Abstract
AimsGrassland-to-shrubland transition is a common form of land degradation in drylands worldwide. It is often attributed to changes in disturbance regimes, particularly overgrazing. A myriad of direct and indirect effects (e.g., accelerated soil erosion) of grazing may favor shrubs over grasses, but their relative importance is unclear. We tested the hypothesis that topsoil “winnowing” by wind erosion would differentially affect grass and shrub seedling establishment to promote shrub recruitment over that of grass.MethodsWe monitored germination and seedling growth of contrasting perennial grass (Bouteloua eriopoda, Sporobolus airoides, and Aristida purpurea) and shrub (Prosopis glandulosa, Atriplex canescens, and Larrea tridentata) functional groups on field-collected non-winnowed and winnowed soils under well-watered greenhouse conditions.ResultsNon-winnowed soils were finer-textured and had higher nutrient contents than winnowed soils, but based on desorption curves, winnowed soils had more plant-available moisture. Contrary to expectations, seed germination and seedling growth on winnowed and non-winnowed soils were comparable within a given species. The N2-fixing deciduous shrub P. glandulosa was first to emerge and complete germination, and had the greatest biomass accumulation of all species.ConclusionsGermination and early seedling growth of grasses and shrubs on winnowed soils were not adversely nor differentially affected comparing with that observed on non-winnowed soils under well-watered greenhouse conditions. Early germination and rapid growth may give P. glandulosa a competitive advantage over grasses and other shrub species at the establishment stage in grazed grasslands. Field establishment experiments are needed to confirm our findings in these controlled environment trials.
Highlights
Shrub encroachment is a widely-observed form of land degradation in many arid and semiarid grasslands globally (Archer et al 1995; Van Auken 2000)
Soils used in the bioassay experiment were collected at the Jornada Experimental Range (JER)/Jornada Basin Long-Term Ecological Research site in southwestern New Mexico, USA
Mean germination time averaged across soil types (Tavg) of P. glandulosa (7.0 ± 2.0 day; mean ± SD; Table 3) was significantly shorter than those of A. purpurea and S. airoides and L. tridentata
Summary
Shrub encroachment is a widely-observed form of land degradation in many arid and semiarid grasslands globally (Archer et al 1995; Van Auken 2000). Including biodiversity (Ratajczak et al 2012), primary productivity (Knapp et al 2008), and nutrient, water, and carbon cycling (Eldridge et al 2011; Hibbard et al 2001; McCulley et al 2004), with the magnitude of their effects dependent on context (e.g., precipitation regimes; Knapp et al 2008; Anadón et al 2014) This physiognomic transformation is commonly ascribed to changes in disturbance regimes (e.g., livestock overgrazing, fire) interacting within constraints imposed by topoedaphic and climate factors (Archer et al 2017) and plant-plant interactions (Pierce et al 2019a, b) that mitigate probabilities and rates of change.
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