Data from: Disturbance-mediated community characteristics and anthropogenic pressure intensify understorey plant invasions in natural forests

  1. Although disturbance is considered a major driver of plant invasions across many systems, our understanding of the mechanisms by which disturbance mediates understorey invasions in natural forests is limited.
  2. We used a national natural forest inventory dataset spanning New Zealand’s wide climatic and soil fertility gradients to disentangle disturbance-mediated community characteristics driving abundance, species richness and functional composition of understorey plant invasions.
  3. Disturbance-mediated declines in canopy tree abundance and increases in soil fertility and pH increased non-native plant richness and cover relative to co-occurring native plant assemblages. Cover of non-native species also increased with proximity to anthropogenic land cover.
  4. Non-native plant assemblages had higher community-weighted mean (CWM) values for specific leaf area (SLA) but lower CWM values for height and woodiness relative to native assemblages irrespective of disturbance. However, greater nearby anthropogenic land cover drove increased woodiness in non-native assemblages but decreased woodiness in co-occurring native assemblages.
  5. Synthesis. Our study provides the first national-scale evidence that canopy disturbance effects on soil properties increase both richness and abundance of non-native plants in natural forest understories. We also revealed functional trait differences between native and non-native assemblages (SLA in particular), which could alter fundamental forest ecosystem processes like litter decomposition and nutrient cycling. Finally, landscape-scale anthropogenic impacts may exacerbate forest invasions by increasing non-native abundance and favouring woody invaders, which may achieve dominance in future forest communities over the longer-term.

Data and Resources

Additional Info

Field Value
Publication Year 2024
Authors
  1. Jo, Insu
  2. Bellingham, Peter
  3. Mason, Norman
  4. McCarthy, James
  5. Peltzer, Duane
  6. Richardson, Sarah
  7. Wright, Elaine
Maintainer Insu Jo
Start Date 2024-06-25
End Date 2024-06-25
DOI https://doi.org/10.7931/5f2r-qc42