Your search keyword '"Cortis, Pierluigi"' showing total 106 results

1. Relationship Between Bees Activity Level with Their Load of Lead, Cadmium and Selenium and Climatic Conditions of the Sites

Author

Costa, Annamaria, Buoio, Eleonora, Cortis, Pierluigi, Cogoni, Annalena, Mortarino, Michele, Rizzi, Rita, Di Giancamillo, Alessia, Tangorra, Francesco Maria, Castelvecchio, Enrico, Fedrizzi, Giorgio, Accurso, Damiano, Locatelli, Gian Marco, di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Cui, Zhen-Dong, Series Editor, Berruto, Remigio, editor, Biocca, Marcello, editor, Cavallo, Eugenio, editor, Cecchini, Massimo, editor, Failla, Sabina, editor, and Romano, Elio, editor

Published

2024

2. Reproductive character displacement allows two sexually deceptive orchids to coexist and attract the same specific pollinator

Author

Cozzolino, Salvatore, Scopece, Giovanni, Cortis, Pierluigi, Barone Lumaga, Maria Rosaria, Cafasso, Donata, and Ayasse, Manfred

Published

2022

3. Heavy metal tolerance strategies in metallicolous and non-metallicolous populations of mosses: Insights of γ+β-tocopherol regulatory role

Author

De Agostini, Antonio, Cogoni, Annalena, Cortis, Pierluigi, Vacca, Andrea, Becerril, José María, Hernández, Antonio, and Esteban, Raquel

Published

2022

4. Early Molecular Detection of Invasive Alien Plants in Urban and Peri-Urban Areas.

Author

Frigerio, Jessica, Ouled Larbi, Malika, Guidi Nissim, Werther, Grassi, Fabrizio, Cortis, Pierluigi, and Labra, Massimo

Subjects

INTRODUCED species, INTRODUCED plants, URBAN plants, AILANTHUS altissima, GENETIC barcoding, INVASIVE plants

Abstract

Invasive alien plants represent one of the five major threats to biodiversity and the disruption of ecosystems. They are introduced through various routes, starting with commercial trade. Preventing their introduction is essential to avoid the spread of new invasive plants. In this paper, we propose a new early warning DNA barcoding tool for invasive plant detection. Eight invasive alien species of European Union concern (i.e., Ludwigia grandiflora, Elodea nuttallii, Myriophyllum aquaticum, Pontederia crassipes, Ailanthus altissima, Heracleum mantegazzianum, Impatiens glandulifera, Pueraria montana) were selected and analysed. A unique DNA marker for each species was identified and amplified using species-specific primers capable of identifying the presence of alien species. To verify whether the approach could detect the presence of alien plants in urban areas from lawn clippings, mixes with typical urban spontaneous plants and invasive species were tested. In all mixes, only the invasive species was identified. This rapid detection capability will enable environmental operators to intervene promptly to contain the spread of invasive plants before they can cause significant damage to the local ecosystem. This tool could have a significant impact on the protection of local biodiversity and the integrity of urban habitats. [ABSTRACT FROM AUTHOR]

Published

2024

5. Heavy metal tolerance of orchid populations growing on abandoned mine tailings: A case study in Sardinia Island (Italy)

Author

De Agostini, Antonio, Caltagirone, Claudia, Caredda, Alberto, Cicatelli, Angela, Cogoni, Annalena, Farci, Domenica, Guarino, Francesco, Garau, Alessandra, Labra, Massimo, Lussu, Michele, Piano, Dario, Sanna, Cinzia, Tommasi, Nicola, Vacca, Andrea, and Cortis, Pierluigi

Published

2020

6. From DNA barcoding to personalized nutrition: the evolution of food traceability

Author

Galimberti, Andrea, Casiraghi, Maurizio, Bruni, Ilaria, Guzzetti, Lorenzo, Cortis, Pierluigi, Berterame, Nadia Maria, and Labra, Massimo

Published

2019

7. Volatile Organic Compounds (VOCs) Diversity in the Orchid Himantoglossum robertianum (Loisel.) P. Delforge from Sardinia (Italy)

Author

De Agostini, Antonio, primary, Robustelli della Cuna, Francesco Saverio, additional, Cortis, Pierluigi, additional, Cogoni, Annalena, additional, Sottani, Cristina, additional, Soddu, Francesca, additional, and Sanna, Cinzia, additional

