water or energy limitation. In contrast, variation in economics traits is better explained by interactions of climate with soil fertility. These findings have the potential to improve our understanding of biodiversity patterns and our predictions of climate change impacts on biogeochemical cycles., Nature Ecology & Evolution, 6 (1), ISSN:2397-334X

Published

2021

48. The three major axes of terrestrial ecosystem function

Author

Georg Wohlfahrt, Sebastian Wolf, David Martini, Alexander Knohl, Micol Rossini, Dennis D. Baldocchi, Nuno Carvalhais, Talie Musavi, Tarek S. El-Madany, Ulisse Gomarasca, Ankur R. Desai, Matthias Forkel, Dario Papale, Marcos Fernández-Martínez, Jens Kattge, Jacob A. Nelson, Michael J. Liddell, Peter B. Reich, Guido Kraemer, Christopher M. Gough, Miguel D. Mahecha, Mathias Göckede, Hiroki Ikawa, Elise Pendall, Ivan A. Janssens, Rune Christiansen, Jiquan Chen, Craig Macfarlane, Alessandro Cescatti, Andreas Ibrom, Leonardo Montagnani, Marta Galvagno, T. Andrew Black, Michael Bahn, Sönke Zaehle, Giorgio Matteucci, Dan Yakir, Russell L. Scott, Silvia Caldararu, Jürgen Knauer, Markus Reichstein, Ulrich Weber, Richard P. Phillips, Cinzia Panigada, Mirco Migliavacca, Ian J. Wright, Jonas Peters, Beverly E. Law, Josep Peñuelas, Martha M. Farella, Arnaud Carrara, Eyal Rotenberg, Ivan Mammarella, Gianluca Filippa, Xuanlong Ma, Hideki Kobayashi, Jamie Cleverly, Oscar Perez-Priego, Edoardo Cremonese, Peter D. Blanken, Karen Anderson, Martin Jung, Clément Stahl, Daniel E. Pabon-Moreno, Damien Bonal, Nina Buchmann, Trevor F. Keenan, Institute for Atmospheric and Earth System Research (INAR), Micrometeorology and biogeochemical cycles, Migliavacca, M, Musavi, T, Mahecha, M, Nelson, J, Knauer, J, Baldocchi, D, Perez-Priego, O, Christiansen, R, Peters, J, Anderson, K, Bahn, M, Black, T, Blanken, P, Bonal, D, Buchmann, N, Caldararu, S, Carrara, A, Carvalhais, N, Cescatti, A, Chen, J, Cleverly, J, Cremonese, E, Desai, A, El-Madany, T, Farella, M, Fernandez-Martinez, M, Filippa, G, Forkel, M, Galvagno, M, Gomarasca, U, Gough, C, Gockede, M, Ibrom, A, Ikawa, H, Janssens, I, Jung, M, Kattge, J, Keenan, T, Knohl, A, Kobayashi, H, Kraemer, G, Law, B, Liddell, M, Ma, X, Mammarella, I, Martini, D, Macfarlane, C, Matteucci, G, Montagnani, L, Pabon-Moreno, D, Panigada, C, Papale, D, Pendall, E, Penuelas, J, Phillips, R, Reich, P, Rossini, M, Rotenberg, E, Scott, R, Stahl, C, Weber, U, Wohlfahrt, G, Wolf, S, Wright, I, Yakir, D, Zaehle, S, and Reichstein, M

Subjects

010504 meteorology & atmospheric sciences, Range (biology), General Science & Technology, Climate, Ecosystem ecology, Biome, Datasets as Topic, 01 natural sciences, 114 Physical sciences, Article, Carbon Cycle, 03 medical and health sciences, Water Cycle, SDG 13 - Climate Action, Ecosystem, Biology, 030304 developmental biology, 0105 earth and related environmental sciences, SDG 15 - Life on Land, 0303 health sciences, Principal Component Analysis, Multidisciplinary, Ecology, Humidity, ecosystem ecology, Vegetation, 15. Life on land, Carbon Dioxide, Plants, Arid, Productivity (ecology), Biogeography, 13. Climate action, Ecosystem function, terrestrial biomes, productivity, vegetation structure, water-use efficiency, carbon-use efficiency, Environmental science, Terrestrial ecosystem, Engineering sciences. Technology

