Global ETD Search

1	Espaçamentos entrelinhas, densidades de semeadura e modos de aplicação de cloreto de mepiquat em algodoeiro cultivado na safrinha / Marinho, Janaina Fabris. January 2011 (has links) Orientador: Enes Furlani Júnior / Banca: Orivaldo Arf / Banca: Luiz Henrique Carvalho / Resumo: A diminuição dos custos de produção e aumento de produtividade, o sistemas adensado surgiu como uma alternativa para os produtores de algodão. Objetivou-se avaliar o desenvolvimento das plantas, qualidade da fibra e a produtividade do algodoeiro cultivado em semeadura tardia após a soja, nos diferentes espaçamentos entrelinhas, densidades de plantas e manejo de regulador de crescimento. Para tanto, foi conduzido o experimento, durante o ano agrícola de 2009/2010 na Fazenda de Ensino, Pesquisa e Extensão, da Faculdade de Engenharia - Unesp, Campus de Ilha Solteira, em condições de cerrado sem irrigação. O delineamento experimental foi o de blocos ao acaso em esquema fatorial 4x4x2, com quatro repetições. Os tratamentos foram compostos pela combinação de quatro espaçamentos entrelinha (0,34; 0,45; 0,70 e 0,90 m), quatro densidades de semeadura (6, 8, 10 e 12 plantas por metro) e dois manejo de regulador de crescimento (aplicação única e parcelamento em quatro aplicações). Constatou-se que o adensamento das plantas e aplicação parcelas de cloreto de mepiquat são eficientes no controle do crescimento vegetativo excessivo do algodoeiro. A maior produtividade foi alcançada espaçamento de 0,34 m entrelinhas, com 12 plantas por metro linear e com aplicações parceladas de cloreto de mepiquat. A qualidade da fibra não foi prejudicada com a redução dos espaçamentos entrelinhas / Abstract: The decrease in production costs and increased productivity, high density systems emerged as an alternative to cotton producers. The objective was to evaluate the development of plants, fiber quality and yield of cotton grown in late sowing after soybean in different row spacings, plant densities and management of growth regulator. For this, the experiment was conducted during the growing season 2009/2010 in the Fazenda de Ensino, Pesquisa e Extensão, da Faculdade de Engenharia , Campus de Ilha Solteira - UNESP, in savanna conditions without irrigation. The experimental design was randomized blocks in factorial 4x4x2, with four replications. The treatments consisted of combinations of four row spacing (0.34, 0.45, 0.70 and 0.90 m) and four seeding rates (6, 8, 10 and 12 plants per meter) and two regulatory management growth (a single application and split in four applications). It was found that the density of plants and application portions of mepiquat chloride are effective in controlling excessive vegetative growth in cotton. The highest yield was achieved by 0.34 m spacing between rows, with 12 plants per meter, with applications in installments mepiquat chloride. The quality of the fiber was not affected by reducing the spacing / Mestre Algodão - Cultivo. Plantas - População. Reguladores de crescimento. Gossypium hirsutum. eng Plant population density. eng Growth regulator. eng
2	Espaçamentos entrelinhas, densidades de semeadura e modos de aplicação de cloreto de mepiquat em algodoeiro cultivado na safrinha Marinho, Janaina Fabris [UNESP] 13 January 2011 (has links) (PDF) Made available in DSpace on 2014-06-11T19:29:41Z (GMT). No. of bitstreams: 0 Previous issue date: 2011-01-13Bitstream added on 2014-06-13T20:39:08Z : No. of bitstreams: 1 marinho_jf_me_ilha.pdf: 533374 bytes, checksum: 0cfd13f68e4dadd52839671eeadf81e9 (MD5) / Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) / A diminuição dos custos de produção e aumento de produtividade, o sistemas adensado surgiu como uma alternativa para os produtores de algodão. Objetivou-se avaliar o desenvolvimento das plantas, qualidade da fibra e a produtividade do algodoeiro cultivado em semeadura tardia após a soja, nos diferentes espaçamentos entrelinhas, densidades de plantas e manejo de regulador de crescimento. Para tanto, foi conduzido o experimento, durante o ano agrícola de 2009/2010 na Fazenda de Ensino, Pesquisa e Extensão, da Faculdade de Engenharia - Unesp, Campus de Ilha Solteira, em condições de cerrado sem irrigação. O delineamento experimental foi o de blocos ao acaso em esquema fatorial 4x4x2, com quatro repetições. Os tratamentos foram compostos pela combinação de quatro espaçamentos entrelinha (0,34; 0,45; 0,70 e 0,90 m), quatro densidades de semeadura (6, 8, 10 e 12 plantas por metro) e dois manejo de regulador de crescimento (aplicação única e parcelamento em quatro aplicações). Constatou-se que o adensamento das plantas e aplicação parcelas de cloreto de mepiquat são eficientes no controle do crescimento vegetativo excessivo do algodoeiro. A maior produtividade foi alcançada espaçamento de 0,34 m entrelinhas, com 12 plantas por metro linear e com aplicações parceladas de cloreto de mepiquat. A qualidade da fibra não foi prejudicada com a redução dos espaçamentos entrelinhas / The decrease in production costs and increased productivity, high density systems emerged as an alternative to cotton producers. The objective was to evaluate