A systems perspective on water markets: barriers, bright spots, and building blocks for the next generation

Unidad de excelencia María de Maeztu CEX2019-000940-

Risk, knowledge and preventive measures of smallholder dairy farmers in northern Malawi with regard to zoonotic brucellosis and bovine tuberculosis

Milk production using local cattle breed-types is an age-old practice in Malawi. Although dairy farming is becoming more common as a result of the increasing population and demand for milk and milk products, there is limited knowledge of the farmers’ awareness of zoonotic disease risks, their preventative practices and the disease burden in animals. This study determined dairy farmers’ general knowledge of zoonoses, assessed their risks for infection with zoonotic bovine tuberculosis (bTB) and brucellosis, and evaluated farm practices to prevent disease transmission. A questionnaire was drawn up and administered by the authors. It was used to collect information about the knowledge and preventive practices of 140 out of 684 registered dairy farmers at Mzuzu Agricultural Development Division, northern Malawi. During a second visit to 60 out of the 140 farms, a total of 156 and 95 cattle were tested for brucellosis and tuberculosis, respectively. Most farmers (77.1%) knew or had heard of zoonotic diseases, whilst 75.0% correctly named at least one zoonotic disease. More survey participants named tuberculosis as a zoonotic disease compared to brucellosis (74.3% versus 2.9%). The most commonly named means of transmission were milk (67.0%) and meat (56.0%). Almost all survey participants (96.4%) practised at least one farm activity that could lead to potential transmission of brucellosis or bTB, including sale (67.0%) and consumption (34.0%) of unpasteurised milk. Antibodies against brucellosis were found in 12 cattle (7.7%), whilst one animal (1.1%) reacted to the tuberculin skin test. General knowledge about possible transmission of diseases between humans and animals was high, although most farmers practised risk behaviours that could potentially expose the public to milk-borne zoonotic diseases such as brucellosis and bTB. Furthermore, some animals had positive results for brucellosis and tuberculosis tests. Therefore, improvement of zoonotic disease prevention programmes, as well as further investigation into the prevalence and risk factors for zoonoses, is recommended

Desenvolvimento inicial e estado nutricional de clones de eucalipto no nordeste do Pará Initial growth and nutritional status of Eucalyptus clones in northeast of Para State

O objetivo desta pesquisa foi avaliar o desenvolvimento inicial, nutrição e fertilidade do solo em plantio de clones de eucalipto no nordeste do Pará. Os tratamentos constaram de cinco clones (Eucalyptus grandis x E. urophylla - 03 e 09, E. urophylla x E. camaldulensis - 32, E. grandis x E. pellita - 07 e E. camaldulensis - 11), dispostos em delineamento de blocos ao acaso com quatro repetições. Cinco meses após plantio foram avaliadas a altura e sobrevivência das plantas. Aos 18 meses, além dessas variáveis, foram avaliados o diâmetro à altura do peito (DAP), a fertilidade do solo (profundidades 0-10 e 10-20 cm) e os nutrientes foliares. A altura e o DAP das árvores não variaram entre clones nas épocas de avaliação. Houve diferença na porcentagem de sobrevivência apenas aos 18 meses, sendo do clone 07 a menor média apresentada. Na camada de 0-10 cm foram observados os menores valores de K trocável no solo sob os clones 09 e 07, nas parcelas deste último foram observado também a menor CTC. Na camada de 10-20 cm, o menor valor de N no solo esteve sob o clone 32, enquanto que o K e Ca trocáveis foram encontrados em maiores quantidades sob o clone 03. De maneira geral, foram observadas as maiores concentrações de todos os nutrientes, com exceção do N, nas folhas dos clones 11 e 32. Desta forma, os clones apresentaram respostas nutricionais diferentes na área de estudo, assim como o solo sob cada material genético apresentou valores variados de fertilidade. Essas variações, entretanto, pouco foram observadas no desenvolvimento inicial das árvores.<br>The objective of this research was to determine the initial growth, nutrition and soil fertility of Eucalyptus plantation in Moju, northeast city of Para State, Brazil. The treatments used were five clones (Eucalyptus grandis x E. urophylla - 03 e 09, E. urophylla x E. camaldulensis - 32, E. grandis x E. pellita - 07 e E. camaldulensis - 11), organized in a randomized blocks design with four replications. Five months after planting, the height and survival percentage of plants were measured. At 18 months, besides these variables, diameter, soil fertility at the 0-10 and 10-20 cm depth and plant mineral nutrition were evaluated. The height and diameter did not vary among clones at evaluated times. There was difference in survival percentage just at 18 months, when the 07 clone showed the lower average. At the 0-10 cm soil depth, the lowest K exchangeable was observed under the 09 and 07 clones, the clone 07 also presented the lowest soil CEC. In 10-20 cm depth, the lowest value of N was observed in 32 clone, while the K and Ca were observed in highest levels in 03 clone. In general, higher macro and micronutrients leaves contents were found in the 11 and 32 clones, exception N. The clones presented different nutritional responses over the researched area, as well as the soil fertility under each clone presented varied values. Such variations, however, were little observed in the tree initial growth

Fundamentals and Applications of Chitosan

International audienceChitosan is a biopolymer obtained from chitin, one of the most abundant and renewable material on Earth. Chitin is a primary component of cell walls in fungi, the exoskeletons of arthropods, such as crustaceans, e.g. crabs, lobsters and shrimps, and insects, the radulae of molluscs, cephalopod beaks, and the scales of fish and lissamphibians. The discovery of chitin in 1811 is attributed to Henri Braconnot while the history of chitosan dates back to 1859 with the work of Charles Rouget. The name of chitosan was, however, introduced in 1894 by Felix Hoppe-Seyler. Because of its particular macromolecular structure, biocompatibility, biode-gradability and other intrinsic functional properties, chitosan has attracted major scientific and industrial interests from the late 1970s. Chitosan and its derivatives have practical applications in food industry, agriculture, pharmacy, medicine, cos-metology, textile and paper industries, and chemistry. In the last two decades, chito-san has also received much attention in numerous other fields such as dentistry, ophthalmology, biomedicine and bio-imaging, hygiene and personal care, veterinary medicine, packaging industry, agrochemistry, aquaculture, functional textiles and cosmetotextiles, catalysis, chromatography, beverage industry, photography, wastewater treatment and sludge dewatering, and biotechnology. Nutraceuticals and cosmeceuticals are actually growing markets, and therapeutic and biomedical products should be the next markets in the development of chitosan. Chitosan is also the N. Morin-Crini (*) · Laboratoire Chrono-environnement, UMR 6249, UFR Sciences et Techniques

Circulating microRNAs in sera correlate with soluble biomarkers of immune activation but do not predict mortality in ART treated individuals with HIV-1 infection: A case control study

10.1371/journal.pone.0139981PLoS ONE1010e013998