Global ETD Search

371	Análise experimental de algoritmos de constância de cor e segmentação para detecção de mudas de plantas / Experimental analysis of color constancy and segmentation algorithms for plant seedlings detection Perissini, Ivan Carlos 02 March 2018 (has links) O uso da visão computacional vem ganhando espaço no contexto agrícola, especialmente com a evolução do conceito da agricultura de precisão. Aplicações como irrigação, fertilização e controle de pragas são apenas alguns dos cenários que essa tecnologia pode atender. Entretanto, a demanda por sistemas acessíveis e eficientes aliada às inconstâncias e ruídos visuais de um ambiente externo, apresentam desafios a estes processos. Foi proposto neste trabalho uma análise da literatura e uma série de investidas experimentais de técnicas de processamento de imagens, para buscar melhores relações entre custo computacional e desempenho da detecção de mudas de plantas, visando atingir operações em tempo real com o uso de hardwares comuns e de baixo custo. Para tanto o trabalho investiga a composição de estratégias de segmentação a partir de diferentes espaços de cor e métodos de constância de cor, de forma a reduzir a variação luminosa, uma das maiores fontes de instabilidade nas aplicações de visão na agricultura. Os experimentos propostos foram divididos em duas fases; na primeira o sistema de medidas foi avaliado, definindo as métricas e condições experimentais adequadas para a segunda fase, composta de uma sequência de experimentos comparativos entre estratégias de segmentação sob diferentes condições de iluminação. Os resultados mostraram que as soluções são muito dependentes das condições da cena e uma série de alternativas promissoras de segmentação foram obtidas. Sua elegibilidade, porém, depende de considerações sobre a disponibilidade computacional e contexto de aplicação. / The use of computer vision has been gaining ground in the agricultural context, especially with the evolution of the concept of precision agriculture. Applications such as irrigation, fertilization and pest control are just some of the scenarios that this technology can be used. However, the demand for accessible and efficient systems together with the variations and visual noise from an external environment presents challenges to these processes. It was proposed in this study an analysis of the literature and a series of experimental investigations of image processing techniques, to search for better relations between computational cost and performance in the detection of seedlings, aiming to achieve real time operations with the use of common and low cost hardware. For this, the work investigates the composition of segmentation strategies from different color spaces and color constancy methods, in order to combat light variation, one of the major sources of instability in agricultural vision applications. The proposed experiments were divided into two phases; in the first the measurement system was evaluated, defining the metrics and suitable conditions for the experiments at second phase, composed of a sequence of comparative experiments of segmentation strategies under different lighting conditions. The results showed that the solutions are very dependent on the conditions of the scene and a series of promising segmentation alternatives were obtained. Their eligibility, however, depends on considerations about the computational availability and context of the application. Agricultura de precisão Color segmentation Detecção de plantas Image processing Invariância luminosa Invariant Iluminant Plant detection Precision agriculture Processamento de imagens Seedlings detection Segmentação por cor
372	Uso de tubete e de minitubete de compósito de polihidroxibutirato mais pó de madeira na produção e no plantio de mudas seminais e clonais de eucalipto / Use of tubes and minitubes of polyhydroxybutyrate plus wood powder composite in the production and planting of eucalyptus seedlings and cuttings Arthur Junior, José Carlos 13 May 2011 (has links) O início do uso de tubete na década de 80 revolucionou os viveiros, e hoje mesmo apresentando desvantagens, é amplamente difundido em todo o setor florestal. Esses tubetes de polipropileno, derivado do petróleo, possuem dois problemas: uso de fonte não renovável e resíduos para descarte. Uma alternativa é a substituição por plásticos biodegradáveis. Os objetivos foram avaliar: (a) a taxa de decomposição do compósito; (b) o crescimento em altura e em diâmetro do colo (DAC); (c) a produção de biomassa aérea e radicular; (d) a concentração de nutrientes nos tecidos vegetais; (e) a eficiência do uso de condições ambientais e de atributos do solo para predizer a taxa de decomposição. Os estudos no processo seminal ocorreram no viveiro da ESALQ, em Piracicaba. Para estudar a taxa de decomposição do compósito, utilizaram-se formulações com 20 e 30% (p p-1) de pó de madeira. No verão e no inverno aplicaramse 150; 225 e 300 g de N m-3 de substrato na fertilização de base. A diminuição de massa foi mensurada a cada dez dias, até 90 