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Data from: Below-ground causes and consequences of woodland shrub invasions: a novel paired-point framework reveals new insights

Cite this dataset

Iannone III, Basil V. et al. (2015). Data from: Below-ground causes and consequences of woodland shrub invasions: a novel paired-point framework reveals new insights [Dataset]. Dryad. https://doi.org/10.5061/dryad.vb120

Abstract

1. Confirming the impacts of invasive plants is essential for prioritizing management efforts, but is challenging, especially if impacts occur below ground and over long periods as hypothesized for woodland shrub invasions. 2. For this reason, we developed a novel “paired-point” framework capable of detecting the below-ground impacts of slow-growing invasive plants from short-term datasets in an investigation into the below-ground consequences of European buckthorn Rhamnus cathartica L. (hereafter buckthorn) invasions into Chicago-area woodlands. We measured differences between the members of 97 pairs of buckthorn-invaded and buckthorn-free points in ten below-ground response variables (RVs) that buckthorn is hypothesized to alter (listed below). We then modelled these differences (ΔRVs) in response to the severity of the invasion found at each invaded point. A relationship (linear or non-linear) between a ΔRV and severity, i.e. slope ≠ 0, suggests a buckthorn-induced change. An intercept (value of ΔRV where severity = 0) different from zero suggests a pre-existing difference. 3. Relating differences to an invasion gradient rather than simply noting their presence provided evidence that the higher levels of moisture, pH, total C, total N, NH4+-N, and Ca2+ in invaded soils pre-date and possibly promote invasion (particularly Ca2+), and that neither earthworm biomass nor soil C:N ratios are associated with buckthorn invasion, all of which suggest buckthorn to be less of a “driver” of below-ground change than hypothesized. We did, however, find evidence that buckthorn establishes in areas having greater leaf-litter mass and higher rates of decomposition, and then proceeds to accelerate decomposition further and to alter spring soil NO3--N levels. 4. Synthesis and applications. Our findings suggest that decisions regarding regional buckthorn management should be less driven by concerns about buckthorn's below-ground impacts, and that greater consideration of how variation in below-ground factors relates to invader establishment is needed, rather than simply assuming this variation to be invader-induced. This latter consideration can help to design better-targeted monitoring programs, limiting the further spread of woodland invaders. These insights illustrate the utility of the paired-point framework both for investigating below-ground causes and consequences of slow-growing invasive plants and for guiding the management of these invasions.

Usage notes

Location

United States of America
Chicago area