Abstract

The leaf economics spectrum1,2 and the global spectrum of plant forms and functions3 revealed fundamental axes of variation in plant traits, which represent different ecological strategies that are shaped by the evolutionary development of plant species2. Ecosystem functions depend on environmental conditions and the traits of species that comprise the ecological communities4. However, the axes of variation of ecosystem functions are largely unknown, which limits our understanding of how ecosystems respond as a whole to anthropogenic drivers, climate and environmental variability4,5. Here we derive a set of ecosystem functions6 from a dataset of surface gas exchange measurements across major terrestrial biomes. We find that most of the variability within ecosystem functions (71.8%) is captured by three key axes. The first axis reflects maximum ecosystem productivity and is mostly explained by vegetation structure. The second axis reflects ecosystem water-use strategies and is jointly explained by variation in vegetation height and climate. The third axis, which represents ecosystem carbon-use efficiency, features a gradient related to aridity, and is explained primarily by variation in vegetation structure. We show that two state-of-the-art land surface models reproduce the first and most important axis of ecosystem functions. However, the models tend to simulate more strongly correlated functions than those observed, which limits their ability to accurately predict the full range of responses to environmental changes in carbon, water and energy cycling in terrestrial ecosystems7,8., Three key axes of variation of ecosystem functional changes and their underlying causes are identified from a dataset of surface gas exchange measurements across major terrestrial biomes and climate zones.

