Abstract
Plant invasions have become one of the biggest threats to natural ecosystems across the globe during the last decade, and there is growing interest in their effect on the native flora and biota in invaded areas. However, little is known about their effect on soil microbial communities, especially non-fungal communities, in harsh environments such as a sand-dune ecosystem. The objective of this study, conducted in the northern Sharon sand-dune area of Israel, was to investigate the influence of the invasive alien plant Heterotheca subaxillaris on a sand-dune microbial community. Soil samples were collected under the canopies of the invasive plant, a native plant (Artemisia monosperma), and from bare areas at two sites, at different distances from the seashore going inland during the wet and dry seasons. MicroRespTM system methodology provided data on microbial biomass, basal respiration, and the community-level physiological profile (CLPP) at the community level, in addition to abiotic components, e.g., soil moisture, organic matter, conductivity, and pH. The microbial community in the soil samples found under the canopy of H. subaxillaris was less active and exhibited significantly lower CLPP, microbial biomass, and basal respiration than in the A. monosperma (native plant) samples. Soil abiotic variables were strongly affected by seasonality, sites, and were related to plant cover and the ecophysiological adaptation of each one. This study emphasizes the threat to soil microbial communities induced by plant invasion, especially in unique and harsh sand-dune ecosystems. This threat might also affect other organisms living in this fragile environment.
Highlights
Invasive alien plants have become a major threat to global biodiversity on many trophic levels (Levine et al, 2003), and, have become of great interest in recent years (Callaway & Maron, 2006)
The purpose of the present study was to evaluate the effect of invasive sand-stabilizing plant presence on a soil microbial community collected under the canopy of H. subaxillaris as compared with that collected under natural vegetation cover, while both species are known to have allelopathic features
A higher level of soil organic matter was found under the canopy of H. subaxillaris compared with the native plant A. monosperma, while this trend was reversed during the dry season
Summary
Invasive alien plants have become a major threat to global biodiversity on many trophic levels (Levine et al, 2003), and, have become of great interest in recent years (Callaway & Maron, 2006). Invasive vegetation can affect both plant and animal diversity (Vilà et al, 2011), having negative effects on the fauna and functional ecology of ecosystems (Williams & Karl, 2002; Traveset & Richardson, 2006; van der Putten et al, 2007a) These invasive species affect native plants in multiple ways, e.g., competition for nutrients and water, prevention of sunlight, and creation of allelopathic effects (Cronk & Fuller, 2001; Levine et al, 2003; Chen et al, 2009; Bennett et al, 2011; Dufour-Dror, 2012). A change in the plant community, such as occurs with plant invasion, will trigger a cascade of biochemical processes that can eventually change the soil biota
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