Hydroperiod changes as clues to impacts on Cache River Riparian wetlands

Long, Katherine S.; Nestler, John M.

doi:10.1007/bf03161328

Cited by 15 publications

(8 citation statements)

References 28 publications

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“…Each parameter corresponds to a recognizable characteristic of the overall pattern of water-level fluctuations; therefore, they can be understood intuitively. The utility of the harmonic parameters has been illustrated through their application, here, in the Everglades and by Long and Nestler (1996) in a bottomland hardwood swamp in eastern Arkansas. Results were obtained simply and directly, and this suggests the potential for harmonic analysis of hydroperiod as a general tool for wetland science.…”

Section: Relationship Between Nesting Failure and Hydroperiodmentioning

confidence: 99%

“…When measured, hydroperiod is often defined to be the length of time that the wetland surface is inundated (e.g., Rowe andDunson 1995, David 1996). An exception is the recent paper by Long and Nestler (1996) in which they use harmonic analysis and other measures to investigate subtle changes in hydroperiod. Measuring hydroperiod only by the length of time of inundation does not capture all of the qualities evoked by "seasonal pattern" or "waterflow regime."…”

Section: Introductionmentioning

confidence: 99%

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Measurement of wetland hydroperiod using harmonic analysis

Nuttle¹

1997

Wetlands

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The pattern of water-level fluctuations in a wetland is its hydroperiod. Characterization of this pattern cannot be accomplished by measuring a single parameter, but some means of measuring hydroperiod is needed so that comparisons can be made both between wetlands and within a single wetland over time. Harmonic analysis can be used to characterize hydroperiod quantitatively by obtaining the amplitude and timing of the dominant periodic component in a time series of water levels. The utility of this method is demonstrated by investigating the link between water management in South Florida and nesting failure by wood storks in the Everglades wetland. With the quantitative measures of hydroperiod derived by harmonic analysis, I am able to demonslxate statistically the relationships between water management and hydroperiod in the Everglades and between hydroperiod and the probability of nesting failure. The simplicity and directness by which these results are achieved suggests the potential for harmonic analysis of hydroperiod as a general tool for wetland science.

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Section: Relationship Between Nesting Failure and Hydroperiodmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Measurement of wetland hydroperiod using harmonic analysis

Nuttle¹

1997

Wetlands

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“…These analyses can be used to quantify the relative influence of climatic variation vs. human activities on river flow. Separate analyses were conducted for several time periods (WYs 1919(WYs 1928(WYs , 1941(WYs -1950(WYs , 1951(WYs -t960, 1961(WYs -1970(WYs , 1971(WYs -1980(WYs , and 1981(WYs -1988, which were defined according to the year-composition used in a related study (Nestler and Long 1994;Long and Nestler 1996). Thus, it was possible to determine if flows were consistently related to climatic variation over time.…”

Section: Climate/flow Relationshipsmentioning

confidence: 99%

Associations between changes in agriculture and hydrology in the Cache River basin, Arkansas, USA

1996

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Impacts to the hydrology of the Cache River, a major river system in the Mississippi Alluvial Valley, were assessed by integrating hydrologic analyses with a review of historical land use changes. Extreme low flows have become more frequent in recent years, coincident with a dramatic increase in rice farming in the basin and its associated irrigation, Annual drawdowns in the alluvial aquifer were positively correlated with the annual area of rice crops. There is no evidence that a change in climatic conditions accounts for the increase in extreme low flow frequency. In fact, multiple regression analyses indicate the relationship between ctimate and flow is weakest in more recent decades when extreme low flows were more prevalent. Low flows in the summer (when rice irrigation occurs) were least associated with climate in most recent decades.Average monthly flows t-or August and September have increased, which is also an impact consistent with rice agriculture practices. Water is drained from rice fields to surface-water drainages at the end of the summer and may eventually reach the Cache River, thus increasing late summer flows. The timing and nature of changes in agricultural practices within the Cache River basin suggest agricultural impacts have contributed to the observed changes in hydrology.

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“…Reductions in fiver flows associated with hydrologic changes from diversions may alter wetland hydrology and eventually cause some wetlands to revert to uplands. A few studies have examined effects of reduced river flows on riparian communities, including wetlands, using historical gage data (e.g., Long and Nestler 1996) or historical and current aerial photography (e.g., Shoemaker et al 1981). However, little research has been conducted that would allow for predicting and quantifying effects of reduced flows on riparian wetland area.…”

Section: Introductionmentioning

confidence: 99%

“…However, little research has been conducted that would allow for predicting and quantifying effects of reduced flows on riparian wetland area. The U.S. Army Corps of Engineers and other federal agencies involved with wetland preservation and management currently do not have appropriate tools to evaluate effects of hydrologic changes on wetlands (Long and Nestler 1996).…”

Section: Introductionmentioning

confidence: 99%

Quantifying impacts to riparian wetlands associated with reduced flows along the Greybull River, Wyoming

et al. 1999

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Reductions in river flows associated with hydrologic changes from diversions may reduce water elevations and impact hydrology of riparian wetlands. The U.S, Army Corps of Engineers and other federal agencies currently do not have appropriate tools to evaluate effects of hydrologic changes on wetlands. We describe use of ttEC-RAS modeling to predict and quantify wetland impacts along 10 kin of the Greybull River, Wyoming, USA following a proposed 28,313 L/see diversion for a new off-channel reservoir. Riparian wetlands were delineated and mapped on aerial photographs and topographic maps. A water-surface-profile model of the river was developed using the HEC-RAS model. Floodplain boundaries with and without the diversion were plotted to the same scale and overlaid on the wetland maps to estimate area of wetlands that would not be flooded under the reduced flow model. The model predicted that total area flooded under the 28,313 L/sec diversion in the reach analyzed would be reduced from 167.2 to 149.7 ha and that approximately 0.47 ha of wetland would be impacted by the diversion. We believe that the procedure we used is a valid method to quantify effects of diversions on riparian wetlands and that this procedure should be further evaluated as a method to assess wetland impacts on similar projects.

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Hydroperiod changes as clues to impacts on Cache River Riparian wetlands

Cited by 15 publications

References 28 publications

Measurement of wetland hydroperiod using harmonic analysis

Measurement of wetland hydroperiod using harmonic analysis

Associations between changes in agriculture and hydrology in the Cache River basin, Arkansas, USA

Quantifying impacts to riparian wetlands associated with reduced flows along the Greybull River, Wyoming

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