Computer-Aided Cut-off Grade Optimisation for Open Pit Mines

A mine planning team is tasked among other duties with designing a feasible mine plan which in turn maps out the daily running of the mining project. A mine plan revolves around a cut-off grade which is thoughtfully and uniquely selected while considering various aspects such as grade tonnage distribution, economic and operational parameters specific to a mine. Selection of a cut-off grade can be a daunting task often involving iterative and lengthy mathematical formulas which take huge amounts of time to execute, often leaving room for error. In the occurrence of such errors, a mining project can be faced with sequential outcomes that could even lead to premature closure. The cut-off grade is therefore a strategic variable that determines the economic viability of a mine, and hence return on investment. It is critical that the cut-off grade is optimal so as to maximise the net present value. Lane’s approach is a model that utilises several steps to yield one cut-off grade value. This algorithm is flexible and can be adjusted to include other factors specific to a mine. Regrettably, many mining companies continue to operate using inaccurate cut-off grades wrongly calculated or assumed. This has continuously led to frustrations due to losses and prematurely abandoned mines. This study focused on the development and implementation of an easy to use computer application based on Lane’s approach that runs on Windows platform, and hence targeting a larger user base for choosing an optimum cut-off grade for open pit mines. Keywords: Cut-Off Optimisation, Cut-Off Optimiser, Optimum Cut-Off Grades, Whittl

Nutritional diversity of leafy amaranth species grown in Kenya

Objectives: Despite the availability of many species of amaranth in Kenya, there is inadequate information on their nutritional diversity and how they can be best used in mitigation of malnutrition. Hence, this study was aimed at investigating the nutritional diversity of five leafy amaranth species grown in Kenya. Methodology and results: Amaranth vegetables were harvested 5-6 weeks after planting. They were analyzed for their nutritional and phytochemical content using standard methods. Moisture content was lowest in A.cruentus (79.29±1.26%). A.cruentus had the highest protein (4.37 ±0.02%).The fat content of A.hybridus (2.53±0.06%) and A.hypochodriacus (2.63±0.11%) was significantly higher than the other species. The crude fibre content (3.01±0.29%) was similar in all the species. A.dubius had the highest calcium (336.47±0.9mg/100g) and iron (18.64±0.23mg/100g) while A.cruentus was highest in zinc content (1.67±0.03mg/100g).The total phenols content was highest in A.cruentus (3.59±0.01GAE/100mg).Catechins were highest in A.cruentus (7.15±0.63CE/100mg) while quercetin was highest in A.cruentus (14.28±0.86QE/100mg). Conclusion and application of results: More than 50% of the Kenyan population live below the poverty line and lack access to adequate food. The food available food is of poor nutritional value, this causes malnutrition and other nutritional disorders. There is therefore a need to identify nutrient-rich foods that can be produced inexpensively to meet the nutrient requirements of everyone and especially the vulnerable groups, such as pregnant women, children and the elderly. Amaranth is drought tolerant, grows fast and is easily cultivated. This study indicates that the Amaranth species found in Kenya are a good source of key nutrients, which can be used in mitigation of malnutrition. A.dubius is a superior source of calcium and iron and can help curb the micronutrient deficiencies in Kenya, while A.cruentus is a superior source of protein and phytochemicals which are important in reducing the risk of chronic diseases which are so rampant in Kenya today.Keywords: A. dubius; A. hybridus and A. cruentus; A. albus and A. hypochondriacus; Nutrient

Langzeit-Systemvergleiche in Kenia und Indien: Konventionelle und biologische Erträge aus dem ersten Umstellungsjahr