the development of plants, fiber quality and yield of cotton grown in late sowing after soybean in different row spacings, plant densities and management of growth regulator. For this, the experiment was conducted during the growing season 2009/2010 in the Fazenda de Ensino, Pesquisa e Extensão, da Faculdade de Engenharia , Campus de Ilha Solteira - UNESP, in savanna conditions without irrigation. The experimental design was randomized blocks in factorial 4x4x2, with four replications. The treatments consisted of combinations of four row spacing (0.34, 0.45, 0.70 and 0.90 m) and four seeding rates (6, 8, 10 and 12 plants per meter) and two regulatory management growth (a single application and split in four applications). It was found that the density of plants and application portions of mepiquat chloride are effective in controlling excessive vegetative growth in cotton. The highest yield was achieved by 0.34 m spacing between rows, with 12 plants per meter, with applications in installments mepiquat chloride. The quality of the fiber was not affected by reducing the spacing Algodão – Cultivo Plantas – População Reguladores de crescimento Adensamento Gossypium hirsutum Plant population density Growth regulator
3	IRRIGATED <em>ZEA MAYS</em> RESPONSE TO NITROGEN AND HIGH PLANT POPULATION DENSITY IN NARROW ROWS Baniszewski, Julie 01 January 2016 (has links) Modern genetics have improved maize hybrids to better tolerate stress, use nutrients more efficiently and potentially yield higher. Management practices, such as narrow row technology and high plant population density (PPD) may further improve yields in modern maize under irrigated, non-limiting conditions. High PPD (74, 99, 124, 148 K seeds ha-1) were tested in narrow rows with up to four nitrogen (N) rates in three locations over two years in Kentucky with a modern maize hybrid in irrigated, non-limiting conditions. Results indicate that optimal seeding rates were 99,000 to 124,000 seeds ha-1, providing maximum yield and highest partial return, likely due to increasing seed number ha-1 and greater canopy closure, although seed size declined and pollination was more asynchronous as PPD increased. Excess N did not overcome silking delay or the decline in kernel mass associated with higher PPD, indicating 252 kg N ha-1 was adequate for high yields at any population, although data indicates better utilization of supplied N at higher populations. Implications can be used to implement better management techniques in high-yielding maize to supplement use of improved genetics. plant population density nitrogen fertility maize management yield components Agricultural Science Agriculture Agronomy and Crop Sciences Plant Sciences
4	Determining optimum plant population densities for three annual green manure crops under weedy and weed-free conditions Lawley, Yvonne 22 December 2004 Green manure crops are critical to maintaining soil fertility in organic cropping systems. However, little research has been conducted to address their contribution to weed control. Indianhead black lentil (Lens culinaris Medikus), AC Green Fix chickling vetch (Lathyrus sativus L.), and Trapper field pea (Pisum sativum L.) are legumes developed for use as annual green manure crops in the Northern Great Plains. Currently, no plant population density recommendations exist for these three species when grown as green manure crops under weedy conditions. The objective of this research was to determine the yield-density response of these three species under weedy and weedy-free conditions and to develop plant population density recommendations for use as annual green manure crops. Each species was grown at five plant population densities (10, 24, 64, 160, and 400 plants m-2) with weedy and weed-free treatments. Wild oat (Avena fatua L.) and wild mustard (Brassica kaber (D.C.) L.C. Wheeler) were planted in weedy treatments to supplement the natural weed community. Biomass samples and soil moisture measurements were taken at early bud and full bloom to simulate when these crops would be terminated. Biomass samples from the early bud stage were analysed for total nitrogen content. Green manure biomass production for all species was lower under weedy conditions. Weed biomass in weedy treatments decreased with increasing green manure plant population density for all species. Trapper field pea was the most competitive crop while Indianhead black lentil was the least competitive. Although total plot biomass differed among species and green manure crop density, changes in soil moisture levels were not greatly affected. No significant difference in total nitrogen concentration was found among green manure species. Differences in total nitrogen accumulation occurred because of differences in biomass production. Marginal cost analysis based on green manure seed costs and their nitrogen contribution to the value of subsequent wheat crop yield were used to determine optimum plant population densities. Under weedy conditions field pea and black lentil should be planted at densities of 49-78 and 223-300 plants m-2, respectively. Under weed-free conditions plant population densities for field pea and black lentil could be reduced to 45-60 and 184-223 plants m-2, respectively. No profitable plant population density was determined for chickling vetch when assuming a lower nitrogen contribution under both weedy and weed-free conditions. However, when assuming a higher nitrogen contribution, a profitable plant population density for chickling vetch of 24 plants m-2 was determined under weedy conditions and 32 plants m-2 under weed-free conditions. black lentil chickling vetch field pea annual green manure crops optimum plant population density marginal cost analysis competition
