8,893 research outputs found
Monitoring for the effects of climate change on the flora values of the Tasmanian Wilderness World Heritage Area
Climate change is predicted to have significant impacts on Australia's biodiversity including the flora values of the Tasmanian Wilderness
World Heritage Area (TWWHA). The current nature and direction of climate change impacts on biodiversity are uncertain. It is therefore
prudent to establish a flora monitoring framework that captures a range of aspects of the vegetation values within the TWWHA. Monitoring will assist researchers and land managers in identifying values at high risk from climate change and allow for mitigating measures to be implemented. We outline criteria for a monitoring framework and recommend 14 sites be adopted as key flora monitoring locations within western and southwestern Tasmania. The sites that have been chosen - many of which have been the focus of previous research - provide a broad coverage of TWWHA environments allowing the opportunity for existing data to be used as a baseline to measure change
Two Types of K⁺ Channel Subunit, Erg1 and KCNQ2/3, Contribute to the M-Like Current in a Mammalian Neuronal Cell
The potassium M current was originally identified in sympathetic ganglion cells, and analogous currents have been reported in some central neurons and also in some neural cell lines. It has recently been suggested that the M channel in sympathetic neurons comprises a heteromultimer of KCNQ2 and KCNQ3 (Wang et al., 1998) but it is unclear whether all other M-like currents are generated by these channels. Here we report that the M-like current previously described in NG108–15 mouse neuroblastoma x rat glioma cells has two components, “fast” and “slow”, that may be differentiated kinetically and pharmacologically. We provide evidence from PCR analysis and expression studies to indicate that these two components are mediated by two distinct molecular species of K+ channel: the fast component resembles that in sympathetic ganglia and is probably carried byKCNQ2/3 channels, whereas the slow component appears to be carried by merg1a channels. Thus, the channels generating M-like currents in different cells may be heterogeneous in molecular composition
Molecular footprints of the Holocene retreat of dwarf birch in Britain
© 2014 The Authors. Molecular Ecology Published by John Wiley & Sons Ltd. This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited
Behavioural responses of reptile predators to invasive cane toads in tropical Australia
The ecological impact of an invasive species can depend on the behavioural responses of native fauna to the invader. For example, the greatest risk posed by invasive cane toads (Rhinella marinaBufonidae) in tropical Australia is lethal poisoning of predators that attempt to eat a toad; and thus, a predator's response to a toad determines its vulnerability. We conducted standardized laboratory trials on recently captured (toad-naïve) predatory snakes and lizards, in advance of the toad invasion front as it progressed through tropical Australia. Responses to a live edible-sized toad differed strongly among squamate species. We recorded attacks (and hence, predator mortality) in scincid, agamid and varanid lizards, and in elapid, colubrid and pythonid snakes. Larger-bodied predators were at greater risk, and some groups (elapid snakes and varanid lizards) were especially vulnerable. However, feeding responses differed among species within families and within genera. Some taxa (notably, many scincid and agamid lizards) do not attack toads; and many colubrid snakes either do not consume toads, or are physiologically resistant to the toad's toxins. Intraspecific variation in responses means that even in taxa that apparently are unaffected by toad invasion at the population level, some individual predators nonetheless may be fatally poisoned by invasive cane toads. © 2013 Ecological Society of Australia
Vibrational Relaxation and Redistribution Dynamics in Ruthenium(II) Polypyridyl-Based Charge-Transfer Excited States: A Combined Ultrafast Electronic and Infrared Absorption Study
Ultrafast time-resolved
electronic and infrared absorption measurements
have been carried out on a series of Ru(II) polypyridyl complexes
in an effort to delineate the dynamics of vibrational relaxation in
this class of charge transfer chromophores. Time-dependent density
functional theory calculations performed on compounds of the form
[Ru(CN-Me-bpy)x(bpy)3‑x]2+ (x = 1–3 for compounds 1–3, respectively, where CN-Me-bpy is
4,4′-dicyano-5,5′-dimethyl-2,2′-bipyridine and
bpy is 2,2′-bipyridine) reveal features in their charge-transfer
absorption envelopes that allow for selective excitation of the Ru(II)–(CN-Me-bpy)
moiety, the lowest-energy MLCT state(s) in each compound of the series.