dias. Avaliou-se se o crescimento em altura e em DAC de mudas seminais entre 40-90 dias após a semeadura, a produção de biomassa e concentração de macronutrientes aos 90. No plantio realizado na E.E.C.F. de Anhembi, em três blocos ao acaso avaliou-se o crescimento em altura, em DAC e de produção biomassa, aos 15, 30, 45, 60, 90 e 120 dias. Para as mudas clonais utilizou-se tubete e minitubete de polipropileno, tubetes na coloração normal e na coloração escurecida, e minitubete de compósito. O estudo realizou-se em quatro viveiros e quatro plantios de Eucalyptus sp. no estado de São Paulo. No viveiro utilizouse 4 blocos casualizados. O crescimento em altura e em DAC, e a biomassa foram mensurados aos 90 dias. O plantio clonal em três blocos ao acaso foi mensurado em altura, DAC e produção de biomassa aos 15, 30, 60, 90, 120 e 150 dias. A concentração de macronutrientes foi determinada aos 150 dias. Os dados foram submetidos aos testes de normalidade, de homogeneidade de variâncias, da Análise de Variância e de Tukey. A análise da relação entre as variáveis dependentes e independentes foi realizada por meio de análises de correlação e de regressão. O aumento da dose de N e do teor de madeira não proporcionou aumento da taxa de decomposição, ao contrário da estação climática. A abertura de fissuras causou deformação do tubete, dificultando o manejo. As mudas seminais, crescimento e biomassa não diferiram no verão. Os plantios seminais não diferiram em crescimento e em biomassa. No sistema clonal crescimento e biomassa diferiram nos viveiros. No plantio clonal, crescimento e produção de biomassa não diferiram em três sítios. Tubetes e minitubete de compósito não impediram o desenvolvimento do sistema radicular. A diminuição da massa dos tubetes ou minitubete de compósito, em produção de mudas seminais ou clonal, pôde ser prevista com alta precisão em função das condições ambientais. Da mesma forma nos plantios seminais. No plantio clonal pelo menos em dois sítios houve alta relação. / The introduction of plastic tubes on 80s revolutionized nurseries, and nowadays even with disadvantages, is widespread throughout the forest sector. These polypropylene tubes, derived from petroleum, have two problems: use of a nonrenewable resource and waste for disposal. An alternative is the substitution for biodegradable plastics. The objectives were to assess: (a) the rate of decomposition of the composite, (b) the growth in height and ground level diameter (DAC), (c) the production of stem and root biomass, (d) the concentration of nutrients on plant tissues, (e) the efficiency of use of environmental conditions and soil properties to predict the rate of decomposition. Studies in the seminal case occurred in ESALQ´s nursery, Piracicaba. To study the rate of decomposition of composite were used formulations with 20 and 30% (p p-1) of wood powder. During summer and winter were applied 150, 225 and 300 g N m-3 of substrate for base fertilization. Decrease in mass was measured every ten days until 90 days. We evaluated the growth in height and DAC from seedlings between 40-90 days after sowing, the production of biomass and macronutrients at 90. On planting, held at E.E.C.F. of Anhembi in three randomized blocks, were evaluated height growth, DAC and biomass production at 15, 30, 45, 60, 90 and 120 days. For cuttings, we used minitubes and tubes of polypropylene, and tubes with normal and darkened colors, and minitubes of composite. The study took place in four nurseries and four Eucalyptus sp. plantations at state of São Paulo. At nursery we used four randomized blocks. The growth in height, DAC and biomass were measured at 90 days. The clonal plantation in three randomized blocks was measured in height, DAC and biomass production at 15, 30, 60, 90, 120 and 150 days. The concentration of macronutrients was determined at 150 days. Data were tested for normality, homogeneity of variance, analysis of variance and Tukey test. Analysis of relationship between dependent and independent variables was performed using correlation and regression. The increase of N and wood content did not increase the rate of decomposition, unlike the weather season. Opening of cracks caused deformation of the tube, making it difficult to manage. The growth and biomass of seedlings did not differ on summer. Seminal plantations did not differ in growth and biomass. At clonal system, growth and biomass differed in nurseries. In clonal plantation, growth and biomass production did not differ at three sites. Minitube and tubes of composite did not prevent the development of root system. Decrease of tube or minitube of composite masses in production from seedlings or cuttings was predicted with high accuracy, as a function of environmental conditions. Likewise in seminal plantations. In clonal planting, at least two sites, showed high relation. Biodegradação Biodegradation Composite materials Cultivation in tubes Cultivo em tubete Eucalipto Eucalyptus Materiais compósitos Mudas - produção Polímeros sintéticos. Seedlings production Synthetic polymers.
