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991.
Jonathan J. Sparks Diego Janches Michael J. Nicolls Craig Heinselman 《Journal of Atmospheric and Solar》2010,72(16):1221-1230
Over the past decade, High Power and Large Aperture (HPLA) radars have been widely utilized for the study of sub-millimeter extraterrestrial particles via the detection of the meteor head-echo. These observations have been a successful tool in the study of the sporadic meteor background, however, they have been limited by the lack of precise knowledge of the particle's location within the radar beam and its absolute trajectory and velocity. This limitation prevents for example the accurate determination of the meteors radiant and orbit. Interferometry measurements of the head-echo has been proven to be a detection technique that satisfies this need. Unfortunately very few radars are capable of performing them. We have developed a methodology which takes advantage of the multi-receiving capabilities of the 450 MHz Poker Flat Incoherent Scatter Radar (PFISR) enabling us to utilize the phased array of crossed-dipoles as an interferometer. This new PFISR capability allows us to determine the instantaneous position of meteors within the radar beam. This enables us to determine absolute velocities and ultimately meteor radiant and orbit around the Sun. In this work, we present initial results from 9 h of observations during which 142 particles were individually detected by the three different receiving channels simultaneously. For these meteors absolute velocities were obtained and meteor dynamical, physical and radiant properties were derived. 相似文献
992.
Sébastien Blaise Richard Comblen Vincent Legat Jean-François Remacle Eric Deleersnijder Jonathan Lambrechts 《Ocean Dynamics》2010,60(6):1371-1393
We describe the space discretization of a three-dimensional baroclinic finite element model, based upon a discontinuous Galerkin
method, while the companion paper (Comblen et al. 2010a) describes the discretization in time. We solve the hydrostatic Boussinesq equations governing marine flows on a mesh made
up of triangles extruded from the surface toward the seabed to obtain prismatic three-dimensional elements. Diffusion is implemented
using the symmetric interior penalty method. The tracer equation is consistent with the continuity equation. A Lax–Friedrichs
flux is used to take into account internal wave propagation. By way of illustration, a flow exhibiting internal waves in the
lee of an isolated seamount on the sphere is simulated. This enables us to show the advantages of using an unstructured mesh,
where the resolution is higher in areas where the flow varies rapidly in space, the mesh being coarser far from the region
of interest. The solution exhibits the expected wave structure. Linear and quadratic shape functions are used, and the extension
to higher-order discretization is straightforward. 相似文献
993.
The focus of this paper is the recent preparation of the Third National Physical Development Plan for Barbados. Interestingly, this blueprint for the future development of the country was prepared by Canadian consultants, under the auspices of Inter-American Development Bank funding, and thereby ostensibly represents the rolling back of the State in the context of physical development planning. The paper briefly examines the origins of town and country planning in Barbados and the wider Caribbean before critiquing the Third Plan produced in 1998. Emphasis is placed on salient issues such as operationalising sustainable development, the involvement of local stakeholders, the role of Environmental Impact Assessments (EIA) in the planning process, and the production of Community Plans. Throughout, it is shown that whilst the State appears to have been "rolled back", government has retained its strong-hold over the course of physical development planning, principally by "tactics" which have served to minimise the degree to which members of the public and non-governmental organisations (NGOs) have been able to participate. 相似文献
994.
Estimating depths of buried lava tubes is important for determining the thermal budgets and effusion rates of basaltic volcanic
systems. This research used a laboratory experiment scaled to a lava tube system to measure the 3D temperature field surrounding
a hot viscous fluid flowing through a buried glass tube while varying conditions such as flow rate and temperature. The depth
of the glass tube was changed for different experimental runs. Numerical techniques were applied to model the laboratory experiment.
The surface thermal distributions from 166 thermal traverses, constrained to a depth to width ratio of 0.6 to 1.6, were analyzed
to empirically derive a depth estimation function using regression techniques. This “Linear Anomaly Surface Transect (LAST)”
depth function is a scaleable depth estimation technique which can be solved with thermal imaging data alone. The minimum
temperature, maximum temperature and width of a Lorentzian distribution fit to a surface thermal transect, are the only inputs
required for the LAST function to estimate the depths of the hot source. The input parameters were then applied to non-laboratory
situations including the Kuhio lava tube system in Hawai’i. The LAST function produced depth estimates of ∼ 0.3 m for the
Kuhio lava tube in Hawai’i, which did not agree with observations on the ground. This is the result of the complex composition
and geometry of an actual lava tube where heat transfer is controlled by more than a simple fluid filling a tube, but also
by convection of gasses and fluids in a partially filled passage. Though not effective for lava tubes at this time, the model
provides promising results for simple cases applied to engineering and underground coal fires. 相似文献
995.