Published

2022

8. Seed Bank Conservation and Incipient Seed Development in Orchids Colonizing Mining Wastes: Results of a Field Pilot Experiment

Author

De Agostini, Antonio, primary, Cogoni, Donatella, additional, Cogoni, Annalena, additional, Vacca, Andrea, additional, Fenu, Giuseppe, additional, and Cortis, Pierluigi, additional

Published

2022

9. Increased divergence in floral morphology strongly reduces gene flow in sympatric sexually deceptive orchids with the same pollinator

Author

Gögler, Julia, Stökl, Johannes, Cortis, Pierluigi, Beyrle, Heinrich, Barone Lumaga, Maria Rosaria, Cozzolino, Salvatore, and Ayasse, Manfred

Published

2015

10. Rapid In Situ Detection of THC and CBD in Cannabis sativa L. by 1064 nm Raman Spectroscopy

Author

Porcu, Stefania, primary, Tuveri, Enrica, additional, Palanca, Marco, additional, Melis, Claudia, additional, La Franca, Ignazio Macellaro, additional, Satta, Jessica, additional, Chiriu, Daniele, additional, Carbonaro, Carlo Maria, additional, Cortis, Pierluigi, additional, De Agostini, Antonio, additional, and Ricci, Pier Carlo, additional

Published

2022

11. Ménage à Trois—Two Endemic Species of Deceptive Orchids and One Pollinator Species

Author

Gögler, Julia, Stökl, Johannes, Sramkova, Anna, Twele, Robert, Francke, Wittko, Cozzolino, Salvatore, Cortis, Pierluigi, Scrugli, Antonio, and Ayasse, Manfred

Published

2009

12. Chemical Composition of Essential Oil from Four Sympatric Orchids in NW-Italy

Author

Robustelli della Cuna, Francesco Saverio, primary, Cortis, Pierluigi, additional, Esposito, Fabiana, additional, De Agostini, Antonio, additional, Sottani, Cristina, additional, and Sanna, Cinzia, additional

Published

2022

13. Do floral and ecogeographic isolation allow the co‐occurrence of two ecotypes of Anacamptis papilionacea (Orchidaceae)?

Author

Cozzolino, Salvatore, primary, Scopece, Giovanni, additional, Lussu, Michele, additional, Cortis, Pierluigi, additional, and Schiestl, Florian P., additional

Published

2021

14. Epipactis tremolsii Seed Diversity in Two Close but Extremely Different Populations: Just a Case of Intraspecific Variability?

Author

De Agostini, Antonio, primary, Cortis, Pierluigi, additional, Cogoni, Annalena, additional, Gargiulo, Roberta, additional, and Fenu, Giuseppe, additional

Published

2020

15. The Impact of Fruit Etiolation on Quality of Seeds in Tobacco

Author

Farci, Domenica, primary, Haniewicz, Patrycja, additional, Cocco, Emma, additional, De Agostini, Antonio, additional, Cortis, Pierluigi, additional, Kusaka, Magdalena, additional, Loi, Maria C., additional, and Piano, Dario, additional

Published

2020

16. A Synopsis of Sardinian Studies: Why Is it Important to Work on Island Orchids?

Author

Lussu, Michele, primary, Marignani, Michela, additional, Lai, Roberta, additional, Loi, Maria Cecilia, additional, Cogoni, Annalena, additional, and Cortis, Pierluigi, additional

Published

2020

17. Metabolites as convergent trait linkages between bryophytes and tracheophytes

Author

López-Pozo, Marina, Vicente Eceiza, Mikel, Martínez-Abaigar, Javier, Núñez-Olivera, Encarnación, Artetxe, Unai, Becerril, José M., Aranjuelo, Iker, Fakhet, Dorra, Michelozzi, Marco, Cencetti, Gabriele, Loreto, Francesco, Pollastri, Susanna, Stanton, Daniel, Cogoni, Annalena, Cortis, Pierluigi, De Agostini, Antonio, Perera, Alicia, Luu, Hong Truong, Le, Buu Thach, Nguyen,Thanh Luc, Cayuela, Luis, García-Plazaola, José I., and Esteban, Raquel

Abstract

Trabajo presentado en el International Conference on Integrative Plant Physiology, celebrado en Sitges (España), del 27 al 29 de octubre de 2019

