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1. The SwiftScan step-and-shoot continuous mode improves SPECT scanning efficiency: a preliminary phantom and clinical test.

Author

Li, Jicheng, Zhang, Kai, Pang, Xingru, Huang, Lele, Tian, Xiaoxue, and Liu, Jiangyan

Subjects
*SIGNAL-to-noise ratio, *SINGLE-photon emission computed tomography, *PARATHYROID glands, *TOMOGRAPHY, *SPORT utility vehicles
Abstract

Purpose: The aim of the study was to investigate the value of SwiftScan Step-and-Shoot Continuous (SSC) scanning mode in enhancing image quality and to explore appropriate scanning parameters for reducing scan time. Methods: This study was composed of a phantom study and two clinical tests. The differences in visual image quality scores, coefficient of variance (COV) of the background, image signal-to-noise ratio (SNR), contrast-to-noise ratio (CNR), and recovery coefficient (RC) of the sphere were compared between SSC mode and traditional Step-and-Shoot (SS) mode in the phantom study. Various "shoot" acquisition times (5s, 10s, 15s) and "step" angles (3-degree, 6-degree, 9-degree) were evaluated and verified. In the clinical tests, bone tomography and parathyroid tomography were performed on 30 patients each. Differences in visual image quality scores, background COV, image SNR, CNR, and standardized uptake value (SUV) of lesions were compared between the two modes. Results: In the phantom study, SSC mode demonstrated higher visual scores and significantly reduced background COV (P < 0.05), and significantly increased SNR and CNR (P < 0.05) compared to SS mode. No significant alteration in RC was observed (P > 0.05). In the clinical tests, no significant differences were found between the optimal SSC scan combination (10s "shoot" and 6-degree "step")/ (10s "shoot" and 3-degree "step") and the traditional SS scan combination (15s "shoot" and 6-degree "step")/ (15s "shoot" and 3-degree "step") in visual image quality scores, background COV, image SNR, CNR, and SUV of bone and parathyroid high uptake lesions (P > 0.05). Conclusion: The SwiftScan SSC mode can reduce acquisition time by 33% while maintaining similar image quality and quantification accuracy compared to SS mode. An SSC scanning protocol with a 10s "shoot" acquisition and 6-degree "step" or with a 10s "shoot" acquisition and 3-degree "step" over a 360-degree rotation, is recommended for clinical use. [ABSTRACT FROM AUTHOR]

Published
2025
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2. An insect virus differentially alters gene expression among life stages of an insect vector and enhances bacterial phytopathogen transmission.

Author

Chun-Yi Lin, Buritica, Jacobo Robledo, Sarkar, Poulami, Jassar, Ola, Rocha, Sâmara Vieira, Batuman, Ozgur, Stelinski, Lukasz L., and Levy, Amit

Subjects
*CANDIDATUS liberibacter asiaticus, *GENE expression, *INSECT viruses, *CITRUS fruit industry, *ENDOPLASMIC reticulum, *CITRUS greening disease
Abstract

Diaphorina citri transmits Candidatus Liberibacter asiaticus (CLas) between citrus plants which causes the expression of huanglongbing disease in citrus. D. citri flavi-like virus (DcFLV) co-occurs intracellularly with CLas in D. citri populations in the field. However, the impact(s) of DcFLV presence on the insect vector and its interaction with the CLas phytopathogen remain unclear. We compared CLas acquisition and transmission efficiencies as well as transcriptomic expression between viruliferous and non-viruliferous psyllids at multiple life stages. Viruliferous nymphs acquired higher titers of CLas than non-viruliferous nymphs, whereas viruliferous adults acquired less CLas than those without virus. The presence of DcFLV increased the transmission of CLas by both nymphs and adults. Furthermore, RNA-seq and functional gene expression analyses revealed that endoplasmic reticulum stress-, autophagy-, and defense-related genes were significantly upregulated in viruliferous adult psyllids, whereas most of these genes were downregulated in viruliferous nymphs. Our work demonstrates that DcFLV differentially modulates various cellular and physiological functions in D. citri in a life stage-dependent manner and promotes the acquisition of CLas at the nymphal stage and transmission of the pathogen at the adult stage of the vector. Collectively, our results suggest that D. citri vectors with DcFLV exhibit greater pathogen transmission efficiency than those without virus. IMPORTANCE Huanglongbing (HLB), caused by fastidious bacteria from three Candidatus Liberibacter species, is the most damaging disease impacting the citrus industry worldwide. Spread by the Asian citrus psyllid (Diaphorina citri) in Asia and the Americas, HLB causes substantial financial losses, and has reduced citrus production in Florida by more than 90%. Although there are ongoing efforts to limit spread of the disease, effective HLB management remains elusive. Suppressing vector populations and decreasing CLas transmission are the two strategies that need to be urgently improved. Recently, a D. citri flavi-like virus (DcFLV) was characterized within its D. citri host, and it co-occurs intracellularly with CLas in psyllid populations. Here, we show that viruliferous nymphs exhibit higher CLas acquisition than non-viruliferous nymphs. Furthermore, both viruliferous adults and nymphs exhibit increased CLas transmission efficiency. We suggest the possibility of manipulating DcFLV in D. citri populations to reduce CLas transmission for HLB disease management. [ABSTRACT FROM AUTHOR]

