Global ETD Search

11	Doses, fontes e épocas de aplicação do nitrogênio em cultivares de trigo sob plantio direto no cerrado / Teixeira Filho, Marcelo Carvalho Minhoto. January 2008 (has links) Orientador: Salatiér Buzetti / Banca: Marco Eustáquio de Sá / Banca: Carlos Alexandre C. Crusciol / Resumo: A utilização de cultivares de trigo de alto potencial produtivo e a adubação nitrogenada são essenciais para obtenção de altas produtividades. Todavia, os estudos sobre a resposta dos componentes de produção e produtividade do trigo à adubação nitrogenada são insuficientes, e devem ser estudadas em condições específicas de ambiente, como a região dos cerrados de baixa altitude, onde há necessidade do uso da irrigação. O objetivo deste trabalho foi avaliar os efeitos de diferentes doses e fontes de N, sendo uma o sulfonitrato de amônio com inibidor de nitrificação (Entec), aplicadas totalmente em semeadura ou em cobertura, em diferentes cultivares de trigo irrigado, sob plantio direto. O experimento foi desenvolvido em área experimental pertencente à Faculdade de Engenharia de Ilha Solteira - UNESP, em Selvíria - MS, em um Latossolo Vermelho Distrófico. O delineamento estatístico foi o de blocos ao acaso, em esquema fatorial 5x3x2x4 (em 2006) e 5x3x2x2 (em 2007), ou seja, cinco doses de N (0, 50, 100, 150 e 200 kg ha-1), três fontes de nitrogênio (Entec, sulfato de amônio e uréia) e duas épocas de aplicação (semeadura ou cobertura). Em 2006, foram utilizados quatro cultivares de trigo (E 21, E 22, E 42 e IAC 370), com 3 repetições. Já em 2007, foram utilizados os cultivares E 21 e IAC 370, com 4 repetições. Os cultivares mais produtivos foram o IAC 370 e E 21. Não houve diferença entre o Entec, sulfato de amônio e uréia para produtividade de grãos e para maioria dos componentes de produção. A aplicação do N totalmente em semeadura ou em cobertura foram semelhantes no desempenho da cultura. O teor de N foliar e o teor de clorofila (SPAD) correlacionam-se positivamente, comprovando a relação nitrogênio e clorofila. As doses de nitrogênio influenciaram o teor de N foliar, teor de clorofila (SPAD) e aumentaram a produtividade de grãos ...(Resumo completo, clicar acesso eletrônico abaixo) / Abstract: The use of wheat cultivar of high productive potential and the nitrogen fertilization are essential to get high income. Though, the studies about the response of the production components and productivity of wheat to nitrogen fertilization are insufficient, and it should be studied in specific environmental conditions, as the savannah area of low altitude, where there is need the use of irrigation. The objective of this work was to evaluate the effects of different doses and sources of N, using one ammonium sulfonitrate with nitrification inhibitor (Entec), applied totally at sowing or at covering, in different wheat cultivars irrigated, under no till. The experiment was conducted at experimental area belonging to UNESP - Ilha Solteira Campus, located in Selvíria - MS, in an Acrustox. A randomized block design was used, in a factorial scheme 5x3x2x4 (in 2006) and 5x3x2x2 (in 2007), being five doses of N (0, 50, 100, 150 and 200 kg ha-1), three sources of nitrogen (Entec, ammonium sulfate and urea) and two application times (at sowing or at covering). In 2006, it was used four wheat cultivars (E 21, E 22, E 42 and IAC 370), with 3 repetitions. In 2007, it was used just the two best cultivars: E 21 and IAC 370, with 4 repetitions. The IAC 370 and E 21 wheat cultivars presented the highest productivity. There was no difference among Entec, ammonium sulfate and urea for grain yield and for majority of the production components. To the application of N totally at sowing or at covering it there was not difference between them. The N leaf and the chlorophyll contents (SPAD) were correlated positively, proving the relationship between nitrogen and chlorophyll contents. The doses of nitrogen influenced the N content, chlorophyll content (SPAD) and they increased the grain yield up to the dose of 118,5 kg ha-1 of N, independent of cultivar, source of N and application time. / Mestre Adubos e fertilizantes orgânicos. Nitrogenio. Trigo. Triticum aestivum L. eng Irrigated by sprinkler. eng Ammonion sulfate. eng Urea and chlorophyll content. eng
12	Evaluation of Nitrogen Management Schemes in Cover Cropped Vineyards Moss, James Russell 06 June 2016 (has links) Vineyards in the Eastern United States are often prone to excessive vegetative growth. In order to suppress excessive vine vigor, many viticulturists have employed cover cropping strategies. Cover crops provide a myriad of agronomic benefits, however they are known to compete with the vine for water and nutrients. Due to the widespread use of cover crops in Eastern vineyards, many vineyards experience nitrogen (N) deficiencies in both the vegetative vine tissue and yeast assimilable nitrogen (YAN) in the juice. Soil applications of calcium nitrate and foliar applications of urea were assessed as a means of vineyard N amelioration at cover cropped sites comprised of Petit Manseng and Sauvignon blanc (Vitis vinifera L.). Perennial White and Crimson clover cover crops and foliar urea applications were also used