373	Performance of slash pine (Pinus elliottii Engelm.) containerized rooted cuttings and bare-root seedlings established on five planting dates in the flatlands of western Louisiana Akgul, Alper 29 August 2005 (has links) The forest product industry is keenly interested in extending the normal planting season, as well as in the comparative field performance of standard nursery bare-root seedlings and containerized rooted cuttings. The effect of seasonal planting dates on survival, above and belowground biomass allocation, water relations, gas exchange attributes and foliar carbon isotope composition (δ13C) of two stock types of slash pine (Pinus elliottii Engelm.) were examined. Slash pine bare-root seedlings (BRS) and containerized rooted cuttings (CRC) were hand planted in September, November, January, March and April in three consecutive planting seasons (2000-2001, 2001-2002 and 2002-2003) on three sites with silt loam topsoils in southwestern Louisiana. First-year mean survival of CRC across all planting dates and sites was consistently high at 96 to 98%, whereas BRS survival was significantly (P < 0.0001) lower at 59 to 81% and highly variable among study sites and dates through three planting seasons. Generally, there was a negative relationship between soil moisture at the time of planting and first-year survival of BRS planted September through March in 2001-2002 and 2002-2003 planting seasons, whereas the opposite was observed only for BRS planted in April 2002 and 2003. Survival of CRC was affected very little by the variation in soil moisture. Containerized rooted cuttings had higher early above and belowground biomass, and height and diameter than did BRS. However, three years after planting the size differences between stock types disappeared or became negligible. Early size differences among trees planted September through March also decreased after three years, although September trees were tallest. Growth of the April-planted trees was poor compared to trees planted in other months. Late-planted April trees had higher δ13C values, and higher water-use efficiency in the first growing season compared to earlier planted trees. Differences in δ13C values among the planting dates disappeared in the second growing season. Net photosynthesis rates did not differ considerably between stock types or among planting dates in the second and third growing seasons. This study indicates that it is possible to extend the planting season to as early as September and as late as March by using CRC. Slash pine planting season soil moisture bare-root seedlings containerized rooted cuttings survival growth water relations gas exchange photosynthesis stomatal conductance carbon isotope discrimination above and belowground biomass allocation
374	Performance of slash pine (Pinus elliottii Engelm.) containerized rooted cuttings and bare-root seedlings established on five planting dates in the flatlands of western Louisiana Akgul, Alper 29 August 2005 (has links) The forest product industry is keenly interested in extending the normal planting season, as well as in the comparative field performance of standard nursery bare-root seedlings and containerized rooted cuttings. The effect of seasonal planting dates on survival, above and belowground biomass allocation, water relations, gas exchange attributes and foliar carbon isotope composition (δ13C) of two stock types of slash pine (Pinus elliottii Engelm.) were examined. Slash pine bare-root seedlings (BRS) and containerized rooted cuttings (CRC) were hand planted in September, November, January, March and April in three consecutive planting seasons (2000-2001, 2001-2002 and 2002-2003) on three sites with silt loam topsoils in southwestern Louisiana. First-year mean survival of CRC across all planting dates and sites was consistently high at 96 to 98%, whereas BRS survival was significantly (P < 0.0001) lower at 59 to 81% and highly variable