Your search keyword '"Rapparini F"' showing total 23 results

1. An integrated study on air mitigation potential of urban vegetation: From a multi-trait approach to modeling

Author

Baraldi, R, Chieco, C., Neri, L., Facini, O., Rapparini, F., Morrone, L., Rotondi, A., and Carriero, G.

Published

2019

2. A tethered-balloon PTRMS sampling approach for surveying of landscape-scale biogenic VOC fluxes

Author

Greenberg, JP, Peñuelas, J, Guenther, A, Seco, R, Turnipseed, A, Jiang, X, Filella, I, Estiarte, M, Sardans, J, Ogaya, R, Llusia, J, and Rapparini, F

Subjects

Meteorology & Atmospheric Sciences, Atmospheric Sciences

Abstract

Landscape-scale fluxes of biogenic gases were surveyed by deploying a 100 m Teflon tube attached to a tethered balloon as a sampling inlet for a fast-response proton-transfer-reaction mass spectrometer (PTRMS). Along with meteorological instruments deployed on the tethered balloon and a 3 m tripod and outputs from a regional weather model, these observations were used to estimate landscape-scale biogenic volatile organic compound fluxes with two micrometeorological techniques: mixed layer variance and surface layer gradients. This highly mobile sampling system was deployed at four field sites near Barcelona to estimate landscape-scale biogenic volatile organic compound (BVOC) emission factors in a relatively short period (3 weeks). The two micrometeorological techniques were compared with emissions predicted with a biogenic emission model using site-specific emission factors and land-cover characteristics for all four sites. The methods agreed within the uncertainty of the techniques in most cases, even though the locations had considerable heterogeneity in species distribution and complex terrain. Considering the wide range in reported BVOC emission factors for individual vegetation species (more than an order of magnitude), this temporally short and inexpensive flux estimation technique may be useful for constraining BVOC emission factors used as model inputs. © 2014 Author(s).

Published

2014

3. Seasonal variations in terpene emission factors of dominant species in four ecosystems in NE Spain

Author

Llusia, J, Peñuelas, J, Guenther, A, and Rapparini, F

Subjects

Terpenes, Emission rates, Mediterranean ecosystems, Seasonality, Climatic gradient, Meteorology & Atmospheric Sciences, Statistics, Atmospheric Sciences, Environmental Engineering

Abstract

We studied the daily patterns in the rates of foliar terpene emissions by four typical species from the Mediterranean region in two days of early spring and two days of summer in 4 localities of increasing biomass cover in Northern Spain. The species studied were Thymelaea tinctoria (in Monegros), Quercus coccifera (in Garraf), Quercus ilex (in Prades) and Fagus sylvatica (in Montseny). Of the total 43 VOCs detected, 23 were monoterpenes, 5 sesquiterpenes and 15 were not terpenes. Sesquiterpenes were the main terpenes emitted from T. tinctoria. Total VOC emission rates were on average about 15 times higher in summer than in early spring. The maximum rates of emission were recorded around midday. Emissions nearly stopped in the dark. No significant differences were found for nocturnal total terpene emission rates between places and seasons. The seasonal variations in the rate of terpene emissions and in their chemical composition can be explained mainly by dramatic changes in emission factors (emission capacity) associated in some cases, such as for beech trees, with very different foliar ontogenical characteristics between spring and summer. The results show that temperature and light-standardised emission rates were on average about 15 times higher in summer than in early spring, which, corroborating other works, calls to attention when applying the same emission factor in modelling throughout the different seasons of the year. © 2013 Elsevier Ltd.

Published

2013

4. Alterations in the sugar metabolism and in the vacuolar system of mesophyll cells contribute to the desiccation tolerance of Haberlea rhodopensis ecotypes

Author

Georgieva, K., Rapparini, F., Bertazza, G., Mihailova, G., Sárvári, É., Solti, Á., and Keresztes, Á.

