2,280 research outputs found
The origin of Proterozoic massif-type anorthosites: Evidence from interactions between crustal xenoliths and basaltic magma
Plagioclase-rich reaction zones occur around numerous aluminous crustal xenoliths within a suite of Palaeogene sub-volcanic basic sheets on the Isle of Mull, NW Scotland. The xenoliths consist of a glassy core, containing mullite needles, generated from the melting of pelitic source rocks. Thick plagioclase mantles grew at the interface between the aluminous liquid and the enclosing basaltic magma and provide a high-level analogue for the petrogenesis of Proterozoic massif-type anorthosites. Similar interactions between mantle-derived basic magmas ponded at the base of the crust and relatively Al-rich lower crustal lithologies would result in the precipitation of large volumes of plagioclase. Anorthosite massifs were then emplaced at higher crustal levels as crystal-rich mushes within relatively juvenile Proterozoic crust. The model negates the need to crystallize large volumes of mafic minerals prior to the production of plagioclase-saturated liquids, and also accounts for the significant influence of crustal sources on the isotopic signatures of all members of the anorthosite suite
Evaluation of resting sites of Culex quinquefasciatus and Anopheles gambiae s.l in an urban-rural transect in Jos, Nigeria
Background: The city of Jos, Nigeria, has been expanding with a consequent increase in the contact between humans and wild monkeys inhabiting the surrounding hills. Such a situation could increase the danger of the spread of zoonoses as well as arboviruses.Objective: To determine the relative monthly abundance of Culex quinquefasciatus and Anopheles gambiae s.l in three different habitats.Design: A longitudinal study.Setting: Urban-rural transect in Jos, Nigeria.Results: A total of 853 mosquitoes were collected, comprising of 98.5% Culex quinquefasciatus from all the three habitats and 1.5% Anopheles gambiae s.l only from the house habitat. The house habitat, C, yielded the most numbers of both species of mosquitoes, while the handcatch method significantly exceeded the box shelters in the yield of Culex quinquefasciatus and Anopheles gambiae s.lConclusion: The indoor resting habit observed by Cx. quinquefasciatus and An. gambiae s.l. makes indoor residual spraying and use of insecticide treated nets suitable for their control
Vibrational signature of broken chemical order in a GeS2 glass: a molecular dynamics simulation
Using density functional molecular dynamics simulations, we analyze the
broken chemical order in a GeS glass and its impact on the dynamical
properties of the glass through the in-depth study of the vibrational
eigenvectors. We find homopolar bonds and the frequencies of the corresponding
modes are in agreement with experimental data. Localized S-S modes and 3-fold
coordinated sulfur atoms are found to be at the origin of specific Raman peaks
whose origin was not previously clear. Through the ring size statistics we
find, during the glass formation, a conversion of 3-membered rings into larger
units but also into 2-membered rings whose vibrational signature is in
agreement with experiments.Comment: 11 pages, 8 figures; to appear in Phys. Rev.
Growth, yield and phenology of 2 hybrid papayas (Carica papaya L.) as influenced by method of water application
Highly variable, outcrossed papaya lines irrigated with overhead sprinklers were grown at Yarwun (151.3˚E, 23.75˚S) in Queensland, Australia. The inherent variability made scientifically based comparative studies impractical. The advent of uniform hybrid papaya lines allowed the testing of 2 of these hybrids under 3 irrigation methods, 2 of which had the potential to greatly reduce water use compared with overhead sprinklers. Yields of 92 t/ha.year were achieved by both papaya Hybrids 29 and 1E. Water application method did not influence yield. About 26% of plants were lost due to the phytoplasma diseases dieback, yellow crinkle and mosaic over the life of the trial. Downward yield fluctuations were related to poor fruit set in winter when pollinators (Family Sphingidae) were not present and growth was slow due to hot dry periods affecting fruit set. The resultant fruit (about 6 months later) were small and reduced in number.
Irrigation with overhead sprinklers using saline water (1400–4000 S/cm) damaged leaves and reduced growth of plants. Winter spot was most severe in July, August and September, in Hybrid 29 with overhead irrigation.
Height of plants 13 weeks after planting was greater under trickle irrigation due to less damage from the saline water supply than in the overhead sprinkler treatment. Hybrid 29 set fruit at 94.3 cm above ground compared with 117.6 cm for Hybrid 1E
Distribution of thermophilic endospores in a temperate estuary indicate that dispersal history structures sediment microbial communities
Endospores of thermophilic bacteria are found in cold and temperate sediments where they persist in a dormant state. As inactive endospores that cannot grow at the low ambient temperatures, they are akin to tracer particles in cold sediments, unaffected by factors normally governing microbial biogeography (e.g., selection, drift, mutation). This makes thermophilic endospores ideal model organisms for studying microbial biogeography since their spatial distribution can be directly related to their dispersal history. To assess dispersal histories of estuarine bacteria, thermophilic endospores were enriched from sediments along a freshwater‐to‐marine transect of the River Tyne in high temperature incubations (50°C). Dispersal histories for 75 different taxa indicated that the majority of estuarine endospores were of terrestrial origin; most closely related to bacteria from warm habitats associated with industrial activity. A subset of the taxa detected were marine derived, with close relatives from hot deep marine biosphere habitats. These patterns are consistent with the sources of sediment in the River Tyne being predominantly terrestrial in origin. The results point to microbial communities in estuarine and marine sediments being structured by bi‐directional currents, terrestrial run‐off and industrial effluent as vectors of passive dispersal and immigration
Cut-offs and pile-ups in shock acceleration spectra
We have examined cutoffs and pile-ups due to various processes in the spectra
of particles produced by shock acceleration, and found that, even in the
absence of energy losses, the shape of the spectrum of accelerated particles at
energies well below the nominal maximum energy depends strongly on the energy
dependence of the diffusion coefficient. This has implications in many areas,
for example, in fitting the observed cosmic ray spectrum with models based on
power-law source spectra and rigidity dependent diffusive escape from the
galaxy. With continuous energy losses, prominent pile-ups may arise, and these
should be included when modelling synchrotron X-ray and inverse Compton
gamma-ray spectra from a shock-accelerated electron population.
We have developed a Monte Carlo/numerical technique to model the shape of the
spectrum for the case of non-continuous energy losses such as inverse Compton
scattering in the Klein-Nishina regime. We find that the shapes of the
resulting cut-offs differ substantially from those arising from continuous
processes, and we suggest that such differences could be observable through
their effect on the spectrum of radiation emitted by a population of recently
accelerated electrons as, for example, may exist in young supernova remnants.Comment: 23 pages, 8 figures, submitted to Astroparticle Physic
Low acoustic transmittance through a holey structure
J. S. Bell, I. R. Summers, A. R. J. Murray, Euan Hendry, J. Roy Sambles, and Alastair P. Hibbins, Physical Review B, Vol. 85, article 214305 (2012). Copyright © 2012 by the American Physical Society.The “acoustic double fishnet” is a structure with holes running from its front to back faces, yet at a characteristic frequency it transmits very little sound. The transmittance of this structure, which is comprised of a pair of closely spaced, periodically perforated plates, is determined experimentally and analytically. The surprising acoustic properties are due to hybridization between a two-dimensional resonance within the gap between the plates, and pipe modes within the holes. At the center of the stop band the input impedance is imaginary, interpreted as a negative product of effective bulk modulus and density
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