among study sites and dates through three planting seasons. Generally, there was a negative relationship between soil moisture at the time of planting and first-year survival of BRS planted September through March in 2001-2002 and 2002-2003 planting seasons, whereas the opposite was observed only for BRS planted in April 2002 and 2003. Survival of CRC was affected very little by the variation in soil moisture. Containerized rooted cuttings had higher early above and belowground biomass, and height and diameter than did BRS. However, three years after planting the size differences between stock types disappeared or became negligible. Early size differences among trees planted September through March also decreased after three years, although September trees were tallest. Growth of the April-planted trees was poor compared to trees planted in other months. Late-planted April trees had higher δ13C values, and higher water-use efficiency in the first growing season compared to earlier planted trees. Differences in δ13C values among the planting dates disappeared in the second growing season. Net photosynthesis rates did not differ considerably between stock types or among planting dates in the second and third growing seasons. This study indicates that it is possible to extend the planting season to as early as September and as late as March by using CRC. Slash pine planting season soil moisture bare-root seedlings containerized rooted cuttings survival growth water relations gas exchange photosynthesis stomatal conductance carbon isotope discrimination above and belowground biomass allocation
375	Regeneration, growth and productivity of trees within gaps of old-growth forests on the outer coast (CWHvh2) of British Columbia Klinka, Karel, Kayahara, Gordon J., Chourmouzis, Christine January 2001 (has links) Central to the issue of harvest feasibility on the outer BC coast (CWHvh) is the question of whether sites, once harvested, can be regenerated, and whether the time period for replacement and subsequent growth is economically and environmentally acceptable. Since low productivity sites have not been harvested in the past, there is a lack of data to answer this question. We tried to provide an answer by assessing regeneration following natural disturbances. Small scale gap disturbances are the norm within old-growth stands. If regeneration is not a problem in gaps, then we have some evidence that regeneration should not be a problem upon implementation of our management practices. The objectives of this study were: (1) to develop baseline information on the mechanisms and the patterns of regeneration across a sequence of forest types; (2) to assess regeneration success with respect to productivity; and (3) to estimate future growth and productivity. Forest productivity Gap dynamics Light Old-growth Regeneration Stand structure Forest canopy gaps Vaccinium Sphagnum Seedlings Understory plants Coastal forests Trees - Growth
376	Mikorizės morfotipai paprastosios pušies želdiniuose / The mycorrhizal morphotypes of Scots pine seedlings in response to different site Kulešo, Anton 14 January 2009 (has links) Mokslinį tiriamąjį darbą “Mikorizės morfotipai paprastosios pušies želdiniuose” sudaro 52 puslapiai, iš jų 10 lentelių, 26 paveikslų, literatūros sąraše 72 šaltiniai. Išanalizuotas paprastosios pušies Labanoro provenencijos sodmenų vystymosi ir adaptyvumo ypatumai lauko daigyne ir želdiniuose. Įvertinta atskirų daigyno substratų (pušyno, ąžuolyno pakločių) įtaka sėjinukų (2+0) vystymuisi, adaptyvumui ir mikorizės išplitimui. Nustatyti minėtos provenencijos sodinukų (2+1) reakcijos į naujas augimo sąlygas atskirose želdavietėse (poligone, miško kirtavietėje, žemės ūkio naudmenose) ypatumai. Pateikti mikorizės kiekybinės ir kokybinės sudėties skirtumai atskiruose daigyno substratuose ir tirtose želdavietėse. Palygintos tradiciniu (morfotipavimo) ir molekuliniais (PCR-RFLP, sekvenavimas) metodais