Ripley, B.S., Raubenheimer, S.L., Perumal, L., Anderson, M., Mostert, E., Kgope, B.S., Midgley, G.F., Simpson, K.J. 2022. CO2-fertilisation enhances resilience to browsing in the recruitment phase of an encroaching savanna tree. Functional Ecology, 36, pp. 3223-3233. Ripley et al., 2022.


Raubenheimer, S.L., Ripley, B.S. 2022. CO2-stimulation of savanna tree seedling growth depends on interactions with local drivers. Journal of Ecology, 110, pp. 1090-1101. Raubenheimer & Ripley, 2022.


Ripley, B.S., Bopape, T.M, Vetter, S. 2022. A doubling of atmospheric CO2 mitigates the effects of severe drought on maize through the preservation of soil water. Annals of Botany, 129, pp. 607-618. Ripley et al., 2021.


Raubenheimer, S.L., Simpson, K., Carkeek, R. and Ripley, B., 2021. Could CO2-induced changes to C4 grass flammability aggravate savanna woody encroachment?. African Journal of Range & Forage Science, 39, pp. 82-95. Raubenheimer et al., 2021.


Baso, N.C., Coetzee, J.A., Ripley, B.S. and Hill, M.P., 2021. The effects of elevated atmospheric CO2 concentration on the biological control of invasive aquatic weeds. Aquatic Botany170, p.103348. Baso et al., 2021.


Faltein, Z., Esler, K.J., Midgley, G.F., Ripley, B.S. 2020. Atmospheric CO2 concentrations restrict the growth of Oxalis pes-caprae bulbs used by human inhabitants of the Paleo-Agulhas during the Pleistocene glacials. Quarternary Science Reviews, 170, pp. 105731. Faltein et al., 2020.


Hussner, A., Smith, R., Mettler-Altmann, T., Hill, M.P. and Coetzee, J., 2019. Simulated global increases in atmospheric CO2 alter the tissue composition, but not the growth of some submerged aquatic plant bicarbonate users growing in DIC rich waters. Aquatic Botany153, pp.44-50. Hussner et al., 2019.





Last Modified: Tue, 28 Feb 2023 11:50:07 SAST