Published
2025
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4. Improving the efficiency and effectiveness of global phosphorus use: focus on root and rhizosphere levels in the agronomic system

Author

Uwe LUDEWIG, Lixing YUAN, Günter NEUMANN

Subjects
acquisition efficiency, plant growth promoting rhizobacteria, phosphate, use efficiency, utilization efficiency, Agriculture (General), S1-972
Abstract

Phosphorus (P) is essential for life and for efficient crop production, but global P use with limited recycling is inefficient in several sectors, including agronomy. Unfortunately, plant physiologists, agronomists, farmers and end users employ different measures for P use efficiency (PUE), which often masks their values at different scales. The term P use effectiveness, which also considers energetic and sustainability measures in addition to P balances, is also a valuable concept. Major physiological and genetic factors for plant P uptake and utilization have been identified, but there has been limited success in genetically improving PUE of modern crop cultivars. In maize, studies on root architectural and morphological traits appear promising. Rhizosphere processes assist in mobilizing and capturing sparingly soluble phosphate from rock phosphate. Combinations of phosphate-solubilizing microorganisms with ammonium-based nitrogen fertilizer, as well as strategies of fertilizer placement near the roots of target crops, can moderately enhance PUE. The desired concentration of P in the products differs, depending on the final use of the crop products as feed, food or for energy conversion, which should be considered during crop production.

Published
2019
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7. Differences in phosphorus absorption and utilization in two tomato (Solanum lycopersicum L.) cultivars

Author

Elnaz Radpour, Shiva Aghazadeh, and Roghieh Hajiboland

Subjects
Non-structural carbohydrates, Photosynthesis, non, structural carbohydrates, Use efficiency, Acquisition efficiency, P deficiency, Tomato, Plant culture, SB1-1110, Biology (General), QH301-705.5
Abstract

Phosphorus (P) deficiency is one of the common nutritional disorders in crop and horticultural plants. Various species and genotypes differ in tolerance to P deficiency. In this research, effects of low P supply were studied in two tomato (Solanum lycopersum L.) cultivars (Behta and Piazar) in hydroponics in order to introduce the most tolerant cultivar to P deficiency. In addition, we studied some involving mechanisms for differences in P deficiency tolerance between the two studied cultivars. Phosphorus deficiency caused reduction of shoot and root dry weight. Growth reduction due to P deficiency was greater in Behta than Piazar. Leaf pigments, chlorophyll fluorescence parameters and net assimilation rate were influenced by P deficiency more pronouncedly in Behta than Piazar. Low P supply caused accumulation of soluble carbohydrates, starch and free amino acids but resulted in reduction of soluble protein concentration. Concentration of P was decreased under low P conditions and relative allocation of P to the leaves, stems and roots were different between two cultivars, being higher for the leaves in Piazar and for the stems in Behta. Concentration of P in the old leaves decreased 58-67% while increased in the young leaves up to 220-350% which reflected the re-translocation of P from the former to the latter leaves. Although cultivars did not differ in the extent of re-translocation, it was higher under low phosphorus compared with adequate P supply. Our results suggested that, different tolerance to P deficiency in the two studied cultivars could be attributed to both differences in P acquisition and internal P use efficiency.

