Add to ORKGUndergraduate Research Exper.The results of this study show the strong impact of Typha legacy and water level factors on total DN. As Typha invades, the buildup of organic matter from accumulation and subsequent decomposition of litter leads to an overall increase in available organic carbon to denitrifying soil microbes that increases their potential total DN rates. The concomitant drying of wetland soils due to excess buildup of organic matter and subsequent terrestrialization, however, has the capability to significantly reduce a wetland’s ability to denitrify (Figure 8). From these findings, we propose the flooding of invaded and terrestrialized wetlands as a possible wetland management strategy for the restoration of DN potenti...
Typha x glauca (hybrid cattail) is an aggressive invader of wetlands in the upper Midwest, USA. Ther...
We quantified how control of a ubiquitous Great Lakes region invasive (Typha × glauca) shifts plant-...
The University Archives has determined that this item is of continuing value to OSU's history
Invasive species are one of the major threats to the integrity and health of Great Lakes coastal wet...
Undergraduate Research Exper.The results of the mesocosm experiment suggest that the effects of Typh...
The invasive hybrid cattail, Typha x glauca (hereafter, Typha) forms dense monocultural stands in th...
Undergraduate Research Exper.Across the globe, freshwater ecosystems play vital roles in global nutr...
Wetland ecosystems maintain and improve water quality through the process of denitrification, an inc...
Some species introduced into new regions have the potential to greatly impact native diversity and e...
General EcologyTypha x glauca is an invasive plant species growing in Cheboygan Marsh, which is loca...
The University Archives has determined that this item is of continuing value to OSU's history.Denitr...
General Ecologyypha x glauca is a hybrid, invasive species to northern Michigan. In the Cheboygan m...
Although harvesting invasive species can promote biodiversity during wetlands restoration, there is ...
Wetlands occupy a position in the landscape that makes them vulnerable to the effects of current lan...
The University Archives has determined that this item is of continuing value to OSU's history.Season...
Typha x glauca (hybrid cattail) is an aggressive invader of wetlands in the upper Midwest, USA. Ther...
We quantified how control of a ubiquitous Great Lakes region invasive (Typha × glauca) shifts plant-...
The University Archives has determined that this item is of continuing value to OSU's history
Invasive species are one of the major threats to the integrity and health of Great Lakes coastal wet...
Undergraduate Research Exper.The results of the mesocosm experiment suggest that the effects of Typh...
The invasive hybrid cattail, Typha x glauca (hereafter, Typha) forms dense monocultural stands in th...
Undergraduate Research Exper.Across the globe, freshwater ecosystems play vital roles in global nutr...
Wetland ecosystems maintain and improve water quality through the process of denitrification, an inc...
Some species introduced into new regions have the potential to greatly impact native diversity and e...
General EcologyTypha x glauca is an invasive plant species growing in Cheboygan Marsh, which is loca...
The University Archives has determined that this item is of continuing value to OSU's history.Denitr...
General Ecologyypha x glauca is a hybrid, invasive species to northern Michigan. In the Cheboygan m...
Although harvesting invasive species can promote biodiversity during wetlands restoration, there is ...
Wetlands occupy a position in the landscape that makes them vulnerable to the effects of current lan...
The University Archives has determined that this item is of continuing value to OSU's history.Season...
Typha x glauca (hybrid cattail) is an aggressive invader of wetlands in the upper Midwest, USA. Ther...
We quantified how control of a ubiquitous Great Lakes region invasive (Typha × glauca) shifts plant-...
The University Archives has determined that this item is of continuing value to OSU's history