Increasing atmospheric CO2 concentrations alter leaf physiology, with effects that cascade to communities and ecosystems. Yet, responses over cycles of disturbance and recovery are not well known, because most experiments span limited ecological time. We examined the effects of CO2 on root growth, herbivory and arthropod biodiversity in a woodland from 1996 to 2006, and the legacy of CO2 enrichment on these processes during the year after the CO2 treatment ceased. We used minirhizotrons to study root growth, leaf censuses to study herbivory and pitfall traps to determine the effects of elevated CO2 on arthropod biodiversity. Elevated CO2 increased fine root biomass, but decreased foliar nitrogen and herbivory on all plant species. Insect biodiversity was unchanged in elevated CO2. Legacy effects of elevated CO2 disappeared quickly as fine root growth, foliar nitrogen and herbivory levels recovered in the next growing season following the cessation of elevated CO2. Although the effects of elevated CO2 cascade through plants to herbivores, they do not reach other trophic levels, and biodiversity remains unchanged. The legacy of 10yr of elevated CO2 on plant-herbivore interactions in this system appear to be minimal, indicating that the effects of elevated CO2 may not accumulate over cycles of disturbance and recovery.
Original Publication Citation
Stiling, P., Moon, D., Rossi, A., Forkner, R., Hungate, B. A., Day, F. P., . . . Drake, B. (2013). Direct and legacy effects of long-term elevated CO2 on fine root growth and plant-insect interactions. New Phytologist, 200(3), 788-795. doi:10.1111/nph.12295
Stiling, Peter; Moon, Daniel; Rossi, Anthony; Forkner, Rebecca; Hungate, Bruce A.; Day, Frank P.; Schroeder, Rachel E.; and Drake, Bert, "Direct and Legacy Effects of Long-Term Elevated CO2 on Fine Root Growth and Plant-Insect Interactions" (2013). Biological Sciences Faculty Publications. 257.