Momayyezi, M., Knipfer, T. M., Hernandez-Perez, M., Kluepfel, D. A., Wakholi, C., Rippner, D. A., Albuquerque, C. P., Bambach, N. E., DeGrom, J., & McElrone, A. J. (2025). Differential impact of commercial rootstocks on the physiological response of a common walnut scion to drought stress. Physiologia Plantarum, 177(2), e70188.
https://doi.org/10.1111/ppl.70188

Scoffoni, C., Albuquerque, C., Buckley, T. N., & Sack, L. (2022). The dynamic multi-functionality of leaf water transport outside the xylem. New Phytologist, 239, 2099–2107.
https://doi.org/10.1111/nph.19069

Albuquerque, C., Scoffoni, C., Buckley, T. N., Brodersen, C. R., Sack, L., & McElrone, A. J. (2020). Coordinated decline of leaf hydraulic and stomatal conductances under drought is not linked to leaf xylem embolism for different grapevine cultivars. Journal of Experimental Botany, 71(22), 7286–7300.
https://doi.org/10.1093/jxb/eraa392

Scoffoni, C., Albuquerque, C., Cochard, H., Buckley, T. N., Fletcher, L. R., Caringella, M. A., Bartlett, M. K., Brodersen, C. R., Jansen, S., McElrone, A. J., & Sack, L. (2018). The causes of leaf hydraulic vulnerability and its influence on gas exchange in Arabidopsis thaliana. Plant Physiology, 178(4), 1584–1601.
https://doi.org/10.1104/pp.18.00743

Knipfer, T., Barrios-Masias, F. H., Cuneo, I. F., Bouda, M., Albuquerque, C., Brodersen, C. R., & McElrone, A. J. (2018). Variations in xylem embolism susceptibility under drought between intact saplings of three walnut species. Tree Physiology, 38(8), 1180–1192.
https://doi.org/10.1093/treephys/tpy049

McElrone, A. J., Earles, J. M., Knipfer, T. M., Albuquerque, C., Brodersen, C. R., & Cuneo, I. F. (2018). Changes in xylem conducting capacity and water storage across species: How can variable air content of xylem cells affect sap flow? Acta Horticulturae, 1222, 9–16.
https://doi.org/10.17660/ActaHortic.2018.1222.2

Scoffoni, C., Albuquerque, C., Brodersen, C. R., Townes, S. V., John, G. P., Bartlett, M. K., Buckley, T. N., McElrone, A. J., & Sack, L. (2017). Outside-xylem vulnerability, not xylem embolism, controls leaf hydraulic decline during dehydration. Plant Physiology, 173(2), 1197–1210.
https://doi.org/10.1104/pp.16.01643

Scoffoni, C., Albuquerque, C., Brodersen, C. R., Townes, S. V., John, G. P., Cochard, H., Buckley, T. N., McElrone, A. J., & Sack, L. (2016). Leaf vein xylem conduit diameter influences susceptibility to embolism and hydraulic decline. New Phytologist, 213(3), 1076–1092.
https://doi.org/10.1111/nph.14256

Hochberg, U., Albuquerque, C., Rachmilevitch, S., Cochard, H., David-Schwartz, R., Brodersen, C. R., & Windt, C. W. (2015). Grapevine petioles are more sensitive to drought-induced embolism than stems: Evidence from in vivo MRI and microCT observations of hydraulic vulnerability segmentation. Plant, Cell & Environment, 38(10), 1986–1997.
https://doi.org/10.1111/pce.12688

Macari, S., Carvalho, P. C. F., Oliveira, L., Devincenzi, T., Albuquerque, C., & Moraes, A. (2011). Rearing of lambs under different grazing methods on annual ryegrass in succession to crops. Pesquisa Agropecuária Brasileira, 46(10), 1401–1408.

Rech, M., Hahn, L., Wamser, A. F., Argenta, L. C., Albuquerque, C., Lima-Rodrigues, M., Grando, D. L., Kokkonen, A. A., & Brunetto, G. (submitted). Increasing soil Ca:Mg ratio improves tomato yield, quality, and resistance to rot. Submitted to Bragantia.