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Ken?M.?FritzEmail author Jack?W.?Feminella 《Aquatic Sciences - Research Across Boundaries》2011,73(4):459-469
Ecological flows between habitats are vital for predicting and understanding structure and function of recipient systems.
Ecological flows across riparian areas and headwater intermittent streams are likely to be especially important in many river
networks because of the shear extent of these interfaces, their high edge-to-width ratio, and the alternation of wet and dry
conditions in intermittent channels. While there has been substantial research supporting the importance of riparian-stream
linkages above-ground, comparatively less research has investigated below-ground linkages. We tested the hypothesis that riparian
roots are colonized by invertebrates as a food source within stream beds of intermittent headwater streams. We compared benthic
invertebrate assemblages colonizing three types of buried substrates (leaves, roots, and plastic roots) among three intermittent
Coastal Plain streams, each with a different riparian management treatment (clearcut, thinned, and reference), over a 1-year
period. Invertebrate density was significantly lower in root litterbags than in plastic roots litterbags, but neither differed
from densities in leaf litterbags. Total invertebrate abundances, however, were significantly higher in leaf and root litterbags
compared to abundances in plastic root litterbags. Invertebrate biomass and richness did not vary among substrates, but invertebrate
density, abundance, and richness all declined from the wet phase (September–December) through the dry phase (June–August).
Meiofauna and aquatic dipterans were the primary colonizing invertebrates during the wet phase. Relative abundance of terrestrial
taxa increased during the dry phase, but their absolute abundance remained lower than aquatic taxa during the wet phase. Invertebrate
composition did not differ among substrate types, but was significantly different among streams and time periods. Cumulative
number of dry days, degree days, and redox depth all strongly correlated with assemblage structure as indicated by ordination
scores. Our results suggest that subsurface invertebrates respond to leaves and roots as food sources, but assemblage composition
is not substrate specific. Colonization of leaves and roots within stream beds by aquatic and terrestrial taxa supports the
idea that headwater intermittent streams are important interfaces for the reciprocal exchange of energy and materials between
terrestrial and aquatic ecosystems. 相似文献
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Continuum model is a useful tool for approximate analysis of tall structures including moment-resisting frames and shear wall-frame
systems. In continuum model, discrete buildings are simplified such that their overall behavior is described through the contributions
of flexural and shear stiffnesses at the story levels. Therefore, accurate determination of these lateral stiffness components
constitutes one of the major issues in establishing reliable continuum models even if the proposed solution is an approximation
to actual structural behavior. This study first examines the previous literature on the calculation of lateral stiffness components
(i.e. flexural and shear stiffnesses) through comparisons with exact results obtained from discrete models. A new methodology
for adapting the heightwise variation of lateral stiffness to continuum model is presented based on these comparisons. The
proposed methodology is then extended for estimating the nonlinear global capacity of moment resisting frames. The verifications
that compare the nonlinear behavior of real systems with those estimated from the proposed procedure suggest its effective
use for the performance assessment of large building stocks that exhibit similar structural features. This conclusion is further
justified by comparing nonlinear response history analyses of single-degree-of-freedom (sdof) systems that are obtained from
the global capacity curves of actual systems and their approximations computed by the proposed procedure. 相似文献
1000.
We propose a new quantitative determination of shear wave velocities for distinct geological units in the Bohemian Massif,
Czech Republic (Central Europe). The phase velocities of fundamental Love wave modes are measured along two long profiles
(~200 km) crossing three major geological units and one rift-like structure of the studied region. We have developed a modified
version of the classical multiple filtering technique for the frequency-time analysis and we apply it to two-station phase
velocity estimation. Tests of both the analysis and inversion are provided. Seismograms of three Aegean Sea earthquakes are
analyzed. One of the two profiles is further divided into four shorter sub-profiles. The long profiles yield smooth dispersion
curves; while the curves of the sub-profiles have complicated shapes. Dispersion curve undulations are interpreted as period-dependent
apparent velocity anomalies caused both by different backazimuths of surface wave propagation and by surface wave mode coupling.
An appropriate backazimuth of propagation is found for each period, and the dispersion curves are corrected for this true
propagation direction. Both the curves for the long and short profiles are inverted for a 1D shear wave velocity model of
the crust. Subsurface shear wave velocities are found to be around 2.9 km/s for all four studied sub-profiles. Two of the
profiles crossing the older Moldanubian and Teplá-Barrandian units are characterized by higher velocities of 3.8 km/s in the
upper crust while for the Saxothuringian unit we find the velocity slightly lower, around 3.6 km/s at the same depths. We
obtain an indication of a shear wave low velocity zone above Moho in the Moldanubian and Teplá-Barrandian units. The area
of the Eger Rift (Teplá-Barrandian–Saxothuringian unit contact) is significantly different from all other three units. Low
upper crust velocities suggest sedimentary and volcanic filling of the rift as well as fluid activity causing the earthquake
swarms. Higher velocities in the lower crust together with weak or even missing Moho implies the upper mantle updoming. 相似文献