Larry K. Allain 2010 <p>Studies have shown that soil nutrients, especially nitrogen (N), play an important role in the&nbsp;reestablishment of native prairie plant species. Soil N favors early succession species while long-lived native&nbsp;perennials compete favorably in N poor soils and numerous restoration studies have employed carbon additions&nbsp;in the form of sawdust and/or sucrose to immobilize soil nitrogen. However, this technique poses financial&nbsp;and logistical challenges when reconstructing coastal prairie in former agricultural fields. In this study the&nbsp;germination and survival of native prairie species were studied along a nutrient gradient established in an old&nbsp;rice field in Gueydan, Louisiana. Fifty plots, planted with seeds of 22 native prairie species, received one&nbsp;of five treatments: a low or high rate of nitrogen, no addition, and a low or high rate of carbon (sawdust and&nbsp;sucrose).&nbsp; Vegetation coverage by species was sampled every September from 2004 - 2007. Precipitation was&nbsp;well below normal from 2003 to the middle of 2006 except for April - June 2004. Above ground productivity&nbsp;showed a strong response to nitrogen levels as measured by the percentage of available sunlight reaching&nbsp;the ground. Species richness increased with increasing fertility, but despite the increase in biomass as&nbsp;fertility increased there was no statistical difference in species conservatism values with conservative species&nbsp;germinating and surviving in all treatments. These results suggest that factors other than N may influence the&nbsp;outcome of succession in coastal prairie. It is hypothesized that drought adapted prairie perennials are superior&nbsp;competitors in heavy clay prairie soils when receiving low levels of precipitation.</p> application/pdf en Winona State University The role of soil fertility in restoring Louisiana's coastal prairie text