Use efficiency of controlled release fertilizer on the growth of croton and petunia and N loss by leaching / Eficiência do uso de fertilizantes de liberação controlada no crescimento de cróton e petúnia e perda de N pela lixiviação

Oliveira, Sueyde Fernandes de

11 February 2016

The market of flowers and ornamentals such as croton (Codiaeum variegatum) and petunia (Petunia×hybrida Vilm.-Andr) have been created new technologies to constantly development, as one of the most promising segments of horticulture. Fertilization providing adequate nutrition and less leaching to the environment is the objective of numerous studies around the world. Therefore, two studies were conducted to evaluate the use of controlled release fertilizer (CRF) on the growth of two ornamental species, and N loss by leaching. The first experiment aim to evaluate sources and rates of CRF and water soluble fertilizer (WSF) on croton growth and nitrogen concentration on drained solution. Results showed that treatments with WSF and low rates of CRF provided higher plants growth, and the amount of N leached was higher for WSF treatments. The second experiment objective to compare plant performance and cost for strategies that potentially provide adequate nutrition during both the production and consumer phases for container-grown Petunia plants. In addition, two experiments were conducted to evaluate nutrient release in sand containers inside of the greenhouse and under controlled temperature conditions without plants. Results showed that during production phase all fertilizer treatments produced high quality plants, and during consumer phase, plants grown with WSF only during the production phase were nutrient-deficient, while plants receiving CRFs were still growing vigorously, especially in a high rate. The release rates of all CRF products were temperature-dependent. In conclusion CRF provided plant growth at the same rate that WSF, with less N leaching and extra cost less than U$0.065 per plant with CRF during production. / O mercado de flores e plantas ornamentais tais como cróton (Codiaeum variegatum) e petúnia (Petunia×hybrida Vilm.-Andr) apresenta-se em constante desenvolvimento tecnológico, caracterizando-se como um dos mais promissores segmentos da horticultura. A adubação, visando o aumento da eficiência do fertilizante e redução de perdas, são temas de estudos em todo o mundo. Assim, foram realizados dois experimentos para avaliar o uso de fertilizantes de liberação controlada (FLC) no crescimento de duas espécies de plantas ornamentais e a perda de nitrogênio por lixiviação. O primeiro experimento teve como objetivo avaliar fontes e doses de FLC e solução nutritiva no crescimento de cróton e a concentração de nitrogênio (N) na solução drenada dos vasos. Os resultados revelaram que a solução nutritiva e as menores concentrações de FLC proporcionaram o maior crescimento das plantas, e as taxas de N perdidas por lixiviação foram superiores para o tratamento com solução. O segundo experimento objetivou comparar estratégias de adubação que proporcionem nutrição adequada durante a fase de produção e do consumidor com menor custo, as quais incluíam FLC e solução nutritiva. Simultaneamente, foram realizados dois experimentos para avaliar a liberação de nitrogênio pelos fertilizantes, sem as plantas, nas condições de cultivo das plantas (estufa) e em câmaras de crescimento sob três temperaturas de incubação. Os resultados mostraram que durante a fase de produção todos os tratamentos resultaram em plantas nos padrões comerciais, e no período que simulou a fase do consumidor as plantas que receberam apenas solução nutritiva durante a fase de produção apresentaram deficiência nutricional, enquanto com os FLC as plantas cresceram vigorosamente, principalmente para os tratamentos com as maiores doses. Os fertilizantes avaliados apresentaram diferença quanto à temperatura na liberação dos nutrientes, sendo maior a taxa de liberação quanto maior a temperatura. De acordo com os resultados o FLC proporcionou o crescimento das plantas na mesma proporção que a solução nutritiva, com uma redução na concentração de N por lixiviação e acréscimo inferior a U$0.065 no custo por planta quando utilizado FLC durante a produção.