Published

2017

5. Intensive measurements of gas, water, and energy exchange between vegetation and troposphere during the MONTES campaign in a vegetation gradient from short semi-desertic shrublands to tall wet temperate forests in the NW Mediterranean Basin

Author

Peñuelas, J., Guenther, A., Rapparini, F., Llusia, J., Filella, I., Seco, R., Estiarte, M., Mejia-Chang, M., Ogaya, R., Ibañez, J., Sardans, J., Castaño, L.M., Turnipseed, A., Duhl, T., Harley, P., Vila, J., Estavillo, J.M., Menéndez, S., Facini, O., Baraldi, R., Geron, C., Mak, J., Patton, E.G., Jiang, X., and Greenberg, J.

Published

2013

6. Ectopic expression of LEAFY COTYLEDON1-LIKE gene and localized auxin accumulation mark embryogenic competence in epiphyllous plants of Helianthus annuus × H. tuberosus

Author

Chiappetta, A., Fambrini, M., Petrarulo, M., Rapparini, F., Michelotti, V., Bruno, L., Greco, M., Baraldi, R., Salvini, M., Pugliesi, C., and Bitonti, M. B.

Published

2009

7. Role of xanthophyll cycle-mediated photoprotection in Arbutus unedo plants exposed to water stress during the Mediterranean summer

Author

Baraldi, R., Canaccini, F., Cortes, S., Magnani, F., Rapparini, F., Zamboni, A., and Raddi, S.

Published

2008

8. Blue light regulation of the growth of Prunus persica plants in a long term experiment: morphological and histological observations

Author

Rapparini, F., Rotondi, A., and Baraldi, R.

Published

1999

9. Volatile organic compound emissions from flowers of the most occuring and economically important species of fruit trees

Author

Baraldi, R., Rapparini, F., Rossi, F., Latella, A., and Ciccioli, P.

Published

1999

10. An ethanol-based fixation method for anatomical and micro-morphological characterization of leaves of various tree species.

Author

Chieco, C, Rotondi, A, Morrone, L, Rapparini, F, and Baraldi, R

Subjects

FORMALDEHYDE, LEAF anatomy, ETHANOL, TISSUE fixation (Histology), MICROSCOPY, SCANNING electron microscopy

Abstract

The use of formalin constitutes serious health hazards for laboratory workers. We investigated the suitability and performance of the ethanol-based fixative, FineFIX, as a substitute for formalin for anatomical and cellular structure investigations of leaves by light microscopy and for leaf surface and ultrastructural analysis by scanning electron microscopy (SEM). We compared the anatomical features of leaf materials prepared using conventional formalin fixation with the FineFIX. Leaves were collected from ornamental tree species commonly used in urban areas. FineFIX was also compared with glutaraldehyde fixation and air drying normally used for scanning electron microscopy to develop a new method for evaluating leaf morphology and microstructure in three ornamental tree species. The cytological features of the samples processed for histological analysis were well preserved by both fixatives as demonstrated by the absence of nuclear swelling or shrinkage, cell wall detachment or tissue flaking, and good presentation of cytoplasmic vacuolization. In addition, good preservation of surface details and the absence of shrinkage artefacts confirmed the efficacy of FineFIX fixation for SEM analysis. Cuticular wax was preserved only in air dried samples. Samples treated with chemical substances during the fixation and dehydration phases showed various alterations of the wax structures. In some air dried samples a loss of turgidity of the cells was observed that caused general wrinkling of the epidermal surfaces. Commercial FineFIX is an adequate substitute for formalin in histology and it can be applied successfully also for SEM investigation, while reducing the health risks of glutaraldehyde or other toxic fixatives. To investigate the potential for plants to absorb and capture particulates in air, which requires preservation of the natural morphology of trichomes and epicuticular waxes, a combination of FineFIX fixation and air drying is recommended. [ABSTRACT FROM AUTHOR]

Published

2013

11. Effect of arbuscular mycorrhizal (AM) colonization on terpene emission and content of Artemisia annua L.

Author

Rapparini, F., Llusi, J., and Peñuelas, J.

