561 research outputs found
Riparian post-fire response: factors influencing vegetation recovery and channel stability
The BLM Emergency Stability and Rehabilitation Handbook suggests a rest from grazing following wildfire for two years or until objectives are met for the recovery of vegetation and key processes. However, both land users and managers dispute this policy because of economic, ecological and social implications and little supporting scientific evidence. Riparian areas are of particular concern because of concentrated grazing-use and importance for wildlife, humans, livestock production, and hydrologic functions. This research sought to quantify rates of change and variation post-fire in riparian condition and response across channel and watershed attributes, fire severity, and pre- and post-fire grazing-use. To quantify stream recovery, we used Multiple Indicator Monitoring (MIM) of Stream Channels and Streamside Vegetation (Burton et al. 2011) because it is becoming a standard method for quantifying if riparian objectives are met. We monitored 23 streams burned in 2012 wildfires on public lands in Nevada, focusing on reaches of greatest management concern, such as those classified as functional at-risk, or with threatened species habitat or aspen stands. Watershed and stream channel characteristics were quantified in ArcGIS with the exception of stream gradient, which was measured at site. We used MIM variables that had been measured over two years as indicators of riparian condition: greenline-to-greenline width, greenline plant composition, woody species cover and height, and streambank stability and vegetation cover. Winward greenline stability and wetland indicator rating were calculated from greenline plant composition and used as metrics of ecosystem functionality. Riparian species composition was most related to variables associated with watershed position, such as substrate size, gradient, and elevation. Wetland obligate species were found at sites with high sinuosity or bank stability and within watersheds characterized by high percentage volcanic bed material. Bank cover was associated with higher position in the watershed, Winward greenline stability rating, and streambank stability. Banks were more stable with increased bank cover and decreased percent fine substrate, stream gradient, and post-fire grazing-use. Over the two-year study, bank stability decreased from 2014 to 2015 with increased post-fire grazing duration at sites with higher percent fine substrates. Bank stability, species richness, and woody species cover and height class increased with duration of recovery periods and decreased with continuous, hot season grazing-use (July-September) prior to the fires, from 2006-2012. Woody species height increased with riparian width and recovery after grazing during the growing season and decreased with stream gradient and high burn severity. Sites lower in the watershed were grazed for longer duration with shorter recovery periods during the growing season and fewer years of rest. Lower-position sites also had the greatest percent fine substrate and lowest bank cover, making them more unstable. Two-year grazing deferment may not be adequate for recovery of riparian functionality at lower watershed sites if streambank cover and stability are compromised. Continued monitoring is necessary to ascertain the required bank cover and time for recovery for these lower reaches to be resilient to the pressures of post-fire livestock grazing
Spectral projections and resolvent bounds for partially elliptic quadratic differential operators
We study resolvents and spectral projections for quadratic differential
operators under an assumption of partial ellipticity. We establish
exponential-type resolvent bounds for these operators, including
Kramers-Fokker-Planck operators with quadratic potentials. For the norms of
spectral projections for these operators, we obtain complete asymptotic
expansions in dimension one, and for arbitrary dimension, we obtain exponential
upper bounds and the rate of exponential growth in a generic situation. We
furthermore obtain a complete characterization of those operators with
orthogonal spectral projections onto the ground state.Comment: 60 pages, 3 figures. J. Pseudo-Differ. Oper. Appl., to appear.
Revised according to referee report, including minor changes to Corollary
1.8. The final publication will be available at link.springer.co
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Risks associated with obesity in pregnancy, for the mother and baby: a systematic review of reviews
Maternal obesity is linked with adverse outcomes for mothers and babies. To get an overview of risks related to obesity in pregnant women, a systematic review of reviews was conducted. For inclusion, reviews had to compare pregnant women of healthy weight with women with obesity, and measure a health outcome for mother and/or baby. Authors conducted full-text screening, quality assurance using the AMSTAR tool and data extraction steps in pairs. Narrative analysis of the 22 reviews included show gestational diabetes, pre-eclampsia, gestational hypertension, depression, instrumental and caesarean birth, and surgical site infection to be more likely to occur in pregnant women with obesity compared with women with a healthy weight. Maternal obesity is also linked to greater risk of preterm birth, large-for-gestational-age babies, foetal defects, congenital anomalies and perinatal death. Furthermore, breastfeeding initiation rates are lower and there is greater risk of early breastfeeding cessation in women with obesity compared with healthy weight women. These adverse outcomes may result in longer duration of hospital stay, with concomitant resource implications. It is crucial to reduce the burden of adverse maternal and foetal/child outcomes caused by maternal obesity. Women with obesity need support to lose weight before they conceive, and to minimize their weight gain in pregnancy
Nonlinear Instability in a Semiclassical Problem
We consider a nonlinear evolution problem with an asymptotic parameter and
construct examples in which the linearized operator has spectrum uniformly
bounded away from Re z >= 0 (that is, the problem is spectrally stable), yet
the nonlinear evolution blows up in short times for arbitrarily small initial
data.
