1,693 research outputs found
Distribution of \u3ci\u3eStrongylium Crenatum\u3c/i\u3e (Coleoptera: Tenebrionidae) in the United States and First Record From Iowa
Strongylium crenatum Mäklin (Coleoptera: Tenebrionidae) is reported from Iowa for the first time. After discovering that Iowa represented a large range extension for this species, label data were collected to update its range. Numerous insect collections and references were checked and specimens representing 17 states were located
New State Records for \u3ci\u3ePerillus Strigipes\u3c/i\u3e (Heteroptera: Pentatomidae: Asopinae)
The stink bug Perillus strigipes is reported from Alabama, Iowa, Kansas, Louisiana, Maine, and Mississippi for the first time. This insect species has a wide distribution but generally is seldom collected
First Report of Leptomantispa pulchella (Banks, 1912) (Neuroptera: Mantispidae) from Iowa
An adult specimen of Leptomantispa pulchella (Banks) (Neuroptera: Mantispidae) was collected in southeast Iowa. Published records indicate the species is present in southwestern Canada and much of Central America, but this is the first published report of this species from Iowa
Fluid Interpretation of Cardassian Expansion
A fluid interpretation of Cardassian expansion is developed. Here, the
Friedmann equation takes the form where contains
only matter and radiation (no vacuum). The function g(\rhom) returns to the
usual 8\pi\rhom/(3 m_{pl}^2) during the early history of the universe, but
takes a different form that drives an accelerated expansion after a redshift . One possible interpretation of this function (and of the right hand
side of Einstein's equations) is that it describes a fluid with total energy
density \rho_{tot} = {3 m_{pl}^2 \over 8 \pi} g(\rhom) = \rhom + \rho_K
containing not only matter density (mass times number density) but also
interaction terms . These interaction terms give rise to an effective
negative pressure which drives cosmological acceleration. These interactions
may be due to interacting dark matter, e.g. with a fifth force between
particles . Such interactions may be intrinsically four
dimensional or may result from higher dimensional physics. A fully relativistic
fluid model is developed here, with conservation of energy, momentum, and
particle number. A modified Poisson's equation is derived. A study of
fluctuations in the early universe is presented, although a fully relativistic
treatment of the perturbations including gauge choice is as yet incomplete.Comment: 25 pages, 1 figure. Replaced with published version. Title changed in
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Effects of vertical vibration on hopper flows of granular material
The discharge of granular material from a hopper subject to vertical sinusoidal oscillations was investigated using experiments and discrete element computer simulations. With the hopper exit closed, side-wall convection cells are observed, oriented such that particles move up along the inclined walls of the hopper and down at the center line. The convection cells are a result of the granular bed dilation during free fall and the subsequent interaction with the hopper walls. The mass discharge rate for a vibrating hopper scaled by the discharge rate without vibration reaches a maximum value at a dimensionless velocity amplitude just greater than 1. Further increases in the velocity decrease the discharge rate. The decrease occurs due to a decrease in the bulk density of the discharging material when vibration is applied
Chloroquine-resistant Plasmodium falciparum malaria in the Kavango region of Namibia
The sensitivity to chloroquine of Plasmodium falciparum from the Kavango region of Namibia was determined by a 24-hour test in vitro. Twenty-six Isolates were successfully tested, of which 11 were resistant to a low degree, schizogony being inhibited at 8 pmollwell. The results of the Dill-Glazko test for the presence of 4-amlnoquinolines in urine indicate that chloroquine is not Widely used in the area
The Vascular Flora of Clay Prairie State Preserve (Butler County, Iowa): Recommendations to the Iowa State Preserve System
Clay Prairie State Preserve (1.2 ha) is an upland prairie located in Butler County, IA, and represents one of the last remnants of black-soil tallgrass prairie in northeast Iowa. An annotated checklist of the vascular flora of Clay Prairie is presented here, based on a previously published flora of the preserve and recent field work conducted by the authors between 1997 to 2001, and 2008 to 2011. The preserve contains a diverse vascular flora representing 50 families, 145 genera and 214 taxa (174 native to Iowa). In comparison with 26 larger prairies (4 to 121 ha) protected in the Iowa state preserves system, the Clay Prairie flora ranks 10th in total number of native Iowa prairie plant taxa (135 taxa) and 10th in total number of native Iowa prairie plant taxa assigned high (7 to 10) values of the Iowa Conservation Coefficient (55 taxa). As a remnant of formerly much more extensive tallgrass prairie in Iowa, Clay Prairie protects individual plant taxa, plant assemblages, and ecological and evolutionary processes, while providing opportunities for people to experience native prairie. The floristic comparisons presented in this paper suggest that the floras of many other prairies protected in the Iowa State Preserves system are not thoroughly documented. Hence, we recommend that floristic studies of these other prairie preserves be undertaken to include documentation of the entire flora by voucher specimens. We also encourage site managers of prairies in the Iowa State Preserves system to prepare annual reports summarizing management and educational activities that occur in these preserves
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