Thursday, August 5, 2010: 10:30 AM
409, David L Lawrence Convention Center
Annelein Meisner, Department of Terrestrial Ecology, Netherlands Institute of Ecology, Wageningen, Netherlands, Wietse De Boer, Department of Microbial Ecology, Netherlands Institute of Ecology, Wageningen, Netherlands and Wim H. Van der Putten, Terrestrial Ecology, Netherlands Institute of Ecology, Wageningen, Netherlands
Background/Question/Methods Due to climate warming, plants can expand their range to higher latitudes. Some of these exotic range-expanding plants may become invasive in the new range. When exotic range-expanding plants establish in the new range, new interactions between soil microbes and plants can alter rhizosphere-driven nutrient mineralization and litter decomposition. To study these interactions, two experiments were performed: one in a greenhouse and one in a climate chamber. In the greenhouse, we studied if exotic range-expanding plants might alter rhizosphere nutrient mineralization and plant nutrient acquisition compared with congeneric natives. In the climate chamber, we studied if litter of range-expanding plants might alter soil nutrient availability and litter feedback to plant biomass production. We compared exotic and related native plants.
Results/Conclusions We observed species-specific differences in rhizosphere nutrient mineralization and plant nutrient acquisition, but no consistent differences between exotic range-expanding plants and congeneric natives. We also found species-specific differences in soil nutrient availability and litter feedback to plant biomass production, but soil N availability was increased more often by litter of exotic range-expanding plants than of related native plants. This increase in soil N availability resulted in increased biomass production for both exotic range-expanding and related native plants. Our results suggest that exotic range-expanding plants may alter N cycling, but that these effects are species-specific and not consistently different between plant origins. If litter of exotic range-expanders increases N cycling, this can create a positive feedback to plant biomass production for both exotic range-expanding and native plants.