Login / Signup

Oaks enhance early life stage longleaf pine growth and density in a subtropical xeric savanna.

Lukas J MageeSairandhri LapalikarDenver T CayetanoSiddarth MachadoKarun PanditBruna TrentinDerek WoodRodrigo V LeiteDiogo N CosenzaJeffrey MintzDenis Ribeiro do ValleRaelene M CrandallJeremy W LichsteinNicolle MonteroCaitlyn CherroRoss BarretoStephanie BohlmanDaniel J Johnson
Published in: Oecologia (2024)
The interplay of positive and negative species interactions controls species assembly in communities. Dryland plant communities, such as savannas, are important to global biodiversity and ecosystem functioning. Sandhill oaks in xeric savannas of the southeastern United States can facilitate longleaf pine by enhancing seedling survival, but the effects of oaks on recruitment and growth of longleaf pine have not been examined. We censused, mapped, and monitored nine contiguous hectares of longleaf pine in a xeric savanna to quantify oak-pine facilitation, and to examine other factors impacting recruitment, such as vegetation cover and longleaf pine tree density. We found that newly recruited seedlings and grass stage longleaf pines were more abundant in oak-dominated areas where densities were 230% (newly recruited seedlings) and 360% (grass stage) greater from lowest to highest oak neighborhood densities. Longleaf pine also grew faster under higher oak density. Longleaf pine recruitment was lowest under longleaf pine canopies. Mortality of grass stage and bolt stage longleaf pine was low (~1.0% yr -1 ) in the census interval without fire. Overall, our findings highlight the complex interactions between pines and oaks-two economically and ecologically important genera globally. Xeric oaks should be incorporated as a management option for conservation and restoration of longleaf pine ecosystems.
Keyphrases
  • climate change
  • early life
  • type diabetes
  • coronary artery disease