The resultant RFP generated 23 letters of intent from industry an

The resultant RFP generated 23 letters of intent from industry and academic institutions, of which three were chosen for funding.\n\nAssessing 3 clinical needs is a necessary first step in developing new technologies. A multi-faceted approach assures that the views of interested stakeholders GSK1120212 molecular weight are represented and can influence success.”
“Petrography, isocon analysis and singular value decomposition analysis of jadeitites and metasomatic rocks surrounding them from the Nishisonogi metamorphic rocks revealed that the metasomatic rocks developed outside the stability field of jadeite +

quartz after jadeitites had been included by a serpentinite melange in a subduction channel possibly during exhumation. The jadeitites occur at two localities, Tone

and Mie in Nagasaki City, from a serpentinite melange in the Nishisonogi metamorphic rocks. The jadeitite Selleck PF-04929113 mineral assemblage is jadeite/omphacite + paragonite + phlogopite + albite + clinozoisite/epidote +/- muscovite +/- analcime. Jadeite core with fine-grained quartz inclusions and the inclusion-free rim is partially replaced by albite. These jadeitites are surrounded by metasomatic zones of albitites and/or a muscovite rock. The mineral assemblage of the albitites is albite + clinozoisite/epidote +/- muscovite +/- omphacite +/- phlogopite +/- amphibole +/- chlorite, and that of the muscovite rock is muscovite + clinozoisite + chlorite. Because these zones have no high-pressure minerals, they represent products in a P-T regime outside the stability field of jadeite + quartz. Isocon analyses between the jadeitites and the metasomatic zones reveal that K2O, H2O, Sr and Ba were added to jadeitite and SiO2, Na2O and selleck compound Fe2O3 were removed. REE-rich veinlets emanate from clinozoisite grains, suggesting REE mobility during the fluid-jadeitite interactions. The metasomatic zones developed by interaction

between jadeitites and serpentinite via K-, Sr- and Ba-rich fluid, during exhumation from the stability field of jadeite + quartz through that of albite to that of analcime.”
“Different analytical techniques were used to find the most reliable and economic method for determining the labile fraction of C in biochar. Biochar was produced from pine, poplar and willow (PI, PO and WI, respectively) at two temperatures (400 and 550 degrees C) and characterised using spectroscopic techniques [solid state (13)C nuclear magnetic resonance spectroscopy (NMR)], molecular markers [pyrolysis-gas chromatography-mass spectrometry (Py-GC-MS)], thermogravimetry (TG), elemental composition and wet oxidation (potassium permanganate and potassium dichromate). Short term incubation (110 h) of an A horizon from an Umbrisol amended with the biochar samples at two doses (7.5 and 15 t ha (1)) was also carried out to provide supplementary information on the influence of biochar-soil interaction on CO(2) evolution.

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