37 research outputs found
Ion and Electron Acoustic Bursts during Anti-Parallel Magnetic Reconnection Driven by Lasers
Magnetic reconnection converts magnetic energy into thermal and kinetic
energy in plasma. Among numerous candidate mechanisms, ion acoustic
instabilities driven by the relative drift between ions and electrons, or
equivalently electric current, have been suggested to play a critical role in
dissipating magnetic energy in collisionless plasmas. However, their existence
and effectiveness during reconnection have not been well understood due to ion
Landau damping and difficulties in resolving the Debye length scale in the
laboratory. Here we report a sudden onset of ion acoustic bursts measured by
collective Thomson scattering in the exhaust of anti-parallel magnetically
driven reconnection using high-power lasers. The ion acoustic bursts are
followed by electron acoustic bursts with electron heating and bulk
acceleration. We reproduce these observations with 1D and 2D particle-in-cell
simulations in which electron outflow jet drives ion-acoustic instabilities,
forming double layers. These layers induce electron two-stream instabilities
that generate electron acoustic bursts and energize electrons. Our results
demonstrate the importance of ion and electron acoustic dynamics during
reconnection when ion Landau damping is ineffective, a condition applicable to
a range of astrophysical plasmas including near-Earth space, stellar flares,
and black hole accretion engines
Open ocean particle flux variability from surface to seafloor
The sinking of carbon fixed via net primary production (NPP) into the ocean interior is an important part of marine biogeochemical cycles. NPP measurements follow a logânormal probability distribution, meaning NPP variations can be simply described by two parameters despite NPPâs complexity. By analyzing a global database of open ocean particle fluxes, we show that this logânormal probability distribution propagates into the variations of nearâseafloor fluxes of particulate organic carbon (POC), calcium carbonate, and opal. Deepâsea particle fluxes at subtropical and temperate timeâseries sites follow the same logânormal probability distribution, strongly suggesting the logânormal description is robust and applies on multiple scales. This logânormality implies that 29% of the highest measurements are responsible for 71% of the total nearâseafloor POC flux. We discuss possible causes for the dampening of variability from NPP to deepâsea POC flux, and present an updated relationship predicting POC flux from mineral flux and depth
Genomewide Association Studies of LRRK2 Modifiers of Parkinson's Disease.
OBJECTIVE: The aim of this study was to search for genes/variants that modify the effect of LRRK2 mutations in terms of penetrance and age-at-onset of Parkinson's disease. METHODS: We performed the first genomewide association study of penetrance and age-at-onset of Parkinson's disease in LRRK2 mutation carriers (776 cases and 1,103 non-cases at their last evaluation). Cox proportional hazard models and linear mixed models were used to identify modifiers of penetrance and age-at-onset of LRRK2 mutations, respectively. We also investigated whether a polygenic risk score derived from a published genomewide association study of Parkinson's disease was able to explain variability in penetrance and age-at-onset in LRRK2 mutation carriers. RESULTS: A variant located in the intronic region of CORO1C on chromosome 12 (rs77395454; p value = 2.5E-08, beta = 1.27, SE = 0.23, risk allele: C) met genomewide significance for the penetrance model. Co-immunoprecipitation analyses of LRRK2 and CORO1C supported an interaction between these 2 proteins. A region on chromosome 3, within a previously reported linkage peak for Parkinson's disease susceptibility, showed suggestive associations in both models (penetrance top variant: p value = 1.1E-07; age-at-onset top variant: p value = 9.3E-07). A polygenic risk score derived from publicly available Parkinson's disease summary statistics was a significant predictor of penetrance, but not of age-at-onset. INTERPRETATION: This study suggests that variants within or near CORO1C may modify the penetrance of LRRK2 mutations. In addition, common Parkinson's disease associated variants collectively increase the penetrance of LRRK2 mutations. ANN NEUROL 2021;90:82-94
Subthalamic deep brain stimulation with a constant-current device in Parkinson's disease: an open-label randomised controlled trial
Background: The effects of constant-current deep brain stimulation (DBS) have not been studied in controlled trials in patients with Parkinson\u27s disease. We aimed to assess the safety and efficacy of bilateral constant-current DBS of the subthalamic nucleus. Methods: This prospective, randomised, multicentre controlled trial was done between Sept 26, 2005, and Aug 13, 2010, at 15 clinical sites specialising in movement disorders in the USA. Patients were eligible if they were aged 18-80 years, had Parkinson\u27s disease for 5 years or more, and had either 6 h or more daily off time reported in a patient diary of moderate to severe dyskinesia during waking hours. The patients received bilateral implantation in the subthalamic nucleus of a constant-current DBS device. After implantation, computer-generated randomisation was done with a block size of four, and patients were randomly assigned to the stimulation or control group (stimulation:control ratio 3:1). The control group received implantation without activation for 3 months. No blinding occurred during this study, and both patients and investigators were aware of the treatment group. The primary outcome variable was the change in on time without bothersome dyskinesia (ie, good quality on time) at 3 months as recorded in patients\u27 diaries. Patients were followed up for 1 year. This trial is registered with ClinicalTrials.gov, number NCT00552474. Findings: Of 168 patients assessed for eligibility, 136 had implantation of the constant-current device and were randomly assigned to receive immediate (101 patients) or delayed (35 patients) stimulation. Both study groups reported a mean increase of good quality on time after 3 months, and the increase was greater in the stimulation group (4·27 h vs 1·77 h, difference 2·51 [95% CI 0·87-4·16]; p=0·003). Unified Parkinson\u27s disease rating scale motor scores in the off-medication, on-stimulation condition improved by 39% from baseline (24·8 vs 40·8). Some serious adverse events occurred after DBS implantation, including infections in five (4%) of 136 patients and intracranial haemorrhage in four (3%) patients. Stimulation of the subthalamic nucleus was associated with dysarthria, fatigue, paraesthesias, and oedema, whereas gait problems, disequilibrium, dyskinesia, and falls were reported in both groups. Interpretation: Constant-current DBS of the subthalamic nucleus produced significant improvements in good quality on time when compared with a control group without stimulation. Future trials should compare the effects of constant-current DBS with those of voltage-controlled stimulation. Funding: St Jude Medical Neuromodulation Division. © 2012 Elsevier Ltd
Agriculture: Sustainable biofuels redux
Science-based policy is essential for guiding an environmentally sustainable approach to cellulosic biofuels