Synopsis muscorum frondosorum omnium hucusque cognitorum. /Auctore Carolo Müller.

1849 v.1

Synopsis muscorum frondosorum omnium hucusque cognitorum. /Auctore Carolo Müller.

1851 v.2

Efectos de Territorio y Estrategias Familiares de Reproducción Social. El caso del Barrio Las playas de la ciudad de Villa María - Córdoba. Effects of Land and family strategies of social reproduction. The case of the neighborhood ´Las Playas´ in the city of Villa María - Córdoba.

Nuestro proyecto plantea analizar los recursos materiales y simbólicos que ponen en juego las familias pobres, en el marco de su reproducción social, a fin de evaluar en qué medida sus estrategias contribuyen a superar o reproducir las condiciones de pobreza hipotetizando que las prácticas sociales de las agentes en situación de pobreza, incluyen limitaciones conformadas por la estructura patrimonial disponible, como potencialidades inscriptas en la trayectoria colectiva y el estado de los instrumentos de reproducción del barrio, considerado como parte del sistema de estrategias de reproducción de sus unidades domésticas. En ese sentido la comprensión de las estrategias materiales y simbólicas que ponen en juego las familias pobres, nos ofrecerá una comprensión acabada de la problemática en cuestión a los efectos de lograr una incidencia mayor a la hora de la implementación de políticas públicas destinadas a este grupo poblacional, y grupos poblacionales similares. La inteligibilidad de este escenario social, puede ser aprehendida fundamentalmente, desde las posibilidades abiertas por las herramientas de tipo cualitativas, sin embargo la metodología utilizada en este proyecto de investigación considera la triangulación de inter-metodológica como recurso fundamental a fin de dar cuenta tanto de la dimensión explicativa como comprensiva de los problemas sociales a estudiar. La muestra es teórica intencional, sus alcances se definen por criterio de saturación teórica. Unidades de recolección: unidades familiares en situación de pobreza que viven en el barrio Las Playas, instituciones formales y no formales que conforman los instrumentos de reproducción social. En el trabajo de campo se profundizarán las estrategias de: 1- Observación a partir de la construcción de guías para la mayor precisión de un registro de tipo etnográfico; 2- Entrevistas semi-estructuradas y abiertas a diferentes familias del barrio seleccionadas a partir de la técnica denominada "Bola de Nieve" la cual provee un alcance exhaustivo en el territorio determinado; 3- Entrevista a informantes clave relacionados con ONGs e Instituciones Estatales actuantes en el barrio, referentes barriales y sindicales, punteros políticos, etc. Los datos obtenidos en el trabajo de campo deben relevar información que garantice el registro de las diversas miradas de los participantes y controlar la diferenciación entre los datos originales y las propias interpretaciones (Mendizábal, 2006). por lo cual la triangulación inter-metodológica, posibilitará articular reflexivamente los resultados cuantitavos y cualitativos. Se prevé la transferencia de resultados a través de publicaciones individuales o colectivas sobre los resultados obtenidos así como la presentación preliminar de los mismos en congresos y conferencias. Asimismo, se organizarán seminarios con los sectores de la sociedad civil que se trabaje en los que se espera discutir los resultados obtenidos.

Flora of the sand keys of Florida, by Charles Frederick Millspaugh.

v.2:no.5(1907)

An investigation of soil quality parameters relating to agricultural reuse and land disposal options for the management of biosolids

Sludge provides valuable nutrients to soil. Application of sludge to land is subject to a number of limitations. Its use as a soil conditioner represents a "beneficial reuse option". Primary and secondary sludge from Dublin city is treated in Ringsend treatment plant where it undergoes thermal drying. This study investigates the feasibility of land application of thermally dried biosolids (TDB) from Ringsend treatment plant.

Arctic searching expedition: a journal of a boat-voyage through Rupert's Land and the Arctic Sea, in search of the discovery ships under command of Sir John Franklin. With an appendix on the physical geography of North America. By Sir John Richardson ...

v. 1

A absorção de nitrogênio, fósforo, potássio, cálcio, magnésio, enxôfre e silício pela cana de açúcar, Co 419, e o seu crescimento em função da idade

