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Kenneth C Beeson

Bio: Kenneth C Beeson is an academic researcher from United States Department of Agriculture. The author has contributed to research in topics: Fertilizer & Phosphoric acid. The author has an hindex of 4, co-authored 9 publications receiving 49 citations.

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TL;DR: The mineral composition of plants is a function of many factors, such as difference in soils, use of soil amendments or fertilizers, and rainfall and other climatic influences, and these factors overlap in their effects or work simultaneously.
Abstract: The mineral composition of plants is a function of many factors, such as difference in soils, use of soil amendments or fertilizers, and rainfall and other climatic influences. These factors overlap in their effects or work simultaneously. One factor may influence another. Thus, the effect of climate on the plant is partly direct and partly the result of the development by climatic factors of certain soil characteristics. Differences in these factors will naturally operate to modify the mineral composition of the plant in different ways. For example, it is possible (a) for the mineral composition of two plants of the same variety growing in different soils to be significantly different without there being any important difference in their size or the distribution of their parts, such as leaf, stem or seed head; (b) for the growth (yield) of plants of the same variety to vary in different soils without any important differences in the proportions of the parts of the plants; (c) for two plants of the same variety growing in different soils to have quite different distributions of leaf, stem or head; and (d) for environmental factors to so modify the quantities of plant constituents such as protein, carbohydrate, lignin and cellulose as to influence the percentage distribution of other constituents, as by a deposition of starch with a consequent reduction in the percentage composition of the mineral elements. The properties of two soils may be such as to modify the natural flora and thus to produce plants quite different in mineral composition. The evaluation of the influence of these factors on plant composition is still proceeding, and much valuable information of fundamental importance is being obtained. The nutritional diseases of animals which have been traced to soil characteristics may be divided into two general classes. The first,

21 citations

Journal ArticleDOI
TL;DR: The purpose of this paper is to present data concerned primarily with the mineral composition of tomato plants as it is influenced by the composition of the nutrient medium with special attention given to ionic interaction.
Abstract: The nutritive values of food crops and the factors which may modify them are subjects of increasing interest. In recent years vitamin and mineral constituents of plants have been used to evaluate some aspects of nutritive value, and the importance of a variable supply of minerals from plant sources in animal nutrition has been discussed by Maynard (15). During the summers of 1941 and 1942, extensive experiments have been conducted at this laboratory on the effects of varying the relative proportions of macro-nutrients1 supplied to tomato plants on the vitamin content of tomato fruits (6, 11). Although variations in the mineral constituents of the tomato fruit are of relatively minor nutritional importance (10), studies relative to mineral composition were made to aid in an understanding of the physiological processes involved in mineral absorption by plants. In soil studies of the mineral nutrition of plants, Jenny and Ayers (12) have clearly distinguished two aspects of the problem : 1. Soil colloidal phenomena as they are influenced by fertilization and as they in turn influence the composition of soil solutions ; and 2, the absorption and accumulation of the nutrients by plants from the soil solution. For convenience, they have termed the second aspect "the biological accumulation phase by root hair cells." More exactly this aspect might include the localized retention of ions by the living system. Since the cytoplasmic constituents of any organism are changing continuously, chemical analysis of any organ at any given interval can only be empirical. Investigations with artificial culture solutions of known composition have been profitable in studying those empirical relationships involved in ionic absorption by plants. Such factors of nutrient composition as the presence of essential ions, the relative concentration of the constituent ions, the osmotic concentration of the solution, the reaction of the medium, and the total quantity of the nutrient available to the plant can be varied over wide ranges under carefully controlled conditions. It is the purpose of this paper to present data concerned primarily with the mineral composition of tomato plants as it is influenced by the composition of the nutrient medium with special attention given to ionic interaction. In many investigations of the effect of changes in nutrient supply on plant composition, nutrient solutions of fixed composition were utilized to ? The term macro-nutrients as used in this paper refers to the six nutrients (Ca, K, Mg, N03, S04, and P04) in contrast to the micro-nutrients (Cu, Mn, B, Zn, Mo, and Fe). The distinction between these two groups of nutrients is based upon the fact that the former group is needed by the plants in much greater amounts than the latter group.

12 citations


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TL;DR: The demonstration that ribosomal peptide synthesis is a ribozyme-catalyzed reaction makes it almost certain that there was once an RNA World, and a discussion of genetic systems simpler than RNA that might have "invented" RNA is discussed.
Abstract: The demonstration that ribosomal peptide synthesis is a ribozyme-catalyzed reaction makes it almost certain that there was once an RNA World. The central problem for origin-of-life studies, therefore, is to understand how a protein-free RNA World became established on the primitive Earth. We first review the literature on the prebiotic synthesis of the nucleotides, the nonenzymatic synthesis and copying of polynucleotides, and the selection of ribozyme catalysts of a kind that might have facilitated polynucleotide replication. This leads to a brief outline of the Molecular Biologists' Dream, an optimistic scenario for the origin of the RNA World. In the second part of the review we point out the many unresolved problems presented by the Molecular Biologists' Dream. This in turn leads to a discussion of genetic systems simpler than RNA that might have “invented” RNA. Finally, we review studies of prebiotic membrane formation.

