研究领域

Conservation Biology

The biology of plant growth and mechanisms of tolerance to abiotic stress The tolerance of Oryza species to a range of abiotic stresses such as heat, drought, salinity and anoxia Growth, development and canopy architecture of Australian native rice species (Oryza spp.) Physiology and stress tolerance in Australian wild tobacco and cotton species Physiology and biochemistry cereal grains and factors affecting milling yield Interaction between enrichment of atmosphere with CO2 and abiotic stresses, particularly drought Biochemical control of volatile organic emissions in eucalypts

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Atwell BJ, Henery ML, Rogers GS, Seneweera SP, Treadwell, Conroy JP, 2007. Canopy development and hydraulic function in Eucalyptus tereticornis grown in drought in CO2-enriched atmospheres. Functional Plant Biology 34: 1137-1149 Liu QX, Zhang Q, Burton RA, Shirley NJ, Atwell BJ, 2009. Expression of vacuolar H+-pyrophosphatase (OVP3) is under control of an anoxia-inducible promoter in rice. Plant Molecular Biology 72: 47-60 Ahn JW, Atwell BJ, Roberts TH, 2009. Serpin genes AtSRP2 and AtSRP3 are required for normal growth sensitivity to a DNA alkylating agent in Arabidopsis. BMC Plant Biology 9: 52 Atwell BJ, Henery, ML Ball MC, 2009. Hydraulics of snow gum grown in field and controlled environments at elevated CO2 and nitrogen supply. Plant, Cell and Environment 32: 553-566 Gammulla CG, Pascovici D, Atwell BJ, Haynes PA, 2010. Differential metabolic response of cultured rice (Oryza sativa) cells exposed to high- and low-temperature stress. Proteomics 10: 3001-3019 Jerkovic A, Kriegel AM, Bradner JR, Atwell BJ, Roberts TH, Willows RD, 2010. Strategic distribution of protective proteins within bran layers of wheat (Triticum aestivum L.) protects the nutrient-rich endosperm. Plant Physiology 152: 1459-1470 Gammulla CG, Pascovici D, Atwell BJ, Haynes PA, 2011. Differential proteomic response of rice (Oryza sativa) leaves exposed to high- and low-temperature stress. Proteomics 11: 2839-2850 Scafaro AP, von Caemmerer S, Evans JR, Atwell BJ, 2011. Temperature response of mesophyll conductance in cultivated and wild Oryza species with contrasting mesophyll cell wall thickness. Plant Cell and Environment 34: 1999 - 2008 Scafaro AP, Haynes PA, Atwell BJ, 2010. Physiological and molecular changes in Oryza meridionalis Ng., a heat-tolerant species of wild rice. Journal of Experimental Botany 61: 191 - 202 Ersoy RA, Francis SE, Ahn J-W, Atwell BJ, Roberts TH, 2012. Serpins in rice: protein sequence analysis, phylogeny and gene expression during development. BMC Genomics 13:449 Edwards J, Roberts TH, Atwell BJ, 2012. Quantifying ATP budgets: Anoxic O. sativa coleoptiles preferentially allocate ATP to protein synthesis at the expense of other ATP utilising pathways. Journal of Experimental Botany 63: 4389-4402 Mirzaei M, Pascovici D, Atwell BJ, Haynes PA, 2012. Differential regulation of aquaporins, small GTPases and V-ATPases in rice leaves subjected to drought stress and recovery. Proteomics 12: 864-877 Scafaro AP, Yamori W, Carmo-Silva AE, Salvucci ME, von Caemmerer S, Atwell, BJ, 2012. Rubisco activity is associated with photosynthetic thermo-tolerance in the wild rice Oryza meridionalis. Physiologia Plantarum 146: 99-109 Duursma RA, Falster DS, Valladares F, Sterck FJ, Pearcy RW, Lusk CH, Sendall KM, Nordenstahl M, Houter NC, Atwell BJ, Kelly N, Kelly JWG, Liberloo M, Tissue DT, Medlyn BE, Ellsworth, 2012. DS Light interception efficiency explained by two simple variables: a test using a diversity of small- to medium-sized woody plants. New Phytologist 193: 397-408 Mirzaei, M, Soltani N, Sarhadi E, Pascovici D, Keighley T, Salekdeh GH, Haynes PA, Atwell BJ, 2012. Shotgun proteomic analysis of long-distance drought signaling in rice roots. Journal of Proteome Research 11: 348-358 Harrison SP, Morfopoulos C, Srikanta Dani KG, Prentice IC, Arneth A, Atwell BJ, Barkley MP, Leishman MR, Loreto F, Medlyn BE, Niinemets Ü, Possell M, Peñuelas J and Wright IJ, 2013. Volatile isoprenoid emissions from plastid to planet. New Phytologist 197: 49-57 (free online access) Neilson K, Scafaro AP, Chick J, George I, van Sluyter S, Gygi S, Atwell BJ, Haynes P, 2013. The influence of signals from chilled roots on the proteome of shoot tissues in rice seedlings. Proteomics 13: 1922-1933 Soltani N, Sarhadi E, George IS, Neilson KA, Pascovici D, Shahbazian S, Haynes PA, Atwell BJ, Salekdeh GH, 2014. Manipulating root water supply elicits major shifts in the shoot proteome. Journal of Proteome Research (Special issue) 13: 517-526 Atwell BJ, Wang H, Scafaro AP, 2014. Could abiotic stress tolerance in wild relatives of rice be used to improve Oryza sativa? Plant Science 215–216: 48–58 Dani SKG, Jamie IM, Prentice IC, Atwell BJ, 2014. Evolution of isoprene emission capacity in plants. Trends in Plant Science 19:439-446 Dani SKG, Jamie IM, Prentice IC, Atwell BJ, 2014. Increased ratio of electron transport to net assimilation rate supports elevated isoprenoid emission rate in eucalypts under drought. Plant Physiology​ 166: 1059-1072 Atwell BJ, Greenway H, Colmer TD, 2015. Efficient use of energy in anoxia-tolerant plants with focus on germinating rice seedlings. New Phytologist (Tansley Review) 206: 36-56 Narsai R, Edwards JM, Roberts TH, Whelan J, Joss GH, Atwell BJ, 2015. Mechanisms of growth and patterns of gene expression in oxygen-deprived rice coleoptiles. Plant Journal 82:25-40 Dani SKG, Jamie IM, Prentice IC, Atwell BJ, 2015. Species-specific photorespiratory rate, drought tolerance and isoprene emission rate in plants. Plant Signaling and Behavior. Vol. 10 Ullah N, Atwell BJ, Bange MP, Tan DKY, 2015. Aminoethoxyvinylglycine (AVG) ameliorates waterlogging-induced damage in cotton by inhibiting ethylene synthesis and sustaining photosynthetic capacity. Plant Growth Regulation 76: 83-98 Najeeb U, Bange MP, Tan DKY, Atwell BJ, 2015. Consequences of waterlogging in cotton and opportunities for mitigation of yield losses. AoB Plants (Advanced Access 20 July 2015) Najeeb U, Bange MP, Atwell BJ, Tan DKY, 2016. Low incident light combined with partial waterlogging impairs photosynthesis and imposes a yield penalty in cotton. Journal of Agronomy and Crop Science (2016) ISSN 0931-2250