Published

2019

18. Monitoring of Air Pollution by Moss Bags around an Oil Refinery: A Critical Evaluation over 16 Years

Author

De Agostini, Antonio, primary, Cortis, Pierluigi, additional, and Cogoni, Annalena, additional

Published

2020

19. Figure 3 from: Fenu G, Bernardo L, Calvo R, Cortis P, De Agostini A, Gangale C, Gargano D, Gargano ML, Lussu M, Medagli P, Perrino EV, Sciandrello S, Wagensommer RP, Orsenigo S (2019) Global and Regional IUCN Red List Assessments: 8. Italian Botanist 8: 17-33. https://doi.org/10.3897/italianbotanist.8.47330

Author

Fenu, Giuseppe, primary, Bernardo, Liliana, additional, Calvo, Roberta, additional, Cortis, Pierluigi, additional, De Agostini, Antonio, additional, Gangale, Carmen, additional, Gargano, Domenico, additional, Gargano, Maria Letizia, additional, Lussu, Michele, additional, Medagli, Pietro, additional, Perrino, Enrico Vito, additional, Sciandrello, Saverio, additional, Wagensommer, Robert P., additional, and Orsenigo, Simone, additional

Published

2019

20. Figure 6 from: Fenu G, Bernardo L, Calvo R, Cortis P, De Agostini A, Gangale C, Gargano D, Gargano ML, Lussu M, Medagli P, Perrino EV, Sciandrello S, Wagensommer RP, Orsenigo S (2019) Global and Regional IUCN Red List Assessments: 8. Italian Botanist 8: 17-33. https://doi.org/10.3897/italianbotanist.8.47330

Author

Fenu, Giuseppe, primary, Bernardo, Liliana, additional, Calvo, Roberta, additional, Cortis, Pierluigi, additional, De Agostini, Antonio, additional, Gangale, Carmen, additional, Gargano, Domenico, additional, Gargano, Maria Letizia, additional, Lussu, Michele, additional, Medagli, Pietro, additional, Perrino, Enrico Vito, additional, Sciandrello, Saverio, additional, Wagensommer, Robert P., additional, and Orsenigo, Simone, additional

Published

2019

21. Figure 2 from: Fenu G, Bernardo L, Calvo R, Cortis P, De Agostini A, Gangale C, Gargano D, Gargano ML, Lussu M, Medagli P, Perrino EV, Sciandrello S, Wagensommer RP, Orsenigo S (2019) Global and Regional IUCN Red List Assessments: 8. Italian Botanist 8: 17-33. https://doi.org/10.3897/italianbotanist.8.47330

Author

Fenu, Giuseppe, primary, Bernardo, Liliana, additional, Calvo, Roberta, additional, Cortis, Pierluigi, additional, De Agostini, Antonio, additional, Gangale, Carmen, additional, Gargano, Domenico, additional, Gargano, Maria Letizia, additional, Lussu, Michele, additional, Medagli, Pietro, additional, Perrino, Enrico Vito, additional, Sciandrello, Saverio, additional, Wagensommer, Robert P., additional, and Orsenigo, Simone, additional

Published

2019

22. Figure 4 from: Fenu G, Bernardo L, Calvo R, Cortis P, De Agostini A, Gangale C, Gargano D, Gargano ML, Lussu M, Medagli P, Perrino EV, Sciandrello S, Wagensommer RP, Orsenigo S (2019) Global and Regional IUCN Red List Assessments: 8. Italian Botanist 8: 17-33. https://doi.org/10.3897/italianbotanist.8.47330

Author

Fenu, Giuseppe, primary, Bernardo, Liliana, additional, Calvo, Roberta, additional, Cortis, Pierluigi, additional, De Agostini, Antonio, additional, Gangale, Carmen, additional, Gargano, Domenico, additional, Gargano, Maria Letizia, additional, Lussu, Michele, additional, Medagli, Pietro, additional, Perrino, Enrico Vito, additional, Sciandrello, Saverio, additional, Wagensommer, Robert P., additional, and Orsenigo, Simone, additional

Published

2019

23. Figure 5 from: Fenu G, Bernardo L, Calvo R, Cortis P, De Agostini A, Gangale C, Gargano D, Gargano ML, Lussu M, Medagli P, Perrino EV, Sciandrello S, Wagensommer RP, Orsenigo S (2019) Global and Regional IUCN Red List Assessments: 8. Italian Botanist 8: 17-33. https://doi.org/10.3897/italianbotanist.8.47330

