Articles citing this paper
Genotypic variability in the response to elevated CO2 of wheat lines differing in adaptive traits
Maryse Bourgault A C , M. Fernanda Dreccer A B , Andrew T. James C D and Scott C. Chapman A C
+ Author Affiliations
- Author Affiliations
A CSIRO Climate Adaptation Flagship, Queensland Bioscience Precinct, 306 Carmody Road, St Lucia, Qld 4067, Australia.
B CSIRO Plant Industry, Cooper Laboratory, Warrego Highway, Gatton, Qld 4343, Australia.
C CSIRO Plant Industry, Queensland Bioscience Precinct, 306 Carmody Road, St Lucia, Qld 4067, Australia.
D Corresponding author. Email: andrew.james@csiro.au
Functional Plant Biology 40(2) 172-184 https://doi.org/10.1071/FP12193
Submitted: 29 June 2012 Accepted: 26 November 2012 Published: 22 January 2013
28 articles found in Crossref database.
Elevated atmospheric CO2 concentration mitigates salt damages to safflower: Evidence from physiological and biochemical examinations
Vaghar M.,
Eshghizadeh H.R., Ehsanzadeh P.
Plant Physiology and Biochemistry. 2024 206 p.108242
Does a freely tillering wheat cultivar benefit more from elevated CO2 than a restricted tillering cultivar in a water-limited environment?
Tausz-Posch Sabine,
Dempsey Raymond W.,
Seneweera Saman,
Norton Robert M.,
Fitzgerald Glenn, Tausz Michael
European Journal of Agronomy. 2015 64 p.21
Growth response of 98 barley (Hordeum vulgare L.) genotypes to elevated CO2 and identification of related quantitative trait loci using genome‐wide association studies
Mitterbauer Esther,
Enders Matthias,
Bender Jürgen,
Erbs Martin,
Habekuß Antje,
Kilian Benjamin,
Ordon Frank,
Weigel Hans‐Joachim, Léon J.
Plant Breeding. 2017 136(4). p.483
Early or late? The role of genotype phenology in determining wheat response to drought under future high atmospheric CO2 levels
Jiang Duo,
Mulero Gabriel,
Bonfil David J., Helman David
Plant, Cell & Environment. 2022 45(12). p.3445
Dynamics of amino acid carbon and nitrogen and relationship with grain protein in wheat under elevated CO 2 and soil warming
Li Xiangnan,
Jiang Dong, Liu Fulai
Environmental and Experimental Botany. 2016 132 p.121
Climate Change and the Microbiome (2021)
Impacts of Carbon Dioxide Enrichment on Landrace and Released Ethiopian Barley (Hordeum vulgare L.) Cultivars
Gardi Mekides Woldegiorgis,
Malik Waqas Ahmed, Haussmann Bettina I. G.
Plants. 2021 10(12). p.2691
Elevated CO2 has concurrent effects on leaf and grain metabolism but minimal effects on yield in wheat
Tcherkez Guillaume,
Ben Mariem Sinda,
Larraya Luis,
García-Mina Jose M,
Zamarreño Angel M,
Paradela Alberto,
Cui Jing,
Badeck Franz-Werner,
Meza Diego,
Rizza Fulvia,
Bunce James,
Han Xue,
Tausz-Posch Sabine,
Cattivelli Luigi,
Fangmeier Andreas,
Aranjuelo Iker, Sharwood Robert
Journal of Experimental Botany. 2020 71(19). p.5990
Pot size matters revisited: does container size affect the response to elevated CO2 and our ability to detect genotypic variability in this response in wheat?
Bourgault Maryse,
James Andrew T., Dreccer M. Fernanda
Functional Plant Biology. 2017 44(1). p.52
Transpirational Leaf Cooling Effect Did Not Contribute Equally to Biomass Retention in Wheat Genotypes under High Temperature
Bramley Helen,
Ranawana S. R. W. M. Chandima J. K.,
Palta Jairo A.,
Stefanova Katia, Siddique Kadambot H. M.
Plants. 2022 11(16). p.2174
Wheat yield potential can be maximized by increasing red to far‐red light conditions at critical developmental stages
Dreccer Maria Fernanda,
Zwart Alec B.,
Schmidt Ralf‐Christian,
Condon Anthony G.,
Awasi Mary A.,
Grant Terry J.,
Galle Alexander,
Bourot Stephane, Frohberg Claus
Plant, Cell & Environment. 2022 45(9). p.2652
Climate Change, Crop Yields, and Grain Quality of C3 Cereals: A Meta-Analysis of [CO2], Temperature, and Drought Effects
Ben Mariem Sinda,
Soba David,
Zhou Bangwei,
Loladze Irakli,
Morales Fermín, Aranjuelo Iker
Plants. 2021 10(6). p.1052
Water use dynamics of dryland wheat grown under elevated CO2 with supplemental nitrogen
Uddin Shihab,
Parvin Shahnaj,
Armstrong Roger,
Fitzgerald Glenn J.,
Löw Markus,
Houshmandfar Alireza,
Tavakkoli Ehsan,
Tausz-Posch Sabine,
O’Leary Garry J.,
Tausz Michael, Fukai Shu
Crop & Pasture Science. 2023 75(1).
