Articles citing this paper
The TasFACE climate-change impacts experiment: design and performance of combined elevated CO2 and temperature enhancement in a native Tasmanian grassland
M. J. Hovenden A D , F. Miglietta B , A. Zaldei B , J. K. Vander Schoor A , K. E. Wills A and P. C. D. Newton C
+ Author Affiliations
- Author Affiliations
A School of Plant Science, University of Tasmania, Locked Bag 55, Hobart, Tas. 7001, Australia.
B Istituto di Biometeorologia, via Giovanni Caproni 8, Firenze 50145, Italy.
C Land and Environmental Management, AgResearch, Private Bag 11008, Palmerston North, New Zealand.
D Corresponding author. Email: Mark.Hovenden@utas.edu.au
Australian Journal of Botany 54(1) 1-10 https://doi.org/10.1071/BT04194
Submitted: 24 November 2004 Accepted: 1 August 2005 Published: 22 February 2006
45 articles found in Crossref database.
The potential impact of climate change on the Australian wool industry by 2030
Harle K.J.,
Howden S.M.,
Hunt L.P., Dunlop M.
Agricultural Systems. 2007 93(1-3). p.61
Flowering, seed production and seed mass in a species-rich temperate grassland exposed to FACE and warming
Hovenden Mark J.,
Wills Karen E.,
Vander Schoor Jacqueline K.,
Chaplin Rebecca E.,
Williams Amity L.,
Nolan Michaela J., Newton Paul C. D.
Australian Journal of Botany. 2007 55(8). p.780
Effects of elevated carbon dioxide and soil nitrogen on growth of two leafyBrassicavegetables
Thomson G,
Mollah MR,
Partington DL,
Jones R,
Argall R,
Tregenza J, Fitzgerald GJ
New Zealand Journal of Crop and Horticultural Science. 2013 41(2). p.69
Experimental design of multifactor climate change experiments with elevated CO2, warming and drought: the CLIMAITE project
Mikkelsen T. N.,
Beier C.,
Jonasson S.,
Holmstrup M.,
Schmidt I. K.,
Ambus P.,
Pilegaard K.,
Michelsen A.,
Albert K.,
Andresen L. C.,
Arndal M. F.,
Bruun N.,
Christensen S.,
Danbæk S.,
Gundersen P.,
Jørgensen P.,
Linden L. G.,
Kongstad J.,
Maraldo K.,
Priemé A.,
Riis‐Nielsen T.,
Ro‐Poulsen H.,
Stevnbak K.,
Selsted M. B.,
Sørensen P.,
Larsen K. S.,
Carter M. S.,
Ibrom A.,
Martinussen T.,
Miglietta F., Sverdrup H.
Functional Ecology. 2008 22(1). p.185
Australian grains free-air carbon dioxide enrichment (AGFACE) facility: design and performance
Mollah Mahabubur,
Norton Rob, Huzzey Jeff
Crop and Pasture Science. 2009 60(8). p.697
Warming prevents the elevated CO2‐induced reduction in available soil nitrogen in a temperate, perennial grassland
HOVENDEN MARK J.,
NEWTON P. C. D.,
CARRAN R. A.,
THEOBALD P.,
WILLS K. E.,
VANDER SCHOOR J. K.,
WILLIAMS A. L., OSANAI Y.
Global Change Biology. 2008 14(5). p.1018
Elevated CO2 and warming impacts on flowering phenology in a southern Australian grassland are related to flowering time but not growth form, origin or longevity
Hovenden Mark J.,
Williams Amity L.,
Pedersen Jane Kongstad,
Vander Schoor Jacqueline K., Wills Karen E.
Australian Journal of Botany. 2008 56(8). p.630
Microclimatic Performance of a Free-Air Warming and CO2 Enrichment Experiment in Windy Wyoming, USA
LeCain Daniel,
Smith David,
Morgan Jack,
Kimball Bruce A.,
Pendall Elise,
Miglietta Franco, Liang Wenju
PLOS ONE. 2015 10(2). p.e0116834
Warming and free‐air CO2 enrichment alter demographics in four co‐occurring grassland species
Williams Amity L.,
Wills Karen E.,
Janes Jasmine K.,
Vander Schoor Jacqueline K.,
Newton Paul C. D., Hovenden Mark J.
