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7. Metal-tolerant plant Response to soil contamination

Author

Rosatto, S., Roccotiello, E., Zotti, M., and Mariotti, M. G.

Subjects
plant rhizobiota, plant microorganism interactions, phytremediation, plant rhizobiota, phytremediation, plant microorganism interactions
Published
2016

13. The rapid spread of SARS-COV-2 Omicron variant in Italy reflected early through wastewater surveillance

Author

La Rosa, G., Iaconelli, M., Veneri, C., Mancini, P., Bonanno Ferraro, G., Brandtner, D., Lucentini, L., Bonadonna, L., Rossi, M., Grigioni, M., Suffredini, E., Giuseppe, Bucciarelli, Paolo, Torlontano, Giuseppe, Michele La Bianca, Rosa Anna Cifarelli, Achille, Palma, Giovanna La Vecchia, Giuseppe, Lauria, Rosanna, Brienza, Patrizia, Montenegro, Angelo, D'Argenzio, Luigi, Cossentino, Renato, Olivares, Antonio, Pizzolante, Giovanna, Fusco, Alessandra, Tosco, Amalia, Porta, Francesca, Pennino, Triassi, Maria, Paola, Angelini, Laura De Lellis, Daniele, Nasci, Giovanni, Alborali, Nicoletta, Formenti, Flavia, Guarneri, Nadia, Fontani, Giulia, Nani, Franca, Palumbo, Gianluca, Borlone, Marco, Guercio, Lisa, Gentili, Marika, Mariuz, Gabriella, Trani, Anna, Pariani, Carla, Ancona, Doriana Antonella Giorgi, Irene, Ferrante, Monica, Monfrinotti, Silvia, Riosa, Valeria, Capparuccini, Maria Teresa Scicluna, Antonella, Mariaconcetta, Arizzi, Giancarlo, Cecchini, Claudio, Ottaviano, Elena, Nicosia, Elena, Grasselli, Giorgia, Allaria, Alberto, Izzotti, Stefano, Rosatto, Emanuela, Ammoni, Danilo, Cereda, Marina Nadia Losio, Barbara, Bertasi, Andrea, Aliscioni, Desdemona, Oliva, Sara, Castiglioni, Silvia, Schiarea, Ettore, Zuccato, Manuela, Antonelli, Arianna, Azzellino, Francesca, Malpei, Andrea, Turolla, Sandro, Binda, Pellegrinelli, Laura, Valeria, Primache, Clementina, Cocuzza, Andrea, Franzetti, Giorgio, Bertanza, Maria Luisa Callegari, Luigi, Bolognini, Fabio, Filippetti, Marta, Paniccia, Francesca, Ciuti, Sara, Briscolini, Silvia, Magi, Michele, Colitti, Carmen, Montanaro, Giuseppe, Aprea, Maria Grazia Cerroni, Bartolomeo, Griglio, Renza, Berruti, Mauro, Cravero, Angela, Costa, Manila, Bianchi, Lucia, Decastelli, Angelo, Romano, Fabio, Zuccon, Elisabetta, Carraro, Cristina, Pignata, Silvia, Bonetta, Giuseppe Di Vittorio, Onofrio, Mongelli, Osvalda De Giglio, Francesca, Apollonio, Francesco, Triggiano, Maria Teresa Montagna, Nicola, Ungaro, Mario, Palermo, Carmelo Massimo Maida, Walter, Mazzucco, Simona De Grazia, Giovanni, Giammanco, Giuseppa, Purpari, Margherita, Ferrante, Antonella, Agodi, Martina, Barchitta, Piergiuseppe, Cala’, Carducci, Annalaura, Verani, Marco, Federigi, Ileana, Giulia, Lauretani, Sara, Muzio, Matteo, Ramazzotti, Alberto, Antonelli, Enrica, Ricci, Giovanni, Santoro, Ermanno, Federici, Maya, Petricciuolo, Sofia, Barigelli, Mauro, Ruffier, Francesca, Borney, Eric, Grange, Florida, Damasco, Francesca, Russo, Gisella, Pitter, Vanessa, Groppi, Franco, Rigoli, Marco, Zampini, Tatjana, Baldovin, Irene, Amoruso, Elena, Mengon, Maria, Cadonna, Mattia, Postinghel, Francesco, Pizzo, Alessandra, Schiavuzzi, Francesca, Cutrupi, Paola, Foladori, Serena, Manara, Lorella, Zago, Alberta, Stenico, Anna-Maria, Prast., La Rosa, G, Iaconelli, M, Veneri, C, Mancini, P, Bonanno Ferraro, G, Brandtner, D, Lucentini, L, Bonadonna, L, Rossi, M, Grigioni, M, Suffredini, E, Bucciarelli, G, Torlontano, P, Aprea, G, La Bianca, M, Cifarelli, R, Palma, A, La