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Book (stand-alone)Algae-based Biofuels
Applications and Co-products
2010Also available in:
No results found.The possible competition for land makes it impossible to produce enough first generation biofuel to offset a large percentage of the total fuel consumption for transportation. As opposed to land-based biofuels produced from agricultural feedstocks, cultivation of algae for biofuel does not necessarily use agricultural land and requires only negligible amounts of freshwater, and therefore competes less with agriculture than first generation biofuels. Combined with the promise of high productivi ty, direct combustion gas utilization, potential wastewater treatment, year-round production, the biochemical pathways and cellular composition of algae can be influenced by changing cultivation conditions and therefore tailored on local needs. On the other hand, microalgae, as opposed to most plants, lack heavy supporting structures and anchorage organs which pose some technical limitations to their harvesting. The reasons for investigating algae as a biofuel feedstock are strong but thes e reasons also apply to other products that can be produced from algae. There are many products in the agricultural, chemical or food industry that could be produced using more sustainable inputs and which can be produced locally with a lower impact on naturalresources. Co-producing some of these products together with biofuels, can make the process economically viable, less dependent from imports and fossil fuels, locally self sufficient and expected to generate new jobs, with a positive ef fect on the overall sustainability. This document provides an overview of practical options available for co-production from algae and their viability and suitability for developing countries. -
Book (series)A review on culture, production and use of spirulina as food for humans and feeds for domestic animals 2008
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No results found.Spirulina are multicellular and filamentous blue-green microalgae belonging to two separate genera Spirulina and Arthrospira and consists of about 15 species. Of these, Arthrospira platensis is the most common and widely available spirulina and most of the published research and public health decision refers to this specific species. It grows in water, can be harvested and processed easily and has significantly high macro- and micronutrient contents. In many countries of Africa, it is us ed as human food as an important source of protein and is collected from natural water, dried and eaten. It has gained considerable popularity in the human health food industry and in many countries of Asia it is used as protein supplement and as human health food. Spirulina has been used as a complementary dietary ingredient of feed for poultry and increasingly as a protein and vitamin supplement to aquafeeds. Spirulina appears to have considerable potential for development, especiall y as a small-scale crop for nutritional enhancement, livelihood development and environmental mitigation. FAO fisheries statistics (FishStat) hint at the growing importance of this product. Production in China was first recorded at 19 080 tonnes in 2003 and rose sharply to 41 570 tonnes in 2004, worth around US$7.6 millions and US$16.6 millions, respectively. However, there are no apparent figures for production in the rest of the world. This suggests that despite the widespread public ity about spirulina and its benefits, it has not yet received the serious consideration it deserves as a potentially key crop in coastal and alkaline areas where traditional agriculture struggles, especially under the increasing influence of salination and water shortages. There is therefore a role for both national governments – as well as intergovernmental organizations – to re-evaluate the potential of spirulina to fulfill both their own food security needs as well as a tool for their overseas development and emergency response efforts. International organization(s) working with spirulina should consider preparing a practical guide to small-scale spirulina production that could be used as a basis for extension and development methodologies. This small-scale production should be orientated towards: (i) providing nutritional supplements for widespread use in rural and urban communities where the staple diet is poor or inadequate; (ii) allowing diversification from tr aditional crops in cases where land or water resources are limited; (iii) an integrated solution for waste water treatment, small-scale aquaculture production and other livestock feed supplement; and (iv) as a shortand medium-term solution to emergency situations where a sustainable supply of high protein/high vitamin foodstuffs is required. A second need is a better monitoring of global spirulina production and product flows. The current FishStat entry which only includes China is o bviously inadequate and the reason why other countries are not included investigated. Furthermore, it would be beneficial if production was disaggregated into different scales of development, e.g. intensive, semi-intensive and extensive. This would allow a better understanding of the different participants involved and assist efforts to combine experience and knowledge for both the further development of spirulina production technologies and their replication in the field. A third need is to develop clear guidelines on food safety aspects of spirulina so that human health risks can be managed during production and processing. Finally, it would be useful to have some form of web-based resource that allows the compilation of scientifically robust information and statistics for public access. There are already a number of spirulina-related websites (e.g. www.spirulina.com, www.spirulinasource.com) – whilst useful resources, they lack the independent scientific credibilit y that is required. -
Book (stand-alone)SAHEL WEATHER AND CROP SITUATION - October 1998 1998
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The rainy season is nearing its end after abundant rainfall in September. Following decreased rains in late August, precipitation was generally widespread and above normal over most producing areas of the Sahel during the first dekad of September. Torrential rains were again registered in several areas of Niger where they caused flooding. Rains remained abundant during the second dekad, except in southern Mauritania, but they decreased significantly during the last dekad. Rains became abundant o n southern islands of Cape Verde in mid to late September. Rainfall was particularly abundant in Guinea-Bissau. The latest Meteosat satellite image for the first few days of October indicates that cloud cover is clearly moving southwards, marking the end of the rainy season in most northern areas. Reflecting good rainfall, crop prospects are generally favourable in Mali, Burkina Faso, Niger and in Chad except in the Sudanian zone affected by extensive flooding. In The Gambia and Senegal, c rop prospects improved following regular rains since August but in northern Senegal additional rains are needed in October as the rainy season started late this year. In Mauritania, growing conditions were mostly favourable for rainfed crops in September. Crop prospects have improved in Cape Verde following increased rains in September. They are uncertain in Guinea-Bissau as the impact of civil disturbances on plantings and other agricultural activities is not clear. Joint FAO/CILSS Crop Assessm ent Missions are scheduled from mid-October to estimate with national services the 1998 cereal production. FAO's tentative assessment of yield forecast for cereals in the Sahelian countries is shown in Annex I.
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