This paper describes the data obtained for the growth of sugar cane, Variety Co 419, and the amount and rate of absorption of nitrogen, phosphorus, potassium, calcium, magnesium, sulfur, and silicon, according to the age of the plant, in the soil and climate conditions of the state of S. Paulo, Brazil. An experiment was installed in the Estação Experimental de Cana de Açúcar "Dr. José Vizioli", at Piracicaba, state of S. Paulo, Brazil, and the soil "tèrra-roxa misturada" presented the following composition: Sand (more than 0,2 mm)........................................................................ 8.40 % Fine sand (from 0,2 to less than 0,02 mm)................................................. 24.90 % Silt (from 0,02 to less than 0,002 mm)...................................................... 16.40 % Clay (form 0,002 mm and less)................................................................ 50.20 % pH 10 g of soil and 25 ml of distilled water)..................................................... 5.20 %C (g of carbon per 100 g of soil)................................................................. 1.00 %N (g of nitrogen per 100 g of soil)............................................................... 0.15 P0(4)-³ (me. per 100 g of soil, soluble in 0,05 normal H2SO4) ............................... 0.06 K+ (exchangeable, me. per 100 g of soil)....... 0.18 Ca+² (exchangeable, me. per 100 g of soil)...... 2.00 Mg+² (exchangeable, me. per 100 g of soil)...... 0.66 The monthly rainfall and mean temperature from January 1956 to August 1957 are presented in Table 1, in Portuguese. The experiment consisted of 3 replications of the treatments: without fertilizer and with fertilizer (40 Kg of N, from ammonium sulfate; 100 Kg of P(2)0(5) from superphosphate and 40 Kg K2 O, from potassium chloride). Four complete stools (stalks and leaves) were harvested from each treatment, and the plants separated in stalks and leaves, weighed, dried and analysed every month from 6 up to 15 months of age. The data obtained for fresh and dry matter production are presented in table 2, and in figure land 2, in Portuguese. The curves for fresh and dry matter production showed that fertilized and no fertilized sugar cane with 6 months of age presents only 5% of its total weight at 15 months of age. The most intense period of growth in this experiment is located, between 8 and 12 months of age, that is between December 1956 and April 1957. The dry matter production of sugar cane with 8 and 12 months of age was, respectively, 12,5% and 87,5% of the total weight at 15 months of age. The growth of sugar cane in relation to its age follows a sigmoid curve, according to the figures 1, 2 and 3. The increase of dry matter production promoted by using fertilizer was 62,5% when sugar cane was 15 months of age. The concentration of the elements (tables 4 and 5 in Portuguese) present a general trend of decreasing as the cane grows older. In the stalks this is true for all elements studied in this experiment. But in the leaves, somme elements, like sulfur and silicon, appears to increase with the increasing of age. Others, like calcium and magnesium do not show large variations, and finally a third group, formed by nitrogen, phosphorus and potassium seems to decrease at the beginning and later presents a light increasing. The concentration of the elements was higher in the leaves than in the stalks from 6 up to 15 months of age. There were some exceptions. Potassium, magnesium and sulfur were higher in the stalks than in the leaves from 6 up to 8 or 9 months of age. After 9 months, the leaves presented more potassium, magnesium and sulfur than the stalks. The percentage of nitrogen in the leaves was lower in the plants that received fertilizer than in the plants without fertilizer with 6, 7, 8, 10, 11 and 13 months of age. This can be explained by "dilution effect". The uptake of elements by 4 stools (stalks and leaves) of sugar cane according to the plant age is showed in table 6, in Portuguese. The absorption of all studied elements, nitrogen, phosphorus, potassium, calcium, magnesium, sulfur and silicon, was higher in plants that received fertilizer. The trend of uptake of nitrogen and potassium is similar to the trend of production of dry matter, that is, the maximum absorption of those two nutrients occurs between 9 and 13 months of age. Finaly, the maxima amounts of elements absorbed by 4 stools (stalks and leaves) of sugar cane plants that received fertilizer are condensed in the following table: Element Maximum absorption in grams Age of the plants in months Nitrogen (N) 81.0 14 Phosphorus (P) 6.8 15 Potassium (K) 81.5 15 Calcium (Ca) 19.2 15 Magnesium (Mg) 13.9 13 Sulfur (S) 9.3 15 Silicon (Si) 61.8 15 It is very interesting to note the low absorption of phosphorus even with 100 kg of P2O5 per hectare, aplied as superphosphate. The uptake of phosphorus was lower than calcium, magnesium and sulfur. Also, it is noteworthy the large amount of silicon absorbed by sugar cane.

Comparative response to N, P and K of grain sorghum and corn: I. Distrophic quartz sand

The comparative response of three sorghum (E-57, TEY 101 and C- 102) and of three corn cultivars (HMD-7974, Centralmex and Piranão) to N, P and K applications was studied in a soil from Anhembi, SP, classifield as Distrophic quartz sand (AQd) was studied. Leaf analyses were made to assess the nutritional status of the two crops. Main conclusions were the following. 1. Sorghum yieldel more than corn; 2. Both sorghum and corn varieties showed different capacities to absorb N, P and K from the soil and to fertilizer application; 3. There was no response to K2O fertilization; 4. Only Piranão increased yield when suplemented with a mixture of micronutrientes; 5. Direct relationships between rates of N and P2O5 and yield and leaf content were found; 6. Direct relationships between rates of N and P2O5 and yield and leaf content were found; 7. The following leaf levels were considered to be adequate, respectively for sorghum and corn: N - 2,00 - 2,25%, 3,25 - 3,50%; P - 0,30 - 0,40, 0,45 - 0,50; K -2,00 - 2,50, 2,20 - 2,40%; Ca - 0,20 - 0,40, 0,44- 0,72% Mg - 0,25 - 0,40, 0,34 - 0,60%; S - 0,50 - 0,70, 0,72 -0,80; Cu - 7 - 10, 11 - 15%; Fe - 84 - 170, 98 - 125%; Mn - 58 - 72, 66 - 85%; Zn - 10 - 14, 18 - 22; critical levels, however, do very depending upon cultivar.