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Nitrogen Fertilizer Rates for Barley Bred for Reduced Water UseOttman, M. J., Doerge, T. A., Sheedy, M. D., Ramage, R. T. 09 1900 (has links)
Barley lines have been developed for one-irrigation conditions. The purpose of these studies is to provide information required to develop recommendations for nitrogen fertilizer practices for one - irrigation barley. A total of nine field studies were conducted at the Marana and Maricopa Agricultural Centers testing six nitrogen rates ranging from 0 to 200 lbs N/A under a variety of conditions. The optimum nitrogen fertilizer rate ranged from 0 to 40 lbs N /A. No relationship was established between optimum nitrogen fertilizer rate and preplant soil nitrate, previous crop, planting date, or number of irrigations (1 vs. 2). Based on the results of this and other studies, a nitrogen rate of 40 to 50 lbs N/A is usually adequate for one-irrigation barley, and nitrogen rates greater than 80 to 100 lbs N/A is considered excessive.
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Arizona Russian Wheat Aphid Survey and Beneficial Release Report, 1990Clark, Lee J., Moore, Leon 09 1900 (has links)
During 1990 the emphasis on surveying was placed in the southeastern corner of the state, where damage was found to be most severe in previous years. Estimates of the incidence of and damage caused by the Russian Wheat Aphid (RWA) were made for the entire state. These estimates indicate that small grain producers in the state lost $212,000 due to this pest in 1990.
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Small Grain Variety Comparisons at the Maricopa Agricultural Center 1991Sheedy, M., Ottman, M., Ramage, T. 09 1900 (has links)
Yield trials were conducted at the Maricopa Agricultural Center during the 1990 -91 growing season. Barley, Durum and Wheat varieties as well as experimental lines from various seed companies were tested for yield performance. Gustoe and Sunbar 409 barleys, Turbo and Aldura durum wheats; and 911 and Klasic bread wheats were the highest yielding commercial varieties in this yield trial.
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Planting Date Effects on Small Grain Varieties at Maricopa under Full Production ConditionsOttman, M. J., Sheedy, M. D., Ramage, R. T. 09 1900 (has links)
Planting date can have a tremendous effect on small grain yield. The purpose of this study is to document the interactions of planting date with current small grain varieties. Field studies were conducted at the Maricopa Agricultural Center over the 198$ 1989, and 1990 growing seasons. Six barley, durum and wheat varieties were compared at four planting dates from November to February. WestBred Gustoe was among the highest yielding barleys and WestBred Turbo was among the highest yielding durum regardless of planting date. The highest yielding wheat was WestBred 911 at the November plantings, Klasic at the December and January plantings, and Topaz and Klasic at the February plantings. The varieties also responded differentially to planting date in terms of plant height, kernel weight, heading and maturity date, but not test weight. This study demonstrates the importance of planting date in choosing a small grain variety.
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Row Spacing Effects on Small Grain Varieties at MaricopaOttman, M. J., Sheedy, M. D., Ramage, R. T. 09 1900 (has links)
A 12-inch row spacing is commonly used to evaluate small grain varieties at the Maricopa Agricultural Center and other experiment stations. The objective of this study was to document the interactions of varieties and row spacings. Sir barley, durum, and wheat varieties were planted in the 1989 and 1990 growing seasons at the Maricopa Agricultural Center at four planting dates (November, December, January, February) and 6 and 12-inch row spacings. At the December planting date, which is near optimum, WestBred 881 and Topaz performed best at a 6-inch row spacing while Gustoe, Aldura, Klasic, and WestBred 911 performed best at a 12-inch row spacing. Caution must be exercised when interpreting variety trials planted in 12-inch rows anti, in addition, conducted under growing conditions different from commercial practice.
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Wheat Yields Following Layby Herbicide Applications to Cotton Grown with Reduced TillageThacker, Gary W., Coates, Wayne E. 09 1900 (has links)
This experiment was conducted to quantify herbicide carry -over effects on wheat, after plowing the cotton down with conventional and reduced tillage systems. Cotton layby applications of cyanizine, diuron, and prometryne at 1.5 lbs/Ac active ingredient did not result in wheat yields that were significantly different from the untreated checks within any of the tillage systems.
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The Use of AZSCHED to Schedule Irrigations on WheatClark, Lee J., Carpenter, Eddie W. 09 1900 (has links)
AZSCHED irrigation software was used to schedule irrigation on Aldura wheat on the Safford Agricultural Center with very good results. Irrigations were scheduled at 40%, 50% and 60% calculated soil water depletion throughout the critical part of the growing season. The plots being irrigated at 40% depletion yielded the most and had the highest water use efficiency and showed the least plant stress. Comparing data with previous experiments, it was noted that increased inputs of higher seeding rate and higher nitrogen rate also increased the water use efficiency.