in a Vidal blanc (Vitis spp.) vineyard. Treatments were imposed in the Sauvignon blanc vineyard for five years. The Petit Manseng and Vidal blanc vineyards were subjected to treatments for two years. Soil-applied N at bloom was most effective at increasing leaf petiole N at véraison, season-long chlorophyll content index (CCI), vine capacity and fruit yield. Fruit yield was increased due to more berries per cluster and greater berry weights. Increased rates of soil-applied N decreased the fruit weight:pruning weight ratio. Foliar-applied N after fruit set was most effective at increasing berry YAN. While most of the measured amino acids in fruit increased in concentration with the application of either soil or foliar N, foliar applications were more effective at increasing fruit amino acids. Clover cover crops offered little to no benefit as a N source in the two-year period of evaluation. None of the N management schemes negatively impacted canopy density, fruit zone light interception, or botrytis bunch rot incidence. The combination of both a soil-applied and foliar-applied N fertilizer may be the most effective means to increase both vine capacity and YAN in vineyards where vineyard floor cover crops are compromising vine N status. / Master of Science Vitis vinifera yeast assimilable nitrogen (YAN) chlorophyll content index (CCI) amino acids foliar urea
13	Optimizing nitrogen fertilization practices under intensive vineyard cover cropping floor management systems D'Attilio, DeAnna Rae 28 March 2014 (has links) Under-trellis cover crops have become more prevalent in East Coast grape growing regions through either intentional planting or adoption of native vegetation, to minimize the potential for erosion and to help regulate grapevine size and vigor. These companion crops, however, have sometimes resulted in increased competition for soil nitrogen, leading to decreased vine nitrogen status and berry yeast assimilable nitrogen (YAN). The aim of this study was to determine the effects of different nitrogen fertilization methods applied at varying doses and different times, on vine and berry nitrogen parameters of cover cropped grapevines. The research described herein involved Sauvignon blanc, Merlot, and Petit Manseng grapevines (Vitis vinifera L.) subjected to different sets of nitrogen treatments, and was primarily conducted over two years. There were very few differences in pruning weights, canopy architecture, components of yield, and primary fruit chemistry amongst nitrogen treatments. Sauvignon blanc petiole nitrogen concentration, season-long chlorophyll content index (CCI) values, and berry YAN were most affected by the highest rate of soil nitrogen treatment (60 kg N/ha total split between two calcium nitrate applications at bloom and six weeks post bloom) and foliar fertilization (40 kg N/ha split over seven to nine urea applications); however, the foliar fertilization was most effective at increasing the concentration of certain individual amino acids. Petit Manseng berry YAN at harvest was increased in response to post-véraison foliar applications (10 kg N/ha split between two urea applications), corresponding to an increased concentration of nine amino acids. Merlot berry YAN, petiole nitrogen concentration, and season-long CCI values were most affected by a high rate of soil nitrogen treatment (60 kg N/ha total split between two calcium nitrate applications at bloom and six weeks post bloom) and establishing clover as the under-trellis cover crop. This study identified nitrogen treatments that improved berry nitrogen concentration and content in cover cropped sites. / Master of Science Vitis vinifera yeast assimilable nitrogen (YAN) chlorophyll content index (CCI) foliar fertilization
14	Growth and development of baby spinach (Spinacia oleracea L.) with reference to mineral nutrition Nemadodzi, Lufuno Ethel 01 June 2015 (has links) Baby spinach is a relatively new crop in South Africa with both commercial significance and reputed health benefits. It is known to assist in combating degenerative conditions associated with ageing, such as heart disease, cardiovascular disease, Alzheimer’s disease, cataracts and several forms of cancer. Three parallel NPK trials were conducted to investigate the effects of nitrogen (N), phosphorus (P) and potassium (K) on the growth and development of baby spinach. N and P treatments were arranged as (0, 45, 75, 105, 120 kg.ha -1 N and P), and K treatments were arranged as (0, 63, 85, 127, 148 kg.ha -1) in a randomised complete block designed with four replicates. Results showed that yield, dry matter, chlorophyll content and Leaf Area Index (LAI) were significantly increased by increasing the N application, while K had a significant effect on the LAI but not on yield, dry matter, chlorophyll content or stomatal conductance. Nitrogen treatments quadrupled fresh yield, dry matter and chlorophyll content, reaching maximum impact at 75 kg.ha-1 N. Phosphorus application showed significantly increased yields, dry matter and chlorophyll content, reaching maximum impact at 75 kg.ha-1 P. Therefore, to achieve optimum growth with N and P, 75 kg.ha-1 is recommended. The optimum rates of N, P and K were then used to formulate a NPK combined trial which was arranged as 0, 30:30:40, 45:45:60, 60:60:70, 75:75:90 kg.ha-1 in a randomised complete block design with three replicates. The results showed that maximum impact on yield, chlorophyll content, fresh and dry matter was achieved when combined NPK was applied at 45:45:60 / Agriculture and Animal Health / M. Sc. (Agriculture) Baby spinach Biomass Chlorophyll content Dry matter Mineral nutrition Nitrate Stomatal conductance 664.80541 Spinach -- Yields -- South Africa Spinach -- Nutrition -- South Africa Spinach -- Growth Chlorophyll\| -- Analysis