Codiaeum variegatum

Codiaeum variegatum

Petunia×hybrida Vilm.-Andr

Petunia×hybrida Vilm.-Andr

Leaching

Lixiviação

Nitrogen

Nitrogênio

Use efficiency of controlled release fertilizer on the growth of croton and petunia and N loss by leaching / Eficiência do uso de fertilizantes de liberação controlada no crescimento de cróton e petúnia e perda de N pela lixiviação

Sueyde Fernandes de Oliveira

11 February 2016

The market of flowers and ornamentals such as croton (Codiaeum variegatum) and petunia (Petunia×hybrida Vilm.-Andr) have been created new technologies to constantly development, as one of the most promising segments of horticulture. Fertilization providing adequate nutrition and less leaching to the environment is the objective of numerous studies around the world. Therefore, two studies were conducted to evaluate the use of controlled release fertilizer (CRF) on the growth of two ornamental species, and N loss by leaching. The first experiment aim to evaluate sources and rates of CRF and water soluble fertilizer (WSF) on croton growth and nitrogen concentration on drained solution. Results showed that treatments with WSF and low rates of CRF provided higher plants growth, and the amount of N leached was higher for WSF treatments. The second experiment objective to compare plant performance and cost for strategies that potentially provide adequate nutrition during both the production and consumer phases for container-grown Petunia plants. In addition, two experiments were conducted to evaluate nutrient release in sand containers inside of the greenhouse and under controlled temperature conditions without plants. Results showed that during production phase all fertilizer treatments produced high quality plants, and during consumer phase, plants grown with WSF only during the production phase were nutrient-deficient, while plants receiving CRFs were still growing vigorously, especially in a high rate. The release rates of all CRF products were temperature-dependent. In conclusion CRF provided plant growth at the same rate that WSF, with less N leaching and extra cost less than U$0.065 per plant with CRF during production. / O mercado de flores e plantas ornamentais tais como cróton (Codiaeum variegatum) e petúnia (Petunia×hybrida Vilm.-Andr) apresenta-se em constante desenvolvimento tecnológico, caracterizando-se como um dos mais promissores segmentos da horticultura. A adubação, visando o aumento da eficiência do fertilizante e redução de perdas, são temas de estudos em todo o mundo. Assim, foram realizados dois experimentos para avaliar o uso de fertilizantes de liberação controlada (FLC) no crescimento de duas espécies de plantas ornamentais e a perda de nitrogênio por lixiviação. O primeiro experimento teve como objetivo avaliar fontes e doses de FLC e solução nutritiva no crescimento de cróton e a concentração de nitrogênio (N) na solução drenada dos vasos. Os resultados revelaram que a solução nutritiva e as menores concentrações de FLC proporcionaram o maior crescimento das plantas, e as taxas de N perdidas por lixiviação foram superiores para o tratamento com solução. O segundo experimento objetivou comparar estratégias de adubação que proporcionem nutrição adequada durante a fase de produção e do consumidor com menor custo, as quais incluíam FLC e solução nutritiva. Simultaneamente, foram realizados dois experimentos para avaliar a liberação de nitrogênio pelos fertilizantes, sem as plantas, nas condições de cultivo das plantas (estufa) e em câmaras de crescimento sob três temperaturas de incubação. Os resultados mostraram que durante a fase de produção todos os tratamentos resultaram em plantas nos padrões comerciais, e no período que simulou a fase do consumidor as plantas que receberam apenas solução nutritiva durante a fase de produção apresentaram deficiência nutricional, enquanto com os FLC as plantas cresceram vigorosamente, principalmente para os tratamentos com as maiores doses. Os fertilizantes avaliados apresentaram diferença quanto à temperatura na liberação dos nutrientes, sendo maior a taxa de liberação quanto maior a temperatura. De acordo com os resultados o FLC proporcionou o crescimento das plantas na mesma proporção que a solução nutritiva, com uma redução na concentração de N por lixiviação e acréscimo inferior a U$0.065 no custo por planta quando utilizado FLC durante a produção.

