We show that although the most commonly used techniques do not, on average, produce large systematic biases, gap filling accuracy may be significantly improved through application of the most reliable methods. All methods performed best at lower gap fractions and had relatively high, systematic errors for simulated survey measurements. Overall, the most accurate technique estimated Rsoil based on the soil temperature dependence of Rsoil by assuming constant temperature sensitivity and linearly interpolating reference respiration (Rsoil at 10 degrees C) across gaps. The linear LY2835219 nmr interpolation method was the second best-performing method. In contrast, estimating Rsoil based on a single
annual Rsoil Tsoil relationship, which is currently the most commonly used technique, was among the most poorly-performing methods. Thus, our analysis demonstrates that gap filling Napabucasin cell line accuracy may be improved substantially without sacrificing computational simplicity.
Improved and standardized techniques for estimation of annual Rsoil will be valuable for understanding the role of Rsoil in the global C cycle.”
“Rationale, aims and objectives Evidence-based medicine and clinical guidelines have been found difficult to implement in the clinical practice – mainly because lack of evidence quality and guidelines that, generally, do not account for variations in the medical cases. Variation in the medical cases enhances task uncertainty and uncertainty seems to be further enhanced through clinical guidelines. In
this article, concept development is attempted, where task uncertainty is classified into a few medical Napabucasin nmr problem-solving processes according to differences in medical technology and in the (initial) perception of the medical problem. Furthermore is argued the need for using different strategies in evaluating performance quality in medical health care depending on the variation in the degree of task uncertainty. Method Qualitative data about medical activities related to certain diseases are used to exemplify problem-solving processes representing different types of task uncertainty. Results It is argued that the main characteristics of medical problem-solving processes vary according to differences in medical technology and perception of perceived medical problem. Four main medical problem-solving processes are defined and demonstrated through empirical examples. Conclusion What may be regarded as rational behaviour is different for each type of problem-solving processes. Consequently, the processes need different organizational settings and need to be evaluated according to different criteria. Furthermore, from a practical point of view, development and education related to problem perception would seem as important as development of medical technology.”
“Neurocognitive abilities constitute complex traits with considerable heritability.