Beyond the social license to operate: Whole system approaches for a socially responsible mining industry

The demand for minerals, metals and rare-earth elements is rapidly growing to support the transition to low-carbon energies, and the mining industry must increase its supply while facing complex Environmental, Social and Governance (ESG) risks. Traditionally relying on its engineering expertise to maximize ore extraction, the sector must now find ways to sustain its production while facing increased scrutiny from the public, civil societies and shareholders alike. The paper reviews current practice in sustainability assessment to highlight sector-specific characteristics and the notion of trust as central to effective project developments. Because the social interface of extractive operations is complex, dynamic and non-linear in nature, we recommend going beyond the aim of obtaining a social license to operate and use Systems Thinking to fully embed Corporate Social Responsibility (CSR) at the core of strategic mine planning. System Dynamics can foster interdisciplinary collaborations by bridging together social and technical flows within simulation models to identify sustainable levers of change. We present the development of a stock and flow model quantifying causal mechanisms between the use of cyanide, the environment, communities and public trust, and operational productivity. Industry practitioners, researchers and facilitators can use the model as an adaptable framework to engage with systems modelling in mining. We recommend its use in conjunction with meaningful stakeholder's engagement to ensure shared understanding, reduced uncertainty and long-term benefits for all

Cellular preservation of musculoskeletal specializations in the Cretaceous bird Confuciusornis

The hindlimb of theropod dinosaurs changed appreciably in the lineage leading to extant birds, becoming more ‘crouched’ in association with changes to body shape and gait dynamics. This postural evolution included anatomical changes of the foot and ankle, altering the moment arms and control of the muscles that manipulated the tarsometatarsus and digits, but the timing of these changes is unknown. Here, we report cellular-level preservation of tendon- and cartilage-like tissues from the lower hindlimb of Early Cretaceous Confuciusornis. The digital flexor tendons passed through cartilages, cartilaginous cristae and ridges on the plantar side of the distal tibiotarsus and proximal tarsometatarsus, as in extant birds. In particular, fibrocartilaginous and cartilaginous structures on the plantar surface of the ankle joint of Confuciusornis may indicate a more crouched hindlimb posture. Recognition of these specialized soft tissues in Confuciusornis is enabled by our combination of imaging and chemical analyses applied to an exceptionally preserved fossil

Disaster relief operations: past, present and future

The aim of the preface is to introduce the scope of this special issue (SI). We explain our editorial approach and summarise our findings based on articles included in this SI. Finally, we outline future research questions which stemmed out of the discussions of this SI

Effect of Monosodium glutamate on rat cerebellum

Background and Objective: Monosodium glutamate (MSG) is used as a food additive. Several studies have reported the adverse effects of Monosodium glutamate on the testis and brain. This study was performed to determine the effect of Monosodium glutamate in rat cerebellum. Methods: In this experimental study, 24 adult wistar rats randomly allocated into three groups including experiment A, experiment B and control (C). The animals in experiment A and B were received 3g and 6g of MSG thoroughly mixed with their feeds for 14 days, respectively. Animals in control group were received MSG free diet. Food and water for rats to be free in all of experimental time. The rats were sacrificed on fifteen day. The cerebellum dissected and fixed with formalin 10% buffer and stained with hematoxylin and eosin. Results: Disorders and detachment were observed in Purkinje and granular cell layers. Neural cell distribution in granular layer redeuced in the experimental groups. Cellular degenerative changes in the granular layer of the experimental B were more severe than experimental group A. The mean number of neuron of the granular layer in the experimental A, B and control groups were 2750, 2140 and 3150, respectively. Conclusion: The consumption of monosodium glutamate dose dependly causes histopathological changes and reduces the number of the cerebellumllar neurons in adult rat

