This richly illustrated volume is the first complete atlas of coffee production in Ethiopia, birth-place of coffee drinking and the main home of wild arabica coffee (Coffea arabica). Around 15 million Ethiopians are coffee farmers, and Ethiopia is Africa's largest coffee producer and one of the most important coffee-growing regions of the world, renowned for its diversity of flavour profiles, including those of the celebrated coffees of Harar, Limu, Sidamo, and Yirgacheffe. The aim of the Coffee Atlas of Ethiopia is to inform the reader about the coffee landscape of Ethiopia. It shows where coffee is grown, where the natural coffee forests are located, and where coffee could be grown. The atlas maps are accompanied by information on coffee farming, environment and climate, and a description of the main coffee areas. Also included in the atlas are key coffee origins, coffee towns and coffee delivery centres, as well as other useful items. The atlas can be used to assess the potential and vulnerability for coffee farming in Ethiopia, as well as provide a logistics resource for the coffee sector and those otherwise working with, or interested in, coffee. It is also an essential reference for resource managers.

Since agriculture is one of the key parameters in assessing the gross domestic product (GDP) of any country, it has become crucial to transition from traditional agricultural practices to smart agriculture. New agricultural technologies provide numerous opportunities to maximize crop yield by recognizing and analyzing diseases and other natural variables that may affect it. Therefore, it is necessary to understand how computer-assisted technologies can best be utilized and adopted in the conversion to smart agriculture. Modern Techniques for Agricultural Disease Management and Crop Yield Prediction is an essential publication that widens the spectrum of computational methods that can aid in agriculture disease management, weed detection, and crop yield prediction. Featuring coverage on a wide range of topics such as soil and crop sensors, swarm robotics, and weed detection, this book is ideally designed for environmentalists, farmers, botanists, agricultural engineers, computer engineers, scientists, researchers, practitioners, and students seeking current research on technology and techniques for agricultural diseases and predictive trends.

Among management systems that are intended to prevent soil erosion or degradation is the no-tillage system which allows for the accumulation of vegetal material of plant material on the surface, over which the next crop will be sown or planted. Agricultural Research Updates. Volume 25 opens with a presentation of the results of research on different sustainable systems of soybean and maize production in northwest Sao Paulo. Following this, the authors review the feasibility, convenience and challenges accompanying various drying technologie from conventional methods (sun drying, hot air-drying, vaccum drying and freeze drying) to smart drying technologies (hybrid drying, near infrared reflectance, refractance window drying amd ultrasonic drying). Other topics reviewed in this compilation include packaging antioxidant activity that prevents food tainting; packaging antimicrobial properties that prevent food contamination; and packaging biodegradability to meet environmental protection requirements. Next, the authors investigate the occurrence, characterization and survivability of two pathogenic vibrios, namely Vibrio cholerae and Vibrio parahaemolyticus in fish-based street food. The detection of these two pathogens is completed using Loop mediated isothermal amplification, multiplex polymerase chain reaction and thiosulphate citrate bile-salt sucrose. The following study aims to investigate the prevalence and characteristics of toxigenic Campylobacter jejuni in ulam (Malaysian salad vegetables) at retail outlets in Terengganu. The prevalence of these genes at retail outlets is determined by multiplex-PCR/the charcoal cefoperazone deoxycholate agar method for 123 vegetable samples. The authors close by describing a recent technology in stimulating glucosinolates concentrations in Brassica plants using recycled animal manures. This need for natural fumigants in horticultural crops has increased due to the national prohibition of synthetic soil fumigants such as methyl bromide and ethylene dibromide.

Molasses is obtained as a residue of the sugar industry. The major components of molasses are sucrose, glucose and fructose. In Molasses: Forms, Production and Uses, a study is presented wherein polyurethane foams were prepared using the hydroxyl group of mono- and di-saccharides as a reaction site for urethane synthesis. Molasses was dissolved in polyethylene glycol and polyols with various molasses contents were prepared. The following work contributes to the evaluation of processing technology and the quality characteristics of traditionally made carob molasses through a survey in Tunisia. Carob molasses, known locally as "Rub El Kharroub", is produced mainly by women using an artisanal process carried out with domestic equipment. Considering that molasses is produced at about 2a5% of the starting raw material, the authors suggest that depending on the raw material condition and applied processing operations, considerable amounts of sucrose can be recovered and an increase in the efficiency of the sugar factory may be achieved. Following this, the authors review the state of knowledge on the production, chemical composition and uses of sugar cane molasses in animal feeding in Cameroon and briefly examine its other uses. In this country, sugar cane molasses, the main sub-product of sugar industries, is mainly produced by the sugar company in Cameroon. The authors go on to review the latest advances on the potential of molasses as a source of functional ingredients as well as its application in various food products such as meat, vegetables and fruit. Molasses may have some other valuable functions such as shelf-life improvement, enhancement of leavening activity and buffering capacity. Lastly, an assessment was made regarding methane production from glycerin digestion and glycerin/molasses co-digestion under thermophilic conditions in a mechanically stirred anaerobic reactor, operated in sequencing batch and fed-batch.