886 citations

01 Jan 1961
TL;DR: This thesis proposes concrete solutions for the access control and authorisation management problem in mobile agent systems, which considers role basedAccess control and the delegation of authorisations as the backbone of the infrastructure.
Abstract: During the last years, agent technologies have witnessed an steady, if not fast, increase in popularity. Even so, its adoption, specially in commercial products has been sluggish and scant. Probably the main hurdle to a wider adoption of agent technology are the security issues involved, and the lack of sound and reliable security infrastructures in such environments. This is specially relevant in mobile agent systems, where software agents have the ability to move between several execution platforms over a network. The security concerns that mobility brings to the picture, which are not present in more traditional distributed systems, have to be carefully taken into account. Among the security problems of mobile agents, an outstanding one is resource access control and authorisation management. Practical mobile agent systems demand lightweight, flexible, and scalable solutions for access control in order to cope with the highly heterogeneous nature of their clients. In this thesis, we tackle the access control and authorisation management problem in mobile agent systems. We start with an analysis of the problem, the current state of the art in the field, and the most relevant available technologies for access control and authorisation management. We also consider how other distributed technologies are dealing with the access control problem. Then, we propose concrete solutions for the problem, taking into account the particularities and requirements of mobile agent systems. The proposal considers role based access control and the delegation of authorisations as the backbone of the infrastructure. We also provide solutions for specific requirements such as subscription like services and consider other related aspects such as the usability and applicability of such systems.

97 citations

Journal ArticleDOI
TL;DR: Ausschlaggebend, ob bei der Fallung Gelegenheit gegeben war, uberschussiges P2,05 zu adsorbieren as discussed by the authors.
Abstract: Es wurde gezeigt, das bei der Umsetzung von Natriumphosphat mit Calciumnitrat bei Gegenwart von uberschussigem Ammoniak in wasriger Losung als primare Kristallart stets nur Hytlroxylapatit Ca10(PO4)6(OH)2 ausfallt und nicht Tricalciumphosphat, wie bisher angenommen wurde. Fur das weitere Verhalten des Niederschlags beim Trocknen und fur seine Gesamtzusammensetzung ist ausschlaggebend, ob bei der Fallung Gelegenheit gegeben war, uberschussiges P2,05 zu adsorbieren. Wenn das der Fall ist, so werden Zusammensetzungen erreicht, die der des Tricalciumpliosphats naheliegen. Diese Verbindung selbst, wird erst erhalten, wenn die Adsorptionsbindung durch Gluhen zerstort wird. Dabei entstehen darin entsprechend der Gesamtzusammensetzung durch Reaktion im festen Zustand Gemenge von β-Tricalciumphosphat und Hydroxylapatit, vielfach auch mehr oder weniger reines Tricalciumphosphat.

57 citations

Journal ArticleDOI
TL;DR: A greenhouse study was conducted to explore the effect of various rates of potassium sulfate (K2SO4) nanoparticles on alfalfa growth and physiological response under salt stress.
Abstract: A greenhouse study was conducted to explore the effect of various rates of potassium sulfate (K2SO4) nanoparticles on alfalfa (Medicago sativa L.) growth and physiological response under salt stress. One salt-tolerant genotype (Mesa-Sirsa) and one salt-sensitive genotype (Bulldog 505) were selected based on germination under salt and were planted in pots containing 2 kg of sand. The two genotypes were subjected to 0 and 6 dS·m-1 salt levels using CaCl2·2H2O: NaCl (2:1) mixed with Hoagland solution. Three K2SO4 nanoparticle treatments consisting of, 1/4, 1/8, and 1/10 of the potassium (K) level in full strength Hoagland solution (235 mg·L-1) were applied. Adding K2SO4 nanoparticles at the 1/8 level resulted in the highest shoot dry weight, relative yield, root length and root dry weight in both genotypes. The different rates of K2SO4 nanoparticles affected significantly Na/K ratio and the concentrations of Calcium (Ca), Phosphorus (P), Copper (Cu), Manganese (Mn), and Zinc (Zn) in plant tissue. The application of K2SO4 nanoparticles at the 1/8 rate enhanced the plant’s physiological response to salt stress by reducing electrolyte leakage, increasing catalase and proline content, and increasing antioxidant enzymes, activity. These results suggest that the application of K nanoparticles may have better efficiency than conventional K fertilizers in providing adequate plant nutrition and overcoming the negative effects of salt stress in alfalfa.

37 citations