5	Mathematical Models of <i>Zea mays</i>: Grain Yield and Aboveground Biomass Applied to Ear Flex and within Row Spacing Variability Ballard, Todd Curtis 01 December 2008 (has links) Field studies were conducted during the summers of 2007 and 2008 at the Agricultural Research and Education Complex, Western Kentucky University, Warren County, KY and commercial production fields in Caldwell County, KY, Warrick County IN, and Vanderburgh County, IN. The goals of these studies were to further validate the Duncan grain yield model, the Russell aboveground biomass model, and to study the effect of inconsistent spacing within rows on Zea mays L. yield. Plant spacing other than uniform decreases grain yield and profitability. The population experiments conducted at the Warren County location were a randomized complete block design with three planting densities, three varieties (c.v. DeKalb DKC6547, DeKalb DKC6346, DeKalb DKC6478) in 2007 and (DeKalb DKC6478, DeKalb DKC6342, and DeKalb DKC6544) in 2008, and three replications. Seeds were planted in rows 76 cm apart and 9.1 m long with four rows per plot in a no-till system on a Crider Silt Loam with pH of 6.8 and 1.5% organic matter. The effect of variable within row spacing was evaluated in commercial production fields by randomly selecting five adjacent rows of 5.3 meters in length at each location. Grain yield for each row was then curve fitted both linearly and exponentially. Minimizing interspecies competition was essential to evaluating the effects of competition within Zea mays L. A burn-down application of 2,4-D and glyphosate was used prior to planting. The most common weeds in the plots were Sorghum halepense L. (johnsongrass), Trifolium repens L. (white clover), and Taraxacum officinale L. (common dandelion) . Glyphosate was reapplied throughout the growing season due to reemergence of S. halepense and Ipomoea hederacea Jacq. (ivyleaf morningglory). The weight of each ear was recorded and one row from each plot was randomly selected to shell. The moisture content was measured from a subsample twice each row using an electrical conductivity moisture meter. The mean of the two moisture readings was used as the moisture content from the plot. Cob weights from shelled ears were recorded to determine the grain/cob mass ratio. This ratio was used to project the grain weight for the remaining harvested rows. Duncan’s grain yield model and Russell’s biomass model were curve fitted to the data for areas of 0.00040 hectares at the p < 0.05 significance level or greater in all population density plots. Individual plant grain masses were curve fitted to Duncan’s model with p < 0.05 significance in 3 out of 15 plots. Grain mass was negatively correlated (R < 0) with standard deviation of within row spacing in 14 of 15 plots. A linear fit to this trend was significant in only 2 of 15 plots. The Duncan yield curve and the Russell aboveground biomass model fit all 6 genotype by environment interactions for 2007 and 2008 to the α = 0.05 level of confidence when evaluated over a 5.3 meter length on 76.2 cm wide rows. Individual plants fit linearly at α = 0.05 in 9 out of 15 plots. Individual plants fit the Duncan yield curve at α = 0.05 in 4 out of 15 plots. Standard deviation of within row spacing fit grain yield loss significantly at &#; = 0.05 in two of 15 plots. The individual plant spacing and local population density collectively fit nine plots significantly at α = 0.05 or better. corn plant grain production plant population density corn production Agronomy and Crop Sciences Food Science Other Life Sciences
6	Determining optimum plant population densities for three annual green manure crops under weedy and weed-free conditions Lawley, Yvonne 22 December 2004 (has links) Green manure crops are critical to maintaining soil fertility in organic cropping systems. However, little research has been conducted to address their contribution to weed control. Indianhead black lentil (Lens culinaris Medikus), AC Green Fix chickling vetch (Lathyrus sativus L.), and Trapper field pea (Pisum sativum L.) are legumes developed for use as annual green manure crops in the Northern Great Plains. Currently, no plant population density recommendations exist for these three species when grown as green manure crops under weedy conditions. The objective of this research was to determine the yield-density response of these three species under weedy and weedy-free conditions and to develop plant population density recommendations for use as annual green