Elevated CO2 Reduces Ceratocystis Wilt in Two Eucalyptus Clones
Dos Santos, M. de S., Ghini, R., Fernandes, B.V. and Silva, C.A. 2013. Increased carbon dioxide concentration in the air reduces the severity of Ceratocystis wilt in Eucalyptus clonal plantlets. Australasian Plant Pathology 42: 595-599.
Against this backdrop, clonal plantlets of two Eucalyptus hybrids were studied in twice-replicated experiments conducted in a climate-controlled room (27±2°C, 40% relative humidity, photoperiod of 12 hours) at three different atmospheric CO2 concentrations (394, 553 and 878 ppm), where after 70 days aliquots of 100 µL of C. fimbriata conidia suspension were injected into the plants' wounds, which were afterwards covered with Parafilm.
Results of the analysis revealed that, compared to the 394-ppm CO2 treatment, the plantlets of both clones grown in the 553 and 878 ppm CO2 treatments had, in the words of the four researchers, "greater growth (215% and 219% increases in leaf area and 22% and 24% in stem diameter, respectively," as well as "less disease severity (48% and 78% reduction, respectively) on average compared with the plants cultivated at 394 ppm." Such findings led dos Santos et al. to say in the concluding sentence of their paper's abstract, their results show that "an increased CO2 concentration can reduce the severity of Ceratocystis wilt and stimulate the growth of Eucalyptus clonal plantlets." And it does it all ... at one and the same time.
Baker, C.J. and Harrington, T.C. 2004. Ceratocystis fimbriata. CABI Publishing, Wallingford, Oxfordshire, UK.