Subjects

*TERPENES, *VESICULAR-arbuscular mycorrhizas, *EMISSIONS (Air pollution), *ARTEMISIA, *VOLATILE organic compounds

Abstract

Plant roots interact with a wide variety of rhizospheric microorganisms, including bacteria and the symbiontic arbuscular mycorrhizal (AM) fungi. The mycorrhizal symbiosis represents a series of complex feedbacks between plant and fungus regulated by their physiology and nutrition. Despite the widespread distribution and ecological significance of AM symbiosis, little is known about the potential of AM fungi to affect plant VOC metabolism. The purpose of this study was to investigate whether colonization of plant roots by AM fungi and associated soil microorganisms affects VOC emission and content of Artemisia annua L. plants (Asteraceae). Two inoculum types were evaluated: one consisted of only an arbuscular mycorrhizal (AM) fungus species ( Glomus spp.), and the other was a mixture of different Glomus species and associated soil bacteria. Inoculated plants were compared with non-inoculated plants and with plants supplemented with extra phosphorus (P) to obtain plants of the same size as mycorrhizal plants, thus excluding potentially-confounding mycorrhizal effects on shoot growth. VOC emissions of Artemisia annua plants were analyzed by leaf cuvette sampling followed by off-line measurements with pre-concentration and gas chromatography mass spectrometry (GC-MS). Measurements of CO2 and H2O exchanges were conducted simultaneously. Several volatile monoterpenes were identified and characterized from leaf emissions of Artemisia annua L. by GC-MS analysis. The main components identified belong to different monoterpene structures: α-pinene, β-pinene, camphor, 1,8-cineole, limonene, and artemisia ketone. A good correlation between monoterpene leaf concentration and leaf emission was found. Leaf extracts included also several sesquiterpenes. Total terpene content and emission was not affected by AM inoculation with or without bacteria, while emission of limonene and artemisia ketone was stimulated by this treatment. No differences were found among treatments for single monoterpene content, while accumulation of specific sesquiterpenes in leaves was altered in mycorrhizal plants compared to control plants. Growth conditions seemed to have mainly contributed to the outcome of the symbiosis and influenced the magnitude of the plant response. These results highlight the importance of considering the below-ground interaction between plant and soil for estimating VOC emission rates and their ecological role at multitrophic levels. [ABSTRACT FROM AUTHOR]

Published

2008

12. Isoprenoid emission in trees of Quercus pubescens and Quercus ilex with lifetime exposure to naturally high CO2 environment.

Author

Rapparini, F., Baraldi, R., Miglietta, F., and Loreto, F.

Subjects

*QUERCUS pubescens, *OAK, *ISOPENTENOIDS, *ATMOSPHERIC carbon dioxide, *ALGORITHMS, *ISOPRENE, *MONOTERPENES

Abstract

The long-term effect of elevated atmospheric CO2 on isoprenoid emissions from adult trees of two Mediterranean oak species (the monoterpene-emitting Quercus ilex L. and the isoprene-emitting Quercus pubescens Willd.) native to a high-CO2 environment was investigated. During two consecutive years, isoprenoid emission was monitored both at branch level, measuring the actual emissions under natural conditions, and at leaf level, measuring the basal emissions under the standard conditions of 30 °C and at light intensity of 1000 µmol m−2 s−1. Long-term exposure to high atmospheric levels of CO2 did not significantly affect the actual isoprenoid emissions. However, when leaves of plants grown in the control site were exposed for a short period to an elevated CO2 level by rapidly switching the CO2 concentration in the gas-exchange cuvette, both isoprene and monoterpene basal emissions were clearly inhibited. These results generally confirm the inhibitory effect of elevated CO2 on isoprenoid emission. The absence of a CO2 effect on actual emissions might indicate higher leaf temperature at elevated CO2, or an interaction with multiple stresses some of which (e.g. recurrent droughts) may compensate for the CO2 effect in Mediterranean ecosystems. Under elevated CO2, isoprene emission by Q. pubescens was also uncoupled from the previous day's air temperature. In addition, pronounced daily and seasonal variations of basal emission were observed under elevated CO2 underlining that correction factors may be necessary to improve the realistic estimation of isoprene emissions with empirical algorithms in the future. A positive linear correlation of isoprenoid emission with the photosynthetic electron transport and in particular with its calculated fraction used for isoprenoid synthesis was found. The slope of this relationship was different for isoprene and monoterpenes, but did not change when plants were grown in either ambient or elevated CO2. This suggests that physiological algorithms may usefully predict isoprenoid emission also under rising CO2 levels. [ABSTRACT FROM AUTHOR]