Codiaeum variegatum

Petunia×hybrida Vilm.-Andr

Lixiviação

Nitrogênio

Codiaeum variegatum

Petunia×hybrida Vilm.-Andr

Leaching

Nitrogen

Untersuchungen zur genetischen und histogenetischen Variabilität an transgenen Petunia hybrida Hort. (Vilm.)

Olbricht, Klaus

06 July 1998

Am "Max-Planck-Institut für Züchtungsforschung Köln-Vogelsang" wurde Mitte der achtziger Jahre in eine weißblühende Linie von Petunia hybrida Hort. (Vilm.) ein Anthocyansynthese-Gen von Zea mays L. transferiert. Unter den nach diesem Gentransfer entstandenen ziegelrot blühenden Pflanzen befand sich auch ein Typ, der ein Sternmuster in der Blüte zeigt. In der vorliegenden Arbeit konnte diese Musterbildung auf eine chimärische Konstitution zurückgeführt werden: Die Instabilität des A1-Gens in der Petunie resultiert in einen Farbstoffausfall in der alleinig farbstofführenden Epidermis, die von der ersten Scheitelschicht (L1) des Sproßscheitels gebildet wird. Subepidermale Gewebe können als genetisch intakt im Sinne einer potentiellen Fähigkeit zur Farbstoffsynthese charakterisiert werden. Deutlich wird das unter anderem an den partnerinduktiven Wirkungen, die von subepidermalem, L2-bürtigen Gewebe ausgehen und die Anthocyanbildung in der benachbarten, farbstoffdefekten Epidermis veranlaßt. Da die L1 am Kronblattrand alle Gewebe, also auch das Mesophyll bildet, bleiben diese Bereiche weiß gefärbt. Nur im Binnenfeld der Petalen, wo L2-bürtiges, intaktes Gewebe an die Epidermen anschließt, treten diese partnerinduktiven Wirkungen auf. Das Resultat ist ein Sternmuster der aus fünf Petalen zusammengewachsenen Kronröhre. Spontan und nach in-vitro-Kalluskultur entmischen die Pflanzen in ihre einzelnen Komponenten, so daß rot und weiß blühende Typen entstehen, die mit ihrer Blütenfarbe und ihrem Ploidiegrad (unterscheidbar bei Ploidiemarkierung) die jeweilige Scheitelschicht repräsentieren, von der sie abstammen. Bei Kreuzung spaltet die Nachkommenschaft in rot und weiß blühende Pflanzen auf. Aufgrund der Instabilität des transferierten A1-Gens ergibt sich kein Mendelsches Aufspaltungsverhältnis für die Blütenfarbe, wie das dem heterozygotem Zustand entsprechen würde. Auch existieren (wie bei den Entmischungsprodukten) gesprenkelte Blütentypen. Die Instabilität konnte als licht- und temperaturabhängig erkannt werden. Sie ist gleichzeitig der Grund dafür, daß sich an weiß blühenden Kallusregeneraten bzw. Sämlingen, die das A1-Gen in inaktiver Form besitzen, ein Sternmuster jederzeit neu bilden kann. Aufgrund dieses modifikativen Charakters dieser Sternmuster-Chimäre wird der Begriff "Epigenetische Periklinalchimäre" vorgeschlagen. In Sorteneinkreuzungen konnten Instabilitäten bis in die F2-Generation verfolgt werden, möglicherweise übertragen sich die Ursachen der Farbstoffausfälle der transgenen Form auch auf die Farbkomponente des Kreuzungspartners. Weiterhin enthält die Arbeit einen vorläufigen Bestimmungsschlüssel zur generellen Einordnung von Blütenfarbvariation nach ihren Ursachen.