Vecchia, G, Lauria, G, Brienza, R, Montenegro, P, D'Argenzio, A, Cossentino, L, Olivares, R, Pizzolante, A, Fusco, G, Tosco, A, Porta, A, Pennino, F, Maria, T, Angelini, P, De Lellis, L, Nasci, D, Alborali, G, Formenti, N, Guarneri, F, Fontani, N, Nani, G, Palumbo, F, Borlone, G, Guercio, M, Gentili, L, Mariuz, M, Trani, G, Pariani, A, Ancona, C, Giorgi, D, Ferrante, I, Monfrinotti, M, Riosa, S, Capparuccini, V, Scicluna, M, Cersini, A, Arizzi, M, Cecchini, G, Ottaviano, C, Nicosia, E, Grasselli, E, Allaria, G, Izzotti, A, Rosatto, S, Ammoni, E, Cereda, D, Losio, M, Bertasi, B, Aliscioni, A, Oliva, D, Castiglioni, S, Schiarea, S, Zuccato, E, Antonelli, M, Azzellino, A, Malpei, F, Turolla, A, Binda, S, Laura, P, Primache, V, Cocuzza, C, Franzetti, A, Bertanza, G, Callegari, M, Bolognini, L, Filippetti, F, Paniccia', M, Ciuti, F, Briscolini, S, Magi, S, Colitti, M, Montanaro, C, Cerroni, M, Griglio, B, Berruti, R, Cravero, M, Costa, A, Bianchi, M, Decastelli, L, Romano, A, Zuccon, F, Carraro, E, Pignata, C, Bonetta, S, Di Vittorio, G, Mongelli, O, De Giglio, O, Apollonio, F, Triggiano, F, Montagna, M, Ungaro, N, Palermo, M, Maida, C, Mazzucco, W, De Grazia, S, Giammanco, G, Purpari, G, Ferrante, M, Agodi, A, Barchitta, M, Cala', P, Carducci, A, Verani, M, Federigi, I, Lauretani, G, Muzio, S, Ramazzotti, M, Antonelli, A, Ricci, E, Santoro, G, Federici, E, Petricciuolo, M, Barigelli, S, Ruffier, M, Borney, F, Grange, E, Damasco, F, Russo, F, Pitter, G, Groppi, V, Rigoli, F, Zampini, M, Baldovin, T, Amoruso, I, Mengon, E, Cadonna, M, Postinghel, M, Pizzo, F, Schiavuzzi, A, Cutrupi, F, Foladori, P, Manara, S, Zago, L, Stenico, A, Prast, A, La Rosa G., Iaconelli M., Veneri C., Mancini P., Bonanno Ferraro G., Brandtner D., Lucentini L., Bonadonna L., Rossi M., Grigioni M., Bucciarelli G., Torlontano P., Aprea G., La Bianca M., Cifarelli R.A., Palma A., La Vecchia G., Lauria G., Brienza R., Montenegro P., D'Argenzio A., Cossentino L., Olivares R., Pizzolante A., Fusco G., Tosco A., Porta A., Pennino F., Maria T., Angelini P., De Lellis L., Nasci D., Alborali G., Formenti N., Guarneri F., Fontani N., Nani G., Palumbo F., Borlone G., Guercio M., Gentili L., Mariuz M., Trani G., Pariani A., Ancona C., Giorgi D.A., Ferrante I., Monfrinotti M., Riosa S., Capparuccini V., Scicluna M.T., Cersini A., Arizzi M., Cecchini G., Ottaviano C., Nicosia E., Grasselli E., Allaria G., Izzotti A., Rosatto S., Ammoni E., Cereda D., Losio M.N., Bertasi B., Aliscioni A., Oliva D., Castiglioni S., Schiarea S., Zuccato E., Antonelli M., Azzellino A., Malpei F., Turolla A., Binda S., Laura P., Primache V., Cocuzza C., Franzetti A., Bertanza G., Callegari M.L., Bolognini L., Filippetti F., Paniccia' M., Ciuti F., Briscolini S., Magi S., Colitti M., Montanaro C., Cerroni M.G., Griglio B., Berruti R., Cravero M., Costa A., Bianchi M., Decastelli L., Romano A., Zuccon F., Carraro E., Pignata C., Bonetta S., Di Vittorio G., Mongelli O., De Giglio O., Apollonio F., Triggiano F., Montagna M.T., Ungaro N., Palermo M., Maida C.M., Mazzucco W., De Grazia S., Giammanco G., Purpari G., Ferrante M., Agodi A., Barchitta M., Cala' P., Carducci A., Verani M., Federigi I., Lauretani G., Muzio S., Ramazzotti M., Antonelli A., Ricci E., Santoro G., Federici E., Petricciuolo M., Barigelli S., Ruffier M., Borney F., Grange E., Damasco F., Russo F., Pitter G., Groppi V., Rigoli F., Zampini M., Baldovin T., Amoruso I., Mengon E., Cadonna M., Postinghel M., Pizzo F., Schiavuzzi A., Cutrupi F., Foladori P., Manara S., Zago L., Stenico A., Prast A.-M., Suffredini E., and Triassi, M

