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341	The Hydrolysis of Sodium and Potassium Zeolites with Particular Reference to Potassium in the Soil Solution Magistad, O. C. 15 June 1928 (has links) This item was digitized as part of the Million Books Project led by Carnegie Mellon University and supported by grants from the National Science Foundation (NSF). Cornell University coordinated the participation of land-grant and agricultural libraries in providing historical agricultural information for the digitization project; the University of Arizona Libraries, the College of Agriculture and Life Sciences, and the Office of Arid Lands Studies collaborated in the selection and provision of material for the digitization project. Agriculture -- Arizona Soils -- Potassium content Soil chemistry Zeolites
342	Potassium in Calcareous Soils Part I - Solubility and Availability Part II - Some Properties of Replaceable Potassium McGeorge, W. T. 01 August 1933 (has links) No description available. Agriculture -- Arizona Calcareous soils -- Arizona. Soils -- Potassium content -- Arizona.
343	Studies on equilibria between forms of soil potassium Nafady, M. H. M. January 1966 (has links) No description available. 580
344	Contribution à l’étude du désherbage et de la nutrition minérale foliaire du maïs fourrager (Zea mays L.) dans les sols calcaires tunisiens Ben Harrath, Beya 12 September 2007 (has links) L’objectif de ce travail est d’améliorer la productivité du maïs fourrager (Zea mays L.) dans les sols calcaires tunisiens. En effet dans ces conditions édaphiques la plante se heurte à des problèmes d’ordre nutritionnel limitant l’absorption des 3 éléments essentiels. C’est pourquoi nous voulons mettre au point une nouvelle technologie capable de contourner ces contraintes. En effet la fertilisation par voie foliaire associé à un désherbage de pré émergence serait l’approche la plus logique, capable d’apporter les éléments en fonction des besoins de la plante et de constituer par conséquent une alternative à des apports traditionnels au sol qui présentent un faible coefficient d’efficacité. Pour cela nous voulons : - étudier l’effet de la dose, de la dilution de l’engrais et de son association à un herbicide de post émergence sur la biomasse et l’absorption des éléments nutritifs de la plante et comparer ces effets à ceux d’une application traditionnelle au sol. - Déterminer l’équilibre NPK permettant d’obtenir une croissance optimale de la plante et ceci par le biais d’une expérimentation de type factoriel. - Enfin transposer ce mode de fertilisation en conditions réelles au champ, en intégrant également un désherbage de post émergence. Enfin rechercher et doser, les deux molécules présentes dans l’herbicide, dans deux substrats (le sol et la plante) et étudier leur rétention à court terme : caractérisation des mécanismes d’adsorption et de désorption des deux molécules dans les deux types de sol utilisés. Les résultats obtenus en conditions contrôlées ont mis en évidence le fait que la biomasse de la plante ainsi que la quantité d’éléments exportés par celle-ci sont gouvernées par un effet variétal et un effet dose. De plus certaines associations herbicide-engrais favorisent mieux que d’autres la croissance de la plante ainsi que l’absorption des éléments appliqués. Les résultats de l’expérience de type factoriel ont montré qu’à doses égales, l’effet positif d’un apport foliaire est supérieur à celui de l’engrais apporté au sol. Ces effets positifs sont observés sur les différents paramètres étudiés (biomasse, absorption d’éléments, nutritifs, quantités exportés et coefficients apparents d’utilisation des 3 éléments appliqués). L’utilisation du logiciel SPSS montre que la relation de la biomasse (poids sec) et la quantité d’éléments apportée est de type polynomial. L’équation ainsi obtenue nous a permis de calculer la production de matière sèche et de représenter les différentes surfaces de réponse. Les résultats obtenus en conditions réelles, au champ ont montré également que l’engrais apporté sur le feuillage est le mode de fertilisation le plus efficient. Ces résultats ont montré également que pour tous les traitements, la quantité d’azote exporté par la plante, suit une courbe unimodale avec un maximum situé au prélèvement III, effectué 34 jours après le semis. Par contre les quantités de P et les quantités de K exportés augmentent de façon continue, depuis