Author

Fenu, Giuseppe, primary, Bernardo, Liliana, additional, Calvo, Roberta, additional, Cortis, Pierluigi, additional, De Agostini, Antonio, additional, Gangale, Carmen, additional, Gargano, Domenico, additional, Gargano, Maria Letizia, additional, Lussu, Michele, additional, Medagli, Pietro, additional, Perrino, Enrico Vito, additional, Sciandrello, Saverio, additional, Wagensommer, Robert P., additional, and Orsenigo, Simone, additional

Published

2019

24. Figure 1 from: Fenu G, Bernardo L, Calvo R, Cortis P, De Agostini A, Gangale C, Gargano D, Gargano ML, Lussu M, Medagli P, Perrino EV, Sciandrello S, Wagensommer RP, Orsenigo S (2019) Global and Regional IUCN Red List Assessments: 8. Italian Botanist 8: 17-33. https://doi.org/10.3897/italianbotanist.8.47330

Author

Fenu, Giuseppe, primary, Bernardo, Liliana, additional, Calvo, Roberta, additional, Cortis, Pierluigi, additional, De Agostini, Antonio, additional, Gangale, Carmen, additional, Gargano, Domenico, additional, Gargano, Maria Letizia, additional, Lussu, Michele, additional, Medagli, Pietro, additional, Perrino, Enrico Vito, additional, Sciandrello, Saverio, additional, Wagensommer, Robert P., additional, and Orsenigo, Simone, additional

Published

2019

25. Figure 8 from: Fenu G, Bernardo L, Calvo R, Cortis P, De Agostini A, Gangale C, Gargano D, Gargano ML, Lussu M, Medagli P, Perrino EV, Sciandrello S, Wagensommer RP, Orsenigo S (2019) Global and Regional IUCN Red List Assessments: 8. Italian Botanist 8: 17-33. https://doi.org/10.3897/italianbotanist.8.47330

Author

Fenu, Giuseppe, primary, Bernardo, Liliana, additional, Calvo, Roberta, additional, Cortis, Pierluigi, additional, De Agostini, Antonio, additional, Gangale, Carmen, additional, Gargano, Domenico, additional, Gargano, Maria Letizia, additional, Lussu, Michele, additional, Medagli, Pietro, additional, Perrino, Enrico Vito, additional, Sciandrello, Saverio, additional, Wagensommer, Robert P., additional, and Orsenigo, Simone, additional

Published

2019

26. Figure 7 from: Fenu G, Bernardo L, Calvo R, Cortis P, De Agostini A, Gangale C, Gargano D, Gargano ML, Lussu M, Medagli P, Perrino EV, Sciandrello S, Wagensommer RP, Orsenigo S (2019) Global and Regional IUCN Red List Assessments: 8. Italian Botanist 8: 17-33. https://doi.org/10.3897/italianbotanist.8.47330

Author

Fenu, Giuseppe, primary, Bernardo, Liliana, additional, Calvo, Roberta, additional, Cortis, Pierluigi, additional, De Agostini, Antonio, additional, Gangale, Carmen, additional, Gargano, Domenico, additional, Gargano, Maria Letizia, additional, Lussu, Michele, additional, Medagli, Pietro, additional, Perrino, Enrico Vito, additional, Sciandrello, Saverio, additional, Wagensommer, Robert P., additional, and Orsenigo, Simone, additional

Published

2019

27. Global and Regional IUCN Red List Assessments: 8

Author

Fenu, Giuseppe, primary, Bernardo, Liliana, additional, Calvo, Roberta, additional, Cortis, Pierluigi, additional, De Agostini, Antonio, additional, Gangale, Carmen, additional, Gargano, Domenico, additional, Gargano, Maria Letizia, additional, Lussu, Michele, additional, Medagli, Pietro, additional, Perrino, Enrico Vito, additional, Sciandrello, Saverio, additional, Wagensommer, Robert P., additional, and Orsenigo, Simone, additional

Published

2019

28. From DNA barcoding to personalized nutrition: the evolution of food traceability

Author

Galimberti, A, Casiraghi, M, Bruni, I, Guzzetti, L, Cortis, P, Berterame, N, Labra, M, Galimberti, Andrea, Casiraghi, Maurizio, Bruni, Ilaria, Guzzetti, Lorenzo, Cortis, Pierluigi, Berterame, Nadia Maria, Labra, Massimo, Galimberti, A, Casiraghi, M, Bruni, I, Guzzetti, L, Cortis, P, Berterame, N, Labra, M, Galimberti, Andrea, Casiraghi, Maurizio, Bruni, Ilaria, Guzzetti, Lorenzo, Cortis, Pierluigi, Berterame, Nadia Maria, and Labra, Massimo

