Your search keyword '"Carniel, Fabio Candotto"' showing total 13 results

1. The sound of lichens: ultrasonic acoustic emissions during desiccation question cavitation events in the hyphae.

Author

Boccato, Enrico, Petruzzellis, Francesco, Bordenave, César Daniel, Nardini, Andrea, Tretiach, Mauro, Mayr, Stefan, and Carniel, Fabio Candotto

Subjects

ACOUSTIC emission, CHLOROPHYLL spectra, ULTRASONIC measurement, SCANNING electron microscopy, VASCULAR plants, CAVITATION

Abstract

Lichens are a mutualistic symbiosis between a fungus and one or more photosynthetic partners. They are photosynthetically active during desiccation down to relative water contents (RWCs) as low as 30% (on dry mass). Experimental evidence suggests that during desiccation, the photobionts have a higher hydration level than the surrounding fungal pseudo-tissues. Explosive cavitation events in the hyphae might cause water movements towards the photobionts. This hypothesis was tested in two foliose lichens by measurements of ultrasonic acoustic emissions (UAEs), a method commonly used in vascular plants but never in lichens, and by measurements of PSII efficiency, water potential, and RWC. Thallus structural changes were characterized by low-temperature scanning electron microscopy. The thalli were silent between 380% and 30% RWCs, when explosive cavitation events should cause movements of liquid water. Nevertheless, the thalli emitted UAEs at ~5% RWC. Accordingly, the medullary hyphae were partially shrunken at ~15% RWC, whereas they were completely shrunken at <5% RWC. These results do not support the hypothesis of hyphal cavitation and suggest that the UAEs originate from structural changes at hyphal level. The shrinking of hyphae is proposed as an adaptation to avoid cell damage at very low RWCs. [ABSTRACT FROM AUTHOR]

Published

2024

2. Environmental and Health Impacts of Graphene and Other Two-Dimensional Materials: A Graphene Flagship Perspective

Author

Lin, Hazel, primary, Buerki-Thurnherr, Tina, additional, Kaur, Jasreen, additional, Wick, Peter, additional, Pelin, Marco, additional, Tubaro, Aurelia, additional, Carniel, Fabio Candotto, additional, Tretiach, Mauro, additional, Flahaut, Emmanuel, additional, Iglesias, Daniel, additional, Vázquez, Ester, additional, Cellot, Giada, additional, Ballerini, Laura, additional, Castagnola, Valentina, additional, Benfenati, Fabio, additional, Armirotti, Andrea, additional, Sallustrau, Antoine, additional, Taran, Frédéric, additional, Keck, Mathilde, additional, Bussy, Cyrill, additional, Vranic, Sandra, additional, Kostarelos, Kostas, additional, Connolly, Mona, additional, Navas, José Maria, additional, Mouchet, Florence, additional, Gauthier, Laury, additional, Baker, James, additional, Suarez-Merino, Blanca, additional, Kanerva, Tomi, additional, Prato, Maurizio, additional, Fadeel, Bengt, additional, and Bianco, Alberto, additional

Published

2024

3. Desiccation tolerance and lichenization: a case study with the aeroterrestrial microalga Trebouxia sp. (Chlorophyta)

Author

Carniel, Fabio Candotto, Zanelli, Davide, Bertuzzi, Stefano, and Tretiach, Mauro

Published

2015

4. New features of desiccation tolerance in the lichen photobiont Trebouxia gelatinosa are revealed by a transcriptomic approach

Author

Carniel, Fabio Candotto, Gerdol, Marco, Montagner, Alice, Banchi, Elisa, De Moro, Gianluca, Manfrin, Chiara, Muggia, Lucia, Pallavicini, Alberto, and Tretiach, Mauro

Published

2016

5. Seasonal acclimation in the epiphytic lichen Parmelia sulcata is influenced by change in photobiont population density

Author

Tretiach, Mauro, Bertuzzi, Stefano, Carniel, Fabio Candotto, and Virgilio, Damiano

Published

2013

6. How to build a lichen: from metabolite release to symbiotic interplay.

Author

Pichler, Gregor, Muggia, Lucia, Carniel, Fabio Candotto, Grube, Martin, and Kranner, Ilse

Subjects

LICHENS, CYCLIC peptides, ALGAL cells, MINERALS in nutrition, THALLUS, SUGAR alcohols