Published

2021

49. AusTraits, a curated plant trait database for the Australian flora

Author

Robert M. Kooyman, Richard P. Duncan, Ben Sparrow, Ning Dong, Christopher Szota, Hans Lambers, Andrew G. Baker, Timothy J. Curran, Samuel C. Andrew, Guy Taseski, Anthony Manea, Maria von Balthazar, David H. Duncan, Peter A. Vesk, Catherine Marina Pickering, Ellen M. Curtis, Andrea López-Martinez, Chris J. Blackman, David Cheal, Caroline E. R. Lehmann, John M. Dwyer, Caio Guilherme Pereira, Susan G. Laurance, Anthony Bean, Tom North, Karel Mokany, Steve J. Sinclair, Margaret M. Mayfield, Nicholas S.G. Williams, Brad Oberle, Owen K. Atkin, Ashika Jagdish, Matthew I. Daws, John Joseph Kanowski, Lydia K. Guja, William K. Cornwell, Martyna M. Kotowska, Angela T. Moles, Martin Henery, Amy E. Zanne, Benjamin Smith, Elizabeth M. Tasker, Raymond J. Carpenter, Maurizio Rossetto, Per Milberg, Sabine Kasel, Melinda Pickup, Maria S. Vorontsova, Nigel W. M. Warwick, David T. Tissue, John W. Morgan, Ülo Niinemets, Meredith Cosgrove, Gregory J. Jordan, Susanna Venn, James Lawson, Matthew D. Denton, James S. Camac, Barbara Rye, Jarrah Wills, Erik J. Veneklaas, Tara Angevin, Joe Atkinson, Neil C. Turner, Carl R. Gosper, Tony Auld, Victoria A. Reynolds, John Huisman, Elizabeth Caldwell, Bree Anne Laugier-Kitchener, Nicholas Moore, Udayangani Liu, Christopher H. Lusk, Jugoslav Ilic, Marlien van der Merwe, Helen G. Coleman, Hannah McPherson, Odhran S. O'Sullivan, Erika Cross, Tanja Lenz, Graham Zemunik, Stuart Allen, Annette Muir, Ernst Detlef Schulze, Susanne Schmidt, James D. Lewis, Hervé Sauquet, Cate Macinnis-Ng, Elizabeth Wenk, Michelle R. Leishman, Mark G. Tjoelker, Jane A. Catford, Carlos Fonseca, Guomin Huang, Daniel Jin, Etienne Laliberté, William K. Morris, Samantha E. M. Munroe, Ian J. Wright, Rachel J. Standish, Honglang Duan, Andrew O’Reilly-Nugent, Iain Colin Prentice, Geoff Burrows, Peta L. Clode, Colin J. Yates, James K. McCarthy, Alex R. Chapman, Lesley Hughes, Alexander W. Cheesman, Michael L. Roderick, Genevieve Buckton, Ruby E. Stephens, Lucas A. Cernusak, Suzanne M. Prober, Mark Westoby, Brendan J. Lepschi, Jennifer L. Funk, Jason G. Bragg, Janice M. Lord, Burak K. Pekin, Carolyn Vlasveld, Renee Smith, Collin W. Ahrens, Jennifer Firn, Dieter F. Hochuli, Deborah M. G. Apgaua, Laura J. Pollock, Fonti Kar, Daniel J. Metcalfe, Freya Thomas, Dean Nicolle, Jocelyn Howell, Adrienne B. Nicotra, Julieta A. Rosell, Lasantha K. Weerasinghe, Jennifer Read, Gordon Drummond Sanson, Michael A. Sams, Jürg Schönenberger, Amy K. Hahs, Ben Richardson, Robert Lanfear, Mark K. J. Ooi, Anna Monro, Marco F. Duretto, Frank van Langevelde, Yusuke Onoda, Saskia Grootemaat, Kasia Ziemińska, Patrick E. Hayes, Grazyna Paczkowska, Kyle W. Tomlinson, Ben J. French, Pengzhen Du, Stefan K. Arndt, Kristine Y. Crous, Jessie A. Wells, David Y. P. Tng, Philip K. Groom, Daniel C. Laughlin, Sally A. Power, Manuel Esperón-Rodríguez, Paul D. Rymer, Colin P. Osborne, Oula Ghannoum, Keith J. Bloomfield, Lynda D. Prior, Byron B. Lamont, Áine Nicholson, Trevor Meers, Daniel S. Falster, Pieter Poot, Charles A. Warren, Dony Indiarto, Michele Kohout, Sean M. Gleason, Timothy L. Staples, Caitlan Baxter, Susana Magallón, Enrique Jurado, Félix de Tombeur, Matthew Alfonzetti, Ben D. Moore, Doug Frood, Susan E. Everingham, Peter G. Wilson, David M. J. S. Bowman, Emma F. Gray, Gregory Chandler, Matthew White, John R. Evans, Hao Ran Lai, Gregory R. Cawthray, Greg R. Guerin, Anne Fuchs, Sonya R. Geange, Caroline L. Gross, Jane L. DeGabriel, Fiona M. Soper, Claire Farrell, Matthew T. Harrison, Andrea Leigh, Anna E. Richards, Timothy J. Brodribb, Rachael V. Gallagher, Brendan Choat, Jürgen Kellermann, Mark A. Adams, Belinda Kenny, Kerrie M. Sendall, Jeff R. Powell, Si-Chong Chen, Cheryl Edwards, Saul A. Cunningham, Michael D. Crisp, Felix K. S. Lim, Brook Clinton, Evolution and Ecology Research Centre [UNSW Sydney], School of Biological, Earth and Environmental Sciences [Sydney] (BEES), University of New South Wales [Sydney] (UNSW)-University of New South Wales [Sydney] (UNSW), Western Sydney University, Macquarie University [Sydney], CSIRO Land and Water, Commonwealth Scientific and Industrial Research Organisation [Canberra] (CSIRO), Nanchang Institute of Technology, Université de Montréal (UdeM), Botanique et Modélisation de l'Architecture des Plantes et des Végétations (UMR AMAP), and Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)-Université de Montpellier (UM)-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD [France-Sud])-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE)