Pavel Šamonil Pavel Daněk Anna Senecká Dušan Adam Jonathan D. Phillips 《地球表面变化过程与地形》2018,43(5):1063-1072
The role of biomechanical effects of trees (BETs) in ecosystem and landscape dynamics is poorly understood. In this study, we aim to (i) describe a widely applicable methodology for quantifying the main BETs in soil, and (ii) analyze the actual frequencies, areas and soil volumes associated with these effects in a mountain temperate old‐growth forest. The research took place in the Boubínský Primeval Forest in the Czech Republic; this forest reserve, predominated by Fagus sylvatica L. and Picea abies (L.) Karst., is among the oldest protected areas in Europe. We evaluated the effects of 4000 standing and lying trees in an area of 10.2 ha from the viewpoint of the following features: tree uprooting, root mounding, bioprotection, trunk baumsteins (rock fragments displaced by trunk growth), root baumsteins, stump hole infilling, trunk and root systems displacements, depressions formed after trunk fall, stemwash, and trunkwash. BETs were recorded in 59% of standing and 51% of lying dead trees (excluding the pervasive soil displacement by thickening trunks and roots and the infilling of decayed stumps). Approximately one tenth of the trees showed simultaneous bioprotective and bioerosion effects. Different tree species and size categories exhibited significantly different biomechanical effects. A bioprotective function was the most frequent phenomenon observed, while treethrows prevailed from the viewpoint of areas and soil volumes affected. The total area influenced by the BETs was 342 m2 ha?1. An additional 774 m2 ha?1 were occupied by older treethrow pit‐mounds with already decayed uprooted trunks. The total volume of soil associated with the studied phenomena was 322 m3 ha?1, and apart from treethrows, volumes of the living and decaying root systems and bioprotective functions predominated. Other processes were not so frequent but still significant for biogeomorphology. Copyright © 2017 John Wiley & Sons, Ltd. 相似文献
996.
Jonathan S. Cheng Jonathan M. Aurnou Keith Julien Rudie P. J. Kunnen 《地球物理与天体物理流体动力学》2018,112(4):277-300
Many geophysical and astrophysical phenomena are driven by turbulent fluid dynamics, containing behaviors separated by tens of orders of magnitude in scale. While direct simulations have made large strides toward understanding geophysical systems, such models still inhabit modest ranges of the governing parameters that are difficult to extrapolate to planetary settings. The canonical problem of rotating Rayleigh-Bénard convection provides an alternate approach - isolating the fundamental physics in a reduced setting. Theoretical studies and asymptotically-reduced simulations in rotating convection have unveiled a variety of flow behaviors likely relevant to natural systems, but still inaccessible to direct simulation. In lieu of this, several new large-scale rotating convection devices have been designed to characterize such behaviors. It is essential to predict how this potential influx of new data will mesh with existing results. Surprisingly, a coherent framework of predictions for extreme rotating convection has not yet been elucidated. In this study, we combine asymptotic predictions, laboratory and numerical results, and experimental constraints to build a heuristic framework for cross-comparison between a broad range of rotating convection studies. We categorize the diverse field of existing predictions in the context of asymptotic flow regimes. We then consider the physical constraints that determine the points of intersection between flow behavior predictions and experimental accessibility. Applying this framework to several upcoming devices demonstrates that laboratory studies may soon be able to characterize geophysically-relevant flow regimes. These new data may transform our understanding of geophysical and astrophysical turbulence, and the conceptual framework developed herein should provide the theoretical infrastructure needed for meaningful discussion of these results. 相似文献
997.
