Mitigating the water footprint of export cut flowers from the Lake Naivasha Basin, Kenya

Kenya’s cut-flower industry has been praised as an economic success as it\ud contributed an annual average of US$141 million foreign exchange (7$ 352 million in 2005 alone. The industry also provides employment, income and infrastructure such as schools and hospitals for a large population around Lake Naivasha. On the other hand, the commercial farms have been blamed for causing a drop in the lake level, polluting the lake and for possibly affecting the lake’s biodiversity. The objective of this study is to quantify the water footprint within the Lake Naivasha Basin related to cut flowers and analyse the possibility to mitigate this footprint by involving cut-flower traders, retailers and consumers overseas. The water footprint of one rose flower is estimated to be 7–13 litres. The total virtual water export related to export of cut flowers from the Lake Naivasha Basin was 16 Mm3/yr during the period 1996–2005 (22 % green water; 45 % blue water; 33 % grey water). Our findings show that, although the decline in the lake level can be attributed mainly to the commercial farms around the lake, both the commercial farms and the smallholder farms in the upper catchment are responsible for the lake pollution due to nutrient load. The observed decline in the lake level and deterioration of the lake’s biodiversity calls for sustainable management of the basin through pricing water at its full cost and other regulatory measures. Pricing water at full marginal cost is important, but the conditions in Kenya are unlikely to result in serious steps to full-cost pricing, since many farmers resist even modest water price increases and government is lacking means of enforcement. We propose an alternative in this study that can be implemented with a focus on sustainable water use in flower farming around Lake Naivasha alone. The proposal involves a water-sustainability agreement between major agents along the cut-flower supply chain and includes a premium to the final product at the retailer end of the supply chain. Such a ‘water sustainability premium’ will raise awareness among flower consumers and—when channelled back to the farmers—facilitate the flower farms to install the necessary equipment and implement the right measures to use water in a sustainable manner. The collected premiums will generate a fund that can be used for financing measures to reduce the water footprint and to improve watershed managemen

The reply of the Eritrean government to ACHPR’s landmark ruling on Eritrea: A critical appraisal

This article assesses the official and most recent stance of the Eritrean government on the illegal detention of eleven prominent Eritrean political personalities who remain behind bars since September 2001. The objective is to evaluate the unlawful detention pursuant to relevant Eritrean laws, namely: the 1993 “Interim Constitution” of Eritrea; the transitional codes of Eritrea which include the Penal, Criminal Procedure, Civil and Civil Procedure Codes; and other laws that amended and supplemented some of the above acts. The article critically examines the grounds which have led to the detention of the victims and analyses the legality of such reasons according to operational Eritrean laws. The contribution will also assess the prolonged duration of detention (detention without trial) and the justifications of the government for such a prolonged detention. It is submitted that the grounds of detention and the justifications for the prolonged detention, as corroborated by the Eritrean government, are ill-founded and have no legal basis. The assessment is based on the latest official account given by the Eritrean government about the detention of the officials. This account was given in a letter sent to the African Commission on Human and People’s Rights upon the Commission’s landmark ruling against Eritrea in November 2003

Prosecuting the main perpetrators of international crimes in Eritrea: Possibilities under international law

A growing international consensus has emerged in the last few decades on the need to prosecute egregious violations of international law. In this regard, the establishment of the International Criminal Court (ICC) is seen as a landmark development in the global protection of international human rights and humanitarian law standards. Since its independence in 1991, Eritrea has experienced heinous violations of international law. The violations amount to international core crimes, as defined by the ICC Statute and customary international law. These include crimes against humanity, war crimes and the crime of aggression. There are consistent reports, as well as documentary and testimonial evidence from reliable sources on this. Accordingly, a number of high-ranking government officials may be reasonably suspected of involvement in the perpetration of international crimes in Eritrea. However, Eritrea is not a state party to the ICC Statute and this means that many of the international crimes perpetrated in the country may not fall under the jurisdiction of the ICC. On the other hand, violations are continuing with impunity, as there are no effective domestic remedies to rectify the problem, giving rise to the need for immediate intervention by the international community. The article discusses the legal implications of the ICC Statute with regard to international crimes committed in Eritrea before and after the coming into effect of the Statute. Drawing on the latest developments of international criminal law, it explores possible options for the prosecution of the main perpetrators of international crimes pursuant to Security Council referral as stipulated under article 13(b) of the ICC Statute

Development of a D-xylose fermenting and inhibitor tolerant industrial Saccharomyces cerevisiae strain with high performance in lignocellulose hydrolysates using metabolic and evolutionary engineering