Subjects

0106 biological sciences, Statistics and Probability, Data Descriptor, Flora, Databases, Factual, Evolution, Science, Ecology (disciplines), Biodiversity, Oceanografi, hydrologi och vattenresurser, Library and Information Sciences, computer.software_genre, [SDV.BID.SPT]Life Sciences [q-bio]/Biodiversity/Systematics, Phylogenetics and taxonomy, 010603 evolutionary biology, 01 natural sciences, Education, Oceanography, Hydrology and Water Resources, [SDV.EE.ECO]Life Sciences [q-bio]/Ecology, environment/Ecosystems, Information system, Life Science, Plant Physiological Phenomena, Scope (project management), Database, Ecology, Australia, Plants, 15. Life on land, [SDV.BV.BOT]Life Sciences [q-bio]/Vegetal Biology/Botanics, PE&RC, Field (geography), Computer Science Applications, Phenotype, Taxon, Geography, Wildlife Ecology and Conservation, WIAS, Trait, [SDE.BE]Environmental Sciences/Biodiversity and Ecology, Statistics, Probability and Uncertainty, computer, 010606 plant biology & botany, Information Systems

Abstract

We introduce the AusTraits database - a compilation of values of plant traits for taxa in the Australian flora (hereafter AusTraits). AusTraits synthesises data on 448 traits across 28,640 taxa from field campaigns, published literature, taxonomic monographs, and individual taxon descriptions. Traits vary in scope from physiological measures of performance (e.g. photosynthetic gas exchange, water-use efficiency) to morphological attributes (e.g. leaf area, seed mass, plant height) which link to aspects of ecological variation. AusTraits contains curated and harmonised individual- and species-level measurements coupled to, where available, contextual information on site properties and experimental conditions. This article provides information on version 3.0.2 of AusTraits which contains data for 997,808 trait-by-taxon combinations. We envision AusTraits as an ongoing collaborative initiative for easily archiving and sharing trait data, which also provides a template for other national or regional initiatives globally to fill persistent gaps in trait knowledge., Measurement(s)plant traitTechnology Type(s)digital curationSample Characteristic - OrganismViridiplantaeSample Characteristic - LocationAustralia Machine-accessible metadata file describing the reported data: 10.6084/m9.figshare.14545755

Published

2021

50. Broad Anatomical Variation within a Narrow Wood Density Range--A Study of Twig Wood across 69 Australian Angiosperms.

Author

Kasia Ziemińska, Mark Westoby, and Ian J Wright

Subjects

Medicine, Science

Abstract

ObjectivesJust as people with the same weight can have different body builds, woods with the same wood density can have different anatomies. Here, our aim was to assess the magnitude of anatomical variation within a restricted range of wood density and explore its potential ecological implications.MethodsTwig wood of 69 angiosperm tree and shrub species was analyzed. Species were selected so that wood density varied within a relatively narrow range (0.38-0.62 g cm-3). Anatomical traits quantified included wood tissue fractions (fibres, axial parenchyma, ray parenchyma, vessels, and conduits with maximum lumen diameter below 15 μm), vessel properties, and pith area. To search for potential ecological correlates of anatomical variation the species were sampled across rainfall and temperature contrasts, and several other ecologically-relevant traits were measured (plant height, leaf area to sapwood area ratio, and modulus of elasticity).ResultsDespite the limited range in wood density, substantial anatomical variation was observed. Total parenchyma fraction varied from 0.12 to 0.66 and fibre fraction from 0.20 to 0.74, and these two traits were strongly inversely correlated (r = -0.86, P < 0.001). Parenchyma was weakly (0.24 ≤|r|≤ 0.35, P < 0.05) or not associated with vessel properties nor with height, leaf area to sapwood area ratio, and modulus of elasticity (0.24 ≤|r|≤ 0.41, P < 0.05). However, vessel traits were fairly well correlated with height and leaf area to sapwood area ratio (0.47 ≤|r|≤ 0.65, all P < 0.001). Modulus of elasticity was mainly driven by fibre wall plus vessel wall fraction rather than by the parenchyma component.ConclusionsOverall, there seem to be at least three axes of variation in xylem, substantially independent of each other: a wood density spectrum, a fibre-parenchyma spectrum, and a vessel area spectrum. The fibre-parenchyma spectrum does not yet have any clear or convincing ecological interpretation.

Published

2015