Effects of Fire on the Plant-Soil Interactions in Northern Chihuahuan Desert

Desert grasslands in the southwestern US have undergone dramatic land degradation with woody shrub encroachment over the last 150 years. Soil carbon (C), nitrogen (N) and other soil nutrients are redistributed among shrubs, grasses, and bare interspaces during encroachment. Several studies suggest that periodic fire favors the homogenization of soil resources and can provide a certain form of reversibility for the shrub-grass transition. In this study, we used manipulative field experiments to investigate the influence of fire on the isotope composition of C (δ13C) and N (δ15N) in bare interspace, grass and shrub microsites. Replicated burned and control (unburned) experimental plots (5 m × 5 m) were set up in a desert grassland in northern Chihuahuan Desert in March 2016. In each plot, a total of 50 randomly-distributed surface soil samples, with their microsite types accurately recorded, were collected twice per year in March and June (before and after the windy season). δ13C and δ15N in the soil samples were analyzed. Our results show that fire has changed soil δ13C and δ15N after two windy seasons, especially in the shrub microsite. For example, δ13C increased from -18.8‰ to -17.0‰ after a windy season in soils under burned shrub canopies, and increased to -14.3‰ in Mar. 2017, one year after the prescribed fire. In contrast, it changed notably from -14.6‰ to -17.6‰ under shrub canopies in the control plot during the same period of time. For soil δ15N, it decreased slightly from 6.1‰ to 5.6‰ within a year after the prescribed fire in shrub microsite, and a comparable decline was also observed in the same type of microsite of the control plot. Because the average δ13C value of C4 plant tissue (-12‰) is distinct from C3 plants (-26‰), the increase of soil δ13C suggests that the relative contribution of soil organic matter under shrub canopies from shrubs (C3 plants) decreased after a burning event compared to grasses (C4 plants). The insignificant change of soil δ15N in shrub microsite indicates that soil mineralization rates and plant N uptake under shrub canopies may not be substantially altered by the prescribed fire. Our results highlighted that fire can change the resource interactions between soil and plants, which may further affect the shrub encroachment process as well as the dynamics of grassland-shrubland ecosystem.