Determination of pediatric poisoning factors in children

Background and Objective: Poisoning is a major public health problem and a serious form of the common causes of hospital emergency visits in many countries. Incidence of toxicity based on cultural and economic characteristics of communities are varied. This study was done to determine the pediatric poisoning factors in children. Methods: This descriptive-cross sectional study was performed on 201 patients younger than 12 years old with posinnig symptoms whom referred to hospitals in Shahroud city of central part of Iran from April 2011 to March 2012. Demogaphic data, posinnig symptoms, posinnig agents, time of hospitalization and outcome of posinnig for each child were recored in quetionare. Results: Opium was the most common consumed material with (51.2%) while metadon considered to be the major opium. 180 (89.6%) and 21 (10.4%) children were poisoned accidentaly by their parant respectively. The clinical manifestation of the affected children were 15 (7.5%), 11 (5.5%), 93 (46.3%), 26 (12.9%), 19 (2.5%) and 22 (10.9%) without any symptoms, neuro-respiratory, nervous, gastrointestinal, gastrointestinal-respriatory and weakness respectively. Two children were died in the course of this project. There was a significant statistical correlation between the reason for poisoning and age parant education level and type of poisoning. Also, there was a relation between the type of poisoning and place of residence (P<0.05). Conclusion: This study shows that the most common cause of poisoning among children was opiums

The new suite of breakage characterisation tests

The JKMRC researchers have been redeveloping the suite of breakage testing techniques to more realistically align with the breakage environment in comminution equipment. Computational modelling, especially with the DEM, has highlighted the modes of impact and contact, along with the energies of these interactions in a wide range of equipment. This has driven the need to match these modes in laboratory ore characterisation tests. The objective has been to build a continuum of breakage tests and associated models that span the required range of breakage forces and environments. The ore sample is subjected to a sequence of tests covering: abrasion (surface breakage) of angular through to smoothed particles; single particle impact from high energy single impact breakage down to low energy; incremental breakage covering 60 mm down to 50 µm particles; particle strength distribution; and bed breakage over a range of compression and energy input. These tests are suited to multi-component ores with a distribution of strengths. A modelling technique is also being developed to utilise primary breakage for modelling breakage under different types of confinement. This paper draws together these techniques, previously published by the authors, into a coherent whole. The suite of tests is approaching the point where a fixed set of tests can be used to model the performance of a full range of equipment, removing the need to conduct repeat ore characterisation tests for each different piece of equipment incorporated in a circuit design. This path should open up the application of different circuit configurations and novel equipment in comminution circuit design

Effect of 8 weeks aerobic training on plasma apelin in male rats treated with L-NAME

Background: Evidence supports the systemic inflammation in obesity and insulin resistance. Apelin is secreted by adipose tissue and plays an important role in the inflammation process. The present study aimed to examine the effect of 8 weeks aerobic training on plasma Apelin in male rats treated with Nitro-L-Arginine-Methyl Ester (L-NAME). Materials and Methods: In this experimental study male Wistar rats (n=24, age 20 months) were randomly assigned into four groups: Control, Training, TrainingS+L-NAME and L-NAME. An aerobic training protocol was performed for eight weeks, 5 times a week with an intensity of 75-80 of maximal oxygen consumption. The rats were sacrificed 72 hours after the last exercise session and blood samples were collected. Data were analyzed by ANOVA and Tukey post hoc test at P&lt;0.05 significancy level. Results: The results showed that plasma Apelin level did not change significantly after eight weeks of aerobic training compared to the Control group. However, the results showed that there was a significant difference in plasma Apelin between L-NAME and Control group (P&lt;0.003). In addition, the results showed no significant difference between the insulin level and glucose in four groups. Conclusion: It seems that with increasing age plasma Apelin level is not affected by aerobic exercise. However, nitric oxide inhibitors can reduce the plasma Apelin level

An aza-nucleoside, fragment-like inhibitor of the DNA repair enzyme alkyladenine glycosylase (AAG)

The DNA repair enzyme AAG has been shown in mice to promote tissue necrosis in response to ischaemic reperfusion or treatment with alkylating agents. A chemical probe inhibitor is required for investigations of the biological mechanism causing this phenomenon and as a lead for drugs that are potentially protective against tissue damage from organ failure and transplantation, and alkylative chemotherapy. Herein, we describe the rationale behind the choice of arylmethylpyrrolidines as appropriate aza-nucleoside mimics for an inhibitor followed by their synthesis and the first use of a microplate-based assay for quantification of their inhibition of AAG. We finally report the discovery of an imidazol-4-ylmethylpyrrolidine as a fragment-sized, weak inhibitor of AAG