Differential CO2 effect on primary carbon metabolism of flag leaves in durum wheat (Triticum durum Desf.)
Aranjuelo Iker,
Erice Gorka,
Sanz‐Sáez Alvaro,
Abadie Cyril,
Gilard Françoise,
Gil‐Quintana Erena,
Avice Jean‐Christophe,
Staudinger Christiana,
Wienkoop Stefanie,
Araus Jose L.,
Bourguignon Jacques,
Irigoyen Juan J., Tcherkez Guillaume
Plant, Cell & Environment. 2015 38(12). p.2780
Elevated carbon dioxide changes grain protein concentration and composition and compromises baking quality. A FACE study
Panozzo J.F.,
Walker C.K.,
Partington D.L.,
Neumann N.C.,
Tausz M.,
Seneweera S., Fitzgerald G.J.
Journal of Cereal Science. 2014 60(3). p.461
Evaluation of deep root phenotyping techniques in tube rhizotrons
Chen Si,
van der Graaff Eric,
Ytting Nanna Karkov, Thorup-Kristensen Kristian
Acta Agriculturae Scandinavica, Section B — Soil & Plant Science. 2019 69(1). p.62
Early vigour in wheat: Could it lead to more severe terminal drought stress under elevated atmospheric [CO2] and semi‐arid conditions?
Bourgault Maryse,
Webber Heidi A.,
Chenu Karine,
O’Leary Garry J.,
Gaiser Thomas,
Siebert Stefan,
Dreccer Fernanda,
Huth Neil,
Fitzgerald Glenn J.,
Tausz Michael, Ewert Frank
Global Change Biology. 2020 26(7). p.4079
Moderate heat stress prevented the observed biomass and yield stimulation caused by elevated CO2 in two well-watered wheat cultivars
Chavan Sachin G.,
Duursma Remko A.,
Tausz Michael, Ghannoum Oula
Plant Molecular Biology. 2022 110(4-5). p.365
Genotypic response of wheat under semi-arid conditions showed no specific responsive traits when grown under elevated CO2
Maphosa Lancelot,
Fitzgerald Glenn J.,
Panozzo Joe,
Partington Debra,
Walker Cassandra, Kant Surya
Plant Production Science. 2019 22(3). p.333
Quantification of Climate Variability, Adaptation and Mitigation for Agricultural Sustainability (2017)
Elevated [CO2] mitigates the effect of surface drought by stimulating root growth to access sub-soil water
Uddin Shihab,
Löw Markus,
Parvin Shahnaj,
Fitzgerald Glenn J.,
Tausz-Posch Sabine,
Armstrong Roger,
O’Leary Garry,
Tausz Michael, Bond-Lamberty Ben
PLOS ONE. 2018 13(6). p.e0198928
Screening for Higher Grain Yield and Biomass among Sixty Bread Wheat Genotypes Grown under Elevated CO2 and High-Temperature Conditions
Marcos-Barbero Emilio L.,
Pérez Pilar,
Martínez-Carrasco Rafael,
Arellano Juan B., Morcuende Rosa
Plants. 2021 10(8). p.1596
Elevated carbon dioxide alleviates the negative impact of drought on wheat by modulating plant metabolism and physiology
Ulfat Aneela,
Shokat Sajid,
Li Xiangnan,
Fang Liang,
Großkinsky Dominik K.,
Majid Syed Abdul,
Roitsch Thomas, Liu Fulai
Agricultural Water Management. 2021 250 p.106804
(2014)
Crop yield components – photoassimilate supply- or utilisation limited-organ development?
Patrick John W., Colyvas Kim
Functional Plant Biology. 2014 41(9). p.893
Crops for a future climate
Gleadow Roslyn,
Johnson Alexander, Tausz Michael
Functional Plant Biology. 2013 40(2). p.iii
Normal Cyclic Variation in CO2 Concentration in Indoor Chambers Decreases Leaf Gas Exchange and Plant Growth
Bunce James
Plants. 2020 9(5). p.663
Increased CO2concentrations increasing water use efficiency and improvement PSII function of mulberry seedling leaves under drought stress
Liu Xiaojia,
Zhang Huihui,
Wang Junrui,
Wu Xuye,
Ma Songliang,
Xu Zisong,
Zhou Tao,
Xu Nan,
Tang Xuedong, An Baiyi
Journal of Plant Interactions. 2019 14(1). p.213