le prélèvement I (26 jours après le semis) jusqu’à la récolte finale (97 jours après le semis). C’est (l’épi +tige) qui exporte la plus grande quantité (pratiquement le double). Un effet pompe dû au traitement foliaire a été également observé. Cet effet stimule l’absorption des éléments nutritifs par les racines et permet une meilleure valorisation des réserves du sol. En plus le désherbage de post émergence associé à l’engrais a montré une plus grande efficacité à l’égard de la flore adventice présente, en comparaison à l’application de l’herbicide seul ou associé à l’engrais appliqué au sol. Le dosage des deux molécules herbicides en HPLC a montré que les teneurs des 2 molécules dans la plante et dans le sol sont inférieures à la limite de détermination. (les limites de détection et de détermination ont été estimées respectivement à de valeurs de 0,02 et de 0,05 mg/kg de sol). Les coefficients de corrélation des droites d’étalonnage obtenues, sont supérieurs à 0,99 et le pourcentage de recouvrement se situe entre 84 et 104% (intervalle de confiance est de plus ou moins 18%). Les isothermes d’adsorption obtenues dans le cas du 2,4-D sont respectivement de type L avec Kf = 0,9 et n inférieur (sol A) et de type C, avec Kf = 0,8 et n voisin de 1 (sol B). Ces résultas montrent qu’en présence d’un pH (alcalin), la molécule entant qu’acide faible est dissociée. Cette forme est peu retenue par les colloïdes du sol ce qui favorise son transfert ainsi que sa dégradation. La normalisation, du coefficient de distribution Kd, à la teneur en matière organique et à la teneur en carbone organique montre que pour des horizons de 0-30, 30 – 60 et 60 -120 cm, les valeurs de KOM et KOC dans le sol A, restent pratiquement identiques dans les 3 horizons. Par contre dans le sol B ces coefficients sont plus faibles dans l’horizon supérieur (0-30 cm). Par contre les isothermes d’adsorption de la carfentrazone ont mis en évidence l’absence de celle-ci et par conséquent la conversion de molécule en ses métabolites. désherbage sols calcaires potassium azote phosphore fertilisation foliaire
345	FACTORS AFFECTING SERUM AND URINARY POTASSIUM LEVELS IN PATIENTS WHO UNDERGO OPEN HEART SURGERY. MILLER, KENNETH PETER. January 1983 (has links) The purposes of this research were to: (1) describe selected fluid and electrolyte changes that occur during the first four hours after open heart surgery; (2) determine whether significant hourly changes occurred in: blood pH, fluid intake, exogenous potassum chloride replacement, fluid output, or serum and urinary sodium and potassium levels; and finally, (3) delineate which of the above variables were most strongly related to changes in serum and urinary, sodium and potassium levels. Fifty-three patients who had undergone cardiac surgery involving cardiopulmonary bypass were studied. Urine and blood samples were collected every hour for the first four hours postoperatively and were analyzed for sodium and potassium content using flame photometry. Blood pH and exogenous potassium chloride replacement were recorded from the anesthesiologist's and nurse's records. Fluid intake and fluid output were measured directly by the investigator. Analyses included both descriptive and correlational statistics. In addition, a repeated measures procedure (MANOVA) was performed to discern performance trends over time. The data showed that hypokalemia (defined as a serum potassium level less than 4.0 mEq/L) was present in approximately 52 percent of the subjects for the first two postoperative hours and that by the fourth hour only 15 percent of the subjects were hypokalemic. In addition, subjects were noted to retain 2.47 liters of fluid over the four hour period. Significant differences in fluid output were noted across time. Serum sodium levels did not change significantly across time even though serum potassium levels did. The data indicated that the best predictors of hypokalemia were fluid intake and fluid output. Both of these variables had a significance level of p = .000. Regression analysis showed that fluid intake and exogenous potassium chloride replacement explained 11.9 percent of the variance in serum potassium at a significance level of p = .008. Furthermore, fluid output explained 7.3 percent of the variance in urinary potassium (p = .030). Blood -- Analysis. Heart -- Surgery -- Complications. Urine -- Analysis. Potassium in the body.
