Climate change is multi-faceted, and includes changing concentrations of greenhouse gases
in the atmosphere, rising temperatures, changes in precipitation patterns, and increasing …

Stimulation of C 3 crop yield by rising concentrations of atmospheric carbon dioxide ([CO 2])
is widely expected to counteract crop losses that are due to greater drought this century. But …

… (black circles) and the daily precipitation (gray bars) for the 2009 (A) and 2011 (B) growing
seasons. The bottom panels show the VPD (gray lines), the daily mean air temperatures (Tair; …

Plant species have evolved myriads of solutions, including complex cell type development
and regulation, to adapt to dynamic environments. To understand this cellular diversity, we …

Climate change has the potential to alter both the composition and function of a soil's microbial
community, and interactions among climate change factors may alter soil communities in …

The rate of N2 fixation by a leguminous plant is a product of the activity of individual nodules
and the number of nodules. Initiation of new nodules and N2 fixation per nodule are highly …

The net effect of elevated [CO 2 ] and temperature on photosynthetic acclimation and plant
productivity is poorly resolved. We assessed the effects of canopy warming and fully open air […

By affecting the physiology and structure of plant canopies, increasing atmospheric CO 2 and
O 3 influence the capacity of agroecosystems to capture light and convert that light energy …

Understanding the impact of elevated CO 2 (eCO 2 ) in global agriculture is important given
climate change projections. Breeding climate‐resilient crops depends on genetic variation …

In order to predict and mitigate future climate change, it is essential to understand plant-mediated
effects of elevated CO 2 (eCO 2 ) and O 3 (eO 3 ) on N-cycling, including N 2 O …