Long-term vegetation change in Louisiana tidal marshes, 1968–1992

Visser, Jenneke M.; Sasser, Charles E.; Chabreck, Robert H.; Linscombe, R. G.

doi:10.1007/bf03161746

Cited by 51 publications

(33 citation statements)

References 25 publications

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“…The extent of floating marsh in coastal Louisiana declined significantly over the period 1960-1990(Sasser et al 1986Evers et al 1992;Visser et al 1999) largely as a result of physical disturbance, saltwater intrusion and grazing by the introduced herbivore Myocastor coypus M. (Sasser et al 1986;Visser et al 1999). In areas where degradation has occurred, TMFM has converted predominantly into either open water or thin-mat floating marsh, a less structurally sound form of floating marsh characterized by a different plant community assemblage lacking P. hemitomon.…”

Section: Introductionmentioning

confidence: 97%

“…The ecology of TMFM is well studied (e.g., DeLaune et al 1986;Sasser et al 1986Sasser et al , 1991Sasser et al , 1995Swarzenski et al 1991;Visser et al 1999;Holm et al 2000) and interest in its rehabilitation and sustainable management is well supported (CWPPRA 1993;Sasser et al 1993Sasser et al , 2005. However, P. hemitomon growth response to key environmental drivers such as hydrologic regime, and to a lesser degree nutrient regime, have largely remained unstudied or the results inconclusive.…”

Section: Introductionmentioning

confidence: 98%

See 1 more Smart Citation

Growth and allocation by a keystone wetland plant, Panicum hemitomon, and implications for managing and rehabilitating coastal freshwater marshes, Louisiana, USA

Mayence

Hester

2009

Wetlands Ecol Manage

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This paper attempts to establish linkages between growth by a keystone wetland plant, Panicum hemitomon Schultes, and the independent and interactive effect of nutrient and hydrologic regime to inform management and rehabilitation of thick-mat floating marsh (TMFM). To do so a manipulative glasshouse experiment employing created TMFM similar to that under consideration for field trials and two levels each of N, P and hydrology was conducted. P. hemitomon grew vigorously under saturated (flooding level with the surface of the mat) when compared to inundated (?15 cm flooding) hydrologic conditions, and under enriched (50 g m -2 year -1 ) when compared to non-enriched (25 g m -2 year -1 ) N. Further, and as inferred from net CO 2 assimilation, shoot biomass and rhizome biomass and length, N-enriched conditions seemed to lessen inundation stress. For all variables the interaction between N and hydrology was non-significant and there was no observable effect of P. We were unable to infer root or mat buoyancy from root specific gravity measurements but it was evident at harvest that saturation or minimal flooding is required for vigorous root and rhizome growth. This study provides insight to the notion that decreased mat buoyancy (and increased flooding level) resulting from sediment deposition associated with Mississippi River diversions could adversely affect TMFM sustainability, but more clearly demonstrates the need to maintain saturated hydrologic conditions for achieving the type of root and rhizome growth we feel is required for TMFM rehabilitation.

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Section: Introductionmentioning

confidence: 97%

Section: Introductionmentioning

confidence: 98%

Growth and allocation by a keystone wetland plant, Panicum hemitomon, and implications for managing and rehabilitating coastal freshwater marshes, Louisiana, USA

Mayence

Hester

2009

Wetlands Ecol Manage

View full text Add to dashboard Cite

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“…The spatial distribution of key species and changes in community composition are perhaps the most widely used vegetation indicators of anthropogenic impacts in wetlands and the basis for adaptive management (Galatowitsch and van der Valk 1996;Weieher et al 1996;Posey et al 1997;Weinstein et al 1997;Stein and Ambrose 1998;Detenbeck et al 1999;Visser et al 1999;Mushet et al 2002;Hinkle and Mitsch 2005;Teal and Weishar 2005). Research on the effects of eutrophication on Everglades vegetation also has focused on community change, in particular the conversion of sawgrass and slough communities to monotypic cattail stands (e.g., Davis 1994;Craft et al 1995;Rutchey and Vilchek 1999).…”

Section: Discussionmentioning

confidence: 98%

Sawgrass (Cladium jamaicense) responses as early indicators of low-level phosphorus enrichment in the Florida Everglades

Smith

Leeds

McCormick

et al. 2008

Wetlands Ecol Manage

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Anthropogenic phosphorus (P) inputs to the Florida Everglades have produced dramatic changes in the wetland vegetation of this otherwise oligotrophic system. While the proliferation of undesirable plant species in response to enrichment has been well documented, nutrient-related changes in the physiological and morphological attributes of existing vegetation, prior to any shifts in species composition or changes in the spatial extent of certain taxa, have yet to be adequately characterized. In this experiment, three sawgrass-dominated areas were enriched with P for 3 years at rates of 0.4 g P/m 2 /year (HP), 0.1 g P/m 2 /year (LP), or 0 g P/m 2 /year (controls) to assess potential impacts of P-enriched discharges from stormwater treatment areas into the Everglades. Elevated concentrations of TP in rhizomes and leaves and reduced ratios of leaf N:P were detected in HP plants within *1 year at most sites. Live leaf densities, plant heights, and plant densities of the HP groups were generally higher than LP and control groups after 2 years, a pattern that was evident even after major fire events. Total aboveground biomass was significantly elevated in both HP and LP treatments at two of the three sites after 3 years. No change in species composition was detected during the study. Planned hydrologic restoration measures will increase P loads into parts of the Everglades that have not previously experienced anthropogenic P enrichment. Monitoring native vegetation such as sawgrass can be a sensitive and relatively robust means of detecting unintended P enrichment in these areas prior to shifts in vegetation community composition or changes in area cover of key species.

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“…Most of the marshes in the Louisiana delta plain no longer receive water from the Mississippi River, as it is confi ned within large levees (e.g. Visser et al 1999;Reed and Wilson 2004). When combined with high subsidence rates (potentially exacerbated by oil and gas extraction (Ko and Day 2004)) and sea level rise, these reduced freshwater infl ows can be expected to result in seawater intrusion into the freshwater marshes.…”

Section: Catchment Scale Human Impacts On Surface Water Inundationmentioning

confidence: 99%

“…In addition, large decreases in the amount of suspended sediment carried by the Mississippi River have resulted from the trapping of sediment behind dams on the Missouri and Arkansas rivers and many stream bank protection works (Mossa 1996). As discussed above, Visser et al (1999) report that most of the marshes in the Louisiana delta plain are now no longer nourished by the Mississippi River and its sediment. An accretionary defi cit, resulting from the lack of sediment, subsidence and sea level rise is leading to a shift from freshwater to saltwater marshes and a loss of land (Baumann et al 1984;Kuhn et al 1999).…”

Section: Human Infl Uences On Sediment Dynamics In Wetlandsmentioning

confidence: 99%