Petunia hybrida

transgen

Blütenfarbvariation

Epigenetische Periklinalchimäre

petunia hybrida

transgene

flower color variation

epigenetic periklinal chimera

630 Landwirtschaft, Veterinärmedizin

39 Landwirtschaft, Garten

ZC 51000

ddc:630

Flavanone 3-Hydroxylase Expression in Citrus Paradisi and Petunia Hybrida Seedlings

Pelt, Jennifer L., Downes, W. Andrew, Schoborg, Robert V., McIntosh, Cecilia A.

01 January 2003

Petunia hybrida and Citrus paradisi have significantly different flavonoid accumulation patterns. Petunia sp. tend to accumulate flavonol glycosides and anthocyanins while Citrus paradisi is known for its accumulation of flavanone diglycosides. One possible point of regulation of flavanone metabolism is flavanone 3-hydroxylase (F3H) expression. To test whether this is a key factor in the different flavanone usage by Petunia hybrida and Citrus paradisi, F3H mRNA expression in seedlings of different developmental stages was measured using semi-quantitative RT-PCR. Primers were designed to conserved regions of F3H and used to amplify an approximately 350 bp segment for quantitation by PhosphorImaging. Primary leaves of 32 day old grapefruit seedlings and a grapefruit flower bud had the highest levels of F3H mRNA expression. Petunia seedlings had much lower levels of F3H mRNA expression relative to grapefruit. The highest expression in petunia was in primary leaves and roots of 65 day old seedlings. These results indicate that preferential use of naringenin for production of high levels of flavanone glycosides in young grapefruit leaves cannot be attributed to decreased F3H mRNA expression.

citrus paradisi

developmental expression

F3H

flavanone 3-hydroxylase

flavonoid

grapefruit

petunia hybrida

rutaceae

solanaceae

Biological Sciences

Role of fungal symbiotic signal perception in non-nodulating dicotyledons / Rôle de la perception des signaux symbiotiques fongiques chez des dicotylédones non nodulantes