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Improved Late Season Nitrogen Fertilizer Management with Irrigated Durum Wheat Using Stem Nitrate AnalysesDoerge, T. A., Ottman, M. J. 09 1900 (has links)
A field experiment was conducted on a Trix clay loam at the Maricopa Agricultural Center to 1) determine the optimum rates of late season N needed to achieve optimum yield and quality of irrigated durum wheat in conjunction with varying rates of early season N, and 2) to evaluate the usefulness of stem NO₃⁻N analysis in predicting the late season N rates which optimize grain production but minimize the potential for nitrate pollution of groundwater. The application of 75, 150 and 300 lbs. N/a during vegetative growth resulted in wheat with highly deficient, slightly deficient and excessive N status at the boot stage as indicated by stem NO₃⁻N analysis. The application of 60 lbs. N/a at heading to highly N-deficient and slightly N-deficient wheat resulted in grain protein levels of 12.7 and 14.3 % respectively but had little effect on grain yield. Applications from 0 to 60 lbs. N /acre at heading to wheat which had previously received excessive N did not affect grain yield but did increase grain protein levels from 15.2 to 17.4 %. The use of stem NO₃⁻N analysis appears to be a useful tool in predicting the minimum N rate to be applied during the early reproductive period to insure acceptable levels of grain protein at harvest in cases where N status during the vegetative period was not highly deficient.
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Nitrate Leaching Potential from a Single Border-Flood IrrigationOttman, M. J., Watson, J. E. 09 1900 (has links)
Groundwater contamination by nitrate and other chemicals is a public concern and has subjected agriculture to scrutiny. Field studies were conducted at the Maricopa and Marana Agricultural Centers in 1989 to 1990 to document nitrate leaching potential with border flood irrigation. Calcium nitrate fertilizer was applied at various rates along with potassium bromide, which serves as an additional indicator of nitrate movement. Approximately 8.55 inches of irrigation water was applied at the Maricopa site on a sandy loam soil and 4.0 inches of irrigation water was applied at the Marana site on a clay loam soil. At the Maricopa site, only 64% of the nitrate could be accounted for in the top 6.7 ft. while most of the nitrate was found in the top 4 to 5 ft. at Marana. The water and nitrate moved 3 to 4 times deeper than predicted in the absence of preferential flow.
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Analyse des déterminants génétiques contrôlant la résorption d'azote, relations avec les paramètres quantitatifs et qualitatifs de la récolte / Analysis of genetic parameters controling nitrogen resorption, relation with quantitative and qualitative harvest parametersVilmus, Ingrid 17 October 2013 (has links)
Le développement de variétés performantes de blé dur (Triticum turgidum durum) doit prendre en compte la corrélation négative entre rendement et teneur en protéines (GPC). Une meilleure compréhension de ce phénomène nécessite une connaissance de l'élaboration des composantes de ces variables. Au cours de cette thèse nous nous sommes focalisés sur l'étude du déterminisme de paramètres foliaires pendant le remplissage du grain (morphologie, résorption d'azote/senescence) ainsi que leurs relations avec les caractéristiques post-récolte (rendement, GPC). La population d'étude est constituée de 282 lignées recombinantes issues d'un croisement demi-diallèle entre quatre lignées élites. Les données proviennent d'expérimentations menées en milieu contrôlé (3 expérimentations) et en plein champ (2 essais).En milieu contrôlé, plusieurs variables (teneur en azote, masse surfacique) ont été prédites par spectrométrie infrarouge à raison de mesures régulières au cours de la période d'intérêt. La résorption d'azote de la dernière feuille a été modélisée pour chaque génotype dont les paramètres ont été analysés. Un lien négatif fort a été établi entre la date d'initiation de la résorption (t0) en temps thermique post-floraison et sa durée et un lien positif entre cette date clé et le poids individuel des grains. A l'échelle de la parcelle, le suivi dynamique de la senescence par la mesure d'évolution d'un indice de végétation, le NDVI (Normalized Difference Vegetation Index) a montré une relation forte entre vitesse d'évolution de la senescence et son ordonnée à l'origine, suggérant que la fin de la senescence était un phénomène très contraint dans les conditions environnementales de plein champ.En absence de stress azoté, l'analyse des 4 géniteurs a montré que des combinaisons linéaires de paramètres foliaires permettaient d'expliquer environ 2/3 des variations de la production en grains d'un épi et de la GPC. En considérant l'ensemble de la population, les effets antagonistes d'une résorption tardive sur la production de grains et la teneur en protéines ont été établis. Une carence en azote appliquée post-floraison provoque une résorption précoce et longue, ce qui semble d'avantage affecter la GPC que le rendement. Une carence en azote appliqué pré-floraison réduit la quantité d'azote disponible dans les feuilles drapeau (et