nustatytos mikorizės grybų rūšys. / The study from the research “The mycorrhizal morphotypes of Scots pine seedlings in response to different site” amounts to 52 pages, 10 tables, 26 figures and 72 refrences. The peculiarities of development and adaptivity of Scots pine seedlings from Labanoras provenance in bare-roots nursery and different site were analyzed. We hypothesized that soil with forest litter amendment would affect ectomycorrhizal community structure and growth and productivity characteristics of Scots pine seedlings in bare-roots nursery and in response to different site. In our experimental system, a layer of pine or oak litter was placed on the surface of the nursery bed soil in order to mimic natural litter cover. The influence of different nursery substrata (oak and pine litter) on development, adaptivity and mycorrhizal spread of seedlings (2+0) has been assessed. The peculiarities of seedlings (2+1) of mentioned provenance in response to new growth conditions in different site were found. The differences of qualitative and quantitative composition in nursery substrata and different site were investigated. Mycorrhizal fungi species were assessed by morphotyping and molecular methods (PCR-RFLP, sequence) identification. We have preliminary evidenced that changes to the supply of organic matter through litter manipulation may have wide-reaching effects on soil physical properties and soil chemistry and thus influence growth and survival Scots pine seedlings and their mycorrhizal communities... [to full text] Forestry Paprastosios pušies sodmenys Daigyno substratai Atskiros želdavietės Mikorizės morfotipai Molekuliniai metodai Scots pine seedlings Nursery substrata Different site Mycorrhizal morphotypes Molecular methods
377	An investigation into the feasibility of using e-business to sell plant material to the South African nursery industry Pollard, Bryn January 2005 (has links) Thesis (M.B.A.)-Business Studies Unit, Durban Institute of Technology, 2005 vii, 108 leaves / The South African nursery industry has faced many challenges over the last ten years. Excess in both demand and supply occur in any given year. The cost of maintaining a plant beyond its ideal ‘sell-by-date’ erodes profit and after time, results in complete wastage. The seedling nursery industry cannot afford to throw away large quantities of surplus seedlings or those that have become root-bound. The size of the wastage problem was unknown. It was believed that a website for trading surplus stock of seedlings might be the answer to the oversupply experienced by individual nurseries. The literature was consulted to establish what had made large companies successful. The advantages and disadvantages of E-business were investigated. Internet marketing--South Africa Electronic commerce--South Africa Nurseries (Horticulture)--South Africa Nursery dealers--South Africa Nursery growers--South Africa Seedlings--Quality--South Africa Management--Dissertations, Academic
378	Phytotron and field performance of Taro [Colocasia Esculenta (L.) Schott] landraces from Umbumbulu. Mare, Rorisang 'Maphoka. January 2006 (has links) The taro landraces that are most preferred by farmers from Umbumbulu, KwaZulu-Natal were identified through focus group discussions with farmers. Farmers ranked taro landraces on the basis of preference as determined by economic value, social significance, ecological importance and food characteristics. Using pairwise ranking, the farmers' preference of taro landraces across all locations was found to be in the following order: Dumbe-dumbe, Mgingqeni, Pitshi and Dumbe-lomfula. Dumbe-dumbe was identified as the currently actively cultivated taro whereas Mgingqeni was regarded as a less desirable cultivated taro. Pitshi was regarded as an antiquated landrace and Dumbe-lomfula was generally regarded as a taro type of no economic, social or food value that grew on river banks as a wild