Abstract

Summary: Exposing their vegetative bodies to the light, lichens are outstanding amongst other fungal symbioses. Not requiring a pre‐established host, 'lichenized fungi' build an entirely new structure together with microbial photosynthetic partners that neither can form alone. The signals involved in the transition of a fungus and a compatible photosynthetic partner from a free‐living to a symbiotic state culminating in thallus formation, termed 'lichenization', and in the maintenance of the symbiosis, are poorly understood. Here, we synthesise the puzzle pieces of the scarce knowledge available into an updated concept of signalling involved in lichenization, comprising five main stages: (1) the 'pre‐contact stage', (2) the 'contact stage', (3) 'envelopment' of algal cells by the fungus, (4) their 'incorporation' into a pre‐thallus and (5) 'differentiation' into a complex thallus. Considering the involvement of extracellularly released metabolites in each phase, we propose that compounds such as fungal lectins and algal cyclic peptides elicit early contact between the symbionts‐to‐be, whereas phytohormone signalling, antioxidant protection and carbon exchange through sugars and sugar alcohols are of continued importance throughout all stages. In the fully formed lichen thallus, secondary lichen metabolites and mineral nutrition are suggested to stabilize the functionalities of the thallus, including the associated microbiota. [ABSTRACT FROM AUTHOR]

Published

2023

7. How dry is dry? Molecular mobility in relation to thallus water content in a lichen.

Author

Carniel, Fabio Candotto, Fernandez-Marín, Beatriz, Arc, Erwann, Craighero, Teresa, Laza, José Manuel, Incerti, Guido, Tretiach, Mauro, and Kranner, Ilse

Subjects

*XANTHOPHYLLS, *THALLUS, *LICHENS, *DYNAMIC mechanical analysis, *CHEMICAL reactions, *HIGH performance liquid chromatography

Abstract

Lichens can withstand extreme desiccation to water contents of ≤ 0.1 g H2O g–1 DW, and in the desiccated state are among the most extremotolerant organisms known. Desiccation-tolerant life-forms such as seeds, mosses and lichens survive 'vitrification', that is the transition of their cytoplasm to a 'glassy' state, which causes metabolism to cease. However, our understanding of the mechanisms of desiccation tolerance is hindered by poor knowledge of what reactions occur in the desiccated state. Using Flavoparmelia caperata as a model lichen, we determined at what water contents vitrification occurred upon desiccation. Molecular mobility was assessed by dynamic mechanical thermal analysis, and the de- and re-epoxidation of the xanthophyll cycle pigments (measured by HPLC) was used as a proxy to assess enzyme activity. At 20 °C vitrification occurred between 0.12–0.08 g H2O g−1 DW and enzymes were active in a 'rubbery' state (0.17 g H2O g−1 DW) but not in a glassy state (0.03 g H2O g−1 DW). Therefore, desiccated tissues may appear to be 'dry' in the conventional sense, but subtle differences in water content will have substantial consequences on the types of (bio)chemical reactions that can occur, with downstream effects on longevity in the desiccated state. [ABSTRACT FROM AUTHOR]

Published

2021

8. Infraspecific variability in baseline element composition of the epiphytic lichen Pseudevernia furfuracea in remote areas: implications for biomonitoring of air pollution

Author

Incerti, Guido, primary, Cecconi, Elva, additional, Capozzi, Fiore, additional, Adamo, Paola, additional, Bargagli, Roberto, additional, Benesperi, Renato, additional, Carniel, Fabio Candotto, additional, Cristofolini, Fabiana, additional, Giordano, Simonetta, additional, Puntillo, Domenico, additional, Spagnuolo, Valeria, additional, and Tretiach, Mauro, additional

Published

2017

9. Heat Shock Treatments: A New Safe Approach against Lichen Growth on Outdoor Stone Surfaces.

Author

Tretiach, Mauro, Bertuzzi, Stefano, and Carniel, Fabio Candotto

Published

2012

10. Interactions of airborne graphene oxides with the sexual reproduction of a model plant: When production impurities matter

Author

Davide Zanelli, Fabio Candotto Carniel, Lorenzo Fortuna, Elena Pavoni, Viviana Jehová González, Ester Vázquez, Maurizio Prato, Mauro Tretiach, Zanelli, Davide, Carniel, Fabio Candotto, Fortuna, Lorenzo, Pavoni, Elena, González, Viviana Jehová, Vázquez, Ester, Prato, Maurizio, and Tretiach, Mauro

Subjects

Environmental Engineering, Health, Toxicology and Mutagenesis, Reproduction, Public Health, Environmental and Occupational Health, Air pollution, Oxides, General Medicine, General Chemistry, Crop, Emerging pollutant, Flower biology, Pollution, Nanoparticle, Seeds, Environmental Chemistry, Pollen, Graphite, Production contaminants

