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Site by Dr Jodie Richardson

Publications

Arsova B., Foster K., Shelden M., Bramley H. and Watt M. (2019). Dynamics in plant roots and shoots minimise stress, save energy and maintain water and nutrient uptake. New Phytologist.

Blessing C.H., Mariette A., Kaloki P., Bramley H. (2018). Profligate and conservative: water use strategies in grain legumes. Journal of Experimental Botany 69, 349-369. 

Chin S., Behm C.A. and Mathesius U. (2018). Functions of flavonoids in plant-nematode interactions. Plants 7(4): 85.

Foyer C.H., Lam H.M., Nguyen H.T., Siddique K.H.M., Varshney R., Colmer T.D., Cowling W., Bramley H., Mori T.A., Hodgson J.M., Cooper J.W., Miller T., Kunert K., Vorster J., Cullis C., Ozga J.A., Wahlqvist M.L., Liang Y., Shou H., Shi K., Yu J., Fodor N., Kaiser B.N., Wong F.L., Valliyodan B. and Considine M.J. (2016). Neglecting legumes has compromised global food and nutritional security. Nature Plants, 2, 16112.

Gauthier-Coles C., White R.G. and Mathesius U. (2018). Nodulating legumes are distinguished by a sensitivity to cytokinin in the root cortex leading to pseudonodule development. Frontiers in plant science, 9. 

Hu J., Zhou Y., Chen K., Li J., Wei Y., Wang Y., Wu Y., Ryder M.H., Yang H. and Denton M.D. (2019). Large-scale Trichoderma diversity was associated with ecosystem, climate and geographic location. Environmental Microbiology (submitted)

 

Huang J., Purushothaman R., McBratney A., Bramley H. (2018). Soil water extraction monitored per plot across a field experiment using repeated electromagnetic induction surveys. Soil Systems 2, 11.

Huen A., Bally J. and Smith P. (2018). Identification and characterisation of microRNAs and their target genes in phosphate-starved Nicotiana benthamiana by small RNA deep sequencing and 5'RACE analysis. BMC Genomics, 19(1):940.

 

Jimenez-Lopez J.C., Foley R.C., Brear E., Clarke V.C., Lima-Cabello E., Florido J.F., Singh K.B., Alché J.D. and Smith P.M.C. (2018) Characterization of narrow-leaf lupin (Lupinus angustifolius L.) recombinant major allergen IgE-binding proteins and the natural β-conglutin counterparts in sweet lupin seed species. Food Chemistry, 244: 60-70. 

Li Q., Zhou D., Denton M. D. and Cong S. (2019). Alfalfa monocultures promote soil organic carbon accumulation to a greater extent than perennial grass monocultures or grass-alfalfa mixtures. Ecological Engineering, 131, 53-62.

 

Rabbi S.M.F., Tighe M.K., Flavel R.J., Kaiser B.N., Guppy C.N., Zhang X. and Young I.M. (2018). Plant roots redesign the rhizosphere to alter the three‐dimensional physical architecture and water dynamics. New Phytologist, 219(2): 542-550.

 

Rabbi S.M.F., Tighe M.K., Knox O. and Young I.M. (2018). The impact of carbon addition on the organisation of rhizosheath chickpea. Scientific Reports, 8 (1): 18028. 

 

Selinski J., Hartmann A., Deckers-Hebestreit G., Day D.A., Whelan J. and Scheibe R. (2018). Alternative oxidase isoforms are differentially activated by tricarboxylic acid cycle intermediates. Plant physiology, 176(2): 1423-1432. 

 

Selinski J., Scheibe R., Day D.A. and Whelan J. (2018). Alternative oxidase is positive for plant performance. Trends in plant science, 23(7): 588-597. 

 

Shrestha A., Buckley T., Lockhart E. and Barbour M. (2018). The response of mesophyll conductance to short- and long-term environmental conditions in chickpea genotypes.  AoB Plants, 11(1). 

Shrestha A., Song X. and Barbour M. (2019). The temperature response of mesophyll conductance, and its component conductances, varies between species and genotypes. Photosynthesis Research 141(1): 65-82.

 

Striker G.G., Kotula L. and Colmer T.D. (2018). Tolerance to partial and complete submergence in the forage legume Melilotus siculus: an evaluation of 15 accessions for petiole hyponastic response and gas-filled spaces, leaf hydrophobicity and gas films, and root phellem. Annals of Botany, 123: 169-180.  

Sweetman C., Soole K.L., Jenkins C.L.D. and Day D.A. (2018) Genomic structure and expression of alternative oxidase genes in legumes. Plant Cell, 42(1): 71-84.

Swift R., Denton M.D. and Melino V. (2019). Plant probiotics for nutrient acquisition by agriculturally important grasses: a comprehensive review of the science and the application. Annual Plant Reviews.

Torabian S., Farhangi-Abriz S. and Denton M. (2019). Do tillage systems influence nitrogen fixation in legumes? A review. Soil and Tillage Research, 185, 113-121.

Tyerman S.D., Munns R., Fricke W., Borjana A., Barlkla B., Bose J., , Byrt C., Chen Z., Colmer T., Cuin T.A., Day D., Foster K., Gilliham M., Henderson S., Horie T., Jenkins C., Kaiser B., Katsuhara M., Plett D., Miklavcic S., Roy S., Rubio F., Shabala S., Shelden M., Soole K., Taylor N., Tester M., Watt M., Wege S., Wegner L. and Wen Z. (2019). Energy costs of salinity tolerance in crop plants. New Phytologist, 221, 25-29.

Wei Y., Li J., Zhou Y., Li H., Zhao Z., Ryder M., Yang H. and Denton M.D. (2019). Selection of endorhizosphere inhabitants from the soil microbiome occurs at different anatomical boundaries of plant roots. Plant and Soil (submitted).

 

Wen Z. and Kaiser B.N. (2018). Unravelling the Role of NPF transporters. Frontiers in Plant Science, 9: 973. 

Proceedings

Pattison A., Bramley H. and Trethowan R. (2018). Preliminary data on phenology of Australian chickpea cultivars in the Northern Grain Belt and pre-breeding for heat avoidance traits. GRDC Grains Research Update. Dubbo, NSW, Australia: Grains Research and Development Corporation.

Zhou Y., and Denton M.D. (2017). Cropping system management determines the selection of rhizosphere microbiome by crops. Second Global Soil Biodiversity Conference. Nanjing, China.

Y Zhou Y., Denton M.D., Coventry D.R., Vadakattu G.V. et al, (2019). Development of the rhizosphere microbiome is dependent on root age and the preceeding detritusphere.  Rhizosphere 5. Saskatoon, Saskatchewan, Canada

Zhou Y., Li J., Yang H. and Denton M.D. (2018). Large-scale Trichoderma diversity was associated with ecosystem, climate and geographic location. First International Congress of Biological Control. Beijing, China.