1,728 research outputs found
The Origin of the Density Distribution of Disk Galaxies: A New Problem for the Standard Model of Disk Formation
We present new models for the formation of disk galaxies that improve upon
previous models by following the detailed accretion and cooling of the baryonic
mass, and by using realistic distributions of specific angular momentum. Under
the assumption of detailed angular momentum conservation the disks that form
have density distributions that are more centrally concentrated than an
exponential. We examine the influence of star formation, bulge formation, and
feedback on the outcome of the surface brightness distributions of the stars.
Whereas the models are succesful in reproducing high surface brightness disks,
they fail to produce exponential disks of low surface brightness. In addition,
the models predict truncation radii in the gas that occur at too high surface
density. This signals a new problem for the standard model of disk formation:
if the baryonic component of the protogalaxies out of which disk galaxies form
have the same angular momentum distribution as the dark matter, disks are too
compact.Comment: 20 pages, 13 figures. To be published in MNRA
Quantitative resistance can lead to evolutionary changes in traits not targeted by the resistance QTLs
This paper addresses the general concern in plant pathology that the introduction of quantitative resistance in the landscape can lead to increased pathogenicity. Hereto, we study the hypothetical case of a quantitative trait loci (QTL) acting on pathogen spore production per unit lesion area. To regain its original fitness, the pathogen can break the QTL, restoring its spore production capacity leading to an increased spore production per lesion. Or alternatively, it can increase its lesion size, also leading to an increased spore production per lesion. A data analysis shows that spore production per lesion (affected by the resistance QTL) and lesion size (not targeted by the QTL) are positively correlated traits, suggesting that a change in magnitude of a trait not targeted by the QTL (lesion size) might indirectly affect the targeted trait (spore production per lesion). Secondly, we model the effect of pathogen adaptation towards increased lesion size and analyse its consequences for spore production per lesion. The model calculations show that when the pathogen is unable to overcome the resistance associated QTL, it may compensate for its reduced fitness by indirect selection for increased pathogenicity on both the resistant and susceptible cultivar, but whereby the QTLs remain effective
Cassava brown streak disease and the sustainability of a clean seed system
One method of reducing disease in crops is the dissemination of disease-free planting material from a multiplication site to growers. This study assesses the validity and sustainability of this method for cassava brown streak disease, a threat to cassava crops across East Africa. Using mathematical modelling, the effects of different environmental and control conditions on pathogen spread were determined in a single-field multiplication site. High disease pressure, through large vector populations and disease in the surrounding area, combined with poor roguing practice, resulted in unsuccessful disease suppression. However, fields may produce sufficiently clean material for replanting if these factors can be overcome. Assessing the sustainability of a low-pressure system over multiple harvests, well-managed fields were found to maintain low disease levels, although producing sufficient cuttings may prove challenging. Replanting fields from the previous harvest does not lead to degeneration of planting material, only cutting numbers, and the importation of new clean material is not necessarily required. It is recommended that multiplication sites are only established in areas of low disease pressure and vector population density, and the importance of training in field management is emphasized. Cultivars displaying strong foliar symptoms are to be encouraged, as these allow for effective roguing, resulting in negative selection against the disease and reducing its spread. Finally, efforts to increase plant multiplication rates, the number of cuttings that can be obtained from each plant, have a significant impact on the sustainability of sites, as this represents the primary limiting factor to success
Evidence for a 3 x 10^8 solar mass black hole in NGC 7052 from HST observations of the nuclear gas disk
We present an HST study of the nuclear region of the E4 radio galaxy NGC
7052, which has a nuclear disk of dust and gas. The WFPC2 was used to obtain B,
V and I broad-band images and an H_alpha+[NII] narrow-band image. The FOS was
used to obtain H_alpha+[NII] spectra along the major axis, using a 0.26 arcsec
diameter circular aperture. The observed rotation velocity of the ionized gas
is V = 155 +/- 17 km/s at r = 0.2 arcsec from the nucleus. The Gaussian
dispersion of the emission lines increases from sigma = 70 km/s at r=1 arcsec,
to sigma = 400 km/s on the nucleus.
To interpret the gas kinematics we construct axisymmetric models in which the
gas and dust reside in a disk in the equatorial plane of the stellar body. It
is assumed that the gas moves on circular orbits, with an intrinsic velocity
dispersion due to turbulence. The circular velocity is calculated from the
combined gravitational potential of the stars and a possible nuclear black hole
(BH). Models without a BH predict a rotation curve that is shallower than
observed (V_pred = 92 km/s at r = 0.2 arcsec), and are ruled out at > 99%
confidence. Models with a BH of 3.3^{+2.3}_{-1.3} x 10^8 solar masses provide
an acceptable fit.
NGC 7052 can be added to the list of active galaxies for which HST spectra of
a nuclear gas disk provide evidence for the presence of a central BH. The BH
masses inferred for M87, M84, NGC 6251, NGC 4261 and NGC 7052 span a range of a
factor 10, with NGC 7052 falling on the low end. By contrast, the luminosities
of these galaxies are identical to within 25%. Any relation between BH mass and
luminosity, as suggested by independent arguments, must therefore have a
scatter of at least a factor 10.Comment: 39 pages, LaTeX, with 16 PostScript figures. Submitted to the
Astronomical Journal. Postscript version with higher resolution figures
available from http://sol.stsci.edu/~marel/abstracts/abs_R22.htm
Dwarf Galaxy Rotation Curves and the Core Problem of Dark Matter Halos
The standard cold dark matter (CDM) model has recently been challenged by the
claim that dwarf galaxies have dark matter halos with constant density cores.
Consequently, numerous alternative dark matter candidates have recently been
proposed. In this paper, we scrutinize the observational evidence for the
incongruity between dwarf galaxies and the CDM model. To this end, we analyze
the rotation curves of 20 late-type dwarf galaxies studied by Swaters (1999).
Taking the effects of beam-smearing and adiabatic contraction into account, we
fit mass models to these rotation curves with dark matter halos with different
cusp slopes, ranging from constant density cores to r^{-2} cusps. Uncertainties
in the stellar mass-to-light ratio and the limited spatial sampling of the
halo's density distribution hamper a unique mass decomposition. Consequently,
the rotation curves in our sample cannot be used to discriminate between dark
halos with constant density cores and r^{-1} cusps. We show that the dwarf
galaxies analyzed here are consistent with cold dark matter halos in a LCDM
cosmology, and that there is thus no need to abandon the idea that dark matter
is cold and collisionless. However, the data is also consistent with any
alternative dark matter model that produces dark matter halos with central
cusps less steep than r^{-1.5}. In fact, we argue that based on existing
rotation curves alone at best weak limits can be obtained on cosmological
parameters and/or the nature of the dark matter.Comment: 33 pages, 24 figures. Accepted for publication in MNRAS. Several
small changes made plus one Figure adde
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