15	GENETIC ANALYSIS OF IMPORTANT TRAITS FOR CONFECTIONERY SUNFLOWER IN AUSTRALIA Yue Sun Unknown Date (has links) Sunflower is grown worldwide for oil production. In Australia, sunflower is under intense competition from canola as an oil crop. Confectionery sunflower aimed for the overseas snack food market is a potential opportunity for Australian farmers due to its ability to provide off-season supply to the major market located mainly in the northern hemisphere. To serve this aim, new confectionery sunflower hybrids adapted to Australian production system with drought tolerance, large achenes, high self-fertility and rust resistance are of paramount importance. The objectives of this project were to understand the genetic inheritance and genetic linkage relationships of the above traits and also to identify linked DNA markers with the potential for marker-assisted selection (MAS). The inheritance of achene-length was studied in a 12 x 12 diallel and a 14 x 12 North Carolina design II (NC II) mating design. Achene-length was evaluated under three environments for each mating design. Genetic correlation among all five achene-size related traits (achene-length, -width, - thickness and also kernel-length and -width) and 100-achene weight were moderate to high. Narrow-and broad-sense heritability for achene-length was moderate to high and similar for each design. The general combining ability (GCA) and maternal effects were found to be the main genetic factors controlling achene-length and each accounted for around 45% of the total genotypic variance. The inheritance of self-fertility (SF) was assessed with the same 12 x 12 diallel mating design evaluated in two environments. The 12 parents also displayed various levels of SF in addition to a wide range of achene-length. Negative genetic correlations between SF and all five achene-size related traits and 100-achene weight were observed. Modelling achene-length as a covariate revealed that certain pre-pollination floret characteristics represented by achene-length at maturity strongly affects SF in sunflower. When the effect of achene-length was removed statistically as a covariate, the specific combining ability (SCA) effect increased dramatically and became the major factor (other than pre-pollination floret characteristics) for SF determination and accounted for 65% of the total variance. Long achene genotypes tended to have low SF and a positive SCA effect was observed more frequently in F1 hybrids that involved small achene lines. The broad sense heritability was moderate (0.663 ± 0.017), while the estimate of narrow-sense heritability was nearly zero. A segregating F6:7 recombinant inbred line population with 239 progeny was developed from a cross between HaR4, a low delta (Δ), high transpiration efficiency (TE), sunflower line with rust resistance but relatively low SF, and SA52 with all the characteristics in the opposite direction. The population was evaluated in two environments for three TE-related traits including Δ, specific leaf weight (SLW) and chlorophyll content (CC) and four agronomic traits i.e. days to flowering (DTF), plant height (PlantH), SF and rust resistance (RustR). A linkage map 1074.6 cM in length with 138 SSR and 37 ISSR markers consisting of 19 linkage groups was constructed. Spatially adjusted BLUPs were used in QTL analysis for individual and combined environments. Altogether, 10 QTL were identified for Δ, SLW and CC at individual environments, and 7 were detected by a combined analysis. Sixteen QTL were identified for 4 agronomic traits and 14 of them were confirmed by a combined analysis. Significant linkage among all three TE related traits was discovered on linkage group 4 (LG4), where alleles from one parent had the same direction of influence on TE which suggested either coupling phase linkage or pleiotropy. QTL for SF and RustR were closely linked on LG13. An F2 population with 502 progeny developed from a cross between Jumbo, a large achene confectionery sunflower line, and RIL25, an oilseed small achene line, was evaluated for five achene-size related traits in a single field trial. Using a subset of 178 progeny a framework genetic linkage map, 899.7 cM in length, containing 128 SSR markers and 23 ISSR markers was constructed with 18 linkage groups. Based on the results of a simulated QTL analysis, a modified selective genotyping strategy was employed for QTL analysis with 178 F2 individuals (128 randomly selected, 25 shortest achene F2’s and 25 longest achene F2’s). Altogether 18 achene-size related QTL with small effects were identified. Achene-size related