Published

2004

13. A tethered-balloon PTRMS sampling approach for surverying of landscape-scale biogenic VOC fluxes

Author

Rapparini, F.

Published

2014

14. Protective Strategies of Haberlea rhodopensis for Acquisition of Freezing Tolerance: Interaction between Dehydration and Low Temperature.

Author

Georgieva K, Mihailova G, Fernández-Marín B, Bertazza G, Govoni A, Arzac MI, Laza JM, Vilas JL, García-Plazaola JI, and Rapparini F

Subjects

Desiccation, Plant Leaves metabolism, Acclimatization, Sucrose metabolism, Freezing, Dehydration metabolism, Magnoliopsida metabolism, Craterostigma, Lamiales

Abstract

Resurrection plants are able to deal with complete dehydration of their leaves and then recover normal metabolic activity after rehydration. Only a few resurrection species are exposed to freezing temperatures in their natural environments, making them interesting models to study the key metabolic adjustments of freezing tolerances. Here, we investigate the effect of cold and freezing temperatures on physiological and biochemical changes in the leaves of Haberlea rhodopensis under natural and controlled environmental conditions. Our data shows that leaf water content affects its thermodynamical properties during vitrification under low temperatures. The changes in membrane lipid composition, accumulation of sugars, and synthesis of stress-induced proteins were significantly activated during the adaptation of H. rhodopensis to both cold and freezing temperatures. In particular, the freezing tolerance of H. rhodopensis relies on a sucrose/hexoses ratio in favor of hexoses during cold acclimation, while there is a shift in favor of sucrose upon exposure to freezing temperatures, especially evident when leaf desiccation is relevant. This pattern was paralleled by an elevated ratio of unsaturated/saturated fatty acids and significant quantitative and compositional changes in stress-induced proteins, namely dehydrins and early light-induced proteins (ELIPs). Taken together, our data indicate that common responses of H. rhodopensis plants to low temperature and desiccation involve the accumulation of sugars and upregulation of dehydrins/ELIP protein expression. Further studies on the molecular mechanisms underlying freezing tolerance (genes and genetic regulatory mechanisms) may help breeders to improve the resistance of crop plants.

Published

2022

15. Species-Level Differences in Osmoprotectants and Antioxidants Contribute to Stress Tolerance of Quercus robur L., and Q. cerris L. Seedlings under Water Deficit and High Temperatures.

Author

Kebert M, Vuksanović V, Stefels J, Bojović M, Horák R, Kostić S, Kovačević B, Orlović S, Neri L, Magli M, and Rapparini F

Abstract

The general aim of this work was to compare the leaf-level responses of different protective components to water deficit and high temperatures in Quercus cerris L. and Quercus robur L. Several biochemical components of the osmotic adjustment and antioxidant system were investigated together with changes in hormones. Q. cerris and Q. robur seedlings responded to water deficit and high temperatures by: (1) activating a different pattern of osmoregulation and antioxidant mechanisms depending on the species and on the nature of the stress; (2) upregulating the synthesis of a newly-explored osmoprotectant, dimethylsulphoniopropionate (DMSP); (3) trading-off between metabolites; and (4) modulating hormone levels. Under water deficit, Q. cerris had a higher antioxidant capacity compared to Q. robur , which showed a lower investment in the antioxidant system. In both species, exposure to high temperatures induced a strong osmoregulation capacity that appeared largely conferred by DMSP in Q. cerris and by glycine betaine in Q. robur . Collectively, the more stress-responsive compounds in each species were those present at a significant basal level in non-stress conditions. Our results were discussed in terms of pre-adaptation and stress-induced metabolic patterns as related to species-specific stress tolerance features.