species. Glasshouse and field studies were conducted to determine the effects of temperature and growing location [Pietermaritzburg (UKZN) and Umbumbulu] on emergence, plant growth and yield of taro. Starch and mineral composition of taro corms were determined in harvest-mature corms. Effects of three day/night temperature levels (22/12°C, 27/17°C and 33/23°C) were examined on the growth of four taro landraces Dumbe-dumbe, Mgingqeni, Pitshi and Dumbe-lomfula. Pitshi-omhlophe, an ecotype of Pitshi for which there was a limited amount of planting material, was also included in the glasshouse studies. The farmers stated that the normal growing season for the economically important landraces, Dumbe-dumbe and Mgingqeni, was six months, but in this study plants were grown in glasshouses for nine months, and in the field, for seven months before the attainment of harvest maturity. Emergence was determined daily for glasshouse experiment until all plants had emerged and it was determined monthly for the field experiment. Leaf number, plant height and leaf area were measured every month to determine growth and development, while number of corms and fresh corm weight were used at harvest to determine yield. For all landraces, time to emergence increased significantly with decrease in temperature from 33/23°C to 27/17°C, but it increased significantly for only Dumbe-dumbe and Mgingqeni from 27/17°C to 22/12°C. Mgingqeni showed the shortest time to emergence, whereas, Pitshi showed the longest delay in emergence. The locations were not significantly different in emergence. Mgingqeni displayed the highest emergence in UKZN (91.4%), whereas, Dumbe-dumbe displayed the highest emergence (95.5%) and Dumbe-lomfula displayed the lowest emergence (55.9%) in Umbumbulu. Leaf number was highest for Pitshi-omhlophe, in glasshouse experiment due to its tendency to produce multiple shoots compared with the other landraces. Plant height increased with increase in temperature for all landraces except for Pitshi, for which height decreased with an increase in temperature. Leaf area was greatest for Dumbe-lomfula at all temperatures and lowest for Pitshi at both 22/12°C and 27/17°C. Leaf number was highest for Mgingqeni and lowest for Dumbe-lomfula at both sites, although it was significantly lower only for Dumbe-lomfula in UKZN. Plant height and leaf area were significantly highest for Dumbe-lomfula at both sites. The highest total number of corms per plant was shown by Pitshi-omhlophe at 22/12°C. Total fresh corm weight was highest for Dumbe-lomfula at 27/17°C and lowest for Pitshi at 22/22°C. The field experiment results showed Pitshi and Dumbe-lomfula with significantly higher total fresh corm weight in UKZN compared with Umbumbulu. Corms were analysed for mineral elements and starch. There were significant differences in starch content between temperatures (P = 0.017) and taro landraces (P = 0.025). There was also a significant interaction of temperatures and landrace (P = 0.002). Starch content increased with temperature for all landraces except for Pitshi-omhlophe and Dumbe-lomfula which showed a decrease at 27/17°C. There were significant differences in corm mineral content between temperatures, locations and landraces (P < 005). It is concluded that the chemical composition of taro corms is influenced by growth temperature and the location (site) where the crop is grown. The results of this study also indicated that taro plant growth is enhanced by high temperatures (33/23°C). High temperatures are, however, associated with short leaf area duration and subsequently low yield. The findings of this study may also be useful in determining taro quality for processing. / Thesis (M.Sc.)-University of KwaZulu-Natal, Pietermaritzburg, 2006. Taro--KwaZulu-Natal. Taro--Growth. Taro--Effect of temperature on. Taro--Varieties--KwaZulu-Natal. Taro--Physiology. Taro--Seedlings. Taro--Yields. Theses--Crop science.