Abstract

The increasing use of graphene-related materials (GRMs) in everyday-life products raises concerns for their possible release into the environment and consequent impact on organisms. GRMs have widely varying effects on plants and, according to recent evidences, graphene oxide (GO) has the potential to interfere with the sexual reproduction owing to its acidic properties and production residues. Here, stigmas of the model plant Cucurbita pepo (summer squash) were subjected to simulated dry depositions of GO and GO purified from production residues (PGO). Stigmas were then hand-pollinated and GRM deposition was checked by ESEM and confocal microscopy. Analysis of stigma integrity, pH homeostasis and pollen-stigma interactions did not reveal negative effects. Fruit and seed production were not affected, but GO depositions of 22.1 ± 7.2 ng mm-2 affected the normal development of seeds, decreasing seed dimensions, seed germination and germination speed. The elemental analysis revealed that GO has significant quantities of production residues, such as strong acids and oxidants, while PGO has only traces, which justifies the differences observed in the effects caused by the two materials. Our results show that GO depositions of up to 11.1 ± 3.6 ng mm-2, which fall within the variation range of total dry particulate matter depositions reported in the literature, are safe for reproduction of C. pepo. This is the first "safety" limit ever recorded for depositions of "out-of-the-box" GO concerning the reproduction of a seed plant. If confirmed for wind-pollinated species, it might be considered for policymaking of GRMs emissions in the air.

Published

2022

11. Is airborne graphene oxide a possible hazard for the sexual reproduction of wind-pollinated plants?

Author

Davide Zanelli, Fabio Candotto Carniel, Lorenzo Fortuna, Elena Pavoni, Viviana Jehová González, Ester Vázquez, Maurizio Prato, Mauro Tretiach, Zanelli, Davide, Carniel, Fabio Candotto, Fortuna, Lorenzo, Pavoni, Elena, González, Viviana Jehová, Vázquez, Ester, Prato, Maurizio, and Tretiach, Mauro

Subjects

Environmental Engineering, Pollen-stigma interaction, Reproduction, Water, Wind, Anemophilous flower, Zea mays, Pollution, Airborne nanoparticles, Airborne nanoparticle, Corylus, Anemophilous flowers, Graphene oxide, Environmental Chemistry, Graphite, Pollination, Waste Management and Disposal

Abstract

Products containing graphene-related materials (GRMs) are becoming increasingly common, allowing GRM nanoparticles (NPs) to enter the environment during their life cycle. Thanks to their lightness and bidimensional geometry, GRM NPs can be easily dispersed in the air and travel very long distances. The flowers of wind-pollinated plants may be exposed to airborne GRMs, being apt to intercept pollen from the air and, inevitably, other airborne particles. Here, stigmas of four wind-pollinated plants (Corylus avellana, common hazel; Juglans regia, walnut; Quercus ilex, holm oak; Zea mays, maize) were exposed to airborne graphene oxide (GO) and GO purified from production residues (PGO) at a concentration of 3.7 ng m-3. Subsequently, the stigmas were pollinated and the adhesion of GOs and their effects on stigma integrity and pollen-stigma interaction were examined. The effect of GO NPs in presence of liquid water on the stigma of C. avellana was also investigated. GOs NPs were intercepted by all species, but their effect varied among them. GO reduced pollen adhesion in J. regia and Q. ilex, whereas pollen germination was unaffected in all four species. The presence of a film of water neither completely removed GO NPs from the stigma, nor it enhanced the toxic effect of GO acidity. PGO never affected pollen-stigma interaction, indicating that the phytotoxic substances used for the production of GO, still in traces in commercial GO, are the main cause of GO toxicity. These results reconfirm the need to verify GRMs effects also on key biological processes beside single model organisms.

Published

2022

12. How dry is dry? Molecular mobility in relation to thallus water content in a lichen

Author

Fabio Candotto Carniel, Mauro Tretiach, Guido Incerti, José Manuel Laza, Teresa Craighero, Beatriz Fernández-Marín, Ilse Kranner, Erwann Arc, Carniel, Fabio Candotto, Fernandez-Marín, Beatriz, Arc, Erwann, Craighero, Teresa, Laza, José Manuel, Incerti, Guido, Tretiach, Mauro, and Kranner, Ilse

Subjects

0106 biological sciences, 0301 basic medicine, Lichens, Physiology, desiccation tolerance, Plant Science, Bryophyta, eXtra Botany, lichen, 01 natural sciences, Insights, DMTA, glassy state, Desiccation tolerance, 03 medical and health sciences, longevity, Botany, Vitrification, Desiccation, Lichen, Water content, Flavoparmelia caperata, chemistry.chemical_classification, water content, molecular mobility, biology, Chemistry, AcademicSubjects/SCI01210, Parmeliaceae, Water, biology.organism_classification, vitrification, Thallus, 030104 developmental biology, Natural Deep Eutectic Solvents (NaDES), liquid-liquid phase separations, Xanthophyll, xanthophylls, 010606 plant biology & botany