Published

2022

16. Corrigendum: Chemical Ecology of Capnodis tenebrionis (L.) (Coleoptera: Buprestidae): Behavioral and Biochemical Strategies for Intraspecific and Host Interactions.

Author

Bari G, Scala A, Garzone V, Salvia R, Yalcin C, Vernile P, Aresta AM, Facini O, Baraldi R, Bufo SA, Vogel H, de Lillo E, Rapparini F, and Falabella P

Abstract

[This corrects the article DOI: 10.3389/fphys.2019.00604.]., (Copyright © 2020 Bari, Scala, Garzone, Salvia, Yalcin, Vernile, Aresta, Facini, Baraldi, Bufo, Vogel, de Lillo, Rapparini and Falabella.)

Published

2020

17. Chemical Ecology of Capnodis tenebrionis (L.) (Coleoptera: Buprestidae): Behavioral and Biochemical Strategies for Intraspecific and Host Interactions.

Author

Bari G, Scala A, Garzone V, Salvia R, Yalcin C, Vernile P, Aresta AM, Facini O, Baraldi R, Bufo SA, Vogel H, de Lillo E, Rapparini F, and Falabella P

Abstract

This study focuses on several aspects of communication strategies adopted by adults of the Mediterranean flat-headed root-borer Capnodis tenebrionis (Coleoptera: Buprestidae). Morphological studies on the structures involved in mate recognition and acceptance revealed the presence of porous areas in the pronota in both sexes. These areas were variable in shape and size, but proportionally larger in males. The presence of chaetic, basiconic, and coeloconic sensilla in the antennae of both males and females was verified. Bioassays revealed stereotyped rituals in males and the involvement of female pronotal secretions in mate recognition and acceptance. During the mating assays, the female's pronotum was covered by a biologically inert polymeric resin (DenFil TM ), which prevented males from detecting the secretions and from completing the copulation ritual. The use of the resin allowed for the collection of chemical compounds. GC-MS analysis of the resin suggested it may be used to retain compounds from insect body surfaces and revealed sex-specific chemical profiles in the cuticles. Since adult C. tenebrionis may use volatile organic compounds (VOCs) emitted from leaves or shoots, the VOC emission profiles of apricot trees were characterized. Several volatiles related to plant-insect interactions involving fruit tree species of the Rosaceae family and buprestid beetles were identified. To improve understanding of how VOCs are perceived, candidate soluble olfactory proteins involved in chemoreception (odorant-binding proteins and chemosensory proteins) were identified using tissue and sex-specific RNA-seq data. The implications for chemical identification, physiological and ecological functions in intraspecific communication and insect-host interactions are discussed and potential applications for monitoring presented.

Published

2019

18. The application of chitosan and benzothiadiazole in vineyard (Vitis vinifera L. cv Groppello Gentile) changes the aromatic profile and sensory attributes of wine.

Author

Vitalini S, Ruggiero A, Rapparini F, Neri L, Tonni M, and Iriti M

Subjects

Agrochemicals pharmacology, Chitosan pharmacology, Flavoring Agents analysis, Taste, Thiadiazoles pharmacology, Vitis chemistry, Agrochemicals chemistry, Chitosan chemistry, Chromatography, Gas methods, Mass Spectrometry methods, Odorants analysis, Thiadiazoles chemistry, Wine analysis

Abstract

This work reports the effects of resistance inducers on wine aroma compounds and sensory attributes. Resistance inducers are a class of products able to elicit the plant defence mechanisms against pathogens, incurring lower toxicological risks than conventional agrochemicals. Among them, chitosan (CHT) and benzothiadiazole (BTH) are particularly effective in stimulating the biosynthesis of bioactive phytochemicals. They were used in a two-year survey conducted to assess experimental wines obtained from elicitor-treated grapes. Compared with conventional fungicides (penconazole and methyldinocap), in 2009, BTH increased total acetals and esters, while CHT raised the levels of total acetals and alcohols. Sensory analysis revealed that overall acceptance was higher in CHT than in BTH. In 2010, differences were not significant. Therefore, plant activators deserve attention beyond their efficacy in crop protection. In particular, in our experimental conditions, CHT improved the volatile profile, flavour and taste of Groppello wine., (Copyright © 2014 Elsevier Ltd. All rights reserved.)

