Macrophytes et groupements végétaux aquatiques et amphibies de la basse vallée du ferlo (Sénégal)

The reflooding of the Ferlo Valley since 1988 after 32 years of drying up has caused progressive growth of aquatic plants. 103 woody and herbaceous plants falling into 81 genera and 38 families were identified in the Valley. Analysis of the vegetation using the transect technique and the Braun Blanquet method helped to establish the floristic composition of 7 aquatic and semi aquatic plants groups. Typha domingensis and Pistia stratiotes are dominant in the aquatic miieu whereas Tamarix senegalensis plant groups were frequently found in the flood plain, indicating that the tidal range is important and soil salinity was still high

Analysis of dendrometric characteristics of Acacia senegal (L.) Willd. (Fabaceae) in the semi-arid Sahelian area: A case study of silvopastoral zone in Senegal

The study gives an analysis of the dendrometric parameters of a middle Sahelian species (Acacia senegal) in semi-arid environment to get better knowledge of its behavior. The research lays the principle that the species behaves differently according to the ecogeographical stations. So, its characteristics change from one environment to another. That is why it is important to do a specific study for every big zone. The study was done in Silvopastoral zone, more particularly in the area where A. senegal is popular in the country. The study aims to deepen the knowledge of A. senegal dendrometric parameters. The following parameters were measured: diameter of the base, breastheight diameter (1.3 m), breast- height circumference, total height of the tree, length of the trunk and width of the houppier. The sample consists of a population of 76 feet locust trees in Senegal. The study confirmed the hypothesis that the characters of the species vary according to the zone where it is found.Keys words: Acacia senegal, dendrometry, Sahel, Senegal

Élaboration de modèles allométriques d’Acacia Sénéga

La présente étude s’est appesantie sur l’élaboration de modèles allométriques d’une espèce soudanosahélienne (Acacia Sénégal ) dans le but d’asseoir une base de calcul des stocks de carbone. La recherche s’est effectuée en zone sylvopastorale, au nord du Sénégal. Au préalable, l’étude a tenté d’approfondir les connaissances sur la dendrométrie de Acacia Sénégal. Sur le terrain, les paramètres suivants ont été mesurés et fait l’objet d’analyses et interprétations : diamètre à la base, hauteur totale de l’arbre, longueur du tronc, diamètre à hauteur de poitrine, circonférence à hauteur de poitrine et largeur du houppier. La pesée des échantillons de chaque partie (tronc, branche, rameau) de l’échantillon d’arbres composés de 38 pieds d’Acacia Sénégal et leur séchage à l’étuve ont permis de connaître la biomasse sèche de chaque sujet. Ensuite, des modèles allométriques spécifiques (entre la biomasse sèche et les paramètres dendrométriques) ont été générés et les coefficients de corrélation déterminés. Les différentes analyses ont permis d’affirmer que le diamètre à hauteur de poitrine (DHP) est la variable qui offre la meilleure corrélation avec la biomasse aérienne. Parmi les modèles, et par ordre décroissant, nous avons obtenu la relation polynomiale, logarithmique et de puissance. Les modèles retenus ont comme entrée le DBH. De ce fait, le modèle polynomiale (y = 0,032DBH3 - 1,016DBH2 + 10,87DBH + 7,429) présente la meilleure corrélation (R² = 0,963), suivi du modèle logarithmique (y = 13,61ln(DBH) + 17,89) avec une corrélation R² = 0,933 et du modèle de puissance (y = 22,23DBH0,357) pour une corrélation R² = 0,909. L’étude a confirmé l’hypothèse selon laquelle, au sein d’une même espèce, l’élaboration de modèle spécifique reflète plus la réalité et permet de faire une quantification des stocks de carbone plus proche de la réalité que le modèle générique.Mots-clés : modèle allométrique, grande muraille verte, Acacia Sénégal, séquestration de carbone

Thermodynamic and Heat Transfer Properties of Al2O3 Nanolubricants

In vapor compression cycles, a small portion of the oil circulates with the refrigerant throughout the system components, while most of the oil stays in the compressors. In heat exchangers, the lubricant in excess penalizes the heat transfer and increases the pressure losses: both effects are highly undesired but yet unavoidable. Nanoparticles dispersed in the excess lubricant are expected to provide enhancements in heat transfer. While solubility and miscibility of refrigerants in polyolesters (POE) lubricant are well established knowledge there is a lack of information regarding if and how nanoparticles dispersed in the lubricant affect these two properties. This paper presents experimental data of solubility and miscibility of three types of Al2O3 nanolubricants with refrigerant R410A. The nanoparticles were dispersed in POE lubricant by using different surfactants and dispersion methods and the nanolubricants showed lower refrigerant R410A solubility than that of POE oil. High viscosity suspensions are expected to stabilize the nanoparticles and avoid clustering. This aspect was verified in the present paper for the Al2O3 nanolubricants and long term stability and the degree of agglomeration, when present, were measured. The data identified optimum combinations of surfactants to achieve stable and uniform nanolubricant dispersions for several months. Surfactants affected slightly the thermal conductivity, specific heat, viscosity, and solubility properties of the nanolubricants. The specific heats of the nanolubricants were lower than that of POE oil at temperatures from 0 to 20°C while they were similar at 40°C. Thermal conductivity ranged from 1.1 times higher at 5°C to 1.4 times higher at 40°C than that of POE lubricant. The viscosity was about 2.6 times higher at 5°C while it was similar to that of POE lubricant at 40°C. The thermal and transport properties data for three nanolubricants provided in this paper advance the basic understanding of nanoparticles interaction with R410A refrigerant and POE lubricant mixtures

Imaging criteria for assessing tumour response: RECIST, mRECIST, Cheson

AbstractMost methods define a limited number of “target” lesions to be measured and other “non-target” lesions to be evaluated qualitatively. RECIST criteria are the most widely used although other criteria have been proposed that are derived from them based on size alone, or size and attenuation. Modified RECIST (mRECIST) criteria only concern hepatocellular carcinoma and only take into account the viable portion (enhanced after injection during the arterial phase). Cheson criteria are more complex as target lesions are defined differently depending on the organ (lymph nodes, liver or spleen, other organs), and involve both CT and PET scans, as well as the clinical examination and bone marrow biopsy