Subjects
Omicron, RT-qPCR, SARS-CoV-2, Sewage, Variant, Wastewater-based epidemiology, Wastewater-Based Epidemiological Monitoring, Environmental Engineering, COVID-19, Wastewater, Pollution, Humans, RNA, Viral, Waste Water, SARS-Cov2, Environmental Chemistry, RNA, Viral, wastewater based epidemiology, Waste Management and Disposal, Human, Omicron, RT-qPCR, SARS-CoV-2, Sewage, Variant, Wastewater-based epidemiology
Abstract

The SARS-CoV-2 Omicron variant emerged in South Africa in November 2021, and has later been identified worldwide, raising serious concerns. A real-time RT-PCR assay was designed for the rapid screening of the Omicron variant, targeting characteristic mutations of the spike gene. The assay was used to test 737 sewage samples collected throughout Italy (19/21 Regions) between 11 November and 25 December 2021, with the aim of assessing the spread of the Omicron variant in the country. Positive samples were also tested with a real-time RT-PCR developed by the European Commission, Joint Research Centre (JRC), and through nested RT-PCR followed by Sanger sequencing. Overall, 115 samples tested positive for Omicron SARS-CoV-2 variant. The first occurrence was detected on 7 December, in Veneto, North Italy. Later on, the variant spread extremely fast in three weeks, with prevalence of positive wastewater samples rising from 1.0% (1/104 samples) in the week 5-11 December, to 17.5% (25/143 samples) in the week 12-18, to 65.9% (89/135 samples) in the week 19-25, in line with the increase in cases of infection with the Omicron variant observed during December in Italy. Similarly, the number of Regions/Autonomous Provinces in which the variant was detected increased from one in the first week, to 11 in the second, and to 17 in the last one. The presence of the Omicron variant was confirmed by the JRC real-time RT-PCR in 79.1% (91/115) of the positive samples, and by Sanger sequencing in 66% (64/97) of PCR amplicons. In conclusion, we designed an RT-qPCR assay capable to detect the Omicron variant, which can be successfully used for the purpose of wastewater-based epidemiology. We also described the history of the introduction and diffusion of the Omicron variant in the Italian population and territory, confirming the effectiveness of sewage monitoring as a powerful surveillance tool.

Published
2022

14. Effects of Bacterial and Fungal Inocula on Biomass, Ecophysiology, and Uptake of Metals of Alyssoides utriculata (L.) Medik.

Author

Priarone S, Romeo S, Di Piazza S, Rosatto S, Zotti M, Mariotti M, and Roccotiello E