Published

2014

19. AM fungi root colonization increases the production of essential isoprenoids vs. nonessential isoprenoids especially under drought stress conditions or after jasmonic acid application.

Author

Asensio D, Rapparini F, and Peñuelas J

Subjects

Carbon metabolism, Droughts, Gas Chromatography-Mass Spectrometry, Solanum lycopersicum drug effects, Solanum lycopersicum physiology, Nitrogen metabolism, Phosphorus metabolism, Plant Leaves drug effects, Plant Leaves metabolism, Plant Leaves microbiology, Plant Roots drug effects, Plant Roots physiology, Stress, Physiological, Terpenes chemistry, Cyclopentanes pharmacology, Solanum lycopersicum microbiology, Mycorrhizae physiology, Oxylipins pharmacology, Plant Growth Regulators pharmacology, Plant Roots microbiology, Terpenes metabolism

Abstract

Previous studies have shown that root colonization by arbuscular mycorrhiza (AM) fungi enhances plant resistance to abiotic and biotic stressors and finally plant growth. However, little is known about the effect of AM on isoprenoid foliar and root content. In this study we tested whether the AM symbiosis affects carbon resource allocation to different classes of isoprenoids such as the volatile nonessential isoprenoids (monoterpenes and sesquiterpenes) and the non-volatile essential isoprenoids (abscisic acid, chlorophylls and carotenoids). By subjecting the plants to stressors such as drought and to exogenous application of JA, we wanted to test their interaction with AM symbiosis in conditions where isoprenoids usually play a role in resistance to stress and in plant defence. Root colonization by AM fungi favoured the leaf production of essential isoprenoids rather than nonessential ones, especially under drought stress conditions or after JA application. The increased carbon demand brought on by AM fungi might thus influence not only the amount of carbon allocated to isoprenoids, but also the carbon partitioning between the different classes of isoprenoids, thus explaining the not previously shown decrease of root volatile isoprenoids in AM plants. We propose that since AM fungi are a nutrient source for the plant, other carbon sinks normally necessary to increase nutrient uptake can be avoided and therefore the plant can devote more resources to synthesize essential isoprenoids for plant growth., (Crown Copyright © 2011. Published by Elsevier Ltd. All rights reserved.)

Published

2012

20. Ectopic expression of LEAFY COTYLEDON1-LIKE gene and localized auxin accumulation mark embryogenic competence in epiphyllous plants of Helianthus annuus x H. tuberosus.

Author

Chiappetta A, Fambrini M, Petrarulo M, Rapparini F, Michelotti V, Bruno L, Greco M, Baraldi R, Salvini M, Pugliesi C, and Bitonti MB

Subjects

Gene Expression Regulation, Plant drug effects, Helianthus drug effects, Hybridization, Genetic drug effects, Indoleacetic Acids pharmacology, Plant Epidermis cytology, Plant Epidermis drug effects, Plant Epidermis genetics, Plant Leaves cytology, Plant Leaves drug effects, Plant Proteins genetics, Plant Proteins metabolism, RNA, Messenger genetics, RNA, Messenger metabolism, Regeneration drug effects, Reverse Transcriptase Polymerase Chain Reaction, Transcription, Genetic drug effects, Crosses, Genetic, Embryonic Development drug effects, Genes, Plant, Helianthus embryology, Helianthus genetics, Indoleacetic Acids metabolism, Plant Leaves genetics

