Bamboo, a fast-growing non-timber forest plant with many uses, is a valuable species for green development. However, bamboo flowering is very infrequent, extending, in general, for up to 120 years. Ecologically, bamboo species are generally better adapted to various environments than other grasses. Therefore, the species deserves a special status in what could be called Ecological Bioeconomy. An understanding of the genetic processes of bamboo can help us sustainably develop and manage bamboo forests. Transposable elements (TEs), jumping genes or transposons, are major genetic elements in plant genomes. The rapid development of the bamboo reference genome, at the chromosome level, reveals that TEs occupy over 63.24% of the genome. This is higher than found in rice, Brachypodium, and sorghum. The bamboo genome contains diverse families of TEs, which play a significant role in bamboo's biological processes including growth and development. TEs provide important clues for understanding the evolution of the bamboo genome. In this chapter, we briefly describe the current status of research on TEs in the bamboo genome, their regulation, and transposition mechanisms. Perspectives for future research are also provided.
Keywords: Bamboo; Bambusoideae; LTR-retrotransposons; Mariner-like elements; Nuclear export signal; Phyllostachys edulis; Ppmar1; Ppmar2; Transposable elements; Transposase.