Abstract

Lichens can withstand extreme desiccation to water contents of ≤ 0.1 g H2O g–1 DW, and in the desiccated state are among the most extremotolerant organisms known. Desiccation-tolerant life-forms such as seeds, mosses and lichens survive ‘vitrification’, that is the transition of their cytoplasm to a ‘glassy’ state, which causes metabolism to cease. However, our understanding of the mechanisms of desiccation tolerance is hindered by poor knowledge of what reactions occur in the desiccated state. Using Flavoparmelia caperata as a model lichen, we determined at what water contents vitrification occurred upon desiccation. Molecular mobility was assessed by dynamic mechanical thermal analysis, and the de- and re-epoxidation of the xanthophyll cycle pigments (measured by HPLC) was used as a proxy to assess enzyme activity. At 20 °C vitrification occurred between 0.12–0.08 g H2O g−1 DW and enzymes were active in a ‘rubbery’ state (0.17 g H2O g−1 DW) but not in a glassy state (0.03 g H2O g−1 DW). Therefore, desiccated tissues may appear to be ‘dry’ in the conventional sense, but subtle differences in water content will have substantial consequences on the types of (bio)chemical reactions that can occur, with downstream effects on longevity in the desiccated state.

Published

2020

13. Infraspecific variability in baseline element composition of the epiphytic lichen Pseudevernia furfuracea in remote areas: implications for biomonitoring of air pollution

Author

Simonetta Giordano, Renato Benesperi, Fabio Candotto Carniel, Domenico Puntillo, Guido Incerti, Roberto Bargagli, Paola Adamo, Valeria Spagnuolo, Fiore Capozzi, Elva Cecconi, Mauro Tretiach, F. Cristofolini, Incerti, Guido, Cecconi, Elva, Capozzi, Fiore, Adamo, Paola, Bargagli, Roberto, Benesperi, Renato, Carniel, Fabio Candotto, Cristofolini, Fabiana, Giordano, Simonetta, Puntillo, Domenico, Spagnuolo, Valeria, Tretiach, Mauro, and CANDOTTO CARNIEL, Fabio

Subjects

Pseudevernia furfuracea, Pollution, Lichens, 010504 meteorology & atmospheric sciences, Health, Toxicology and Mutagenesis, media_common.quotation_subject, furfuracea, Settore BIO/03 - BOTANICA AMBIENTALE E APPLICATA, Atmospheric deposition, 010501 environmental sciences, Biology, 01 natural sciences, Atmospheric depositions, Baseline values, ceratea, Lichen transplants, Taxonomy, Trace elements, Environmental Chemistry, chemistry.chemical_compound, Ascomycota, Air Pollution, Metals, Heavy, Biomonitoring, Aqua regia, Toxicology and Mutagenesis, Lichen, 0105 earth and related environmental sciences, media_common, Air Pollutants, Baseline value, Phosphorus, Trace elements, Atmospheric depositions, Baseline values, ceratea, furfuracea, Lichen transplants, Taxonomy, General Medicine, biology.organism_classification, Italy, Lichen transplant, chemistry, Health, Bioaccumulation, Environmental chemistry, Trace element, Spatial ecology, Epiphyte, Environmental Monitoring

Abstract

The epiphytic lichen Pseudevernia furfuracea is widely used as biomonitor of airborne trace elements and other contaminants and consists of two taxonomic varieties (var. furfuracea and var. ceratea). Here, we assessed the occurrence of inter-varietal differences in the elemental composition of paired samples of var. furfuracea and var. ceratea collected in 20 remote sites of Italian mountains. The concentration of 40 elements was measured by inductively coupled plasma mass spectroscopy, after digestion with HNO3 and aqua regia. The magnitude of inter-varietal differences compared to the effect of large-scale site-dependent environmental factors (i.e., lithological substrate, host tree species, and altitude) on overall element content was explored by multivariate analysis techniques and tested by generalized linear mixed modeling (GLMM). Further GLMMs were separately fitted for each element testing taxonomic-related variability against uncertainty associated to the analytical procedure. Inter-varietal differences were statistically significant only for Hg and P, with higher content in var. ceratea at most sites, and for Mg and Zn, showing the opposite pattern. Since the elemental composition of P. furfuracea in remote sites was mostly affected by local lithology and climatic conditions, our results confirm that lichen material for active biomonitoring should be collected in a single ecologically homogeneous remote area. We also indicate sites in the Eastern Alps where P. furfuracea showed the minimum content of most elements, which are suggested as locations to collect lichen material for transplants. Besides the context-dependency at large spatial scale, variations of elemental composition apparently related to taxonomy, could possibly be due to unequal incidence of morphological traits of the collected material. Further research is needed to clarify this issue, and how it affects bioaccumulation phenomena.

Published

2017