Atmospheric CO2 Enrichment and Pine Bark Beetles
Novick, K.A., Katul, G.G., McCarthy, H.R. and Oren, R. 2012. Increased resin flow in mature pine trees growing under elevated CO2 and moderate soil fertility. Tree Physiology 32: 752-763.
In an experiment intended to help fill this important knowledge void, Novick et al. assessed the effect of elevated CO2 on resin production of dominant-and-unfertilized 27-year-old loblolly pine (Pinus taeda L.) trees growing under both ambient and elevated (ambient + 200 ppm) atmospheric CO2 concentrations in the Duke Forest of North Carolina (USA) over the period March to October of 2009.
The four researchers report that the elevated CO2 treatment significantly increased resin flow by a whopping 140% in dominant trees growing in unfertilized subplots; and they say that this CO2-induced resin flow enhancement "persisted throughout the growing season." As a result, Novick et al. conclude that "forests with low- to mid-range fertility" - which, in their words, "currently represent the majority of southern pine forests (Fox et al., 2007)" - "may become increasingly protected from bark beetle attacks in an elevated CO2 climate." And the validity of this conclusion is further supported by the fact, as they note, that "previous studies have shown that even more modest increases in resin flow (i.e., enhancements less than or equal to 100%) significantly increase the survival probability of pine trees experiencing bark beetle attack," as demonstrated by the studies of Reeve et al. (1995) and Strom et al. (2002).
Fox, T.R., Jokela, E.J. and Allen, H.L. 2007. The development of pine plantation silviculture in the southern United States. Journal of Forestry 105: 337-347.
Reeve, J.D., Ayres, M.P., Lorio Jr., P.L. Cappuccino, N. and Price, P.W. 1995. Host suitability, predation, and bark beetle population dynamics. In: Cappuccino, N. and Price, P.W. (Eds.). Population Dynamics: New Approaches and Synthesis. Academic Press, San Diego, California, USA, pp. 339-357.
Ruel, J.J., Ayres, M.P. and Lorio, P.L. 1998. Loblolly pine responds to mechanical wounding with increased resin flow. Canadian Journal of Forest Research 28: 596-602.
Strom, B.L., Goyer, R.A., Ingram Jr., L.L., Boyd, G.D.L. and Lott, L.H. 2002. Oleoresin characteristics of progeny of loblolly pines that escaped attack by the southern pine beetle. Forest Ecology and Management 157: 169-178.
Wilkens, R.T., Ayres, M.P., Lorio Jr., P.L. and Hodges, J.D. 1998. Environmental effects on pine tree carbon budgets and resistance to bark beetles. In: Mickler, R.A. and Fox, S. (Eds.). The Productivity and Sustainability of Southern Forest Ecosystems in a Changing Environment. Springer, New York, New York, USA, pp. 591-616.