Radial consolidation characteristics of soft undisturbed clay based on large specimens

In recent years, reconstituted small samples have often been used to assess the performance of radial consolidation due to prefabricated vertical drains (PVDs), but the permeability and compressibility of samples of undisturbed soil often differ from those of the remoulded ones. The problem seems more complex in marine environment due to the presence of random coarse particles including gravels, shells and natural partings. Performing small-scale laboratory experiment with reconstituted samples, especially in marine environment, cannot predict the exact soil behaviour in the field. This paper describes an experimental programme that measures radial consolidation using a conventional Rowe cell and a large-scale consolidometer, where the samples of undisturbed soil obtained from a site along the Pacific Highway (north of Sydney) were compared using measured settlements and excess pore pressures. Moreover, this paper highlights the implications of the smear effect and sample size influence, which are imperative in translating the laboratory testing practices to actual real-life behaviour. The effect of vacuum pressure on the coefficient of radial consolidation of a large-scale undisturbed test specimen is also discussed. The paper demonstrates that the extent of smear zone in the field can be very similar to the large-scale laboratory consolidation test using a scaled-down drain and mandrel, but considerably different from the data obtained for small laboratory specimens

Biochemical Changes of Chickpea Genotypesbefore and After Infestation of Pulse Beetle, Callosobruchus Chinensis L. (Coleoptera: Bruchidae) During Storage

The pulse beetle is a field-to-store pest as its infestation on pulses often begins in the field itself as adults lay eggs on mature pods and when such seed is harvested and stored, the pest population increases rapidly and results in total destruction within a short period of 3-4 months. Keeping in view,varietal screening of fifty chickpea genotypes was carried outin the storage laboratory, Department of Entomology, OUAT, BBSR and the performance of the genotypes was assessed based on various biological parameters of test insect, damage and infestation by C. chinensis. The results indicated that none of the genotypes was completely resistant to pest attack whereas 4 genotypes (Himachal Chana 1, Dheera (NBeG-47), JG-14 and Dilaji) were found moderately resistant, 8 genotypes (Phule Vikram, JG 11, ICCV-181108, ICCV-181107, ICCV-181605, C-18203, C-18205 and C-18252) were moderately susceptible,11 genotypes (RVG-204, RVG-203, JAKI-9218, Pratap Chana, Bharati, ICCC 4, ICCV-181106, ICCV-181612, C-18206, ICCV-181101 and Radhey) were susceptible and 27 genotypes (NBeG-49, Himachal Chana 2, JG-16, JG-130, CO 4, Vishal, Kranthi, NBeG-3, ICCV-14102, ICCV-171117, C-18175, ICCV-181611,ICCV-14106, Kalahandi Local, ICC 3137, ICCL 86111, C-19162, C-19168,GNG 2207, BG 3043, GG 3, Birsa Chana 3, C 19199, RSG 963, C 19200, KPG 59and NBeG 119) were noticed to be highly susceptible. The bio-chemicalconstituents analyzed in the present studies viz., protein, phenol, ash and fibre contents of the genotypes contributed to the resistance / susceptibility of C. chinensis. Among the biochemical parameters, protein exerted significant positive effect whereas phenol, ash and fibre contents exhibited negative influence on pest infestation and development

Hybrid Rules with Well-Founded Semantics

A general framework is proposed for integration of rules and external first order theories. It is based on the well-founded semantics of normal logic programs and inspired by ideas of Constraint Logic Programming (CLP) and constructive negation for logic programs. Hybrid rules are normal clauses extended with constraints in the bodies; constraints are certain formulae in the language of the external theory. A hybrid program is a pair of a set of hybrid rules and an external theory. Instances of the framework are obtained by specifying the class of external theories, and the class of constraints. An example instance is integration of (non-disjunctive) Datalog with ontologies formalized as description logics. The paper defines a declarative semantics of hybrid programs and a goal-driven formal operational semantics. The latter can be seen as a generalization of SLS-resolution. It provides a basis for hybrid implementations combining Prolog with constraint solvers. Soundness of the operational semantics is proven. Sufficient conditions for decidability of the declarative semantics, and for completeness of the operational semantics are given

The Severity of Autism Is Associated with Toxic Metal Body Burden and Red Blood Cell Glutathione Levels

This study investigated the relationship of children's autism symptoms with their toxic metal body burden and red blood cell (RBC) glutathione levels. In children ages 3–8 years, the severity of autism was assessed using four tools: ADOS, PDD-BI, ATEC, and SAS. Toxic metal body burden was assessed by measuring urinary excretion of toxic metals, both before and after oral dimercaptosuccinic acid (DMSA). Multiple positive correlations were found between the severity of autism and the urinary excretion of toxic metals. Variations in the severity of autism measurements could be explained, in part, by regression analyses of urinary excretion of toxic metals before and after DMSA and the level of RBC glutathione (adjusted R2 of 0.22–0.45, P < .005 in all cases). This study demonstrates a significant positive association between the severity of autism and the relative body burden of toxic metals

A Taxonomy of Causality-Based Biological Properties

We formally characterize a set of causality-based properties of metabolic networks. This set of properties aims at making precise several notions on the production of metabolites, which are familiar in the biologists' terminology. From a theoretical point of view, biochemical reactions are abstractly represented as causal implications and the produced metabolites as causal consequences of the implication representing the corresponding reaction. The fact that a reactant is produced is represented by means of the chain of reactions that have made it exist. Such representation abstracts away from quantities, stoichiometric and thermodynamic parameters and constitutes the basis for the characterization of our properties. Moreover, we propose an effective method for verifying our properties based on an abstract model of system dynamics. This consists of a new abstract semantics for the system seen as a concurrent network and expressed using the Chemical Ground Form calculus. We illustrate an application of this framework to a portion of a real metabolic pathway