Published
2014

8. Atividade de fosfatases em gramíneas forrageiras em resposta à disponibilidade de fósforo no solo e à altura de corte das plantas Phosphatase activity in forage grasses as influenced by soil phosphorus availability and plant cutting height

Author

Flancer Novais Nunes, Reinaldo Bertola Cantarutti, Roberto Ferreira Novais, Ivo Ribeiro da Silva, Marcos Rogério Tótola, and Bruno Neves Ribeiro

Subjects
fosfo-hidrolases, ciclagem interna, Brachiaria decumbens, Panicum maximum, eficiência de utilização, eficiência de aquisição, phosphohydrolases, remobilization, use efficiency, acquisition efficiency, Agriculture (General), S1-972
Abstract

A eficiência de utilização de um nutriente, expressa pela relação entre a biomassa produzida e a quantidade absorvida, é uma importante característica adaptativa das plantas, particularmente daquelas cultivadas em solos com baixa disponibilidade desse nutriente. Maior eficiência de utilização de P (EUP) é conferida pela maior taxa de remobilização de P, que consiste na translocação desse nutriente para regiões de maior demanda metabólica na planta. Maiores taxas de remobilização têm sido associadas a maiores atividades das enzimas: fosfatase ácida (APase) e ribonuclease (RNase). Neste trabalho, avaliou-se a atividade dessas enzimas em plantas de Brachiaria decumbens, pouco exigente, e de Panicum maximum cv. Tanzânia, mais exigente em P, cultivadas em solos que receberam diferentes doses desse nutriente e submetidas a diferentes alturas de corte. O ensaio foi realizado em casa de vegetação, utilizando amostra do horizonte B de um Latossolo Vermelho-Amarelo argiloso. Os tratamentos resultaram da combinação fatorial das duas gramíneas, das doses de 100, 200 e 500 mg dm-3 de P e das três alturas de corte: sem corte e corte a 15 e 30 cm a partir da superfície do solo para Brachiaria; e sem corte e corte a 20 e 40 cm para Panicum. As unidades experimentais consistiram de vasos com 10 dm³ de solo, com 10 plantas. Os resultados indicaram que não houve diferença significativa na produção de biomassa das duas gramíneas, mas a adição de P propiciou maior produção e maior teor desse nutriente na parte aérea de ambas. As plantas submetidas a cortes mais severos apresentaram menor produção e maiores teores de P na parte aérea. Ocorreu efeito negativo das doses de P na atividade da APase e da RNase nas duas forrageiras. As plantas cultivadas com a menor dose de P apresentaram maior atividade dessas enzimas e maior EUP. A atividade de ambas as fosfatases decresceu com a idade das plantas. No tratamento com o corte mais intenso, independentemente da dose de P, tanto Brachiaria quanto Panicum apresentaram menor EUP. Isso ocorreu associado à maior atividade das enzimas APase e RNase, indicando que outros mecanismos relacionados com a adaptação das plantas a baixas disponibilidades de P podem estar envolvidos.The nutrient use efficiency, expressed by the ratio between the produced biomass and nutrient content, is an important adaptive characteristic of plants, particularly of those cultivated in low-fertility soils. A high P-use efficiency (PUE) is conferred by high P remobilization rates, i.e., P transport to regions of greater metabolic demand in the plant. High P remobilization rates have been associated with high acid phosphatase (APase) and ribonuclease (RNase) enzyme activities. In our study, we evaluated the activity of these enzymes in Brachiaria decumbens, with a low, and Panicum maximum cv Tanzânia, with a high P demand, cultivated in soil treated with different P rates and cut at different heights. The experiment was carried out in a greenhouse, using B-horizon samples of a clayey Yellow-Red Latosol. The treatments consisted of a factorial combination of two grasses, three P rates (100, 200 and 500 mg dm-3) and three cutting heights: no cutting, 15 and 30 cm above the soil surface for Brachiaria, and no cutting, 20 and 40 cm for Panicum. The experimental units consisted of pots with 10 dm³ soil, with 10 plants each. Results indicated that there was no significant difference between biomass production of the two grasses, but the P application resulted in a higher biomass yield and P shoot concentration. The biomass production of plants cut at a lower height was smaller and P concentrations in shoots were higher. A significant effect of P rates on the APase and the RNase activities was observed in both forages. In plants grown at the lowest P rate enzyme activities and PUE were the highest. The activity of both phosphatases decreased with plant aging. In the treatment with the lowest cutting height, the PUE in both Brachiaria and Panicum plants was lower, independent of the P rate. At the same time, a higher APase and RNase activity was observed, indicating that other mechanisms may be involved in the plant adaptation to low P availability.