Organic agriculture is more and more perceived as a promising approach to increase food security in developing countries. However, only few attempts have been made so far to assess agronomic and economic performance of organic agriculture in these^regions in a systematic way. This article reports the first year’s results of two long-term farming systems comparison field trials in Kenya and India. In sub-humid Central Kenya, on a high potential site in Meru South District (Chuka), there were no differences between yields of conventional and organic systems for the first maize and brassica crops. In contrast, organic yields were 14 to 60% lower than conventional yields on a trial site in a medium potential zone in Maragua District (Thika). It is assumed that the organic crops in Chuka could benefit from N and P mobilisation from the soil. In Thika, where N and P were less available, the crop depended on the easily soluble nutrients applied in the conventional treatments. In the semi-arid cotton belt of^Central India, biodynamic, organic, conventional and genetically modified (GM) cotton are compared. Soya and wheat are also part of the crop rotation under study. Biodynamic and organic cotton and wheat yields were 30% lower than conventional and GM yields. Soya yields did not differ between the treatments. It is suggested that yield in organic farming systems in conversion depends on initial inherent soil fertility and crop

Drivers of field-saturated soil hydraulic conductivity: Implications for restoring degraded tropical landscapes

Water security represents a major challenge in East Africa, affecting the livelihoods of millions of people and hindering sustainable development. Predicted increases in rainfall intensity and variability are expected to exacerbate water insecurity and land degradation. Improving soil infiltrability is an effective strategy for addressing water insecurity and land degradation. Research on soil infiltrability is often highly localized; therefore, scientific understanding of the drivers of infiltrability on larger spatial scales is limited. The aim of this study was to understand the main drivers of infiltrability across five contrasting landscapes in Kenya. We measured field-saturated hydraulic conductivity (Kfs) in 257 plots and collected data for variables representing soil properties (sand content, soil organic carbon (SOC) and pH), land degradation (grazing pressure and presence of erosion), vegetation quantity (woody aboveground biomass), and vegetation quality (functional properties and diversity). We used generalized mixed-effects models to test for the effects of these variables on Kfs. Median Kfs for the five sites ranged between 23.8 and 101.8 mm h−1. We found that Kfs was positively associated with sand content (standardized effect 0.39), SOC content (0.15), and functional diversity of woody vegetation (0.09), while it had a negative relationship with the presence of erosion (−0.24) and grazing pressure (−0.09). Subsequently, we conclude that infiltrability can be enhanced through using land restoration strategies which specifically target parameters that affect Kfs. The results further support that Kfs is not solely dictated by inherent soil properties, and that management interventions which boost SOC, reduce erosion, and minimize unsustainable grazing can help address water scarcity by restoring soil hydrological function

Switch from 200 to 350 CD4 baseline count: what it means to HIV care and treatment programs in Kenya

Introduction: With the increasing population of infected individuals in Africa and constrained resources for care and treatment, antiretroviralmanagement continues to be an important public health challenge. Since the announcement of World Health Organization recommendation andguidelines for initiation of antiretroviral Treatment at CD4 count below 350, many developing countries are adopting this strategy in their countryspecific guidelines to care and treatment of HIV and AIDS. Despite the benefits to these recommendations, what does this switch from 200 to 350CD4 count mean in antiretroviral treatment demand? Methods: A Multi-centre study involving 1376 patients in health care settings in Kenya. CD4count was carried out by flow cytometry among the HIV infected individuals in Kenya and results analyzed in view of the In-country and the newCD4 recommendation for initiation of antiretroviral treatment. Results: Across sites, 32% of the individual required antiretroviral at <200 CD4Baseline, 40% at <250 baseline count and 58% based on the new criteria of <350 CD4 Count. There were more female (68%) than Male(32%).Different from <200 and <250 CD4 baseline criteria, over 50% of all age groups required antiretroviral at 350 CD4 baseline. Age groupsbetween 41-62 led in demand for ART. Conclusion: With the new guidelines, demand for ARVs has more than doubled with variations notedwithin regions and age groups. As A result, HIV Care and Treatment Programs should prepare for this expansion for the benefits to be realized.Key words: CD4, New criteria, HIV, AIDS, care and treatment, ARV initiatio