基于人工湿地的循环水产养殖系统工艺设计及净化效能

该研究首次将复合垂直流人工湿地同池塘养殖结合,通过构建养殖-湿地生态系统,验证人工湿地对水产养殖用水和废水净化与回用的可行性。近9个月的新建人工湿地运行结果表明,水力负荷从313、469、625 mm/d增加到781mm/d,人工湿地对TSS、CODC r和BOD5去除率的变动范围分别为80.5%~82.9%、45.2%~64.2%和61.0%~77.0%,对NH4+-N、NO3--N、TN去除率的变动范围分别为51.5%~67.8%-、90.6%~40.0%和29.1%~68.6%,对TP和IP的去除率

扫描电镜细胞样品制备方法的改进

国家自然科学基金资助项目 (30 170 72 6 ) ; 86 3计划项目 (2 0 0 1AA6 2 6 0 30和 2 0 0 2AA6 2 6 0 10 ) ) ; 中国科学院及其水生生物研究所院创新项 目 (KSCX2 SW 30 2和 2 2 0 313)

Lift and the leading-edge vortex

Flapping wings often feature a leading-edge vortex (LEV) that is thought to enhance the lift generated by the wing. Here the lift on a wing featuring a leading-edge vortex is considered by performing experiments on a translating flat-plate aerofoil that is accelerated from rest in a water towing tank at a fixed angle of attack of 15°. The unsteady flow is investigated with dye flow visualization, particle image velocimetry (PIV) and force measurements. Leading-and trailing-edge vortex circulation and position are calculated directly from the velocity vectors obtained using PIV. In order to determine the most appropriate value of bound circulation, a two-dimensional potential flow model is employed and flow fields are calculated for a range of values of bound circulation. In this way, the value of bound circulation is selected to give the best fit between the experimental velocity field and the potential flow field. Early in the trajectory, the value of bound circulation calculated using this potential flow method is in accordance with Kelvin's circulation theorem, but differs from the values predicted by Wagner's growth of bound circulation and the Kutta condition. Later the Kutta condition is established but the bound circulation remains small; most of the circulation is contained instead in the LEVs. The growth of wake circulation can be approximated by Wagner's circulation curve. Superimposing the non-circulatory lift, approximated from the potential flow model, and Wagner's lift curve gives a first-order approximation of the measured lift. Lift is generated by inertial effects and the slow buildup of circulation, which is contained in shed vortices rather than bound circulation. © 2013 Cambridge University Press.

银鲫3个肌球蛋白轻链基因cDNA的克隆与特征分析

国家自然科学基金 ( 30 130 2 4 0 ) ; 中国科学院知识创新工程重要方向项目 (KSCX2 SW 30 3)资助

Choosing to make an effort: the role of striatum in signaling physical effort of a chosen action.

The possibility that we will have to invest effort influences our future choice behavior. Indeed deciding whether an action is actually worth taking is a key element in the expression of human apathy or inertia. There is a well developed literature on brain activity related to the anticipation of effort, but how effort affects actual choice is less well understood. Furthermore, prior work is largely restricted to mental as opposed to physical effort or has confounded temporal with effortful costs. Here we investigated choice behavior and brain activity, using functional magnetic resonance imaging, in a study where healthy participants are required to make decisions between effortful gripping, where the factors of force (high and low) and reward (high and low) were varied, and a choice of merely holding a grip device for minimal monetary reward. Behaviorally, we show that force level influences the likelihood of choosing an effortful grip. We observed greater activity in the putamen when participants opt to grip an option with low effort compared with when they opt to grip an option with high effort. The results suggest that, over and above a nonspecific role in movement anticipation and salience, the putamen plays a crucial role in computations for choice that involves effort costs.