par conséquent leur potentiel photosynthétique) ainsi que le nombre de grains alors que les apports tardifs en azote réalisés dans ce traitement vont retarder la résorption donc augmenter le poids individuel des grains et la GPC. L'analyse génétique en modèle mixte a permis de prendre en compte un apparentement entre lignées, calculé grâce aux pedigrees ou aux marqueurs. Ces deux estimateurs de l'apparentement sont très fortement corrélés ; l'ordonnée à l'origine de la relation (0.3) pouvant être interprétée comme une mesure de l'identité par état de la population de base à partir de laquelle les géniteurs sont issus. Par conséquent, les variances additives issues d'un apparentement marqueurs sont systématiquement supérieures à celles d'un apparentement pedigree. Les valeurs d'héritabilité des variables étudiées caractérisant la morphologie de la feuille drapeau à floraison et des paramètres de résorption d'azote sont du même ordre de grandeur que celles du rendement d'un épi et de la teneur en protéines des grains.En conclusion, nous discutons des stratégies de sélection autour de la corrélation négative rendement/GPC en lien avec la résorption d'azote et la senescence, de l'intérêt de l'utilisation du modèle dit « animal » pour les analyses génétiques et la recherche de QTL. / Performing cultivar development of durum wheat (Triticum turgidum durum) have to take in consideration the negative correlation existing between yield and grain protein content (GPC). A best comprehension of this phenomenon needs the knowledge of these variables elaboration. During this thesis, we focused on the study of foliar parameters determinism during the grain filling (morphology, nitrogen resorption/senescence) and their relations with post-harvest parameters (yield, GPC). The population was formed of 282 recombinant lines coming from a half-diallel cross between 4 elite lines. Data are from experimentations on controlled environment (3 experimentations) and on field (2 experimentations).In controlled environment, various variables (nitrogen content, mass area) were predicted using near-infrared spectroscopy and performing regular measures during the period of interest. Nitrogen resorptions of the last leaf were modeled for each genotype and parameters were analyzed. A strong negative correlation was established between the resorption initiation date (t0) in thermal time post-flowering and its duration and a positive correlation was established between t0 and the grain individual weight. At the plot scale, the dynamic monitoring of senescence through measures of NDVI (Normalized Difference Vegetation Index) evolution showed a strong relation between the senescence evolution rate and its intercept, suggesting the senescence end was a very constraint phenomenon in field.Without nitrogen stress, the analysis of the 4 genitors indicated that linear combinations of foliar parameters could explain around 2/3 of one-spike grain production and GPC variations. Considering the entire population, the antagonist effects of a late resorption on grain production and on the GPC were established. A post-flowering nitrogen stress causes an early and long resorption which seems to affect more GPC than yield. A pre-flowering nitrogen stress reduces nitrogen quantity available in flag leaves (and consequently their photosynthetic potential) and the grain number whereas late nitrogen inputs of this environment delay resorption and raise grain individual weight and GPC.The genetic analysis in mixed model allowed taking into account relatedness among lines, calculated with pedigrees or markers. Those 2 relatedness estimators are strongly correlated; the regression intercept (0.3) can be interpreted as an identity-by-state measure of the base population from which genitors are derived. Consequently, additive variances from a marker-relatedness model are always superior to additive variances form a pedigree-relatedness model. Heritability values of the study variables (flag leaf morphology and nitrogen resorption parameters) have the same order of magnitude than those of one-spike yield and GPC.Field experimentations allowed highlighting the flag leaf weight as a contributor organ to yield and GPC. Nitrogen balance showed a link between post-flowering nitrogen fluxes and nitrogen available at flowering. Genotype-phenotype association's research was realized through a simple-marker analysis for all the experimentations and a Composite Interval Mapping analysis only for data obtained in greenhouses. A stable QTL was detected on the 3 controlled environments for t0. QTL comparison on controlled environment QTL and field QTL highlighted various area containing QTL on certain chromosomes: an area of foliar nitrogen content at flowering QTL on the 1A, an area of GPC QTL, Thousand Kernel Weight (TKW) QTL and grain number QTL on the 2A, an area of foliar morphology QTL on the 2B, an area of TKW QTL on the 3B and an area of senescence variables QTL on the 7B.In conclusion, we discuss about breeding strategies around the negative correlation yield/GPC in relations with nitrogen resorption and senescence and about the interest to use the “animal” model for genetic analysis and QTL research.
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