genes characteristically expressed additive gene action although several alleles were partially recessive towards the large achene parent. The 18 identified achene-size related QTL were validated in the same diallel mating experiment mentioned above. Significant marker-trait associations were detected for 15 QTL. In addition to 12 significant alleles detected from the F2 population, 12 additional alleles associated with achene-size traits were revealed after the analysis with the diallel. These markers are ready to be used in MAS for confectionery sunflower breeding. Great steps have been made in obtaining essential knowledge of inheritance and linkage of target traits for breeding confectionery sunflower adapted to Australian production environments. The identified markers can be used in MAS and further enhance the breeding process. confectionery sunflower quantitative trait loci combining ability carbon isotope discrimination specific leaf weight chlorophyll content achene size kernel size self-fertility rust resistance
16	GENETIC ANALYSIS OF IMPORTANT TRAITS FOR CONFECTIONERY SUNFLOWER IN AUSTRALIA Yue Sun Unknown Date (has links) Sunflower is grown worldwide for oil production. In Australia, sunflower is under intense competition from canola as an oil crop. Confectionery sunflower aimed for the overseas snack food market is a potential opportunity for Australian farmers due to its ability to provide off-season supply to the major market located mainly in the northern hemisphere. To serve this aim, new confectionery sunflower hybrids adapted to Australian production system with drought tolerance, large achenes, high self-fertility and rust resistance are of paramount importance. The objectives of this project were to understand the genetic inheritance and genetic linkage relationships of the above traits and also to identify linked DNA markers with the potential for marker-assisted selection (MAS). The inheritance of achene-length was studied in a 12 x 12 diallel and a 14 x 12 North Carolina design II (NC II) mating design. Achene-length was evaluated under three environments for each mating design. Genetic correlation among all five achene-size related traits (achene-length, -width, - thickness and also kernel-length and -width) and 100-achene weight were moderate to high. Narrow-and broad-sense heritability for achene-length was moderate to high and similar for each design. The general combining ability (GCA) and maternal effects were found to be the main genetic factors controlling achene-length and each accounted for around 45% of the total genotypic variance. The inheritance of self-fertility (SF) was assessed with the same 12 x 12 diallel mating design evaluated in two environments. The 12 parents also displayed various levels of SF in addition to a wide range of achene-length. Negative genetic correlations between SF and all five achene-size related traits and 100-achene weight were observed. Modelling achene-length as a covariate revealed that certain pre-pollination floret characteristics represented by achene-length at maturity strongly affects SF in sunflower. When the effect of achene-length was removed statistically as a covariate, the specific combining ability (SCA) effect increased dramatically and became the major factor (other than pre-pollination floret characteristics) for SF determination and accounted for 65% of the total variance. Long achene genotypes tended to have low SF and a positive SCA effect was observed more frequently in F1 hybrids that involved small achene lines. The broad sense heritability was moderate (0.663 ± 0.017), while the estimate of narrow-sense heritability was nearly zero. A segregating F6:7 recombinant inbred line population with 239 progeny was developed from a cross between HaR4, a low delta (Δ), high transpiration efficiency (TE), sunflower line with rust resistance but relatively low SF, and SA52 with all the characteristics in the opposite direction. The population was evaluated in two environments for three TE-related traits including Δ, specific leaf weight (SLW) and chlorophyll content (CC) and four agronomic traits i.e. days to flowering (DTF), plant height (PlantH), SF and rust resistance (RustR). A linkage map 1074.6 cM in length with 138 SSR and 37 ISSR markers consisting of 19 linkage groups was constructed. Spatially adjusted BLUPs were used in QTL analysis for individual and combined environments. Altogether, 10 QTL were identified for Δ, SLW and CC at individual environments, and 7 were detected by a combined analysis. Sixteen QTL were identified for 4 agronomic traits and 14 of them were confirmed by a combined analysis. Significant linkage among all three TE related traits was discovered on linkage group 4 (LG4), where alleles from one parent had the same direction of influence on TE which suggested either coupling phase linkage or pleiotropy. QTL for SF and RustR were closely linked on LG13. An F2 population with 502 progeny developed from a cross between Jumbo, a large achene confectionery sunflower line, and RIL25, an oilseed small achene line, was evaluated for five achene-size related traits in a single field trial. Using a subset of 178 progeny a framework