Wang, Tongming

29 September 2017

L'endosymbiose racinaire entre les plantes et les champignons mycorhiziens à arbuscules (CMA) permet aux plantes d'avoir un meilleur accès aux nutriments du sol. Pour cette raison, cette endosymbiose joue un rôle majeur dans les écosystèmes et pour l'agriculture durable. Les étapes clés de la colonisation des racines par les CMA sont: 1) la pénétration des CMA dans le système racinaire à travers les cellules de l'épiderme et du cortex externe, et 2) la formation dans les cellules du cortex interne d'une structure ramifiée appelée arbuscule, qui permet des échanges entre les cellules végétales et les hyphes fongiques. L'établissement de cette symbiose implique une communication entre les deux partenaires. Les plantes produisent des hormones, les strigolactones qui induisent chez les CMA la production de signaux symbiotiques : des lipo-chitooligosaccharides (Myc-LCO) et des chitooligosaccharides courts (Myc-COs). Les Myc-LCO et les Myc-CO induisent des réponses moléculaires et physiologiques chez les plantes qui sont capables de former des mycorhizes à arbuscules. Cependant, leur rôle exact dans l'établissement des mycorhizes à arbuscules n'est pas connu. La difficulté à cultiver et transformer le partenaire fongique de cette symbiose rend la recherche compliquée du côté fongique. Du côté des plantes, on sait que des membres de la famille des récepteurs kinases à domaines lysin (LysM-RLK) perçoivent des LCO et des CO produits par divers microorganismes et sont donc de bons candidats pour percevoir des Myc-LCO et des Myc-CO. La plupart des recherches sur les mycorhizes à arbuscules sont réalisées chez des légumineuses, espèces chez lesquelles plusieurs duplications de gènes codant les LysM-RLK ont eu lieu. J'ai donc utilisé lors de mon doctorat des Solanaceae (Solanum lycopersicum, Petunia hybrida et Nicotiana benthamiana) pour étudier le rôle de deux récepteurs putatifs de Myc- LCO, codés par les gènes LYK10 et LYK4. Ces deux gènes, physiquement proches l'un de l'autre dans les génomes de la plupart des dicotylédones, proviennent probablement d'une ancienne duplication en tandem. En utilisant une approche biochimique, nous avons montré que SlLYK10 de S. lycopersicum est capable de lier des LCO avec une haute affinité. De plus, j'ai montré que le promoteur de SlLYK10 est exprimé dans l'épiderme et le cortex externe avant la colonisation par les CMA, puis dans des cellules contenant des arbuscules au cours de la colonisation par les CMA. Enfin, des approches de génétique inverse chez la tomate et le pétunia ont permis de démontrer que LYK10 contrôle la pénétration des CMA dans les racines et la formation des arbuscules. Ces résultats suggèrent que LYK10 perçoit les LCO et active chez les plantes la machinerie nécessaire à la pénétration de CMA dans les cellules végétales et à la formation des arbuscules. / The root endosymbiosis between plants and arbuscular mycorrhizal fungi (AMF) allows the plants to have a better access to soil nutrients. For this reason this endosymbiosis plays a major role in ecosystems and in sustainable agriculture. The key steps for AMF colonization are: 1) the AMF penetration in the root system through crossing epidermal/outer cortical cells, and 2) the formation of a branched inner cortex structure called arbuscules that permits exchanges between plant cells and fungal hyphae. The establishment of this symbiosis involves communication between the two partners of the symbiosis. Plants produce strigolactones, hormones that induce in AMF the production of symbiotic signals : lipo-chitooligosaccharides (Myc-LCOs) and short chitooligosaccharides (Myc-COs). Both Myc-LCOs and Myc-COs induce plant molecular and physiological responses known to be associated with the formation of arbuscular mycorrhiza (AM). However, theit exact role in AM establishment is unknown. The difficulty to grow and transform the fungal partner of this symbiosis makes the research complicated on the fungal side. On the plant side, members of the lysin motif receptor-like kinase (LysM-RLK) family are known to perceive LCOs and COs produced by various microorganisms and are thus good candidates to perceive Myc-LCOs and Myc-COs. Most of the laboratory researches on AM conducted worldwide are performed on legumes where the LysM-RLK family has encountered several gene duplications. During my PhD I used Solanaceae species (Solanum lycopersicum, Petunia hybrida and Nicotiana benthamiana) to study the role of two candidate Myc-LCO receptors encoded by the genes LYK10 and LYK4. These two genes are physically close to each other in genomes of most of the dicotyledons and likely originate from of an ancient tandem duplication. By using a biochemical approach, we showed that S. lycopersicum SlLYK10 is able to bind LCOs with high affinity. Moreover, I showed that SlLYK10 promoter is expressed in epidermis/outer cortex before AMF colonization and also in arbuscule-containing cells during colonization. Finally, reverse genetic approaches in tomato and petunia allowed demonstrating that LYK10 controls AMF penetration into the roots and arbuscule formation. Taken together, these results suggest that LYK10 perceive LCOs and induce/activate the plant machinery required for AMF penetration into plant cells. Altogether this strongly suggests that LCOs play a role in AMF perception by plant during AM establishment. By using the same approaches, we found that N. benthamiana NbLYK4, as its orthologs in legumes and other dicotyledons, also binds LCOs with high affinity and is involved in AM establishment and plant defence. NbLYK4-silenced plants showed reduced responses to defence elicitors and increased colonization by pathogens and AMF. This led to the hypothesis that LYK4 perceives LCOs and locally inhibits plant defence during AMF colonization. This strongly suggests that Myc-LCOs are able to regulate plant defence. In conclusion, at least two proteins are involved non-redundantly in LCO perception in Solanaceae, LYK10 and LYK4 and regulates complementary plant machineries required for AMF colonization.