manure crops. Each species was grown at five plant population densities (10, 24, 64, 160, and 400 plants m-2) with weedy and weed-free treatments. Wild oat (Avena fatua L.) and wild mustard (Brassica kaber (D.C.) L.C. Wheeler) were planted in weedy treatments to supplement the natural weed community. Biomass samples and soil moisture measurements were taken at early bud and full bloom to simulate when these crops would be terminated. Biomass samples from the early bud stage were analysed for total nitrogen content. Green manure biomass production for all species was lower under weedy conditions. Weed biomass in weedy treatments decreased with increasing green manure plant population density for all species. Trapper field pea was the most competitive crop while Indianhead black lentil was the least competitive. Although total plot biomass differed among species and green manure crop density, changes in soil moisture levels were not greatly affected. No significant difference in total nitrogen concentration was found among green manure species. Differences in total nitrogen accumulation occurred because of differences in biomass production. Marginal cost analysis based on green manure seed costs and their nitrogen contribution to the value of subsequent wheat crop yield were used to determine optimum plant population densities. Under weedy conditions field pea and black lentil should be planted at densities of 49-78 and 223-300 plants m-2, respectively. Under weed-free conditions plant population densities for field pea and black lentil could be reduced to 45-60 and 184-223 plants m-2, respectively. No profitable plant population density was determined for chickling vetch when assuming a lower nitrogen contribution under both weedy and weed-free conditions. However, when assuming a higher nitrogen contribution, a profitable plant population density for chickling vetch of 24 plants m-2 was determined under weedy conditions and 32 plants m-2 under weed-free conditions. black lentil chickling vetch field pea annual green manure crops optimum plant population density marginal cost analysis competition
7	Canopy Architecture and Plant Density Effect in Short-Season Chickpea (Cicer arietinum L.) Vanderpuye, Archibald W. 22 September 2010 Chickpea (Cicer arietinum L.) production on the semi-arid Canadian Prairies is challenging due to a short growing season and low and variable moisture. The current recommended chickpea population density of 44 plants m-2 is based on preliminary studies and a narrow range of 20 to 50 plants m-2. The aims of this study were to i) determine optimum population density of varying chickpea canopy types, i.e., leaf type and growth habit, by investigating seed yield responses at 30 to 85 plants m-2 and ii) identify desirable parental traits for breeding programs by assessing growth and yield parameter responses to varying leaf types and growth habits at a range of population densities. Field experiments were conducted from 2002 to 2005. Canopy measurements and calculated variables included light interception, biomass, growth rate, seed yield, harvest index, ascochyta blight severity and radiation- and water use efficiencies. The plant density which produced the highest seed yield when averaged over years for each location for each treatment revealed that a plant density of at least 55 plants m-2 produced a 23% to 49% seed yield increase above that of the currently recommended plant density. This indicates that a higher seed yield average over the long term in spite of periodic low seed yield episodes will be more profitable to producers. Increasing plant density increased lowest pod height significantly in all except one location-year but did not explicitly increase ascochyta blight severity or decrease individual seed size. This suggests that increasing the recommended chickpea plant density on the Canadian Prairies will increase seed yield but would neither negatively impact individual seed size nor ascochyta blight severity, especially, when combined with good agronomic practices. Fern-leaved cultivars had significantly higher maximum intercepted light (62 to 91%), seed yield (136 to 369 g m-2), harvest index (0.33 to 0.53), yield-based water use efficiency (0.56 to 1.06 g m-2 mm-1) and lower ascochyta blight severity (3 to 27%) than the unifoliate cultivars in all location-years. The fern-leaved cultivars also tended to show significantly higher cumulative intercepted radiation (221 to 419 MJ m-2) and biomass (306 to 824 g m-2) but leaf type showed no consistent effect on radiation use efficiency. Cultivars with bushy growth habit generally performed better regarding maximum intercepted light (62 to 90%), cumulative intercepted radiation (233 to 421 MJ m-2), biomass (314 to 854 MJ m-2), seed yield (120 to 370 g m-2), harvest index (0.37 to 0.50), yield-based water use efficiency (0.56 to 1.06 g m-2 mm-1) and ascochyta blight severity (7 to 36%) than the erect cultivars. The overall performance of the spreading cultivar was generally intermediate between the bushy and erect cultivars except for ascochyta blight severity where the spreading cultivar