379	Pepper and tomato seed performance in response to imbibition and dehydration. Nemakanga, Rendani. January 2005 (has links) The International Seed Testing Association and the Association of Official Seed analysts define seed vigour as the ability of a seed lot to perform during the germination process and crop stand establishment under a wide range of environmental conditions. There are many ways to determine seed vigour, but few satisfy the requirements of being simple, inexpensive and reproducible, among others, to permit the seed industry to adopt seed vigour as an indicator of seed quality when they sell seeds. Hence, the standard germination test, which is performed under uniform and favourable conditions, is generally used to indicate seed quality when seeds are marketed. The objective of this study was to determine the performance of tomato and pepper seeds in response to pre-germination hydration and dehydration relative humidities (12%, 49% and 75% RH). Before hydration, seeds were hydrated at three temperatures (10°C, 20°C and 30°C). Hydration was performed by imbibing pre-weighed pepper ('Santarini' and 'California Wonder'), Chilli and tomato ('Heinz', 'Marondera' and 'Roma') seeds for 2 h in 10 ml of distilled H(2)0 per 100 seeds at 10°C, 20°C and 30°C. Dehydration was performed by change in seed mass determined during a 72-hour dehydration at 12%, 49% and 75% RH. Seed performance in response to imbibition and dehydration was determined by leakage of electrolytes from seeds during imbibition, laboratory germination capacity and seedling emergence under simulated shadehouse nursery conditions. A pot experiment was conducted to determine the effects of seed treatments on yield. Seed mass increased by about 50% during the 2-hour of hydration. Dehydration was hastened by decreasing the RH, and 12% RH significantly (P < 0.05) reduced the post-imbibition seed moisture content compared with 49% and 75% RH. The latter two relative humidities reduced the seed moisture content to about 10% and 15%, respectively, for all cultivars, irrespective of imbibition temperature. Low imbibition temperature (10°C) significantly (P < 0.01) increased electrolyte leakage, compared with high imbibition temperatures (20°C and 30°C), which were not significantly different from each other. At all hydration temperatures, low RH (12%) caused a significant (P < 0.01) decrease in seed germination whereas 49% RH and 75% RH apparently had a priming effect on seeds. There was no significant difference between imbibition temperatures, with respect to seed germination, but 100G caused a significant decrease in germination index, a measure of seed vigour. Seedling emergence was significantly (P < 0.01) reduced by both low imbibition temperature (10oG) and low dehydration relative humidity (12% RH). The negative effects of low imbibition temperature and rapid dehydration at 12% RH were also observed as stunted seedling growth. Principal component analysis and linear regression were used to determine a statistical model to predict seedling emergence from germination percentage. The model predicted emergence consistently, but it overestimated it by about 2% to 3%. It is concluded that low imbibition temperature and rapid dehydration can be used to simulate stress to determine seed performance in pepper and tomato. / Thesis (M.Sc.)-University of KwaZulu-Natal, Pietermaritzburg, 2005. Peppers--Seeds--Physiology. Hot peppers--Seeds--Physiology. Tomatoes--Seeds--Physiology. Seeds--Development. Seeds--Physiology. Seeds--Viability. Seeds--Testing. Seeds--Growth. Seedlings--Evaluation. Germination. Theses--Crop science.
380	Bambara groundnut response to controlled environment and planting date associated water stress. Sinefu, Fikile. January 2011 (has links) Bambara groundnut is a protein-rich legume, with food security potential in drought-prone regions. It has been grown for many centuries and has remained an important crop to most African subsistence farmers. However, despite its high nutritional status and yield advantages in poor soils, it remains one of the neglected crops by science. There have now been recent efforts to study underutilised crops, with the aim of promoting them as healthy alternatives for people facing resource and environmental challenges and to contribute to food security. In order to do this, there needs to be information that can be used to advise farmers on the agronomic aspects of producing the crop. The overall aim of the study was to evaluate the response of bambara groundnut landraces to drought under controlled environment and field conditions. Seeds were initially collected from subsistence farmers in Jozini, KwaZulu-Natal, and characterised into three seed lots distinguished by seed coat colour: red, white and brown. In the initial study (Chapter 2) seed quality of bambara groundnuts was evaluated. Seed lots were used for standard germination (SG) and cold test (CT). Seeds were germinated under two conditions, 25°C for 8 days (SG) and 4°C for 7 days followed by 8 days at 25°C (CT). Germination percentage, seedling size and mass were determined. Desiccation tolerance was evaluated by suspending 30 seeds of each seed lot over saturated salt solutions of NaCl, LiCl, KNO3 and H2O (control) for 0, 2, 4, 8, 24 and 48 hours. Five seeds were sampled at each interval and stored at -21°C for 7 days. Samples were ground and analysed for proline content. In addition, early establishment performance of bambara groundnut was evaluated under controlled environment conditions in seedling trays using two water regimes (Chapter 2). The experimental design had three factors: seed lot (colour), priming (NaCl, LiCl, KNO3, H2O and control) and water regimes [25% and 75% Field Capacity (F.C.)]