ARTICLE TITLE:

REFERENCE TYPE:

AUTHOR(S):

EDITOR(S):

PUBLICATION DATE:

PUBLICATION TITLE:

VOLUME:

PAGES:

ABSTRACT:

Impacts of Celastrus-primed soil on common native and invasive woodland species

Journal Article

Leicht-Young SA; Bois ST; Silander JA

2015

Plant Ecology

Invasive plant species have been shown to alter soil environments resulting in changes in soil chemistry biota and nutrient cycling. Few studies have focused on how soil changes affect co-occurring native species or plants of different growth forms. This study located in Connecticut USA focused on the soil effects of the liana Celastrus orbiculatus (oriental bittersweet) a prominent invader of eastern North America using two different approaches. In a litter addition experiment addition of C. orbiculatus leaf litter to uninvaded field soils showed an increase in soil nutrients pH and nitrogen mineralization over 2 years across a range of soil and forest community types. In a complimentary common garden-pot experiment a suite of common ecologically similar native and invasive lianas and shrubs were grown in soils primed with C. orbiculatus. Invaded soil was compared to uninvaded field and control potting soils. The change in soil attributes was not significantly different when grown with native or invasive plants; however soils grown with lianas had a greater decrease in nutrients than those grown with shrubs. Although soils from locations with C. orbiculatus were higher in nutrients than uninvaded soils plant growth as measured in root:shoot root and stem biomass relative growth rate of volume and final biomass were not different in invaded and uninvaded soils for either lianas or shrubs. However lianas had similar growth patterns in nutrient-sparse potting soil while shrubs growing in potting soil had lower growth. Thus negative impacts of invaded soils on plant growth are not universal and the plant community may show a varied response to C. orbiculatus-primed soils depending on the level of resource competition.

URL:

Support

The Liana Ecology Project is supported by Marquette University and funded in part by the National Science Foundation.