346	The chemical and electrochemical anisotropic etching of silicon Dixon, Elizabeth January 1997 (has links) No description available. 530.41
347	The effect of exercise on sodium balance in humans Love, Thomas D. January 2010 (has links) During exercise water and electrolytes are lost in sweat. There is a large variation in both sweat rate and sweat composition and as a consequence sweat electrolyte loss can be large, especially for sodium, the primary cation in sweat. The loss of large amounts of sodium in sweat has been linked with hyponatraemia and muscle cramps. Sodium intake is encouraged in some athletes and in some exercise situations, which is in direct contrast to guidelines aimed at the general population aimed at reducing average sodium intakes to 2.4g of sodium per day (6g salt/day). Dietary sodium intakes have been determined by numerous methods, including weighed dietary records and 24h urine collections. As dietary sodium intake in excess of basal requirement is primarily excreted in the urine in non-sweating individuals, and the basal requirement for sodium is small, 24h urine collections can provide an accurate estimate of dietary sodium intake. In Chapter 3, 24h urinary sodium excretion was measured in eighteen subjects on 4 separate occasions. Subjects consumed their normal diet with the exception of a 5g creatine supplement and 500ml of water, which was part of a separate investigation. The relationship between urine sodium excretion in each 24h collection period was weak, but on average males excreted 200 ± 48mmol of sodium per day and females excreted 157 ± 33mmol of sodium per day, which is equivalent to 4.6g and 3.6g of sodium, respectively. This is in excess of the current recommended intake. In chapter 4, the variation in sodium excretion was determined in eight subjects who consumed the same diet for 5 consecutive days. Despite the similar intake of sodium each day, a day to day variation in sodium excretion of 13% was still observed. This was not related to either sodium intake or potassium intake. In chapter 5, nine subjects consumed their normal diet for 5 consecutive days but weighed and recorded all food and drink consumed. During this period, 24h urine samples were also collected. No strenuous exercise was permitted apart from an exercise task on day 4. This involved intermittent cycling in the heat until 2% body mass (BM) was lost. Sweat was collected from four absorbent patches placed on the back, chest, forearm and thigh. Sweat sodium concentration was adjusted to account for the 35% over-estimation using this regional collection method. Subjects lost 1.51 ± 0.19L of sweat and 66 ± 16mmol (range 32 86mmol) of sodium. There was no difference in sodium balance between each 24h period due to a significant decrease in urine sodium excretion on the day of exercise (day 4). In chapter 6, the effect of prior exercise on sweat composition during a second exercise bout completed later that same day was determined. Eight healthy males cycled for 40 minutes in the heat on one or two occasions. A period of 5h elapsed between exercise bouts when two exercise sessions were performed. Sweat was collected using a whole body washdown method and by 4 absorbent patches placed on the back, chest, forearm and thigh. The main finding was that prior exercise did not affect sweat rate or sweat sodium, potassium and chloride concentrations in the second exercise bout when using the whole body washdown method. Chapter 7 determined the effects of two exercise sessions completed on the same day on electrolyte balance. Nine subjects followed their normal dietary behaviour but weighed and recorded all food and drink consumed during 5 consecutive days. During this period 24h urine samples were also collected. No strenuous exercise was permitted during this period apart from two exercise tasks on day 4. During exercise sweat was collected using a whole body washdown technique. Sweat rate and sweat sodium, potassium and chloride concentrations during the second exercise bout were found to be similar to the first exercise bout. Subjects lost 2.64L (range 1.80 3.48L) of sweat and 138 ± 106mmol of sodium (range 32 287mmol). Sodium balance was not significantly affected on the day of exercise, but urine sodium was lower than dietary sodium intake on the day of exercise (Day 4) and the day following exercise (day 5), indicating significant sodium conservation by the kidney. In contrast, no change in sodium intake was observed. In chapter 8, the effect of skimmed milk and a sports drink in restoring fluid balance was examined following exercise-induced dehydration. Seven