Background: The production of bioethanol from lignocellulose hydrolysates requires a robust, D-xylose-fermenting and inhibitor-tolerant microorganism as catalyst. The purpose of the present work was to develop such a strain from a prime industrial yeast strain, Ethanol Red, used for bioethanol production. Results: An expression cassette containing 13 genes including Clostridium phytofermentans XylA, encoding D-xylose isomerase (XI), and enzymes of the pentose phosphate pathway was inserted in two copies in the genome of Ethanol Red. Subsequent EMS mutagenesis, genome shuffling and selection in D-xylose-enriched lignocellulose hydrolysate, followed by multiple rounds of evolutionary engineering in complex medium with D-xylose, gradually established efficient D-xylose fermentation. The best-performing strain, GS1.11-26, showed a maximum specific D-xylose consumption rate of 1.1 g/g DW/h in synthetic medium, with complete attenuation of 35 g/L D-xylose in about 17 h. In separate hydrolysis and fermentation of lignocellulose hydrolysates of Arundo donax (giant reed), spruce and a wheat straw/hay mixture, the maximum specific D-xylose consumption rate was 0.36, 0.23 and 1.1 g/g DW inoculum/h, and the final ethanol titer was 4.2, 3.9 and 5.8% (v/v), respectively. In simultaneous saccharification and fermentation of Arundo hydrolysate, GS1.11-26 produced 32% more ethanol than the parent strain Ethanol Red, due to efficient D-xylose utilization. The high D-xylose fermentation capacity was stable after extended growth in glucose. Cell extracts of strain GS1.11-26 displayed 17-fold higher XI activity compared to the parent strain, but overexpression of XI alone was not enough to establish D-xylose fermentation. The high D-xylose consumption rate was due to synergistic interaction between the high XI activity and one or more mutations in the genome. The GS1.11-26 had a partial respiratory defect causing a reduced aerobic growth rate. Conclusions: An industrial yeast strain for bioethanol production with lignocellulose hydrolysates has been developed in the genetic background of a strain widely used for commercial bioethanol production. The strain uses glucose and D-xylose with high consumption rates and partial cofermentation in various lignocellulose hydrolysates with very high ethanol yield. The GS1.11-26 strain shows highly promising potential for further development of an all-round robust yeast strain for efficient fermentation of various lignocellulose hydrolysates

Assessment of the concentration of Cr, Mn and Fe in sediment using laser-induced breakdown spectroscopy

In the present study, laser-induced breakdown spectroscopy (LIBS) has been applied for the determination of levels of Cr, Mn and Fe in sediment samples and the results have been compared with that of flame-atomic absorption spectroscopy (F-AAS). Fourteen sediment samples were collected from Tinishu Akaki River (TAR), Addis Ababa, Ethiopia. Pellets of 24 mm in diameter and 3-5 mm in thickness were prepared using a manual hydraulic press under a pressure of 8000 psi by mixing finely ground sediment samples with boric acid. The concentrations of Cr, Mn and Fe were successfully determined by Q-switched Nd:YAG laser at 1064 nm. Quantification of these metals was conducted against certified reference materials of sediments and soils. The LIBS results for the elements varied from 0.060–0.707 mg/g for Cr, 0.895–3.64 mg/g for Mn and 26.9–71.8 mg/g for Fe. The F-AAS results varied from 0.061–1.37 mg/g for Cr, 1.24–4.46 mg/g for Mn and 49.0–83.3 mg/g for Fe. TAR was found to be heavily polluted with Cr. KEY WORDS: Laser-induced breakdown spectroscopy, Chromium, Manganese, Iron, Sediment, Tinishu Akaki River, Ethiopia Bull. Chem. Soc. Ethiop. 2013, 27(1), 1-13.DOI: http://dx.doi.org/10.4314/bcse.v27i1.

Electromagnetic modeling and optimization of packaged photodetector modules for 100 Gbit/s applications

In this paper, we propose an accurate full 3D EM behavioral model of PD chips for the first time. The model, which is meshed at 130 GHz, runs for about 17 minutes on an Intel Core2 Duo CPU@3 GHz PC with 3.5 GB of RAM. The impact of various parameters in wire- bonding transitions for transmission characteristic is summarized in the Table I. When numbers of bonding wires are placed separately all through strips of CBCPWs as well as keeping an optimized gap of transitions, more than 10 GHz bandwidth improvement can be achieved compared the worst case. We also notice that optimization on bonding wires does not significantly improve the fast decay beyond 60 GHz. Further investigation and optimization of the transition is required including a redesign of the CBCPW