genetic linkage map, 899.7 cM in length, containing 128 SSR markers and 23 ISSR markers was constructed with 18 linkage groups. Based on the results of a simulated QTL analysis, a modified selective genotyping strategy was employed for QTL analysis with 178 F2 individuals (128 randomly selected, 25 shortest achene F2’s and 25 longest achene F2’s). Altogether 18 achene-size related QTL with small effects were identified. Achene-size related genes characteristically expressed additive gene action although several alleles were partially recessive towards the large achene parent. The 18 identified achene-size related QTL were validated in the same diallel mating experiment mentioned above. Significant marker-trait associations were detected for 15 QTL. In addition to 12 significant alleles detected from the F2 population, 12 additional alleles associated with achene-size traits were revealed after the analysis with the diallel. These markers are ready to be used in MAS for confectionery sunflower breeding. Great steps have been made in obtaining essential knowledge of inheritance and linkage of target traits for breeding confectionery sunflower adapted to Australian production environments. The identified markers can be used in MAS and further enhance the breeding process. confectionery sunflower quantitative trait loci combining ability carbon isotope discrimination specific leaf weight chlorophyll content achene size kernel size self-fertility rust resistance
17	GENETIC ANALYSIS OF IMPORTANT TRAITS FOR CONFECTIONERY SUNFLOWER IN AUSTRALIA Yue Sun Unknown Date (has links) Sunflower is grown worldwide for oil production. In Australia, sunflower is under intense competition from canola as an oil crop. Confectionery sunflower aimed for the overseas snack food market is a potential opportunity for Australian farmers due to its ability to provide off-season supply to the major market located mainly in the northern hemisphere. To serve this aim, new confectionery sunflower hybrids adapted to Australian production system with drought tolerance, large achenes, high self-fertility and rust resistance are of paramount importance. The objectives of this project were to understand the genetic inheritance and genetic linkage relationships of the above traits and also to identify linked DNA markers with the potential for marker-assisted selection (MAS). The inheritance of achene-length was studied in a 12 x 12 diallel and a 14 x 12 North Carolina design II (NC II) mating design. Achene-length was evaluated under three environments for each mating design. Genetic correlation among all five achene-size related traits (achene-length, -width, - thickness and also kernel-length and -width) and 100-achene weight were moderate to high. Narrow-and broad-sense heritability for achene-length was moderate to high and similar for each design. The general combining ability (GCA) and maternal effects were found to be the main genetic factors controlling achene-length and each accounted for around 45% of the total genotypic variance. The inheritance of self-fertility (SF) was assessed with the same 12 x 12 diallel mating design evaluated in two environments. The 12 parents also displayed various levels of SF in addition to a wide range of achene-length. Negative genetic correlations between SF and all five achene-size related traits and 100-achene weight were observed. Modelling achene-length as a covariate revealed that certain pre-pollination floret characteristics represented by achene-length at maturity strongly affects SF in sunflower. When the effect of achene-length was removed statistically as a covariate, the specific combining ability (SCA) effect increased dramatically and became the major factor (other than pre-pollination floret characteristics) for SF determination and accounted for 65% of the total variance. Long achene genotypes tended to have low SF and a positive SCA effect was observed more frequently in F1 hybrids that involved small achene lines. The broad sense heritability was moderate (0.663 ± 0.017), while the estimate of narrow-sense heritability was nearly zero. A segregating F6:7 recombinant inbred line population with 239 progeny was developed from a cross between HaR4, a low delta (Δ), high transpiration efficiency (TE), sunflower line with rust resistance but relatively low SF, and SA52 with all the characteristics in the opposite direction. The population was evaluated in two environments for three TE-related traits including Δ, specific leaf weight (SLW) and chlorophyll content (CC) and four agronomic traits i.e. days to flowering (DTF), plant height (PlantH), SF and rust resistance (RustR). A linkage map 1074.6 cM in length with 138 SSR and 37 ISSR markers consisting of 19 linkage groups was constructed. Spatially adjusted BLUPs were used in QTL analysis for individual and combined environments. Altogether, 10 QTL were identified for Δ, SLW and CC at individual environments, and 7 were detected by a combined analysis. Sixteen QTL were identified for 4 agronomic traits and 14 of them were confirmed by a combined analysis. Significant linkage among all three TE related traits was discovered on linkage group 4 (LG4), where alleles from one