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Advanced Breeding for Biotic Stress Resistance in Poplar.

Chiara BiselliLorenzo ViettoLaura RossoLuigi CattivelliGiuseppe NervoAgostino Fricano
Published in: Plants (Basel, Switzerland) (2022)
Poplar is one of the most important forest trees because of its high economic value. Thanks to the fast-growing rate, easy vegetative propagation and transformation, and availability of genomic resources, poplar has been considered the model species for forest genetics, genomics, and breeding. Being a field-growing tree, poplar is exposed to environmental threats, including biotic stresses that are becoming more intense and diffused because of global warming. Current poplar farming is mainly based on monocultures of a few elite clones and the expensive and long-term conventional breeding programmes of perennial tree species cannot face current climate-change challenges. Consequently, new tools and methods are necessary to reduce the limits of traditional breeding related to the long generation time and to discover new sources of resistance. Recent advances in genomics, marker-assisted selection, genomic prediction, and genome editing offer powerful tools to efficiently exploit the Populus genetic diversity and allow enabling molecular breeding to support accurate early selection, increasing the efficiency, and reducing the time and costs of poplar breeding, that, in turn, will improve our capacity to face or prevent the emergence of new diseases or pests.
Keyphrases
  • climate change
  • genetic diversity
  • genome editing
  • crispr cas
  • single cell
  • gene expression
  • drinking water
  • body composition
  • quantum dots
  • dna methylation
  • fluorescent probe
  • living cells
  • stress induced