exhibited significantly lower disease severity (3 to 36%). Radiation use efficiency was generally not influenced by growth habit. Increasing plant population density generally increased intercepted light, biomass and cumulative intercepted radiation on each sampling day after seeding resulting in a general increase in seed yield. Harvest index, however, remained constant and ascochyta blight severity was generally stable but radiation use efficiency decreased with increasing population density. Chickpea cultivars with fern leaves and bushy growth habit at higher than currently recommended population densities would best utilize the limited resources of the short-season Canadian prairie environment to maximize and stabilize seed yield. light interception lowest pod height ascochyta blight harvest index spreading bushy erect plant habit growth habit unifoliate fern leaf type water use efficiency radiation use efficiency Canadian Prairies semi-arid short-season plant population density canopy architecture Cicer arietinum L. Chickpea biomass
8	Canopy Architecture and Plant Density Effect in Short-Season Chickpea (Cicer arietinum L.) Vanderpuye, Archibald W. 22 September 2010 (has links) Chickpea (Cicer arietinum L.) production on the semi-arid Canadian Prairies is challenging due to a short growing season and low and variable moisture. The current recommended chickpea population density of 44 plants m-2 is based on preliminary studies and a narrow range of 20 to 50 plants m-2. The aims of this study were to i) determine optimum population density of varying chickpea canopy types, i.e., leaf type and growth habit, by investigating seed yield responses at 30 to 85 plants m-2 and ii) identify desirable parental traits for breeding programs by assessing growth and yield parameter responses to varying leaf types and growth habits at a range of population densities. Field experiments were conducted from 2002 to 2005. Canopy measurements and calculated variables included light interception, biomass, growth rate, seed yield, harvest index, ascochyta blight severity and radiation- and water use efficiencies. The plant density which produced the highest seed yield when averaged over years for each location for each treatment revealed that a plant density of at least 55 plants m-2 produced a 23% to 49% seed yield increase above that of the currently recommended plant density. This indicates that a higher seed yield average over the long term in spite of periodic low seed yield episodes will be more profitable to producers. Increasing plant density increased lowest pod height significantly in all except one location-year but did not explicitly increase ascochyta blight severity or decrease individual seed size. This suggests that increasing the recommended chickpea plant density on the Canadian Prairies will increase seed yield but would neither negatively impact individual seed size nor ascochyta blight severity, especially, when combined with good agronomic practices. Fern-leaved cultivars had significantly higher maximum intercepted light (62 to 91%), seed yield (136 to 369 g m-2), harvest index (0.33 to 0.53), yield-based water use efficiency (0.56 to 1.06 g m-2 mm-1) and lower ascochyta blight severity (3 to 27%) than the unifoliate cultivars in all location-years. The fern-leaved cultivars also tended to show significantly higher cumulative intercepted radiation (221 to 419 MJ m-2) and biomass (306 to 824 g m-2) but leaf type showed no consistent effect on radiation use efficiency. Cultivars with bushy growth habit generally performed better regarding maximum intercepted light (62 to 90%), cumulative intercepted radiation (233 to 421 MJ m-2), biomass (314 to 854 MJ m-2), seed yield (120 to 370 g m-2), harvest index (0.37 to 0.50), yield-based water use efficiency (0.56 to 1.06 g m-2 mm-1) and ascochyta blight severity (7 to 36%) than the erect cultivars. The overall performance of the spreading cultivar was generally intermediate between the bushy and erect cultivars except for ascochyta blight severity where the spreading cultivar exhibited significantly lower disease severity (3 to 36%). Radiation use efficiency was generally not influenced by growth habit. Increasing plant population density generally increased intercepted light, biomass and cumulative intercepted radiation on each sampling day after seeding resulting in a general increase in seed yield. Harvest index, however, remained constant and ascochyta blight severity was generally stable but radiation use efficiency decreased with increasing population density. Chickpea cultivars with fern leaves and bushy growth habit at higher than currently recommended population densities would best utilize the limited resources of the short-season Canadian prairie environment to maximize and stabilize seed yield. light interception lowest pod height ascochyta blight harvest index spreading bushy erect plant habit growth habit unifoliate fern leaf type water use efficiency radiation use efficiency Canadian Prairies semi-arid short-season plant population density canopy architecture Cicer arietinum L. Chickpea biomass

Search results