Published
2008
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9. Plant Nitrogen Acquisition Under Low Availability: Regulation of Uptake and Root Architecture.

Author

Takatoshi Kiba and Krapp, Anne

Subjects
*EFFECT of nitrogen on plants, *PLANT growth, *NITROGEN in soils, *PLANT adaptation, *EFFECT of environment on plants
Abstract

Nitrogen availability is a major factor determining plant growth and productivity. Plants acquire nitrogen nutrients from the soil through their roots mostly in the form of ammonium and nitrate. Since these nutrients are scarce in natural soils, plants have evolved adaptive responses to cope with the environment. One of the most important responses is the regulation of nitrogen acquisition efficiency. This review provides an update on the molecular determinants of two major drivers of the nitrogen acquisition efficiency: (i) uptake activity (e.g. high-affinity nitrogen transporters) and (ii) root architecture (e.g. low-nitrogen-availability-specific regulators of primary and lateral root growth). Major emphasis is laid on the regulation of these determinants by nitrogen supply at the transcriptional and post-transcriptional levels, which enables plants to optimize nitrogen acquisition efficiency under low nitrogen availability. [ABSTRACT FROM AUTHOR]

Published
2016
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11. Analysis of Acquisition and Titer of Maize Mosaic Rhabdovirus in Its Vector, Peregrinus maidis (Hemiptera: Delphacidae).

Author

Barandoc-Alviar, Karen, Ramirez, Girly M., Rotenberg, Dorith, and Whitfield, Anna E.

Subjects
*VIRUS-vector relationships, *PEREGRINUS maidus, *REVERSE transcriptase polymerase chain reaction, *INSECT development, *DISEASE vectors
Abstract

The corn planthopper, Peregrinus maidis (Ashmead) (Hemiptera: Delphacidae), transmits Maize mosaic rhabdovirus (MMV), an important pathogen of maize and sorghum, in a persistent propagative manner. To better understand the vectorial capacity of P. maidis, we determined the efficiency of MMV acquisition by nymphal and adult stages, and characterized MMV titer through development. Acquisition efficiency, i.e., proportion of insects that acquired the virus, was determined by reverse transcriptase polymerase chain reaction (RT-PCR) and virus titer of individual insects was estimated by quantitative RT-PCR. Acquisition efficiency of MMV differed significantly between nymphs and adults. MMV titer increased significantly over time and throughout insect development from nymphal to adult stage, indication of virus replication in the vector during development. There was a positive association between the vector developmental stage and virus titer. Also, the average titer in male insects was threefold higher than female titers, and this difference persisted up to 30 d post adult eclosion. Overall, our findings indicate that nymphs are more efficient than adults at acquiring MMV and virus accumulated in the vector over the course of nymphal development. Furthermore, sustained infection over the lifespan of P. maidis indicates a potentially high capacity of this vector to transmit MMV. [ABSTRACT FROM AUTHOR]

Published
2016
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12. Differences in phosphorus absorption and utilization in two tomato (Solanum lycopersum L.) cultivars.

Author

Hajiboland, Roghieh, Aghazadeh, Shiva, and Radpour, Elnaz

Abstract

Phosphorus (P) deficiency is one of the common nutritional disorders in crop and horticultural plants. Various species and genotypes differ in tolerance to P deficiency. In this research, effects of low P supply were studied in two tomato (Solanum lycopersum L.) cultivars (Behta and Piazar) in hydroponics in order to introduce the most tolerant cultivar to P deficiency. In addition, we studied some involving mechanisms for differences in P deficiency tolerance between the two studied cultivars. Phosphorus deficiency caused reduction of shoot and root dry weight. Growth reduction due to P deficiency was greater in Behta than Piazar. Leaf pigments, chlorophyll fluorescence parameters and net assimilation rate were influenced by P deficiency more pronouncedly in Behta than Piazar. Low P supply caused accumulation of soluble carbohydrates, starch and free amino acids but resulted in reduction of soluble protein concentration. Concentration of P was decreased under low P conditions and relative allocation of P to the leaves, stems and roots were different between two cultivars, being higher for the leaves in Piazar and for the stems in Behta. Concentration of P in the old leaves decreased 58-67% while increased in the young leaves up to 220-350% which reflected the re-translocation of P from the former to the latter leaves. Although cultivars did not differ in the extent of re-translocation, it was higher under low phosphorus compared with adequate P supply. Our results suggested that, different tolerance to P deficiency in the two studied cultivars could be attributed to both differences in P acquisition and internal P use efficiency. [ABSTRACT FROM AUTHOR]

