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1	Effect of alkalinity in irrigation water on selected greenhouse crops Valdez Aguilar, Luis Alonso 01 November 2005 (has links) Effect of Alkalinity in Irrigation Water on Selected Greenhouse Crops. (August 2004) Luis Alonso Valdez Aguilar, B.S., Universidad Aut??noma de Nuevo Le??n, Mexico; M.S., Universidad Aut??noma Chapingo, Mexico Chair of Advisory Committee: Dr. David Wm. Reed Bicarbonate (HCO3-) and carbonate (CO32-) are the most important ions that determine alkalinity. When the carbonates accumulate in a growing medium, the growing medium solution pH reaches levels that cause plant growth inhibition, which is caused primarily by the transformation of soluble forms of Fe into insoluble forms. The general objective of this research was to provide information about the limits of tolerance to alkalinity in ornamental plants, and to study the interaction of ions such as ammonium (NH4+) and nitrate (NO3-) on the response of plants to alkalinity, as well as the effect of the counter-ions potassium (K+), sodium (Na+), cesium (Cs+), ammonium (NH4+) and rubidium (Rb+). The maximum SPAD index was estimated to occur at 0 mM of NaHCO3 in chrysanthemum, mini-rose, and hibiscus ??Bimini Breeze?? and ??Mango Breeze??. For vinca it was set at 2.64 mM. A 15% decrease from the maximum SPAD index was considered the threshold to declare the toxic concentration of NaHCO3, which was calculated based on the maximum SPAD index predicted by the models. The toxic concentration of NaHCO3 was set at 4.1, 1.1, 6.7, 3.1, and 6.3 mM of NaHCO3 in chrysanthemum, mini-rose, vinca, and hibiscus ??Mango Breeze?? and ??Bimini Breeze??, respectively. Hibiscus ??Bimini Breeze?? was considered tolerant to alkalinity, due to increased Fe-reduction capacity and acidification of the growing medium. In the hydroponic experiment, results showed that the NH4+:NO3- ratio altered the response of sunflower plants to alkalinity. Sunflower plants grew better in solutions containing 5 mM NaHCO3 prepared with a 0.25:0.75 NH4+:NO3- ratio. This was possible due to the reaction of NH4+ with the HCO3-, which reduced its buffering capacity. The response to HCO3--induced alkalinity was modified by the counter-cation of HCO3-. In bean plants, at low-to-intermediate levels of Na+ and HCO3- induced approximately same growth decrease. At high concentration, Na+ induced a decrease on shoot growth that exceeded the toxic effects of HCO3-. Thus, the toxic effect of Na+ is higher than that of HCO3- when its concentration is high. Rubidium was extremely toxic at concentrations of 7.5 mM. Ornamentals bicarbonate water quality counter-cations
2	Senescence of Grevillea 'Sylvia' inflorescences after harvest Setyadjit, Unknown Date (has links) No description available.
3	Responses of Australian native plants to metal toxicity Reichman, S. Unknown Date (has links) No description available.
4	Basis for Selectivity of Isoxaben in Ajuga (Ajuga reptans), Wintercreeper (Euonymus fortunie), and Dwarf Burning Bush (Euonymus alatus 'Compacta') Salihu, Sydha 05 January 1997 (has links) Isoxaben is a preemergence herbicide used for broadleaf weed control in turf and ornamentals. Although isoxaben can be used on a number of ornamentals, certain species are injured by isoxaben applications. The objectives of this research were: a) to evaluate the tolerance of ajuga, wintercreeper and dwarf burning bush to isoxaben applications, b) to compare the absorption, translocation and metabolism of isoxaben following root and shoot application in these ornamentals, and c) to examine the effect of isoxaben on glucose incorporation in the roots of these species. Greenhouse and lathhouse studies demonstrated that ajuga was the most sensitive species compared to wintercreeper and dwarf burning bush following root and shoot exposure to isoxaben at 0.84, 1.69 and 3.39 kg ai/ha. Following root and shoot application, isoxaben at 3.39 kg/ha caused approximately 50% shoot injury in ajuga at 2 months after treatment compared to approximately 30% in dwarf burning bush in sand culture. Wintercreeper was not visually injured by any isoxaben rate. Isoxaben at 3.39 kg/ha reduced wintercreeper root weight by 15% following root application and shoot weight by 10% following shoot application. Field studies showed that isoxaben applications made one month after bud-break caused 30 to 45% injury to dwarf burning bush. However, the plants outgrew the