Abstract

The inoculation of plants with plant-growth-promoting microorganisms (PGPM) (i.e., bacterial and fungal strains) is an emerging approach that helps plants cope with abiotic and biotic stresses. However, knowledge regarding their synergic effects on plants growing in metal-rich soils is limited. Consequently, the aim of this study was to investigate the biomass, ecophysiology, and metal accumulation of the facultative Ni-hyperaccumulator Alyssoides utriculata (L.) Medik. inoculated with single or mixed plant-growth-promoting (PGP) bacterial strain Pseudomonas fluorescens Migula 1895 (SERP1) and PGP fungal strain Penicillium ochrochloron Biourge (SERP03 S) on native serpentine soil ( n = 20 for each treatment). Photosynthetic efficiency (Fv/Fm) and performance indicators (PI) had the same trends with no significant differences among groups, with Fv/Fms > 1 and PI up to 12. However, the aboveground biomass increased 4-5-fold for single and mixed inoculated plants. The aboveground/belowground dry biomass ratio was higher for plants inoculated with fungi (30), mixed (21), and bacteria (17). The ICP-MS highlighted that single and mixed inocula were able to double the aboveground biomass' P content. Mn metal accumulation significantly increased with both single and mixed PGP inocula, and Zn accumulation increased only with single PGP inocula, whereas Cu accumulation increased twofold only with mixed PGP inocula, but with a low content. Only Ni metal accumulation approached the hyperaccumulation level (Ni > 1000 mg/kg DW) with all treatments. This study demonstrated the ability of selected single and combined PGP strains to significantly increase plant biomass and plant tolerance of metals present in the substrate, resulting in a higher capacity for Ni accumulation in shoots.

Published
2023
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15. A Mini-Review on the Co-growth and Interactions Among Microorganisms (Fungi and Bacteria) From Rhizosphere of Metal-Hyperaccumulators.

Author

Cecchi G, Di Piazza S, Rosatto S, Mariotti MG, Roccotiello E, and Zotti M

Abstract

The co-growth and synergistic interactions among fungi and bacteria from the rhizosphere of plants able to hyper accumulate potentially toxic metals (PTMs) are largely unexplored. Fungi and bacteria contribute in an essential way to soil biogeochemical cycles mediating the nutrition, growth development, and health of associated plants at the rhizosphere level. Microbial consortia improve the formation of soil aggregates and soil fertility, producing organic acids and siderophores that increase solubility, mobilization, and consequently the accumulation of nutrients and metals from the rhizosphere. These microorganism consortia can both mitigate the soil conditions promoting plant colonization and increase the performance of hyperaccumulator plants. Indeed, microfungi and bacteria from metalliferous soils or contaminated matrices are commonly metal-tolerant and can play a key role for plants in the phytoextraction or phytostabilization of metals. However, few works deepen the effects of the inoculation of microfungal and bacterial consortia in the rhizosphere of metallophytes and their synergistic activity. This mini-review aimed to collect and report the data regarding the role of microbial consortia and their potentialities known to date. Moreover, our new data had shown an active fungal-bacteria consortium in the rhizosphere of the hyperaccumulator plant Alyssoides utriculata ., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Cecchi, Di Piazza, Rosatto, Mariotti, Roccotiello and Zotti.)

Published
2021
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16. Frenemies: Interactions between Rhizospheric Bacteria and Fungi from Metalliferous Soils.

Author

Rosatto S, Cecchi G, Roccotiello E, Di Piazza S, Di Cesare A, Mariotti MG, Vezzulli L, and Zotti M

Abstract

Is it possible to improve the efficiency of bioremediation technologies? The use of mixed cultures of bacteria and fungi inoculated at the rhizosphere level could promote the growth of the associated hyperaccumulating plant species and increase the absorption of metals in polluted soils, broadening new horizons on bioremediation purposes. This work investigates interactions between Ni-tolerant plant growth-promoting bacteria and fungi (BF) isolated from the rhizosphere of a hyperaccumulating plant. The aim is to select microbial consortia with synergistic activity to be used in integrated bioremediation protocols. Pseudomonas fluorescens ( Pf ), Streptomyces vinaceus ( Sv ) Penicillium ochrochloron ( Po ), and Trichoderma harzianum group ( Th ) were tested in mixes ( Po-Sv , Po-Pf , Th-Pf , and Th-Sv ). These strains were submitted to tests (agar overlay, agar plug, and distance growth co-growth tests), tailored for this aim, on Czapek yeast agar (CYA) and tryptic soy agar (TSA) media and incubated at 26 ± 1 °C for 10 days. BF growth, shape of colonies, area covered on plate, and inhibition capacity were evaluated. Most BF strains still exhibit their typical characters and the colonies separately persisted without inhibition (as Po-Sv ) or with reciprocal confinement (as Th-Sv and Th-Pf ). Even if apparently inhibited, the Po-Pf mix really merged, thus obtaining morphological traits representing a synergic co-growth, where both strains reached together the maturation phase and developed a sort of mixed biofilm. Indeed, bacterial colonies surround the mature fungal structures adhering to them without any growth inhibition. First data from in vivo experimentation with Po and Pf inocula in pot with metalliferous soils and hyperaccumulator plants showed their beneficial effect on plant growth. However, there is a lack of information regarding the effective co-growth between bacteria and fungi. Indeed, several studies, which directly apply the co-inoculum, do not consider suitable microorganisms consortia. Synergic rhizosphere BFs open new scenarios for plant growth promotion and soil bioremediation.