Published
2014

13. Система безпровідної передачі енергії з багатопозиційною передавальною підсистемою

Subjects
беспроводная передача энергии, крупноапертурная ректенна, многопозиционная система излучателей, КПД выпрямления, КПД сбора, схема сбора мощности, wireless power transfer, large-aperture rectenna, multi-position emitter system, rectification efficiency, acquisition efficiency, power acquisition circuit, безпровідна передача енергії, крупноапертурна ректена, багатопозиційна система випромінювачів, ККД випрямлення, ККД збору, схема збору потужності
Abstract

Features of a wireless power transmission (WPT) systems with the transmitting subsystem based on a focused multistate radiators (MSR) systems are considered.The basic principles for constructing and managing such systems are described. Mathematical modeling of the field of the created focused MSR at the rectenna aperture is carried out. Based on the results obtained, a number of advantages of WPT systems built on the basis of MSR are distinguished in comparison with WPT systems built on the basis of single-position transmitting antennas. It is shown that from a practical point of view, the approach to the implementation of the transmitting subsystem of the WPT system based on the MSR is attractive, however, issues related to assessing the effectiveness of the large-aperture rectenna excited by a substantially non uniform field created by the MSR remain not clarified fully.An approach to the analysis of large-aperture rectennas excited by a substantially non uniform field was developed, the rectenna modeling was carried out based on this approach, the radiating structure of this rectenna consisted of a system of parallel microstrip conductors, Schottky rectifier diodes were included in their ruptures at regular intervals. The choice of such a design of the radiating structure made it possible to realize a two-layer microstrip rectenna converting electromagnetic fields with circular polarization into direct current.The receiving-rectifying elements transforming the field with vertical polarization were placed in the lower layer, and the receiving-rectifying elements transforming the field with horizontal polarization were placed in the upper layer. For a given rectenna excitation mode, an algorithm for constructing a DC power acquisition circuit was developed and its efficiency was evaluated., Рассмотрены особенности систем беспроводной передачи энергии (БПЭ) с передающей подсистемой на основе сфокусированной многопозиционной системы излучателей (МСИ).Изложены основные принципы построения и управления такими системами. Проведено математическое моделирование поля на апертуре ректенны, создаваемого сфокусированной МСИ. На основании полученных результатов выделен ряд преимуществ систем БПЭ, построенных на основе МСИ, по сравнению с системами БПЭ, построенных на основе однопозиционных передающих антенн. Показано, что с практической точки зрения подход к реализации передающей подсистемы системы БПЭ на основе МСИ является привлекательным, однако при этом остаются не до конца выясненными вопросы, связанные с оценкой эффективности крупноапертурных ректенн, возбуждаемых существенно неравномерным полем, создаваемым МСИ.Разработан подход к анализу крупноапертурных ректенн, возбуждаемых существенно неравномерным полем, на основе которого было проведено моделирование ректенны, излучающая структура которой состояла из системы параллельных микрополосковых проводников, в разрывы которых через равные промежутки включены выпрямительные диоды Шоттки. Выбор такой конструкции излучающей структуры позволил реализовать двухслойную микрополосковую ректенну, преобразующую электромагнитные поля с круговой поляризацией в постоянный ток. В нижнем слое размещены приемно-выпрямительные элементы, преобразующие поле с вертикальной поляризацией, а в верхнем – с горизонтальной. Для заданного режима возбуждения ректенны разработан алгоритм построения схемы сбора мощности постоянного тока и проведена оценка ее КПД., Розглянуто особливості систем безпровідної передачі енергії (БПЕ) з передавальною підсистемою на основі сфокусованої багатопозиційної системи випромінювачів (БСВ).Викладено основні принципи побудови та управління такими системами. Проведено математичне моделювання поля на апертурі ректени, створюваного сфокусованою БСВ. На підставі отриманих результатів виділено ряд переваг систем БПЕ, побудованих на основі БСВ, в порівнянні з системами БПЕ, побудованих на основі однопозиційних передавальних антен. Показано, що з практичної точки зору підхід до реалізації передавальної підсистеми системи БПЕ на основі БСВ є привабливим, однак при цьому залишаються не до кінця з'ясованими питання, пов'язані з оцінкою ефективності крупноапертурних ректен, які збуджуються істотно нерівномірним полем створюваним БСВ.Розроблено підхід до аналізу крупноапертурних ректен, які збуджуються суттєво нерівномірним полем, на основі якого було проведено моделювання ректени, випромінююча структура якої складалася з системи паралельних мікросмужкових провідників, в розриви яких через рівні проміжки включено випрямні діоди Шоткі. Вибір такої конструкції випромінюючої структури дозволив реалізувати двошарову мікросмужкову ректену, що перетворює електромагнітні поля з круговою поляризацією в постійний струм. У нижньому шарі були розміщені приймально-випрямні елементи, які перетворюють поле з вертикальною поляризацією, а у верхньому – з горизонтальною. Для заданого режиму збудження ректени був розроблений алгоритм побудови схеми збору потужності постійного струму і проведена оцінка її ККД.