Biogeomorphic keystone species profoundly impact landscapes, such that their introduction or removal would cause fundamental changes in geomorphic systems. This paper explores the concept of biogeomorphic keystone species by examining the general vs. species-specific biogeomorphic impacts (BGIs) of trees on a limestone bedrock-controlled stream, Shawnee Run, in central Kentucky. Field investigation identified three strong BGIs: (i) biogeomorphic pool formation via bioweathering; (ii) root bank-associated bioprotection; and (iii) avulsion-originated island development linked to bioprotection. This research evaluates these impacts in the context of keystone or other biogeomorphic roles. A field survey was conducted on nine stream reaches, each consisting of 10–12 hydraulic units of riffle, pool, and run. Results suggest that American sycamore (Platanus occidentalis) plays a keystone role by promoting the development of ~42% of pools in the study area. While geomorphic pools are formed by fluvial process–form linkages, these biogeomorphic pools are developed by sycamore root-induced channel bed bioweathering. Only American sycamore and chinquapin oak (Quercus muehlenbergii) exhibited root-bank development amongst 15 different species identified – and thus play a vital role in bank bioprotection. Lastly, trees can promote avulsion-originated island formation by creating erosion-resistant bioprotective patches. Mature trees (in terms of size), particularly large American sycamore and chinquapin oak, dominate Shawnee Run islands with a mean diameter at breast height (DBH) > 40 cm. However, other trees can provide comparable bioprotection, particularly at mature stages. Because its absence would result in fundamentally different stream morphology, sycamore can be considered a biogeomorphic keystone species in Shawnee Run. © 2020 John Wiley & Sons, Ltd. 相似文献
998.
999.
Ping Fu Arjen P. Stroeven Jonathan M. Harbor Jakob Heyman Clas Hättestrand Marc W. Caffee 《地球表面变化过程与地形》2019,44(4):918-932
Quantifying glacial erosion contributes to our understanding of landscape evolution and topographic relief production in high altitude and high latitude areas. Combining in situ 10Be and 26Al analysis of bedrock, boulder, and river sand samples, geomorphological mapping, and field investigations, we examine glacial erosion patterns of former ice caps in the Shaluli Shan of the southeastern Tibetan Plateau. The general landform pattern shows a zonal pattern of landscape modification produced by ice caps of up to 4000 km2 during pre-LGM (Last Glacial Maximum) glaciations, while the dating results and landforms on the plateau surface imply that the LGM ice cap further modified the scoured terrain into different zones. Modeled glacial erosion depth of 0–0.38 m per 100 ka bedrock sample located close to the western margin of the LGM ice cap, indicates limited erosion prior to LGM and Late Glacial moraine deposition. A strong erosion zone exists proximal to the LGM ice cap marginal zone, indicated by modeled glacial erosion depth >2.23 m per 100 ka from bedrock samples. Modeled glacial erosion depths of 0–1.77 m per 100 ka from samples collected along the edge of a central upland, confirm the presence of a zone of intermediate erosion in-between the central upland and the strong erosion zone. Significant nuclide inheritance in river sand samples from basins on the scoured plateau surface also indicate restricted glacial erosion during the last glaciation. Our study, for the first time, shows clear evidence for preservation of glacial landforms formed during previous glaciations under non-erosive ice on the Tibetan Plateau. As patterns of glacial erosion intensity are largely driven by the basal thermal regime, our results confirm earlier inferences from geomorphology for a concentric basal thermal pattern for the Haizishan ice cap during the LGM. © 2018 John Wiley & Sons, Ltd. 相似文献
1000.
Dibyendu Rakshit Gouri Sahu Ajit Kumar Mohanty Kamala Kanta Satpathy M.P. Jonathan K. Murugan Santosh Kumar Sarkar 《Marine pollution bulletin》2017,114(1):134-143
The feasibility of a potential bioindicator based on functional groups of microzooplankton tintinnids for bioassessments of water quality status was studied during southwest monsoon (June to September) along the coastal waters of Kalpakkam, India during 2012–2015. The work highlights the following features (1) tintinnid community composed of 28 species belonging to 11 genera and 9 families, revealed significant differences among the four study sites (2) maximum numerical abundance (2224 ± 90 ind. l? 1) and species diversity (H′ = 2.66) of tintinnid were recorded towards Bay of Bengal whereas minimum abundance (720 ± 35 ind. l? 1) and diversity (H′ = 1.74) were encountered in the backwater sites, (3) multivariate analyses [RELATE, Biota-environment (BIOENV) and canonical analysis of principal coordinates (CAP)] reveal that chl a, nitrate and phosphate were the potential causative factors for tintinnid distribution. Based on the results, we suggest that tintinnids may be used as a potential bioindicator of water quality status in marine ecosystem. 相似文献