212 research outputs found
Habitat-mediated dive behavior in free-ranging grey seals
Understanding the links between foraging behaviour and habitat use of key species is essential to addressing fundamental questions about trophic interactions and ecosystem functioning. Eight female grey seals (Halichoerus grypus) were equipped with time-depth recorders linked to Fastloc GPS tags following the annual moult in southwest Ireland. Individual dives were coupled with environmental correlates to investigate the habitat use and dive behaviour of free-ranging seals. Dives were characterised as either pelagic, benthic, or shallow (where errors in location and charted water depth made differentiating between pelagic and benthic dives unreliable). Sixty-nine percent of dives occurring in water >50 m were benthic. Pelagic dives were more common at night than during the day. Seals performed more pelagic dives over fine sediments (mud/sand), and more benthic dives when foraging over more three-dimensionally complex rock substrates. We used Markov chain analysis to determine the probability of transiting between dive states. A low probability of repeat pelagic dives suggests that pelagic prey were encountered en route to the seabed. This approach could be applied to make more accurate predictions of habitat use in data-poor areas, and investigate contentious issues such as resource overlap and competition between top predators and fisheries, essential for the effective conservation of these key marine species
Convective dynamics and the response of precipitation extremes to warming in radiative-convective equilibrium
Tropical precipitation extremes are expected to strengthen with warming, but
quantitative estimates remain uncertain because of a poor understanding of
changes in convective dynamics. This uncertainty is addressed here by analyzing
idealized convection-permitting simulations of radiative-convective equilibrium
in long-channel geometry. Across a wide range of climates, the thermodynamic
contribution to changes in instantaneous precipitation extremes follows
near-surface moisture, and the dynamic contribution is positive and small, but
sensitive to domain size. The shapes of mass flux profiles associated with
precipitation extremes are determined by conditional sampling that favors
strong vertical motion at levels where the vertical saturation specific
humidity gradient is large, and mass flux profiles collapse to a common shape
across climates when plotted in a moisture-based vertical coordinate. The
collapse, robust to changes in microphysics and turbulence schemes, implies a
thermodynamic contribution that scales with near-surface moisture despite
substantial convergence aloft and allows the dynamic contribution to be defined
by the pressure velocity at a single level. Linking the simplified dynamic mode
to vertical velocities from entraining plume models reveals that the small
dynamic mode in channel simulations (<~2 %/K) is caused by opposing
height-dependences of vertical velocity and density, together with the
buffering influence of cloud-base buoyancies that vary little with surface
temperature. These results reinforce an emerging picture of the response of
extreme tropical precipitation rates to warming: a thermodynamic mode of about
7 %/K dominates, with a minor contribution from changes in dynamics.Comment: 28 pages, 15 figures, 1 table. This work has been accepted to Journal
of the Atmospheric Sciences. The AMS does not guarantee that the copy
provided here is an accurate copy of the final published wor
Needs Driven Design Solutions In Railroad Projects
This presentation highlights state, federal, and railroad stakeholder coordination in a public-private partnership.
The Indiana Gateway Project is a 14M project which replaced the 115-year old bridge with a 1,271-foot long bridge in Greene County, IN.
The presentation also provides a brief summary of the project management oversight role HNTB Corporation assumed in both project teams as a consultant for the Indiana Department of Transportation
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