Published
2020

14. Background matching behaviour and pathogen acquisition: plant site preference does not predict the bacterial acquisition efficiency of vectors.

Author

Rashed, Arash, Killiny, Nabil, Kwan, Joyce, and Almeida, Rodrigo

Abstract

Many insect-borne pathogens are heterogeneously distributed within their hosts: therefore, a vector's within-plant distribution may be a predictor of its exposure to pathogens. In this study, we set out to quantify plant site preference, in the context of background matching, and investigated its effect on acquisition of a bacterial pathogen by its leafhopper vectors. The two green-coloured species, Graphocephala atropunctata and Draeculacephala minerva, preferred green plant tissue and artificial backgrounds whereas the brown-coloured Homalodisca vitripennis preferred brown stem tissue and backgrounds. Within-plant feeding site did not predict either the acquisition success or the number of plant-pathogenic Xylella fastidiosa cells acquired by the vectors; an 86% mortality for G. atropunctata was reported on the lignified stem tissue. Overall, H. vitripennis acquired significantly more cells than G. atropunctata. A novel artificial diet-based transmission system was used to further illustrate that the observed between-species difference in the number of cells acquired was independent of vector-host plant interactions. H. vitripennis, a less efficient vector of the bacterium X. fastidiosa on grapevines, acquired more bacterial cells than G. atropunctata, possibly due to its larger size. Contrary to previous assumptions, pathogen acquisition efficiency by the vectors did not explain their reported differences in inoculation. Vector interactions with the host during the inoculation stage should be evaluated as another determinant of X. fastidiosa transmission efficiency. [ABSTRACT FROM AUTHOR]

Published
2011
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15. Comparison of Naval Acquisition Efficiency Between the United States and China

Author

Lorge, Matthew, Naval Postgraduate School (U.S.), Mortlock, Robert, Pickar, Charles, Pickar, Charles K., Mortlock, Robert F., and Graduate School of Business and Public Policy (GSBPP)

Subjects
China, acquisition, shipbuilding, acquisition efficiency, People's Liberation Army Navy
Abstract

The People’s Republic of China has emerged as the most significant long-term strategic competitor to the United States on the world stage. To accomplish this, China has made substantial investments in modern naval systems. In order to understand how successful China has been in this effort, an understanding of its acquisition system is required. Different countries use different processes for the acquisition of defense systems. Currently, there is not a standard method for comparing the efficiency of acquisition systems between the United States and other nations. The purpose of this research was to develop a framework that can be used to accomplish this task and to then demonstrate that framework on the United States’ and China’s naval shipbuilding programs. The results of this research identified 10 key factors that affect a country's acquisition efficiency. While the United States’ shipbuilding program outperforms China’s in seven of these areas, China’s leads in two key factors: cost and schedule performance. This indicates that although the United States has a more efficient acquisition system overall, China is still able to produce warships faster and at a lower cost. In order to maintain its strategic advantage on the world stage, the United States must work to ensure that its acquisition system remains ahead overall and closes the gap when it comes to cost and schedule. Acquisition Research Program http://archive.org/details/comparisonofnava1094559713 Outstanding Thesis Lieutenant Commander, United States Navy Approved for public release; distribution is unlimited.

