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High-quality genome of a pioneer mangrove Laguncularia racemosa explains its advantages for intertidal zone reforestation.

Ranran ZhuShao ShaoWei XieZixiao GuoZiwen HeYulong LiWenqing WangCairong ZhongSuhua ShiShaohua Xu
Published in: Molecular ecology resources (2023)
Ecological restoration of mangrove ecosystems that became susceptible to recent habitat perturbations is crucial for tropical coast conservation. The white mangrove Laguncularia racemosa, a pioneer species inhabiting intertidal environments of the Atlantic East Pacific (AEP) region, has been used for reforestation in China for decades. However, the molecular mechanisms underlying its fast growth and high adaptive potential remain unknown. Using PacBio single-molecule real-time sequencing, we completed a high-quality L. racemosa genome assembly covering 1105 Mb with scaffold N50 of 3.46 Mb. Genomic phylogeny shows that L. racemosa invaded intertidal zones during a period of global warming. Multi-level genomic convergence analyses between L. racemosa and three native dominant mangrove clades show that they experienced convergent changes in genes involved in nutrient absorption and high salinity tolerance. This may explain successful L. racemosa adaptation to stressful intertidal environments after introduction. Without recent whole-genome duplications or activated transposable elements, L. racemosa has retained many tandem gene duplications. Some of them are involved in auxin biosynthesis, intense light stress and cold stress response pathways, associated with L. racemosa's ability to grow fast under high light or cold conditions when used for reforestation. In summary, our study identifies shared mechanisms of intertidal environmental adaptation and unique genetic changes underlying fast growth in mangrove-unfavourable conditions and sheds light on the molecular mechanisms of the white mangrove utility in ecological restoration.
Keyphrases
  • single molecule
  • climate change
  • genome wide
  • copy number
  • human health
  • risk assessment
  • dna methylation
  • gene expression
  • single cell
  • microbial community
  • living cells
  • arabidopsis thaliana
  • high speed
  • cell wall