We interpret the results in terms of semiclassical pseudospectrum of the
linearized operator: despite having the spectrum in Re z < -c < 0, the
resolvent of the linearized operator grows very quickly in parts of the region
Re z > 0. We also illustrate the results numerically
Probabilistic Weyl laws for quantized tori
For the Toeplitz quantization of complex-valued functions on a
-dimensional torus we prove that the expected number of eigenvalues of
small random perturbations of a quantized observable satisfies a natural Weyl
law. In numerical experiments the same Weyl law also holds for ``false''
eigenvalues created by pseudospectral effects.Comment: 33 pages, 3 figures, v2 corrected listed titl
Impulse oscillometry may be of value in detecting early manifestations of COPD
SummaryBackgroundSpirometry is used to diagnose chronic obstructive pulmonary disease (COPD). The Impulse oscillometry system (IOS) allows determination of respiratory impedance indices, which might be of potential value in early COPD, although previous experience is limited. We examined pulmonary resistance and reactance measured by IOS in subjects with or without self-reported chronic bronchitis or emphysema or COPD (Q+ or Q−) and subjects with or without COPD diagnosed according to the Global Initiative for Chronic Obstructive Lung Disease (GOLD) criteria (G+ or G−).MethodsFrom a previous population-based study 450 subjects were examined with spirometry and IOS and answered a questionnaire on respiratory symptoms and diseases.ResultsSeventy-seven subjects were Q+, of whom 34 also were G+. Q+/G− subjects (n = 43) reported respiratory symptoms more frequently (35–40% vs 8–14%) but had higher FEV1 (100% vs 87%) than Q−/G+ subjects (n = 90), p < 0.05 for both comparisons. Q+ subjects had higher pulmonary resistance and lower pulmonary reactance than Q− subjects (p < 0.01 for all comparisons). The same pattern was seen both in G+ subjects ((Q+/Q−) R5 0.39/0.32, R5–R20 0.10/0.07, X5 0.13/0.09, AX 0.55/0.27, p < 0.05 for all) and G− subjects ((Q+/Q−) R5 0.35/0.29, R5–R20 0.08/0.06, X5 0.10/0.08, AX 0.31/0.19 p < 0.05 for all) except for R20 (adjusted for gender and age).ConclusionsSelf-reported chronic bronchitis or emphysema or COPD was associated with higher pulmonary resistance and lower pulmonary reactance measured by IOS, both among subjects with and without COPD according to GOLD criteria. IOS may have the potential to detect pathology associated with COPD earlier than spirometry
High energy limits of Laplace-type and Dirac-type eigenfunctions and frame flows
We relate high-energy limits of Laplace-type and Dirac-type operators to
frame flows on the corresponding manifolds, and show that the ergodicity of
frame flows implies quantum ergodicity in an appropriate sense for those
operators. Observables for the corresponding quantum systems are matrix-valued
pseudodifferential operators and therefore the system remains non-commutative
in the high-energy limit. We discuss to what extent the space of stationary
high-energy states behaves classically.Comment: 26 pages, latex2
Cardiorespiratory fitness is associated with hard and light intensity physical activity but not time spent sedentary in 10–14 year old schoolchildren: the HAPPY study
Sedentary behaviour is a major risk factor for developing chronic diseases and is associated with low cardiorespiratory fitness in adults. It remains unclear how sedentary behaviour and different physical activity subcomponents are related to cardiorespiratory fitness in children. The purpose of this study was to assess how sedentary behaviour and different physical activity subcomponents are associated with 10–14 year-old schoolchildren's cardiorespiratory fitness
Soliton compression and supercontinuum spectra in nonlinear diamond photonics
We numerically explore synthetic crystal diamond for realizing novel light
sources in ranges which are up to now difficult to achieve with other
materials, such as sub-10-fs pulse durations and challenging spectral ranges.
We assess the performance of on-chip diamond waveguides for controlling light
generation by means of nonlinear soliton dynamics. Tailoring the cross-section
of such diamond waveguides allows to design dispersion profiles with custom
zero-dispersion points and anomalous dispersion ranges exceeding an octave.
Various propagation dynamics, including supercontinuum generation by soliton
fission, can be realized in diamond photonics. In stark contrast to usual
silica-based optical fibers, where such processes occur on the scale of meters,
in diamond millimeter-scale propagation distances are sufficient. Unperturbed
soliton-dynamics prior to soliton fission allow to identify a pulse
self-compression scenario that promises record-breaking compression factors on
chip-size propagation lengths
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