physically active males cycled intermittently in the heat until 2% BM was lost. During a 1h rehydration period a sports drink (23mmol Na+/L) or skimmed milk (32mmol Na+/L) was consumed in a volume equivalent to 150% of BM loss. Fluid balance at the end of the 3h recovery period tended to be more positive when milk was consumed. Despite this, no difference in exercise capacity in the heat was observed. This thesis shows that exercise did not increase sodium intake, but this may be due to the already high dietary sodium intake of individuals. Sodium balance was maintained in the majority of individuals due to a significant conservation of sodium by the kidneys. When sweat sodium losses are large, urine sodium conservation may not be sufficient to prevent a negative sodium balance. When no food is consumed in the acute period post-exercise, the higher sodium content of skimmed milk than a sports drink may be partly responsible for the increased retention of the ingested fluid. But this did not enhance subsequent performance in the heat. 612.015
348	Modulation of 1HERG/1K by cellular metabolites : implication in the arrhythmogenesis during myocardial ischemia Wang, Jing Xiong January 2005 (has links) Thèse numérisée par la Direction des bibliothèques de l'Université de Montréal. Ischémie du myocarde Arythmies Canaux potassium Lysophosphatidylcholine Céramides TNV-[alpha] ROS
349	NMR Study of Structure and Orientation of S4-S5 Linker Peptides from Shaw Related Potassium Ion Channels in Micelles and Binding of ZNF29R Protein to HIV RREIIBTR RNA Qu, Xiaoguang 28 May 2009 (has links) Potassium ion channels play a key role in the generation and propagation of action potentials. The S4-S5 linker peptide (L45) is believed to be responsible for the anesthetic/alcohol response of voltage-gated K+ channels. We investigated this region to define the structural basis of 1-alkanol binding site in dShaw2 K+ channel. L45 peptides derived from dShaw2 and hKv3.4 K+ channel, which, if part of the complete channel, demonstrate different sensitivity to 1-alcohols. Specifically, dShaw2 is alcohol sensitive and hKv3.4 is alcohol resistant. Structural analysis of L45 with NMR and CD suggested a direct correlation between alpha-helicity and the inhibition of dShaw2 channel by 1-butanol. We used CD and NMR to determine the structure of L45 peptides in micelles and vesicles. We measured spin-lattice relaxation time (T1) and determined the location and surface accessibility of L45 in micelles. These experiments confirm that L45 of dShaw2 adopts an α-helical conformation, partially buried in the membrane and parallel to the surface. The binding and accumulation of rev proteins to an internal loop of RRE (rev responsive element) of unspliced mRNA precursors is a key step of propagation of human immunodeficiency (HIV) virus. Molecules that interfere with this process can be expected to show anti-HIV activity. Our work is based on an assumption that zinc fingers could compete with rev proteins, therefore impeding the life cycle of HIV and stopping its infection. We studied the influence of different cations, anions, and the concentration of salts and osmolytes on the binding affinity with Polyacrylamide Gel Electrophoresis (PAGE) and Isothermal Titration Calorimetry (ITC). We conclude that the types of anions and/or cations and their concentrations affect the enthalpy and entropy of the binding interacitons. Using a gel assay, we confirm that there are three products in RNA-Protein reaction, and both EDTA and salts (and their concentrations) in the gel or samples interfere with RNA-protein complex mobility. HIV L45 Zinc finger protein Potassium ion channel
350	Effects of X-Irradiation on Water and Ion Flux in Isolated Roots Wall, Malcolm J. 01 1900 (has links) Due to the relatively small amount of work concerning radiation, it was thought feasible to use ionizing radiation as a tool to study the relationship between water and salt flux in isolated root systems. Moreover, the more quantitative potometric method lends itself well to such a study, since the two processes can be followed simultaneously. the aims of this study, therefore, were 1) to determine effects of X-irradiation on water, calcium and potassium flux in excised onion roots; 2) to determine the dose levels required for producing permeability changes; 3) to investigate the nature of radiation damage to root systems; and 4) to attempt to shed light on the relation between water transport and ion movement in root systems. X-irradiation potassium calcium flux water onion roots

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