Abstract

Background and Aims: The clone EMB-2 of the interspecific hybrid Helianthus annuus x H. tuberosus provides an interesting system to study molecular and physiological aspects of somatic embryogenesis. Namely, in addition to non-epiphyllous (NEP) leaves that expand normally, EMB-2 produces epiphyllous (EP) leaves bearing embryos on the adaxial surface. This clone was used to investigate if the ectopic expression of H. annuus LEAFY COTYLEDON1-LIKE (Ha-L1L) gene and auxin activity are correlated with the establishment of embryogenic competence., Methods: Ha-L1L expression was evaluated by semi-quantitative RT-PCR and in situ hybridization. The endogenous level and spatial distribution of free indole-3-acetic acid (IAA) were estimated by a capillary gas chromatography-mass spectrometry-selected ion monitoring method and an immuno-cytochemical approach., Key Results: Ectopic expression of Ha-L1L was detected in specific cell domains of the adaxial epidermis of EP leaves prior to the development of ectopic embryos. Ha-L1L was expressed rapidly when NEP leaves were induced to regenerate somatic embryos by in vitro culture. Differences in auxin distribution pattern rather than in absolute level were observed between EP and A-2 leaves. More precisely, a strong IAA immuno-signal was detected in single cells or in small groups of cells along the epidermis of EP leaves and accompanied the early stages of embryo development. Changes in auxin level and distribution were observed in NEP leaves induced to regenerate by in vitro culture. Exogenous auxin treatments lightly influenced Ha-L1L transcript levels in spite of an enhancement of the regeneration frequency., Conclusions: In EP leaves, Ha-L1L activity marks the putative founder cells of ectopic embryos. Although the ectopic expression of Ha-L1L seems to be not directly mediated by auxin levels per se, it was demonstrated that localized Ha-L1L expression and IAA accumulation in leaf epidermis domains represent early events of somatic embryogenesis displayed by the epiphyllous EMB-2 clone.

Published

2009

21. Stem fasciated, a recessive mutation in sunflower (Helianthus annuus), alters plant morphology and auxin level.

Author

Fambrini M, Bonsignori E, Rapparini F, Cionini G, Michelotti V, Bertini D, Baraldi R, and Pugliesi C

Subjects

Flowers anatomy & histology, Flowers genetics, Flowers growth & development, Gene Expression Regulation, Developmental, Gene Expression Regulation, Plant, Helianthus genetics, Helianthus growth & development, Mutant Proteins genetics, Mutant Proteins metabolism, Mutation genetics, Plant Leaves anatomy & histology, Plant Leaves metabolism, Plant Shoots genetics, Plant Shoots growth & development, Plant Shoots ultrastructure, Genes, Plant genetics, Genes, Recessive genetics, Helianthus anatomy & histology, Helianthus metabolism, Indoleacetic Acids metabolism, Plant Proteins genetics, Plant Proteins metabolism

Abstract

Background and Aims: Plant lateral organs such as leaves arise from a group of initial cells within the flanks of the shoot apical meristem (SAM). Alterations in the initiation of lateral organs are often associated with changes in the dimension and arrangement of the SAM as well as with abnormal hormonal homeostasis. A mutation named stem fasciated (stf) that affects various aspects of plant development, including SAM shape and auxin level, was characterized in sunflower (Helianthus annuus)., Methods: F1, F2 and F3 generations were obtained through reciprocal crosses between stf and normal plants. For the genetic analysis, a chi2 test was used. Phenotypic observations were made in field-grown and potted plants. A histological analysis of SAM, hypocotyl, epicotyl, stem and root apical meristem was also conducted. To evaluate the level of endogenous indole-3-acetic acid (IAA), a capillary gas chromatography-mass spectrometry-selected ion monitoring analysis was performed., Key Results: stf is controlled by a single nuclear recessive gene. stf plants are characterized by a dramatically increased number of leaves and vascular bundles in the stem, as well as by a shortened plastochron and an altered phyllotaxis pattern. By histological analysis, it was demonstrated that the stf phenotype is related to an enlarged vegetative SAM. Microscopy analysis of the mutant's apex also revealed an abnormal enlargement of nuclei in both central and peripheral zones and a disorganized distribution of cells in the L2 layer of the central zone. The stf mutant showed a high endogenous free IAA level, whereas auxin perception appeared normal., Conclusions: The observed phenotype and the high level of auxin detected in stf plants suggest that the STF gene is necessary for the proper initiation of primordia and for the establishment of a phyllotactic pattern through control of both SAM arrangement and hormonal homeostasis.

