Sharon N. Kahara scite author profile

Primary ecosystem services provided by freshwater wetlands in the California Central Valley, USA, include water quality improvement, biodiversity support, and flood storage capacity. We describe these services for freshwater marshes, vernal pools, and riparian wetlands and the implications for wetlands restored under USDA programs in the Central Valley. California's Central Valley is a large sedimentary basin that was once covered by grasslands, extensive riparian forests, and freshwater marshes that today have been converted to one of the most intensive agricultural areas on earth. Remaining freshwater wetlands have been heavily altered, and most are intensively managed. Nitrogen loading from agriculture to surface and groundwater in the Central Valley was estimated to be 34.7 × 106 kg N/yr. Atmospheric deposition of nitrogen in the Central Valley was estimated to be 44.3 × 106 kg N/yr, of which ∼1.5 × 106 kg N/yr was introduced directly to wetlands. Our analysis indicates that wetlands enrolled in the USDA Wetland Reserve Program (WRP) may potentially denitrify the NO3‐N load from relatively unpolluted source water in <18 days, but the potential to denitrify the NO3‐N load from highly polluted source water is uncertain. Water management strongly influences use, diversity, and abundance of avian fauna as well as other biota. Freshwater marshes in the region continue to support important populations of breeding and wintering waterfowl and shorebirds whose populations fluctuate seasonally. Avian diversity in the little remaining area of Central Valley's riparian wetlands is also high and influenced by stand maturity, heterogeneity, and diversity. USDA conservation practices that promote these characteristics may support avian diversity. Effects of USDA conservation practices on non‐avian fauna are poorly understood and warrant further study.

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Patterns of prey use by lesser scaup Aythya affinis (Aves) and diet overlap with fishes during spring migration

Strand

Chipps

Kahara

et al. 2007

Hydrobiologia

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Recent decline in the lesser scaup Aythya affinis population has been linked to changes in wetland conditions along their spring migration routes. In particular, the use of amphipod prey by lesser scaup has declined in many regions of the upper Midwest U.S.A. and has been linked to expanded fisheries, although empirical data on diet overlap are lacking. To explore patterns of prey use by lesser scaup and diet overlap with fishes, we quantified diets of scaup and fishes during the 2003 and 2004 spring migration in eastern South Dakota, U.S.A. We compared diet overlap between lesser scaup and fishes collected from Twin Lakes, South Dakota-an important stopover location for springmigrating scaup. Plant seeds occurred in [95% of lesser scaup diets (n = 118) and represented an appreciable amount of consumed biomass ([70%).Gastropods, amphipods, and chironomids were the most abundant invertebrate prey taxa and occurred in 29-34% of lesser scaup diets. Although relatively frequent, these taxa each contributed only 4-27% of the diet by weight. Percent dry mass of amphipods, a preferred prey by lesser scaup, was low (4%) indicating that amphipod availability may be reduced during spring migration. Analysis of fish diets showed that black bullhead Ameiurus melas and yellow perch Perca flavescens had the highest diet overlap with lesser scaup at 94% and 92%, respectively. Moreover, mean size of amphipods and chironomids found in fish diets were significantly larger than that consumed by lesser scaup. Our findings support the notion that amphipod use by spring-migrating lesser scaup has declined and that size-selective predation by fishes may influence prey availability for lesser scaup.

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Sharon N. Kahara

Spatiotemporal patterns of wetland occurrence in the Prairie Pothole Region of eastern South Dakota

Wetland ecosystem services in California's Central Valley and implications for the Wetland Reserve Program

Patterns of prey use by lesser scaup Aythya affinis (Aves) and diet overlap with fishes during spring migration

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