Published
2018

16. COMPARISON OF NAVAL ACQUISITION EFFICIENCY BETWEEN THE UNITED STATES AND CHINA

Author

Pickar, Charles K., Mortlock, Robert F., Graduate School of Business and Public Policy (GSBPP), Lorge, Matthew, Pickar, Charles K., Mortlock, Robert F., Graduate School of Business and Public Policy (GSBPP), and Lorge, Matthew

Abstract

The People’s Republic of China has emerged as the most significant long-term strategic competitor to the United States on the world stage. To accomplish this, China has made substantial investments in modern naval systems. In order to understand how successful China has been in this effort, an understanding of its acquisition system is required. Different countries use different processes for the acquisition of defense systems. Currently, there is not a standard method for comparing the efficiency of acquisition systems between the United States and other nations. The purpose of this research was to develop a framework that can be used to accomplish this task and to then demonstrate that framework on the United States’ and China’s naval shipbuilding programs. The results of this research identified 10 key factors that affect a country's acquisition efficiency. While the United States’ shipbuilding program outperforms China’s in seven of these areas, China’s leads in two key factors: cost and schedule performance. This indicates that although the United States has a more efficient acquisition system overall, China is still able to produce warships faster and at a lower cost. In order to maintain its strategic advantage on the world stage, the United States must work to ensure that its acquisition system remains ahead overall and closes the gap when it comes to cost and schedule., Acquisition Research Program, http://archive.org/details/comparisonofnava1094559713, Outstanding Thesis, Lieutenant Commander, United States Navy, Approved for public release; distribution is unlimited.

Published
2018

17. Analysis of Acquisition and Titer of Maize Mosaic Rhabdovirus in Its Vector, Peregrinus maidis (Hemiptera: Delphacidae)

Author

Girly M. Ramirez, Anna E. Whitfield, Dorith Rotenberg, and Karen Barandoc-Alviar

Subjects
0301 basic medicine, Male, Nymph, 030106 microbiology, Zea mays, Virus, law.invention, Hemiptera, 03 medical and health sciences, Planthopper, law, Animals, sustained infection, Polymerase chain reaction, Plant Diseases, biology, General Medicine, biology.organism_classification, Virology, vector–virus interaction, propagative transmission, 3. Good health, Insect Vectors, Titer, 030104 developmental biology, Insect Science, Vector (epidemiology), Female, Rhabdoviridae, Delphacidae, acquisition efficiency, Research Article
Abstract

The corn planthopper, Peregrinus maidis (Ashmead) (Hemiptera: Delphacidae), transmits Maize mosaic rhabdovirus (MMV), an important pathogen of maize and sorghum, in a persistent propagative manner. To better understand the vectorial capacity of P. maidis , we determined the efficiency of MMV acquisition by nymphal and adult stages, and characterized MMV titer through development. Acquisition efficiency, i.e., proportion of insects that acquired the virus, was determined by reverse transcriptase polymerase chain reaction (RT-PCR) and virus titer of individual insects was estimated by quantitative RT-PCR. Acquisition efficiency of MMV differed significantly between nymphs and adults. MMV titer increased significantly over time and throughout insect development from nymphal to adult stage, indication of virus replication in the vector during development. There was a positive association between the vector developmental stage and virus titer. Also, the average titer in male insects was threefold higher than female titers, and this difference persisted up to 30 d post adult eclosion. Overall, our findings indicate that nymphs are more efficient than adults at acquiring MMV and virus accumulated in the vector over the course of nymphal development. Furthermore, sustained infection over the lifespan of P. maidis indicates a potentially high capacity of this vector to transmit MMV.

