alpha-Methyl-gamma-butyrolactone and dimethyl sulfone contributed more strongly to the aroma of the SAFE oil. These results imply that the essential oils of E. alsinoides deserve further investigation in the food industry.”
“We report here exsolved phase with unusual composition (SiO2: 14-22 wt%, CaO: 4-10 wt% and Cr2O3: 17-21 wt%) from mantle peridotite
of the Cretaceous ophiolite of Rutland Island in the Andamans. This high-Si, high-Ca bearing spinel-like phase occurs in two modes as fine blebs (< 1-3 mu) within exsolved blebs of diopside and fine lamellae (< 1-7 mu) within the orthopyroxene host along with lamellae of diopside and Cr-spinel. The BSE image exhibiting a tonal character as well as the chemistry intermediate of Cr-spinel and diopside suggests that this phase exsolved from pigeonite at an intermediate stage before the exsolution of fine lamellae of Cr-spinel and diopside KU-57788 clinical trial in the orthopyroxene host.”
“Behaviour of component find protocol crops in different barley based intercropping systems under different nutrient levels was investigated in a field study conducted for two consecutive years on a sandy-clay loam soil at the University of Agriculture, Faisalabad. The nutrient levels comprised 0-0-0 (control), 100-0-0, 100-75-0, 100-75-75 kg NPK ha(-1) while intercropping systems were barley alone, barley+lentil, barley+gram, barley+methra, barley+linseed,
barley+canola. The base barley crop was sown in 75 cm spaced 4-row
strips with intercrops seeded between these strips. In all systems at different nutrient levels barley was dominant OICR-9429 cell line over all intercrops except canola in barley+canola system, where it proved to be better competitor. Barley showed higher values of aggressivity (+0.07), relative crowding coefficient (10.10) and competitive ratio (1.43) in barley+lentil intercropping system, while in barley+canola system, canola showed higher values of +0.43, 7.83 and 3.29 for aggessivity, relative crowding coefficient and competitive ratio, respectively.”
“Maize is one of the most important crops and also a model for grass genome research. Transposable elements comprise over 78% of the maize genome and their ability to generate new copies makes them good potential markers. Interretrotransposon-amplified polymorphism (IRAP) and retrotransposon microsatellite amplified polymorphism (REMAP) protocols were used for the first time in maize to study the genetic variability between maize cultivars. Ten PCR primers were selected based on a systematic analysis of the sequence conservation in the extremities of different high copy number transposable elements, whereas one primer was chosen based on a microsatellite sequence. Of the 16 primer combinations tested, 14 produced polymorphic bands. These markers were used to identify genetic similarity among 20 maize cultivars selected by their different kernel oil content.