Récepteur

Signalisation

Lipochitooligosaccharide

Champignons mycorhiziens arbuscules

Lysin motif receptor-like kinase

Nicotiana benthamiana

Solanum lycopersicum

Petunia hybrida

Rhizophagus irregularis

Analysis of mass transfer in the emission of floral volatile organic compounds

Meng-Ling Shih (13945716)

14 October 2022

<p>  </p> <p>Plants synthesize and release a variety of volatile organic compounds (VOCs) that are important for their reproduction, defense, and communication. These low-molecular-weight, lipophilic molecules also serve as practical products in industries such as food additives, fragrances, colorants, nutraceuticals, and pharmaceuticals. In addition, they have agricultural applications such as sustainable methods for pest control. Therefore, identifying the biological mechanisms involved in volatile emission could help researchers develop new ways to control the timing and release of volatiles, defend against pests, and engineer the production of these valuable chemicals.</p> <p>While progress has been made in understanding plant volatile biosynthesis, their release from the cell remains incomplete. For plant VOCs to be emitted into the environment, they must move from their site of biosynthesis through the cytosol, transverse the plasma membrane, hydrophilic cell wall, and sometimes cuticle to exit the cell. It was previously shown by mathematical modeling that to achieve observed emission rates solely by diffusion, VOCs would accumulate in the cellular membranes to levels that are likely detrimental to the membrane integrity and function. Hence, it was proposed that there are biological mechanisms involved to lower VOC concentrations in membranes. In this work, we focus on the aqueous cell wall, the thickest layer among the three subcellular barriers that should act as a barrier for the diffusion of VOCs. We hypothesize that the transport of VOCs across the cell wall is facilitated by lipid transfer proteins (LTPs) which enhance the solubility of hydrophobic volatiles in the aqueous environment, prevent their back partition into the plasma membrane after entering the cell wall, and hence enhance their net diffusion. To investigate if the presence of LTPs has influence on the total VOC efflux, we use reverse-genetic, biochemical, and mathematical modeling approaches. Out of three highly expressed LTPs identified in the petunia petal, only downregulation of <em>PhLTP3</em> expression led to a decrease in VOC emission in the corresponding transgenic plants. A facilitated diffusion model was built to quantify the VOC flux difference with the presence of LTPs in the cell wall. Modeling of the steady state system revealed the facilitation of VOC flux by LTPs is greatest when the VOC concentration gradient across the cell wall is shallow, which is a physiologically relevant condition. In addition, there exists an optimal protein dissociation constant value for maximal facilitated flux, indicating the balance between the binding and the unloading of VOC is critical. With the in vitro displacement assay, the binding constants of candidate PhLTPs with VOCs were obtained and were all found to be in the µM range, which is close to our model predicted optimal value. The results revealed that LTPs, specifically PhLTP3, play a role in the export of VOCs from the plasma membrane, across the cell wall, to the cuticle.</p> <p>In our earlier mathematical model, the emission of VOCs from the petunia flowers was modeled assuming negligible mass transfer resistance on the surface of the cuticle because of their high volatility. However, the resistance imposed by the surface boundary layer was not considered. To examine if surface convection influences VOC emission, a model system which utilized a model cuticular wax film containing 2-phenylethanol (2-PE) was built to imitate the VOC emission from plant cuticle. The convection mass transfer coefficient of 2-PE emission from a model cuticular wax film was obtained by experimental data fitting and calculated from the correlation that involves Sherwood number. The obtained values that were smaller than unity indicates that the surface boundary layer imposes a higher mass transfer resistance than the model cuticle for the emission of 2-PE in the range of wind velocities investigated. The examination of petunia flowers under air flow showed increases in total emission but no significant differences in total internal pools, which indicates an increase in biosynthesis. The emission changes of individual compounds were different and does not clearly correlate to any molecular properties of the compounds.  </p>

Petunia hybrida

Volatile organic compounds

Cell wall

Lipid transfer proteins

Facilitated diffusion