Abstract

A genuine nutritional product is pivotal for getting proper health benefits and preventing pathologies. However, with the increase in global trading of raw and processed food products, reliable authentication is essential for correct labelling to ensure consumer safety. The use of DNA-based tools has become a prospective solution in the near future to solve this problem. Currently, technologies exploiting DNA polymorphism between species are able to characterize the food composition of pure (DNA barcoding) or multi-species (DNA metabarcoding) food items, and the application of this technology has started entering into food regulations. Here, we provide a brief overview of the history, success, and forthcoming applications of such approaches, while also considering the influence of food on human microbiota and the emerging trends toward the adoption of a ‘personalized nutrition’.

Published

2019

29. Figure 8 from: Fenu G, Abdelaal M, Bacchetta G, Bongiorni L, Cogoni A, Cortis P, Croce A, Fois M, Lussu M, Perrino EV, Wagensommer RP, Orsenigo S (2018) Global and Regional IUCN Red List Assessments: 6. Italian Botanist 6: 31-44. https://doi.org/10.3897/italianbotanist.6.29804

Author

Fenu, Giuseppe, primary, Abdelaal, Mohamed, additional, Bacchetta, Gianluigi, additional, Bongiorni, Luciano, additional, Cogoni, Annalena, additional, Cortis, Pierluigi, additional, Croce, Antonio, additional, Fois, Mauro, additional, Lussu, Michele, additional, Perrino, Enrico V., additional, Wagensommer, Robert P., additional, and Orsenigo, Simone, additional

Published

2018

30. Figure 3 from: Fenu G, Abdelaal M, Bacchetta G, Bongiorni L, Cogoni A, Cortis P, Croce A, Fois M, Lussu M, Perrino EV, Wagensommer RP, Orsenigo S (2018) Global and Regional IUCN Red List Assessments: 6. Italian Botanist 6: 31-44. https://doi.org/10.3897/italianbotanist.6.29804

Author

Fenu, Giuseppe, primary, Abdelaal, Mohamed, additional, Bacchetta, Gianluigi, additional, Bongiorni, Luciano, additional, Cogoni, Annalena, additional, Cortis, Pierluigi, additional, Croce, Antonio, additional, Fois, Mauro, additional, Lussu, Michele, additional, Perrino, Enrico V., additional, Wagensommer, Robert P., additional, and Orsenigo, Simone, additional

Published

2018

31. Figure 2 from: Fenu G, Abdelaal M, Bacchetta G, Bongiorni L, Cogoni A, Cortis P, Croce A, Fois M, Lussu M, Perrino EV, Wagensommer RP, Orsenigo S (2018) Global and Regional IUCN Red List Assessments: 6. Italian Botanist 6: 31-44. https://doi.org/10.3897/italianbotanist.6.29804

Author

Fenu, Giuseppe, primary, Abdelaal, Mohamed, additional, Bacchetta, Gianluigi, additional, Bongiorni, Luciano, additional, Cogoni, Annalena, additional, Cortis, Pierluigi, additional, Croce, Antonio, additional, Fois, Mauro, additional, Lussu, Michele, additional, Perrino, Enrico V., additional, Wagensommer, Robert P., additional, and Orsenigo, Simone, additional

Published

2018

32. Figure 1 from: Fenu G, Abdelaal M, Bacchetta G, Bongiorni L, Cogoni A, Cortis P, Croce A, Fois M, Lussu M, Perrino EV, Wagensommer RP, Orsenigo S (2018) Global and Regional IUCN Red List Assessments: 6. Italian Botanist 6: 31-44. https://doi.org/10.3897/italianbotanist.6.29804

Author

Fenu, Giuseppe, primary, Abdelaal, Mohamed, additional, Bacchetta, Gianluigi, additional, Bongiorni, Luciano, additional, Cogoni, Annalena, additional, Cortis, Pierluigi, additional, Croce, Antonio, additional, Fois, Mauro, additional, Lussu, Michele, additional, Perrino, Enrico V., additional, Wagensommer, Robert P., additional, and Orsenigo, Simone, additional

