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Eutrophication-induced changes to benthic faunal activities are problems of significant ecological impact, affecting global
nutrient budgets as well as local trophic connections. We address the question of how nitrogen loads to estuarine embayments
alter the bioturbation activities of benthic fauna. Specifically, we related local benthic activities to calculated local
nitrogen concentrations for 22 northeastern US estuaries. These local nitrogen concentrations were derived from the calculated
nitrogen loading for the embayment together with the spatial distribution of the local flushing time. Our results showed a
maximum bioturbation rate at intermediate nitrogen concentrations or a “hump-shaped” pattern of response. This behavior was
evident in all embayments that had a range of concentrations including low, intermediate, and high values. Embayments where
sampling did not include this full range did not show this behavior. This work provides methods and guidance to help managers
make decisions concerning the effects of nitrogen loading on the activities and well-being of benthic fauna in coastal embayments.
The novelty of this approach lies in identifying the response of bioturbation to nitrogen loading in many systems, without
costly and time-consuming speciation of benthic fauna, and also in rapidly identifying embayments and aquatic areas with vulnerable
fauna. These results are ecologically significant in supporting the hypothesis that benthic organism abundance and activity
will peak at mid-levels of nitrogen due to the interplay of food availability and oxygen levels, noting that the critical
levels of these factors differ among water bodies. 相似文献
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We evaluated nekton habitat quality at 5 shallow-water sites in 2 Rhode Island systems by comparing nekton densities and biomass,
number of species, prey availability and feeding, and abundance of winter flounderPseudopleuronectes americanus. Nekton density and biomass were compared with a 1.75-m2 drop ring at 3 sites (marsh, intertidal, and subtidal) in Coggeshall Cove in Narragansett Bay and two subtidal sites (eelgrass
and macroalgae) in Ninigret Pond, a coastal lagoon. We collected benthic core samples and examined nekton stomach contents
in Coggeshall Cove. We identified 16 species of fish, 16 species of crabs, and 3 species of shrimp in our drop ring samples.
A multivariate analysis of variance indicated differences in total nekton, invertebrates, fish, and winter flounder across
the five sites. Relative abundance of benthic invertebrate taxa did not match relative abundance of prey taxa identified in
the stomachs. Nonmetric multidimensional scaling plots showed groupings in nekton and benthic invertebrate prey assemblages
among subtidal, intertidal, and marsh sites in Coggeshall Cove. Stepwise multiple regression indicated that biomass of macroalgae
was the most important variable predicting abundance of nekton in Coggeshall Cove, followed by elevation and depth. In Rhode
Island systems that do not experience chronic hypoxia, macroalgae adds structure to unvegetated areas and provides refuge
for small nekton. All sites sampled were characterized by high abundance and diversity of nekton pointing to the importance
of shallow inshore areas for production of fishes and decapods. Measurements of habitat quality should include assessment
of the functional significance of a habitat (this can be done by comparing nekton numbers and biomass), some measure of habitat
diversity, and a consideration of how habitat quality varies in time and space. 相似文献
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Estuarine Biotope Mosaics and Habitat Management Goals: An Application in Tampa Bay,FL, USA 总被引:1,自引:0,他引:1
Many types of anthropogenic stress to estuaries lead to destruction and conversion of habitats, thus altering habitat landscapes
and changing the “arena” in which the life history interactions of native fauna take place. This can lead to decreased populations
of valued fauna and other negative consequences. The Tampa Bay Estuary Program (TBEP) pioneered a system-wide management framework
that develops estuarine habitat restoration and protection goals based on supporting estuarine-dependent species and the habitat
landscapes they require (for example, the extent of seagrass beds, mangrove forests, oyster reefs, or oligohaline marshes)
within an estuary. We describe this framework and provide related statistics as methods to help managers set system-wide ecological
goals using larger conceptual approaches that are easily communicated to stakeholders and the public; we also discuss applications
of the approach to existing and evolving paradigms of estuarine management. The TBEP and partners used this framework to combine
a simple and unifying vision with a diverse and complex set of management tools, resulting in greatly improved environmental
conditions within Tampa Bay. 相似文献
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Martha Sutula Lauri Green Giancarlo Cicchetti Naomi Detenbeck Peggy Fong 《Estuaries and Coasts》2014,37(6):1532-1548
Confidence in the use of macroalgae as an indicator of estuarine eutrophication is limited by the lack of quantitative data on the thresholds of its adverse effects on benthic habitat quality. In the present study, we utilized sediment profile imagery (SPI) to identify thresholds of adverse effects of macroalgal biomass, sediment organic carbon (% OC) and sediment nitrogen (% N) concentrations on the apparent Redox Potential Discontinuity (aRPD), the depth that marks the boundary between oxic near-surface sediment and the underlying suboxic or anoxic sediment. At 16 sites in eight California estuaries, SPI, macroalgal biomass, sediment percent fines, % OC, and % N were analyzed at 20 locations along an intertidal transect. Classification and Regression Tree (CART) analysis was used to identify step thresholds associated with a transition from "reference" or natural background levels of macroalgae, defined as that range in which no effect on aRPD was detected. Ranges of 3–15 g dw macroalgae m?2, 0.4–0.7 % OC and 0.05–0.07 % N were identified as transition zones from reference conditions across these estuaries. Piecewise regression analysis was used to identify exhaustion thresholds, defined as a region along the stress–response curve where severe adverse effects occur; levels of 175 g dw macroalgae m?2, 1.1 % OC and 0.1 % N were identified as thresholds associated with a shallowing of aRPD to near zero depths. As an indicator of ecosystem condition, shallow aRPD has been related to reduced volume and quality for benthic infauna and alteration in community structure. These effects have been linked to reduced availability of forage for fish, birds and other invertebrates, as well as to undesirable changes in biogeochemical cycling. 相似文献
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