Published
2021
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17. Root and Shoot Response to Nickel in Hyperaccumulator and Non-Hyperaccumulator Species.

Author

Rosatto S, Mariotti M, Romeo S, and Roccotiello E

Abstract

The soil-root interface is the micro-ecosystem where roots uptake metals. However, less than 10% of hyperaccumulators' rhizosphere has been examined. The present study evaluated the root and shoot response to nickel in hyperaccumulator and non-hyperaccumulator species, through the analysis of root surface and biomass and the ecophysiological response of the related aboveground biomass. Ni-hyperaccumulators Alyssoides utriculata (L.) Medik. and Noccaea caerulescens (J. Presl and C. Presl) F.K. Mey. and non-hyperaccumulators Alyssum montanum L. and Thlaspi arvense L. were grown in pot on Ni-spiked soil (0-1000 mg Ni kg -1 , total). Development of root surfaces was analysed with ImageJ; fresh and dry root biomass was determined. Photosynthetic efficiency was performed by analysing the fluorescence of chlorophyll a to estimate the plants' physiological conditions at the end of the treatment. Hyperaccumulators did not show a Ni-dependent decrease in root surfaces and biomass (except Ni 1000 mg kg -1 for N. caerulescens ). The non-hyperaccumulator A. montanum suffers metal stress which threatens plant development, while the excluder T. arvense exhibits a positive ecophysiological response to Ni. The analysis of the root system, as a component of the rhizosphere, help to clarify the response to soil nickel and plant development under metal stress for bioremediation purposes.

Published
2021
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18. Rhizosphere response to nickel in a facultative hyperaccumulator.

Author

Rosatto S, Roccotiello E, Di Piazza S, Cecchi G, Greco G, Zotti M, Vezzulli L, and Mariotti M

Subjects
Amino Acids, Cyclic, Bacillus isolation & purification, Bacteria, Brassicaceae microbiology, Indoleacetic Acids, Plant Roots chemistry, Pseudomonas, Siderophores analysis, Soil chemistry, Soil Microbiology, Nickel analysis, Rhizosphere, Soil Pollutants analysis
Abstract

This study faces the characterization of the culturable microbiota of the facultative Ni-hyperaccumulator Alyssoides utriculata to obtain a collection of bacterial and fungal strains for potential applications in Ni phytoextraction. Rhizosphere soil samples and adjacent bare soil associated with A. utriculata from serpentine and non-serpentine sites were collected together with plant roots and shoots. Rhizobacteria and fungi were isolated and characterized genotypically and phenotypically. Plants and soils were analyzed for total element concentration using Inductively Coupled Plasma Mass Spectrometry (ICP-MS). Serpentine and non-serpentine sites differ in terms of elements concentration in soil, plant roots and shoots. Ni and Co are significantly higher on serpentine site, while Ca is more abundant in non-serpentine site. Bacteria and fungi were significantly more abundant in rhizosphere than in bare soil and were dominated by genera Arthrobacter, Bacillus and Streptomyces, Penicillium and Mucor. The genus Pseudomonas was only found in rhizospheric serpentine soils (<2% of total serpentine isolates) and with Streptomyces sp. showed highest Ni-tolerance up to 15 mM. The same occurred for Trichoderma strain, belonging to the harzianum group (<2% of the total microfungal count) and Penicillium ochrochloron (<10% of the total microfungal count, tolerance up to Ni 20 mM). Among serpentine bacterial isolates, 8 strains belonging to 5 genera showed at least one PGPR activity (1-Aminocyclopropane-1-Carboxylic Acid (ACC) deaminase activity, production of indole-3-acetic acid (IAA), siderophores and phosphate solubilizing capacity), especially genera Pantoea, Pseudomonas and Streptomyces. Those microorganisms might thus be promising candidates for employment in bioaugmentation trials., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published
2019
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