Items where Author is "Christopher, Jack"

Article

Ullah, N., Christopher, J., Frederiks, T. M., Ma, S., Tan, D. K. Y. and Chenu, K. (2023) A robust field-based method to screen heat tolerance in wheat. European Journal of Agronomy, 144 . p. 126757. ISSN 1161-0301

Christopher, M. J., Paccapelo, V., Kelly, A. M., Macdonald, B., Hickey, L., Richard, C., Verbyla, A., Chenu, K., Borrell, A., Amin, A. and Christopher, J. (2021) QTL identified for stay-green in a multi-reference nested association mapping population of wheat exhibit context dependent expression and parent-specific alleles. Field Crops Research, 270 . p. 108181. ISSN 0378-4290

Christopher, J., Richard, C., Chenu, K., Christopher, M., Paccapelo, V., Borrell, A. and Hickey, L. (2019) Combining Trait Physiology, Crop Modelling and Molecular Genetics to Improve Wheat Adaptation to Terminal Water-Stress Targeting Stay-Green and Root Traits. Proceedings, 36 (1). p. 196. ISSN 2504-3900

Borrell, A., George-Jaeggli, B., Oosterom, E. v., Hammer, G., Mace, E., Godwin, I., Liu, G., Wong, A., Matiwos, T., Bantte, K., Christopher, J., Hickey, L., Richard, C., Robinson, H. and Jordan, D. (2019) How Do Crops Balance Water Supply and Demand when Water Is Limiting? Proceedings, 36 (1). p. 208. ISSN 2504-3900

Chenu, K., Fletcher, A., Ababaei, B., Christopher, J., Kelly, A. M., Hickey, L., Van Oosterom, E. and Hammer, G. (2019) Integrating Crop Modelling, Physiology, Genetics and Breeding to Aid Crop Improvement for Changing Environments in the Australian Wheatbelt. Proceedings, 36 (1). p. 4. ISSN 2504-3900

Anzooman, M., Dang, Y. P., Christopher, J., Mumford, M. H., Menzies, N. W. and Kopittke, P. M. (2018) Dataset on seed details of wheat genotypes, solution treatments to measure seedling emergence force and the relation between seedling force and strain. Data in Brief, 21 . pp. 1598-1602. ISSN 2352-3409

Christopher, M., Chenu, K., Jennings, R., Fletcher, S., Butler, D., Borrell, A. and Christopher, J. (2018) QTL for stay-green traits in wheat in well-watered and water-limited environments. Field Crops Research, 217 . pp. 32-44. ISSN 0378-4290

Robinson, H., Kandic, V., Christopher, J., Fox, G., Kelly, A. M., Borrell, A. and Hickey, L. (2018) Root traits for yield improvement in barley. GRDC Update Papers .

Anzooman, M., Christopher, J., Mumford, M. H., Dang, Y. P., Menzies, N. W. and Kopittke, P. M. (2018) Selection for rapid germination and emergence may improve wheat seedling establishment in the presence of soil surface crusts. Plant and Soil, 426 (1). pp. 227-239. ISSN 1573-5036

Richard, C., Christopher, J., Chenu, K., Borrell, A., Christopher, M. and Hickey, L. (2018) Selection in Early Generations to Shift Allele Frequency for Seminal Root Angle in Wheat. The Plant Genome, 11 (2).

Rich, S. M., Wasson, A. P., Richards, R. A., Katore, T., Prashar, R., Chowdhary, R., Saxena, D. C., Mamrutha, H. M., Zwart, A., Misra, S. C., Prasad, S. V. S., Chatrath, R., Christopher, J. and Watt, M. (2016) Wheats developed for high yield on stored soil moisture have deep vigorous root systems. Functional Plant Biology, 43 (2). pp. 173-188. ISSN 1445-4408

Richard, C., Hickey, L., Fletcher, S., Chenu, K., Borrell, A. and Christopher, J. (2015) High-throughput Phenotyping of Wheat Seminal Root Traits in a Breeding Context. Procedia Environmental Sciences, 29 . pp. 102-103. ISSN 1878-0296

Christopher, J., Richard, C., Chenu, K., Christopher, M., Borrell, A. and Hickey, L. (2015) Integrating Rapid Phenotyping and Speed Breeding to Improve Stay-Green and Root Adaptation of Wheat in Changing, Water-Limited, Australian Environments. Procedia Environmental Sciences, 29 . pp. 175-176. ISSN 1878-0296

Frederiks, T. M., Christopher, J., Sutherland, M. W. and Borrell, A. (2015) Post-head-emergence frost in wheat and barley: defining the problem, assessing the damage, and identifying resistance. Journal of Experimental Botany, 66 (12). pp. 3487-3498. ISSN 0022-0957

Christopher, J., Christopher, M., Jennings, R., Jones, S., Fletcher, S., Borrell, A., Manschadi, A.M., Jordan, D. R., Mace, E. S. and Hammer, G. L. (2013) QTL for root angle and number in a population developed from bread wheats (Triticum aestivum) with contrasting adaptation to water-limited environments. Theoretical and Applied Genetics, 126 (6). pp. 1563-1574. ISSN 00405752 (ISSN)

Frederiks, T. M., Christopher, J., Harvey, G. L., Sutherland, M. W. and Borrell, A. K. (2012) Current and emerging screening methods to identify post-head-emergence frost adaptation in wheat and barley. Journal of Experimental Botany, 63 (15). pp. 5405-5416. ISSN 0022-0957

Frederiks, T. M., Christopher, J., Fletcher, S.E.H. and Borrell, A. (2011) Post head-emergence frost resistance of barley genotypes in the northern grain region of Australia. Crop & Pasture Science, 62 (9). pp. 736-745.

Fuller, M.P., Fuller, A.M., Kaniouras, S., Christopher, J. and Frederiks, T. M. (2007) The freezing characteristics of wheat at ear emergence. European Journal of Agronomy, 26 (4). pp. 435-441.

Book Section

Potgieter, A. B., Watson, J., George-Jaeggli, B., McLean, G., Eldridge, M., Chapman, S. C., Laws, K., Christopher, J., Chenu, K., Borrell, A., Hammer, G. and Jordan, D. R. (2019) The use of hyperspectral proximal sensing for phenotyping of plant breeding trials. In: Fundamentals, Sensor Systems, Spectral Libraries, and Data Mining for Vegetation. CRC Press Taylor and Francis Group, Boca Raton FL, United States.

Monograph

Christopher, J. (2011) Optimised wheat root architecture for increased yield and yield stability in the face of a changing climate. Project Report. Grains Research & Development Corporation.

Conference or Workshop Item

Ullah, N., Christopher, J., Frederiks, T. M. and Chenu, K. (2022) A field-based technique for screening heat tolerance of wheat lines differing in maturity at matched developmental phases. In: Proceedings of the 20th Agronomy Australia Conference, 2022, 6 - 10 February 2022, Toowoomba Qld.

Christopher, J., Richard, C., Chenu, K., Christopher, M., Paccapelo, V., Borrell, A. K. and Hickey, L. (2020) Genomics of Root and Stay-Green Traits to Improve Wheat Adaptation to Late Season Drought. In: Plant and Animal Genome XXVIII Conference 2020, January 11-15, 2020, San Diego, USA.