New Phytologist. 2007 176(2). p.365
Assessing the Potential Impacts of Elevated Temperature and CO<sub>2</sub> on Growth and Health of Nine Non-Vascular Epiphytes: A Manipulation Experiment
Song Liang,
Liu Wenyao,
Zhang Yongjiang,
Tan Zhenghong,
Li Su,
Qi Jinhua, Yao Yuanlin
American Journal of Plant Sciences. 2014 05(11). p.1587
Crop Adaptation to Climate Change (2011)
Moister soils at elevated CO2 stimulate root biomass but suppress aboveground biomass production in Lolium perenne
Hovenden Mark J.,
Sinclair Amanda L.,
Brinkhoff Rose E.,
Stevenson Kate,
Brown Zachary A.,
Porter Meagan,
Flittner Anna,
Nyberg Marion,
Rawnsley Richard P., Cullen Brendan
Crop & Pasture Science. 2023 75(1).
Changes in the microbial community structure of bacteria, archaea and fungi in response to elevated CO2 and warming in an Australian native grassland soil
Hayden Helen L.,
Mele Pauline M.,
Bougoure Damian S.,
Allan Claire Y.,
Norng Sorn,
Piceno Yvette M.,
Brodie Eoin L.,
DeSantis Todd Z.,
Andersen Gary L.,
Williams Amity L., Hovenden Mark J.
Environmental Microbiology. 2012 14(12). p.3081
Partitioning direct and indirect effects reveals the response of water-limited ecosystems to elevated CO2
Fatichi Simone,
Leuzinger Sebastian,
Paschalis Athanasios,
Langley J. Adam,
Donnellan Barraclough Alicia, Hovenden Mark J.
Proceedings of the National Academy of Sciences. 2016 113(45). p.12757
Soil nitrogen cycle unresponsive to decadal long climate change in a Tasmanian grassland
Rütting Tobias, Hovenden Mark J.
Biogeochemistry. 2020 147(1). p.99
Influence of warming on soil water potential controls seedling mortality in perennial but not annual species in a temperate grassland
Hovenden Mark J.,
Newton Paul C. D.,
Wills Karen E.,
Janes Jasmine K.,
Williams Amity L.,
Vander Schoor Jacqueline K., Nolan Michaela J.
New Phytologist. 2008 180(1). p.143
Soil carbon storage under simulated climate change is mediated by plant functional type
PENDALL ELISE,
OSANAI YUI,
WILLIAMS AMITY L., HOVENDEN MARK J.
Global Change Biology. 2011 17(1). p.505
Warming and elevated CO2 combine to increase microbial mineralisation of soil organic matter
Osanai Yui,
Janes Jasmine K.,
Newton Paul C.D., Hovenden Mark J.
Soil Biology and Biochemistry. 2015 85 p.110
Large‐scale plant growth chamber design for elevated pCO2 and δ13C studies
Hagopian William M.,
Schubert Brian A., Jahren A. Hope
Rapid Communications in Mass Spectrometry. 2015 29(5). p.440
Warming and elevated CO2 affect the relationship between seed mass, germinability and seedling growth in Austrodanthonia caespitosa, a dominant Australian grass
HOVENDEN MARK J.,
WILLS KAREN E.,
CHAPLIN REBECCA E.,
VANDER SCHOOR JACQUELINE K.,
WILLIAMS AMITY L.,
OSANAI YUI, NEWTON PAUL C. D.
Global Change Biology. 2008 14(7). p.1633
An improved hexagon open-top chamber system for stable diurnal and nocturnal warming and atmospheric carbon dioxide enrichment
GODFREE ROBERT,
ROBERTSON BRUCE,
BOLGER TERRY,
CARNEGIE MALCOLM, YOUNG ANDREW
Global Change Biology. 2011 17(1). p.439
Co-occurring grass species differ in their associated microbial community composition in a temperate native grassland
Osanai Yui,
Bougoure Damian S.,
Hayden Helen L., Hovenden Mark J.
Plant and Soil. 2013 368(1-2). p.419
Flowering phenology in a species‐rich temperate grassland is sensitive to warming but not elevated CO2
Hovenden Mark J.,
Wills Karen E.,
Vander Schoor Jacqueline K.,
Williams Amity L., Newton Paul C. D.
New Phytologist. 2008 178(4). p.815
The ‘island effect’ in terrestrial global change experiments: a problem with no solution?
Leuzinger Sebastian,
Fatichi Simone,
Cusens Jarrod,
Körner Christian, Niklaus Pascal A.