parent had the same direction of influence on TE which suggested either coupling phase linkage or pleiotropy. QTL for SF and RustR were closely linked on LG13. An F2 population with 502 progeny developed from a cross between Jumbo, a large achene confectionery sunflower line, and RIL25, an oilseed small achene line, was evaluated for five achene-size related traits in a single field trial. Using a subset of 178 progeny a framework genetic linkage map, 899.7 cM in length, containing 128 SSR markers and 23 ISSR markers was constructed with 18 linkage groups. Based on the results of a simulated QTL analysis, a modified selective genotyping strategy was employed for QTL analysis with 178 F2 individuals (128 randomly selected, 25 shortest achene F2’s and 25 longest achene F2’s). Altogether 18 achene-size related QTL with small effects were identified. Achene-size related genes characteristically expressed additive gene action although several alleles were partially recessive towards the large achene parent. The 18 identified achene-size related QTL were validated in the same diallel mating experiment mentioned above. Significant marker-trait associations were detected for 15 QTL. In addition to 12 significant alleles detected from the F2 population, 12 additional alleles associated with achene-size traits were revealed after the analysis with the diallel. These markers are ready to be used in MAS for confectionery sunflower breeding. Great steps have been made in obtaining essential knowledge of inheritance and linkage of target traits for breeding confectionery sunflower adapted to Australian production environments. The identified markers can be used in MAS and further enhance the breeding process. confectionery sunflower quantitative trait loci combining ability carbon isotope discrimination specific leaf weight chlorophyll content achene size kernel size self-fertility rust resistance
18	GENETIC ANALYSIS OF IMPORTANT TRAITS FOR CONFECTIONERY SUNFLOWER IN AUSTRALIA Yue Sun Unknown Date (has links) Sunflower is grown worldwide for oil production. In Australia, sunflower is under intense competition from canola as an oil crop. Confectionery sunflower aimed for the overseas snack food market is a potential opportunity for Australian farmers due to its ability to provide off-season supply to the major market located mainly in the northern hemisphere. To serve this aim, new confectionery sunflower hybrids adapted to Australian production system with drought tolerance, large achenes, high self-fertility and rust resistance are of paramount importance. The objectives of this project were to understand the genetic inheritance and genetic linkage relationships of the above traits and also to identify linked DNA markers with the potential for marker-assisted selection (MAS). The inheritance of achene-length was studied in a 12 x 12 diallel and a 14 x 12 North Carolina design II (NC II) mating design. Achene-length was evaluated under three environments for each mating design. Genetic correlation among all five achene-size related traits (achene-length, -width, - thickness and also kernel-length and -width) and 100-achene weight were moderate to high. Narrow-and broad-sense heritability for achene-length was moderate to high and similar for each design. The general combining ability (GCA) and maternal effects were found to be the main genetic factors controlling achene-length and each accounted for around 45% of the total genotypic variance. The inheritance of self-fertility (SF) was assessed with the same 12 x 12 diallel mating design evaluated in two environments. The 12 parents also displayed various levels of SF in addition to a wide range of achene-length. Negative genetic correlations between SF and all five achene-size related traits and 100-achene weight were observed. Modelling achene-length as a covariate revealed that certain pre-pollination floret characteristics represented by achene-length at maturity strongly affects SF in sunflower. When the effect of achene-length was removed statistically as a covariate, the specific combining ability (SCA) effect increased dramatically and became the major factor (other than pre-pollination floret characteristics) for SF determination and accounted for 65% of the total variance. Long achene genotypes tended to have low SF and a positive SCA effect was observed more frequently in F1 hybrids that involved small achene lines. The broad sense heritability was moderate (0.663 ± 0.017), while the estimate of narrow-sense heritability was nearly zero. A segregating F6:7 recombinant inbred line population with 239 progeny was developed from a cross between HaR4, a low delta (Δ), high transpiration efficiency (TE), sunflower line with rust resistance but relatively low SF, and SA52 with all the characteristics in the opposite direction. The population was evaluated in two environments for three TE-related traits including Δ, specific leaf weight (SLW) and chlorophyll content (CC) and four agronomic traits i.e. days to flowering (DTF), plant height (PlantH), SF and rust resistance (RustR). A linkage map 1074.6 cM in length with 138 SSR and 37 ISSR markers consisting of 19 linkage groups was constructed. Spatially