Journal
DIVERSITY-BASEL
Volume 15, Issue 1, Pages -Publisher
MDPI
DOI: 10.3390/d15010050
Keywords
microbiome; sage scrub; mustard; germination; bacteria; fungi; restoration
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In this study, the effects of invasive mustard (H. incana) on soil microbial assemblages were examined. It was found that mustard invasions reduce soil microbial abundances by over 50% and alter soil fungal assemblages. Furthermore, low mustard germination in CSS soils supports the hypothesis of biological resistance to mustard invasion in CSS.
Although mustards (family, Brassicaceae) are common across southern California, research has not focused on the effects of type-conversion of native California sage scrub (CSS) to areas dominated by invasive mustards. To better understand how mustard invasions, primarily the short-pod mustard, Hirschfeldia incana, impact soil microbial assemblages, we examined microbial abundance and assemblages from intact CSS and adjacent mustard-dominated soils at three sites. We also explored if germination rates for various plant species differed between CSS and mustard soils. We found that mustard invasions reduce soil microbial abundances by more than 50% and alter soil fungal assemblages. Fungal richness, diversity, and evenness did not differ between habitats, highlighting that these habitats harbor unique microbial assemblages. While mustard allelopathy is predicted to be the primary driver of these changes, mustard invasions also increased soil pH. Although functional consequences of these shifts are unknown, low mustard germination in CSS soils supports biological resistance to mustard invasion in CSS. Overall, our results demonstrate that mustard invasions, H. incana in particular, exert a strong selecting force on soil microbial assemblages, which can influence effective CSS restoration and preservation of ecosystem services.
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