. The experiment was replicated three times. Seedling emergence was determined daily for 21 days. Seedling height and leaf number were determined weekly for three weeks, thereafter, seedling leaf area, root and shoot mass (fresh and dry), root and shoot lengths and root to shoot ratio were also determined. Seedlings were later transplanted in 90 pots for a pot trial in order to evaluate growth responses of bambara groundnut to water stress; plant height, leaf number and yield components were determined (Chapter 3). Lastly, the use of planting date selection as a management strategy for managing the occurrence of water stress under field conditions was evaluated in field trials. The experimental design was a split-split-plot design with planting date as main factor (early, optimum and late), irrigation and rainfed as sub-main factor, and seed colour as sub-plots (brown, red and white) arranged in a randomised complete block design (RCBD), with three replications. There were three planting dates: 7 September (early planting), 24 November (optimum planting) and 19 January (late planting). Results from Chapter 2 showed that the brown seed lot had the highest germination across treatments, followed by red and white seeds, respectively. There were significant differences between seed lots (P < 0.05) and salt solutions (P < 0.05) with respect to proline content. Seed proline content increased from 0 to 8 hours and later declined; NaCl was associated with the highest proline accumulation. There were highly significant differences (P < 0.001) between seed colours, priming treatments and F.C., as well as their interaction, with respect to seedling emergence. White seeds had the highest emergence, followed by brown and red, respectively. Priming seeds improved their emergence compared to the control, with highest emergence being observed in seeds treated with LiCl. Priming also improved emergence under water stress; 25% F.C. had the highest emergence compared to 75% F.C. Results from Chapter 3 showed that, seeds primed with NaCl and KNO3 resulted in tallest plants with the highest number of leaves per plant. However, NaCl and KNO3 were also the most affected under water stress. Priming was shown to improve germination and early crop establishment of bambara groundnut landraces under water stress. However, yield per plant did not improve in response to either halo- or hydro-priming. Results from field trials showed that in terms of the measured plant growth parameters (plant height, leaf number and LAI), bambara groundnut landraces were sensitive water stress. Water stress decreased yield components, and hence yield. However, selection of planting dates was shown to be a useful management tool for managing water stress under water limited field conditions. Choice of planting date significantly affected both plant growth and yield. The optimum planting date resulted in the best crop growth for all measured plant growth parameters followed by late and early planting dates, respectively. Seed quality was shown to be associated with seed lot colour. Darker coloured (red and brown) seeds performed better than light (white) seeds with respect to germination. Priming was also shown to improve germination and early crop establishment of bambara groundnut landraces under water stress. However, yield per plant did not improve following priming. Growth of bambara groundnut landraces was shown to be sensitive to water stress. Water stress decreased yield components and hence yield under both controlled and field conditions. Choice of planting date significantly affected both plant growth and yield. The optimum planting date was shown to be the best performing planting date. The findings of this study suggest that bambara groundnut seed performance in terms of germination, stand establishment and productivity is associated with seed lot colour. Seed priming improves seed performance and enhances crop capacity to withstand water stress. If the optimum planting date for groundnuts (late spring to early summer) is missed, better crop performance and yield are obtained from late planting (late summer to early spring) compared with early planting (early spring). Bambara groundnut has a potential for production under water stress conditions in controlled and field environments. / Thesis (M.Sc.Agric.)-University of KwaZulu-Natal, Pietermaritzburg, 2011. Bambara groundnut. Peanuts. Peanuts--Seeds--Quality. Peanuts--Seedlings--Evaluation. Peanuts--Planting time. Peanuts--Effect of water levels on. Peanuts--Varieties. Germination. Theses--Crop science.

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