5-5 keV. MEIS offers the advantage of accurate quantification and ultimate depth resolution <1 nm but the detection limit achievable is always poorer than the
one obtained by SIMS. The comparison of the results obtained by the two techniques allows to discriminate among different SIMS quantification processes in order to individuate the best in terms of accuracy in the initial transient width and at the SiO2-silicon interface and develop quantitative model for SIMS profiles to align them to the curves as determined by MEIS. This model relies on different sputtering condition in SiO2 (such as sputtering rate and ion yield) and additionally compensates analysis behavior in SiO2/Si interface. (C) 2011 Elsevier B.V. All rights reserved.”
“Questions What is
the nature of the interactions between higher vegetation strata (overstorey) and lower strata Selleck Androgen Receptor Antagonist (understorey vegetation) and among understorey vegetation ON-01910 layers in closed canopy forests? How does the abundance or richness of one vegetation layer affect the abundance or richness of the other? Location Boreal mixed-wood forests of Ontario and Quebec, Canada. Methods We sampled fire-origin stands of varying overstorey composition from broad-leaf-dominated to mixed to conifer-dominated stands on mesic sites in Ontario and subhydric sites in Quebec. Overstorey tree species composition and understorey shrub,
herb, bryophyte and lichen species cover and richness were estimated within 400-m2 circular plots. In addition, soil nutrients, coarse woody debris and light conditions were measured. Overstorey composition Ilomastat order was expressed as the percentage basal area of broad-leaf tree species. Path analysis was used to examine interactions among the forest layers. Results Overstorey broad-leaf composition had positive effects on shrub and herb layer cover and herb layer richness, and negative effects on bryophyte and lichen species cover and richness. Shrub layer cover had no effect on herb layer cover, but shrub layer richness had a positive effect on herb layer richness. Herb layer cover and richness had negative effects on bryophyte species cover and richness. Bryophyte cover had no effect on lichen cover, but its richness was positively related to lichen richness. In both regions, soil pH, total nitrogen, total phosphorus and cation exchange capacity of the forest floor were positively correlated with overstorey broad-leaf composition and with shrub layer cover and herb layer cover. Conclusions Increasing overstorey broad-leaf composition, through its influence on soil nutrients, promotes shrub and herb layer species, but limits bryophyte and lichen species.