Publications

In preparation

1.Wu, J., Nadeem, M., Galagedara, L., Thomas, R., Cheema, M., Lipidomics remodelling: a strategy to enhance cold stress tolerance in silage corn.

Peer reviewed

1. Nadeem, M., Thomas, R., Adigun, O., Manful, C., Wu, J., Pham, T.H., Zhu, X., Galagedara, L. and Cheema, M. (2020), Root membrane lipids as potential biomarkers to discriminate silage-corn genotypes cultivated on podzolic soils in boreal climate. Physiol Plantarum, 170: 440-450. link

2. Nadeem, M., Wu, J., Ghaffari, H., Kedir, A.J., Saleem, S., Mollier, A., Singh, J. and Cheema, M., 2022. Understanding the adaptive mechanisms of plants to enhance phosphorus use efficiency on podzolic soils in boreal agroecosystems. Frontiers in Plant Science, 13, p.804058. link

3. Wu, J., Nadeem, M., Galagedara, L., Thomas, R., Cheema, M., (2022). Effects of Chilling Stress on Morphological, Physiological, and Biochemical Attributes of Silage Corn Genotypes during Seedling Establishment. Plants, 11, 1217. link

4. Wu, J., Nadeem, M., Galagedara, L., Thomas, R. and Cheema, M., (2022), Recent insights into cell responses to cold stress in plants: Signaling, defence, and potential functions of phosphatidic acid. Environmental and Experimental Botany, 203, p.105068. link

5. Javed, M. A., Schwelm, A., Zamani-Noor, N., Salih, R., Silvestre Vañó, M., Wu, J., González García, M., Heick, T. M., Luo, C., Prakash, P., & Pérez-López, E. (2023), The clubroot pathogen Plasmodiophora brassicae: A profile update. Molecular plant pathology, 24(2), 89–106. link

6. Wu, J. and Pérez-López, E., (2023), A multilayer strategy is needed to uncover the clubroot pathogen mysteries. Physiological and Molecular Plant Pathology, p.101971.link

Thesis

Wu, J., 2022. Evaluating role of phosphatidic acid in cold stress tolerance in silage-corn (MSc dissertation, Memorial University of Newfoundland).link