6,295 research outputs found
Studies on the forms and availability of soil organic phosphorus
Phosphorus in organic combinations makes up as much as half or more of the total phosphorus found ill the surface layers of Iowa soils, and hence might be expected to furnish a significant proportion of the phosphorus used by crops. Since little was known about the relative amounts of different organic phosphorus compounds present, the conditions under which these compounds are stabilized in the soil, and the mineralization of soil organic phosphorus compounds, these problems formed the subject of the present investigations.
It was found that phytin and its derivatives, with the exception of the monophosphate, can be separated from nucleic acid by their precipitation as calcium salts under alkaline conditions. The organic phosphorus in alkali extracts of soils is separated into two fractions by this procedure. A major part of the soil organic phosphorus behaved like phytin in that it was precipitated by calcium, and the remainder behaved like nucleic acid in that it remained soluble. Dephosphorylation tests with alkaline sodium hypobromite and with enzymes from corn roots and wheat bran showed that the soil fractions behaved like phytin and nucleic acid, respectively
Variable Linear Polarization from Sagittarius A*: Evidence for a Hot Turbulent Accretion Flow
We report the discovery of variability in the linear polarization from the
Galactic Center black hole source, Sagittarius A*. New polarimetry obtained
with the Berkeley-Illinois-Maryland Association array at a wavelength of 1.3 mm
shows a position angle that differs by 28 +/- 5 degrees from observations 6
months prior and then remains stable for 15 months. This difference may be due
to a change in the source emission region on a scale of 10 Schwarzschild radii
or due to a change of 3 x 10^5 rad m^-2 in the rotation measure. We consider a
change in the source physics unlikely, however, since we see no corresponding
change in the total intensity or polarized intensity fraction. On the other
hand, turbulence in the accretion region at a radius ~ 10 to 1000 R_s could
readily account for the magnitude and time scale of the position angle change.Comment: accepted for publication in ApJ
Bimodal AGNs in Bimodal Galaxies
By their star content, the galaxies split out into a red and a blue
population; their color index peaked around u-r=2.5 or u-r=1, respectively,
quantifies the ratio of the blue stars newly formed from cold galactic gas, to
the redder ones left over by past generations. On the other hand, upon
accreting substantial gas amounts the central massive black holes energize
active galactic nuclei (AGNs); here we investigate whether these show a
similar, and possibly related, bimodal partition as for current accretion
activity relative to the past. To this aim we use an updated semianalytic
model; based on Monte Carlo simulations, this follows with a large statistics
the galaxy assemblage, the star generations and the black hole accretions in
the cosmological framework over the redshift span from z=10 to z=0. We test our
simulations for yielding in close detail the observed split of galaxies into a
red, early and a blue, late population. We find that the black hole accretion
activities likewise give rise to two source populations: early, bright quasars
and later, dimmer AGNs. We predict for their Eddington parameter --
the ratio of the current to the past black hole accretions -- a bimodal
distribution; the two branches sit now under (mainly
contributed by low-luminosity AGNs) and around . These
not only mark out the two populations of AGNs, but also will turn out to
correlate strongly with the red or blue color of their host galaxies.Comment: 7 pages, accepted for publication in the Astrophysical Journa
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