adjusted BLUPs were used in QTL analysis for individual and combined environments. Altogether, 10 QTL were identified for Δ, SLW and CC at individual environments, and 7 were detected by a combined analysis. Sixteen QTL were identified for 4 agronomic traits and 14 of them were confirmed by a combined analysis. Significant linkage among all three TE related traits was discovered on linkage group 4 (LG4), where alleles from one parent had the same direction of influence on TE which suggested either coupling phase linkage or pleiotropy. QTL for SF and RustR were closely linked on LG13. An F2 population with 502 progeny developed from a cross between Jumbo, a large achene confectionery sunflower line, and RIL25, an oilseed small achene line, was evaluated for five achene-size related traits in a single field trial. Using a subset of 178 progeny a framework genetic linkage map, 899.7 cM in length, containing 128 SSR markers and 23 ISSR markers was constructed with 18 linkage groups. Based on the results of a simulated QTL analysis, a modified selective genotyping strategy was employed for QTL analysis with 178 F2 individuals (128 randomly selected, 25 shortest achene F2’s and 25 longest achene F2’s). Altogether 18 achene-size related QTL with small effects were identified. Achene-size related genes characteristically expressed additive gene action although several alleles were partially recessive towards the large achene parent. The 18 identified achene-size related QTL were validated in the same diallel mating experiment mentioned above. Significant marker-trait associations were detected for 15 QTL. In addition to 12 significant alleles detected from the F2 population, 12 additional alleles associated with achene-size traits were revealed after the analysis with the diallel. These markers are ready to be used in MAS for confectionery sunflower breeding. Great steps have been made in obtaining essential knowledge of inheritance and linkage of target traits for breeding confectionery sunflower adapted to Australian production environments. The identified markers can be used in MAS and further enhance the breeding process. confectionery sunflower quantitative trait loci combining ability carbon isotope discrimination specific leaf weight chlorophyll content achene size kernel size self-fertility rust resistance
19	Growth and development of baby spinach (Spinacia oleracea L.) with reference to mineral nutrition Nemadodzi, Lufuno Ethel 01 June 2015 (has links) Baby spinach is a relatively new crop in South Africa with both commercial significance and reputed health benefits. It is known to assist in combating degenerative conditions associated with ageing, such as heart disease, cardiovascular disease, Alzheimer’s disease, cataracts and several forms of cancer. Three parallel NPK trials were conducted to investigate the effects of nitrogen (N), phosphorus (P) and potassium (K) on the growth and development of baby spinach. N and P treatments were arranged as (0, 45, 75, 105, 120 kg.ha -1 N and P), and K treatments were arranged as (0, 63, 85, 127, 148 kg.ha -1) in a randomised complete block designed with four replicates. Results showed that yield, dry matter, chlorophyll content and Leaf Area Index (LAI) were significantly increased by increasing the N application, while K had a significant effect on the LAI but not on yield, dry matter, chlorophyll content or stomatal conductance. Nitrogen treatments quadrupled fresh yield, dry matter and chlorophyll content, reaching maximum impact at 75 kg.ha-1 N. Phosphorus application showed significantly increased yields, dry matter and chlorophyll content, reaching maximum impact at 75 kg.ha-1 P. Therefore, to achieve optimum growth with N and P, 75 kg.ha-1 is recommended. The optimum rates of N, P and K were then used to formulate a NPK combined trial which was arranged as 0, 30:30:40, 45:45:60, 60:60:70, 75:75:90 kg.ha-1 in a randomised complete block design with three replicates. The results showed that maximum impact on yield, chlorophyll content, fresh and dry matter was achieved when combined NPK was applied at 45:45:60 / Agriculture and Animal Health / M. Sc. (Agriculture) Baby spinach Biomass Chlorophyll content Dry matter Mineral nutrition Nitrate Stomatal conductance 664.80541 Spinach -- Yields -- South Africa Spinach -- Nutrition -- South Africa Spinach -- Growth Chlorophyll\| -- Analysis
20	Bacillus spp. como promotores de crescimento na cultura do algodão. / Bacillus spp. as plant growth promoting bacteria in cotton culture. Diaz, Paola Andrea Escobar 09 March 2018 (has links) Submitted by PAOLA ANDREA ESCOBAR DIAZ null (paitopink@hotmail.com) on 2018-03-26T01:18:57Z No. of bitstreams: 1 Dissertação Mestrado Paola Andrea Escobar Diaz.pdf: 1634986 bytes, checksum: bc533d62e487cc8174926d75306e2f98 (MD5) / Approved for entry into archive by Alexandra Maria Donadon Lusser Segali null (alexmar@fcav.unesp.br) on 2018-03-26T10:54:22Z (GMT) No. of bitstreams: 1 diaz_pae_me_jabo.pdf: 1634986 bytes, checksum: bc533d62e487cc8174926d75306e2f98 (MD5) / Made available in DSpace on 2018-03-26T10:54:22Z (GMT). No. of bitstreams: 1 diaz_pae_me_jabo.pdf: 1634986 bytes, checksum: bc533d62e487cc8174926d75306e2f98 (MD5) Previous issue date: 2018-03-09 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / O uso contínuo de fertilizantes minerais na agricultura promove o excesso de nutrientes como fósforo, nitrogênio e potássio o que ocasiona danos ao ecossistema e leva à alteração da microbiota do solo. Além disso, existe uma baixa eficiência das plantas em absorver e utilizar esses nutrientes o que gera perdas da adubação mineral. Neste sentido o uso de bactérias promotoras de crescimento de plantas (BPCP) é uma alternativa promissora para melhorar a eficiência das plantas na utilização dos fertilizantes minerais. O presente trabalho teve por objetivo avaliar o potencial de dez isolados Bacillus (oito isolados de Bacillus subtilis, um isolado de Bacillus velezensis e um isolado de Bacillus amyloliquefaciens) quanto à sua capacidade de promoção de crescimento na cultura de algodão em condições de vaso em casa de vegetação. O experimento foi realizado em delineamento inteiramente casualizado com 11 tratamentos e cinco repetições. Os parâmetros avaliados foram altura da planta, massa seca da parte aérea e raiz, teores de clorofila nas folhas, nitrogênio e fósforo na planta e no solo. A massa seca total (parte aérea e raiz) foi maior nos isolados 248 e 290 (B. subtilis), e maiores valores de altura das plantas foram obtidos para o isolado 248. O teor de clorofila nas folhas foi superior nas plantas inoculadas com o isolado 290, indicando que o mesmo foi capaz de aumentar a atividade fotossintética das plantas de algodão. Os teores de nitrogênio na parte aérea e na raiz foram superiores nos tratamentos com os isolados 248 e 290, o que indica que houve estabelecimento dessas bactérias na rizosfera melhorando a disponibilidade e absorção de nitrogênio pela planta. O teor de fosforo na raiz foi maior em plantas que receberam o isolado 001 (B. amyloliquefaciens) o que indica que esse isolado favorece a absorção de fósforo pela planta. O isolado 248 apresentou maior quantidade de fósforo solúvel disponível no solo o que demostra que B. subtilis atua positivamente na solubilização do fósforo. A análise molecular do DNA ribossomal 16S de isolados obtidos do reisolamento a partir do solo e raiz das plantas do algodão confirmam a identidade das linhagens utilizadas. Finalmente, os isolados 248 e 290 de B. subtilis têm a capacidade de aumentar os teores de clorofila e nitrogênio nas plantas, altura e matéria seca, e também solubilizam fósforo, o que os torna agentes potencias para uso como bioinoculantes nas plantas de algodão. / The continuous use of mineral fertilizers in agriculture promotes the excess of nutrients as phosphorus, nitrogen and potassium in the ecosystems which causes damages and leads to the instability of the soil microbiota. Moreover, a low efficiency of the plants to absorb and use these nutrients causes losses of the mineral fertilization, but the use of plant growth promoting bacteria (PGPB) is a promising alternative to improve plant efficiency in the use of mineral fertilizers implying in the reduction of its application on the crops. This work aimed to evaluate the potential of ten Bacillus strains (eight of B. subtilis, one of B. velezensis and one of B. amyloliquefaciens) about their capacity to promote growth of cotton seedlings on greenhouse conditions. The experiment was carried out in a completely randomized design with 11 treatments and five replicates. The parameters evaluated were plant height, dry matter of aerial part and root, chlorophyll content in leaves, nitrogen and phosphorus in the plant and soil. The total dry matter (aerial part and root) was higher to the isolates 248 and 290 of B. subtilis, and higher values of plant height were obtained for the isolate 248. The chlorophyll content in leaves was higher in plants inoculated with the isolate 290 what indicates that this isolate was able to increase the photosynthetic activity of cotton seedlings. The nitrogen content in the aerial part and roots was higher at the treatments with the isolates 248 and 290 indicating that the bacteria were established in the rhizosphere improving the nitrogen availability and absorption by the plant. The phosphorus content in the roots was higher in seedlings treated with the isolate 001 of B. amyloliquefaciens, what demonstrates that this isolate favors its uptake by the plant. The isolate 248 provided the highest amount of soluble phosphorus available in the soil, which shows that B. subtilis acts positively on phosphorus solubilization. The molecular analysis of 16S Ribosomal DNA from isolates obtained from reisolation from the soil and roots of cotton seedlings confirms the identity of the strains used at the experiment. Finally, isolates 248 and 290 of B. subtilis are able to increase nitrogen and chlorophyll contents in the plants, high and dry matter, and also solubilize phosphorus, which make them potential agents for use as bioinoculants in cotton plants. / Capes:1590076 BPCP Fixação de nitrogênio Solubilização de fósforo Teor de Clorofila Massa Seca Altura Eficiência de adubação nitrogen fixation phosphorus solubilization chlorophyll content shoot and root dry matter height fertilization efficiency

Search results