AoB Plants. 2015 7 p.plv092
The effects of spring versus summer heat events on two arid zone plant species under field conditions
Milner K. V.,
French K.,
Krix D. W.,
Valenzuela S. M.,
Leigh A., Allakhverdiev Suleyman
Functional Plant Biology. 2023 50(6). p.455
Spatial Variation of CO2 Inside Australian Grains Free Air Carbon Dioxide Enrichment (AGFACE) Rings
2009 Second International Conference on Environmental and Computer Science (2009)
Understand distribution of carbon dioxide to interpret crop growth data: Australian grains free-air carbon dioxide enrichment experiment
Mollah Mahabubur,
Partington Debra, Fitzgerald Genn
Crop and Pasture Science. 2011 62(10). p.883
Can irrigating more frequently mitigate detrimental heat wave effects on perennial ryegrass growth and persistence?
Langworthy Adam D.,
Rawnsley Richard P.,
Freeman Mark J.,
Waller Paul A.,
Corkrey Ross,
Pembleton Keith G.,
Harrison Matthew T.,
Lane Peter A., Henry David A.
Agricultural and Forest Meteorology. 2020 291 p.108074
Climate Change Impact, Adaptation, and Mitigation in Temperate Grazing Systems: A Review
Ghahramani Afshin,
Howden S. Mark,
del Prado Agustin,
Thomas Dean T.,
Moore Andrew D.,
Ji Boyu, Ates Serkan
Sustainability. 2019 11(24). p.7224
Climate warming alters photosynthetic responses to elevated CO2 in prairie plants
Sage Emma,
Heisler‐White Jana,
Morgan Jack,
Pendall Elise, Williams David G.
American Journal of Botany. 2020 107(9). p.1238
Elevated CO2 and warming effects on grassland plant mortality are determined by the timing of rainfall
Hovenden Mark J.,
Newton Paul C. D., Porter Meagan
Annals of Botany. 2017 119(7). p.1225
Performance and energy costs associated with scaling infrared heater arrays for warming field plots from 1 to 100 m
Kimball Bruce A.,
Conley Matthew M., Lewin Keith F.
Theoretical and Applied Climatology. 2012 108(1-2). p.247
Seasonal not annual rainfall determines grassland biomass response to carbon dioxide
Hovenden Mark J.,
Newton Paul C. D., Wills Karen E.
Nature. 2014 511(7511). p.583
Crop Production and Global Environmental Issues (2015)
Significance of river–aquifer interactions for reach-scale thermal patterns and trout growth potential in the Motueka River, New Zealand
Olsen Dean A., Young Roger G.
Hydrogeology Journal. 2009 17(1). p.175
Seedling survivorship of temperate grassland perennials is remarkably resistant to projected changes in rainfall
Perring Michael P., Hovenden Mark J.
Australian Journal of Botany. 2012 60(4). p.328
Managed Ecosystems and CO2 (2006)
Variability in precipitation seasonality limits grassland biomass responses to rising CO2: historical and projected climate analyses
Hovenden Mark J., Newton Paul C. D.
Climatic Change. 2018 149(2). p.219
Understanding the nexus of rising CO2, climate change, and evolution in weed biology
Ziska Lewis H.,
Blumenthal Dana M., Franks Steven J.
Invasive Plant Science and Management. 2019 12(02). p.79
High Resilience in Heathland Plants to Changes in Temperature, Drought, and CO2 in Combination: Results from the CLIMAITE Experiment
Kongstad Jane,
Schmidt Inger K.,
Riis-Nielsen Torben,
Arndal Marie F.,
Mikkelsen Teis N., Beier Claus
Ecosystems. 2012 15(2). p.269
Decomposition and nitrogen transformation rates in a temperate grassland vary among co-occurring plant species
Osanai Yui,
Flittner Anna,
Janes Jasmine K.,
Theobald Phil,
Pendall Elise,
Newton Paul C. D., Hovenden Mark J.
Plant and Soil. 2012 350(1-2). p.365
Detection of historical changes in pasture growth and attribution to climate change
Newton PCD,
Lieffering M,
Li FY,
Ganesh S, Dodd M
Climate Research. 2014 61(3). p.203
Infrared heater arrays for warming ecosystem field plots
KIMBALL BRUCE A.,
CONLEY MATTHEW M.,
WANG SHIPING,
LIN XINGWU,
LUO CAIYUN,
MORGAN JACK, SMITH DAVID
Global Change Biology. 2008 14(2). p.309
Warming has a larger and more persistent effect than elevated CO2 on growing season soil nitrogen availability in a species-rich grassland
Hovenden Mark J.,
Newton Paul C. D., Osanai Yui
Plant and Soil. 2017 421(1-2). p.417