injury in the following year. Dwarf burning bush was not injured from applications of isoxaben made at the dormant stage or two months after the bud-break stage. Studies with root-applied radiolabeled isoxaben showed that ajuga and dwarf burning bush had absorbed 34 and 41% of the applied radioactivity, respectively, while wintercreeper had absorbed only 21% at 14 days after treatment (DAT). The percent of absorbed radioactivity which translocated was greater in ajuga (58%) and wintercreeper (50%) than in dwarf burning bush (28%). In the root extracts, metabolism of isoxaben was greater in ajuga than wintercreeper or dwarf burning bush at 3, 7 and 14 DAT. Most of the radioactivity recovered from the shoots of the three species appeared to be polar metabolites of isoxaben, possibly conjugates. In studies with shoot-applied radiolabeled isoxaben, radioactivity recovered from the treated leaf of ajuga increased from 46% of applied at 3 days to 64% at 14 days after treatment. In wintercreeper, the most tolerant species, approximately 40% of the applied radioactivity was recovered in the treated leaf at each harvest date. Radioactivity recovered from the treated leaflet increased from 45 at 3 DAT to 70% at 14 DAT in both growth stages of dwarf burning bush. Ajuga and wintercreeper metabolized isoxaben faster than dwarf burning bush. There was no difference in the metabolism of isoxaben between the two growth stages of dwarf burning bush. Incorporation of glucose in the roots of wintercreeper and dwarf burning bush was not inhibited by isoxaben (1 mM). Approximately 10% inhibition of glucose incorporation by isoxaben was observed in the roots of the sensitive species ajuga. / Ph. D. Herbicide injury Metabolism Translocation Absorption Uptake Ornamentals
5	Programmierte Kultur von Pelargonien und Poinsettien Wartenberg, Stephan 07 May 2012 (has links) (PDF) Am Standort Dresden-Pillnitz wurde von 2009 bis 2011 an neuen Lösungen für eine programmierte Produktion von Pelargonien und Poinsettien geforscht. Ziel war eine verbesserte Nutzung der Steuerungstechnik in den Gewächshäusern für eine energiesparende, umweltfreundliche und sichere Produktion. Mit speziellen Softwarebausteinen auf dem Bedienungs-PC der Gewächshäuser lassen sich 10 bis 20 Prozent Heizenergie und damit CO2-Emissionen einsparen. Weitere Bausteine überwachen die reale Wärme- und Lichtentwicklung und nehmen automatische Anpassungen an die Jahreswitterung vor. Eine mengenbilanzierte Düngung sichert die bedarfsgerechte Nährstoffversorgung für die geplante Pflanzengröße. Die neuen Lösungen verringern den Kontroll- und Bedienaufwand und erhöhen die Kultursicherheit. Für Pelargonien und Poinsettien werden spezielle Kombinationen von Programmbausteinen empfohlen. Gartenbau Zierpflanzen horticulture ornamentals ddc:630 rvk:ZC 65200
6	Mengenkonzept Düngung Zierpflanzenbau Dallmann, Margret 24 July 2012 (has links) (PDF) An Zierpflanzen im Gewächshaus wurden mengenbilanzierte Düngungsverfahren getestet. Die Düngegaben erfolgten in Wochenportionen per Hand, mit Dosiergeräten, per Düngecomputer oder als Depotdünger. In die Versuche wurden Pelargonien, Sommertopfkulturen im Gewächshaus, Poinsettien und Cyclamen einbezogen. Wochenportionen können nur bei einheitlichen Anbausätzen je Bewässerungseinheit realisiert werden. Der Kostenaufwand bei Depotdünger beträgt das Dreifache gegenüber einer Bewässerungsdüngung. Allerdings sind die Düngeverluste geringer. Mit einer mengenbilanzierten Düngung lassen sich Über- und Unterversorgung der Pflanzen vermeiden. Gartenbau Zierpflanzen Düngung horticulture ornamentals fertilization ddc:635 rvk:ZC 65200
7	Adventitious Root Formation in Bachousia citriodora F. Muell: The Stock Plant Barriers Kibbler, H. Unknown Date (has links) No description available. 300302 Plant Growth and Development
8	Studies of long coleoptile in semidwarf wheat (Triticum aestivum L.) Alam, R. Unknown Date (has links) No description available. 300302 Plant Growth and Development
9	The effects of water flow, pH and nutrition on the growth of the native aquatic plant, Aponogeton elongatus Crossley, M. N. Unknown Date (has links) No description available. 300302 Plant Growth and Development
10	Anatomy and Physiology of Floral Organ Abcission in Geraldton Waxflower (Chamelaucium Uncinatum Schauer) Macnish, A. J. Unknown Date (has links) No description available. 300304 Post Harvest Technologies

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