Published
2016

19. Atividade de fosfatases em gramíneas forrageiras em resposta à disponibilidade de fósforo no solo e à altura de corte das plantas

Author

Nunes, Flancer Novais, Cantarutti, Reinaldo Bertola, Novais, Roberto Ferreira, Silva, Ivo Ribeiro da, Tótola, Marcos Rogério, and Ribeiro, Bruno Neves

Subjects
ciclagem interna, eficiência de aquisição, remobilization, eficiência de utilização, Brachiaria decumbens, use efficiency, fosfo-hidrolases, phosphohydrolases, acquisition efficiency, Panicum maximum
Abstract

A eficiência de utilização de um nutriente, expressa pela relação entre a biomassa produzida e a quantidade absorvida, é uma importante característica adaptativa das plantas, particularmente daquelas cultivadas em solos com baixa disponibilidade desse nutriente. Maior eficiência de utilização de P (EUP) é conferida pela maior taxa de remobilização de P, que consiste na translocação desse nutriente para regiões de maior demanda metabólica na planta. Maiores taxas de remobilização têm sido associadas a maiores atividades das enzimas: fosfatase ácida (APase) e ribonuclease (RNase). Neste trabalho, avaliou-se a atividade dessas enzimas em plantas de Brachiaria decumbens, pouco exigente, e de Panicum maximum cv. Tanzânia, mais exigente em P, cultivadas em solos que receberam diferentes doses desse nutriente e submetidas a diferentes alturas de corte. O ensaio foi realizado em casa de vegetação, utilizando amostra do horizonte B de um Latossolo Vermelho-Amarelo argiloso. Os tratamentos resultaram da combinação fatorial das duas gramíneas, das doses de 100, 200 e 500 mg dm-3 de P e das três alturas de corte: sem corte e corte a 15 e 30 cm a partir da superfície do solo para Brachiaria; e sem corte e corte a 20 e 40 cm para Panicum. As unidades experimentais consistiram de vasos com 10 dm³ de solo, com 10 plantas. Os resultados indicaram que não houve diferença significativa na produção de biomassa das duas gramíneas, mas a adição de P propiciou maior produção e maior teor desse nutriente na parte aérea de ambas. As plantas submetidas a cortes mais severos apresentaram menor produção e maiores teores de P na parte aérea. Ocorreu efeito negativo das doses de P na atividade da APase e da RNase nas duas forrageiras. As plantas cultivadas com a menor dose de P apresentaram maior atividade dessas enzimas e maior EUP. A atividade de ambas as fosfatases decresceu com a idade das plantas. No tratamento com o corte mais intenso, independentemente da dose de P, tanto Brachiaria quanto Panicum apresentaram menor EUP. Isso ocorreu associado à maior atividade das enzimas APase e RNase, indicando que outros mecanismos relacionados com a adaptação das plantas a baixas disponibilidades de P podem estar envolvidos. The nutrient use efficiency, expressed by the ratio between the produced biomass and nutrient content, is an important adaptive characteristic of plants, particularly of those cultivated in low-fertility soils. A high P-use efficiency (PUE) is conferred by high P remobilization rates, i.e., P transport to regions of greater metabolic demand in the plant. High P remobilization rates have been associated with high acid phosphatase (APase) and ribonuclease (RNase) enzyme activities. In our study, we evaluated the activity of these enzymes in Brachiaria decumbens, with a low, and Panicum maximum cv Tanzânia, with a high P demand, cultivated in soil treated with different P rates and cut at different heights. The experiment was carried out in a greenhouse, using B-horizon samples of a clayey Yellow-Red Latosol. The treatments consisted of a factorial combination of two grasses, three P rates (100, 200 and 500 mg dm-3) and three cutting heights: no cutting, 15 and 30 cm above the soil surface for Brachiaria, and no cutting, 20 and 40 cm for Panicum. The experimental units consisted of pots with 10 dm³ soil, with 10 plants each. Results indicated that there was no significant difference between biomass production of the two grasses, but the P application resulted in a higher biomass yield and P shoot concentration. The biomass production of plants cut at a lower height was smaller and P concentrations in shoots were higher. A significant effect of P rates on the APase and the RNase activities was observed in both forages. In plants grown at the lowest P rate enzyme activities and PUE were the highest. The activity of both phosphatases decreased with plant aging. In the treatment with the lowest cutting height, the PUE in both Brachiaria and Panicum plants was lower, independent of the P rate. At the same time, a higher APase and RNase activity was observed, indicating that other mechanisms may be involved in the plant adaptation to low P availability.

Published
2008

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