Poplar defense against insect herbivores

The availability of a poplar (Populus trichocarpa Torr & A. Gray, black cottonwood) genome sequence is enabling new research approaches in angiosperm tree biology. Much of the recent genomics research in poplars has been on wood formation, growth and development, resistance to abiotic stress and pathogens, motivated, at least in part, by the fact that poplars provide an important system for large-scale, short-rotation plantation forestry in the Northern Hemisphere. To sustain productivity and ecosystem health of natural and planted poplar forests it is of critical importance to also develop a better understanding of the molecular mechanisms of defense and resistance of poplars against insect pests. Previous research has established a solid foundation of the chemical ecology of poplar defense against insects. This review summarizes some of the relevant literature on defense against insect herbivores in poplars with an emphasis on molecular, biochemical, and emerging genomic research in this important field within forest biotechnology and chemical ecology. Following a general introduction, we provide a brief overview of some of the most relevant insect pests of poplars; we then describe some of the general defense strategies of poplars along with selected examples of their activities. We conclude with a summary of emerging results and perspectives from recent advances in genomics research on poplar defense against insects.