Published

2006

22. Indole-3-acetic acid metabolism in Lemna gibba undergoes dynamic changes in response to growth temperature.

Author

Rapparini F, Tam YY, Cohen JD, and Slovin JP

Subjects

Carbon Radioisotopes, Magnoliopsida drug effects, Magnoliopsida growth & development, Nitrogen Radioisotopes, Temperature, Tritium, Tryptophan pharmacology, ortho-Aminobenzoates pharmacology, Indoleacetic Acids metabolism, Magnoliopsida metabolism

Abstract

Auxin is the mobile signal controlling the rate of growth and specific aspects of the development of plants. It has been known for over a century that auxins act as the messenger linking plant development to specific environmental changes. An often overlooked aspect of how this is accomplished is the effect of the environment on metabolism of the major plant auxin, indole-3-acetic acid (IAA). We have studied the metabolism of IAA in relation to one environmental variable, growth temperature. The model system used was an inbred line of the aquatic monocot Lemna gibba G-3, 3F7-11 grown at temperatures ranging from 5 degrees C to 35 degrees C. IAA levels, the rate of IAA turnover, and the patterns of label incorporation from IAA precursors were measured using stable isotope-mass spectrometric techniques and were evaluated relative to growth at the experimental temperatures. IAA levels exhibited unusually high variability in plants grown at 15 degrees C and 20 degrees C. Turnover rates were quite rapid throughout the range of experimental temperatures except at 25 degrees C, where IAA turnover was notably slower. These results suggest that a transition occurred over these temperatures for some aspect of IAA metabolism. Analysis of [(15)N]anthranilate and [(2)H(5)]tryptophan (Trp) incorporation into IAA showed that Trp-dependent biosynthesis predominated at 15 degrees C; however, Trp-independent biosynthesis of IAA was the major route to IAA at 30 degrees C. The effects of growth temperature on auxin levels have been reported previously, but no prior studies correlated these effects with which pathway becomes the primary one for IAA production.

Published

2002

23. Seasonal variation of monoterpene emission from Malus domestica and Prunus avium.

Author

Rapparini F, Baraldi R, and Facini O

Subjects

Gas Chromatography-Mass Spectrometry, Volatilization, Rosales metabolism, Seasons, Terpenes metabolism

Abstract

Emission rates of monoterpenes released by apple (Malus domestica Borkh) and cherry (Prunus avium L.) were estimated at different phenological stages. These measurements employed a dynamic flow-through Teflon chamber, sample collection onto cartridges filled with graphitized carbon and thermal desorption gas chromatography-mass spectrometry (GC-MS) for identification and quantification of the emitted volatiles. At full bloom the release of monoterpene hydrocarbons from cherry flowers was 1213 ng g(-1) dry weight (DW) h(-1), exceeding by approximately three-fold the emission rate of apple flowers (366 ng g(-1) DW h(-1)). Observed seasonal variations in biogenic volatile organic compound (VOC) emissions ranged over several order of magnitudes. At fruit-set and ripening stages, in fact, the hydrocarbon emission dramatically decreased reaching the lowest values at harvest time when leaves were fully mature (3-9 ng g(-1) DW h(-1)). Wide diversity in the composition of compounds from the species studied was also recorded. At blooming, linalool contributed significantly to the monoterpene emission from apple (94% of the emitted carbon) while alpha-pinene and camphene represented on average more than 60% of the total emitted volatiles from cherry flowers. Among the monoterpenes identified in flowers, alpha-pinene, camphene and limonene were also found in the foliage emission of both species. Fruit trees are relevant monoterpene emitters only at blooming and thus for a short period of the vegetative cycle. When leaves are fully developed, the carbon loss due to monoterpene emissions related to the photosynthetically carbon gain is negligible.

Published

2001