Changes in band shape and amplitude of the time-resolved differential
electronic absorption data are ascribed to vibrational cooling in
the CN-Me-bpy-localized 3MLCT state with a time constant
of 8 ± 3 ps in all three compounds. This conclusion was corroborated
by picosecond time-resolved infrared absorption measurements; sharpening
of the CN stretch in the 3MLCT excited state was observed
with a time constant of 3.0 ± 1.5 ps in all three members of
the series. Electronic absorption data acquired at higher temporal
resolution revealed spectral modulation over the first 2 ps occurring
with a time constant of τ = 170 ± 50 fs, in compound 1; corresponding effects are significantly attenuated in compound 2 and virtually absent in compound 3. We assign
this feature to intramolecular vibrational redistribution (IVR) within
the 3MLCT state and represents a rare example of this process
being identified from time-resolved electronic absorption data for
this important class of chromophores
The Development of the Sexual Stage, Pathogenic Specialization and a Potential Means of Controlling the Urediniophase of Sunflower Rust, 'Puccinia helianthi' schw.
Sunflower rust has been present in Australia for over a century. The uredinial stage is common and is the cause of serious yield losses in commercial sunflower crops. The complete life cycle of this macrocyclic autoecious rust has only rarely been seen in Australia and has not been studied in detail. The importance of the sexual cycle in the epidemiology of sunflower rust in Australia is therefore uncertain. The role of the sexual cycle in the origin of new pathotypes of sunflower rust in Australia is also not known. The purpose of the studies reported in this thesis were to i) investigate and describe aspects of the sexual cycle of 'Puccinia helianthi' in Australia and ii) study a means of controlling the disease through the manipulation of host genes for resistance
Pharmacists in Pharmacovigilance: Can Increased Diagnostic Opportunity in Community Settings Translate to Better Vigilance?
The pharmacy profession has undergone substantial change over the last two to three decades. Whilst medicine supply still remains a central function, pharmacist’s roles and responsibilities have become more clinic and patient focused. In the community (primary care), pharmacists have become important providers of healthcare as Western healthcare policy advocates patient self-care. This has resulted in pharmacists taking on greater responsibility in managing minor illness and the delivery of public health interventions. These roles require pharmacists to more fully use their clinical skills, and often involve diagnosis and therapeutic management. Community pharmacists are now, more than ever before, in a position to identify, record and report medication safety incidents. However, current research suggests that diagnostic ability of community pharmacists is questionable and they infrequently report to local or national schemes. The aim of this paper is to highlight current practice and suggest ways in which community pharmacy can more fully contribute to patient safety
Effect of Zinc Supplementation on Growth of Low Birth Weight Infants Aged 1–6 Mo in Ardabil, Iran
Objective To assess the effect of zinc supplementation on growth of low birth weight (LBW) infants aged 1–6 mo. Methods LBW infants were enrolled at birth and randomly assigned to receive 5 mg elemental Zn per day (n=45) or placebo (n=45) until 6 mo of age. They were followed monthly for information on compliance; anthropometric measurements were performed monthly. Results After randomization, 5 infants from zinc group and 9 from placebo group were excluded. At 6 mo of age, significantly greater weight gains were observed in the zinc than in the placebo group (4995±741g in zinc group vs. 3896±865 g in placebo group, p = 0.036). Length gain during the study period improved in zinc group (16.9±8.2 cm vs. 15.1±4.1 cm, p = 0.039); after zinc supplementation head circumference were increased (8.7±1.4 cm vs.7.4±
1.5 cm p<0.001). In male infants, total weight gain and height and head circumference gain were higher in the zinc than in the placebo group. However, only head circumference change was statistically significant. A similar trend was observed among female infants, but these differences were not statistically significant. There was no significant relation between breast-feeding status and the main outcome variables. Conclusions Infants in the present study showed improve¬ments in growth rate, but more studies are required in this field to confirm this fact
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