Published

2018

33. Global and Regional IUCN Red List Assessments: 6

Author

Fenu, Giuseppe, primary, Abdelaal, Mohamed, additional, Bacchetta, Gianluigi, additional, Bongiorni, Luciano, additional, Cogoni, Annalena, additional, Cortis, Pierluigi, additional, Croce, Antonio, additional, Fois, Mauro, additional, Lussu, Michele, additional, Perrino, Enrico V., additional, Wagensommer, Robert P., additional, and Orsenigo, Simone, additional

Published

2018

34. Figure 4 from: Fenu G, Abdelaal M, Bacchetta G, Bongiorni L, Cogoni A, Cortis P, Croce A, Fois M, Lussu M, Perrino EV, Wagensommer RP, Orsenigo S (2018) Global and Regional IUCN Red List Assessments: 6. Italian Botanist 6: 31-44. https://doi.org/10.3897/italianbotanist.6.29804

Author

Fenu, Giuseppe, primary, Abdelaal, Mohamed, additional, Bacchetta, Gianluigi, additional, Bongiorni, Luciano, additional, Cogoni, Annalena, additional, Cortis, Pierluigi, additional, Croce, Antonio, additional, Fois, Mauro, additional, Lussu, Michele, additional, Perrino, Enrico V., additional, Wagensommer, Robert P., additional, and Orsenigo, Simone, additional

Published

2018

35. Figure 7 from: Fenu G, Abdelaal M, Bacchetta G, Bongiorni L, Cogoni A, Cortis P, Croce A, Fois M, Lussu M, Perrino EV, Wagensommer RP, Orsenigo S (2018) Global and Regional IUCN Red List Assessments: 6. Italian Botanist 6: 31-44. https://doi.org/10.3897/italianbotanist.6.29804

Author

Fenu, Giuseppe, primary, Abdelaal, Mohamed, additional, Bacchetta, Gianluigi, additional, Bongiorni, Luciano, additional, Cogoni, Annalena, additional, Cortis, Pierluigi, additional, Croce, Antonio, additional, Fois, Mauro, additional, Lussu, Michele, additional, Perrino, Enrico V., additional, Wagensommer, Robert P., additional, and Orsenigo, Simone, additional

Published

2018

36. Figure 6 from: Fenu G, Abdelaal M, Bacchetta G, Bongiorni L, Cogoni A, Cortis P, Croce A, Fois M, Lussu M, Perrino EV, Wagensommer RP, Orsenigo S (2018) Global and Regional IUCN Red List Assessments: 6. Italian Botanist 6: 31-44. https://doi.org/10.3897/italianbotanist.6.29804

Author

Fenu, Giuseppe, primary, Abdelaal, Mohamed, additional, Bacchetta, Gianluigi, additional, Bongiorni, Luciano, additional, Cogoni, Annalena, additional, Cortis, Pierluigi, additional, Croce, Antonio, additional, Fois, Mauro, additional, Lussu, Michele, additional, Perrino, Enrico V., additional, Wagensommer, Robert P., additional, and Orsenigo, Simone, additional

Published

2018

37. Figure 5 from: Fenu G, Abdelaal M, Bacchetta G, Bongiorni L, Cogoni A, Cortis P, Croce A, Fois M, Lussu M, Perrino EV, Wagensommer RP, Orsenigo S (2018) Global and Regional IUCN Red List Assessments: 6. Italian Botanist 6: 31-44. https://doi.org/10.3897/italianbotanist.6.29804

Author

Fenu, Giuseppe, primary, Abdelaal, Mohamed, additional, Bacchetta, Gianluigi, additional, Bongiorni, Luciano, additional, Cogoni, Annalena, additional, Cortis, Pierluigi, additional, Croce, Antonio, additional, Fois, Mauro, additional, Lussu, Michele, additional, Perrino, Enrico V., additional, Wagensommer, Robert P., additional, and Orsenigo, Simone, additional

Published

2018

38. Ophrys annae and Ophrys chestermanii : an impossible love between two orchid sister species

Author

Lussu, Michele, primary, Agostini, Antonio De, additional, Marignani, Michela, additional, Cogoni, Annalena, additional, and Cortis, Pierluigi, additional

Published

2018

39. Prenylated phloroglucinols from Hypericum scruglii, an endemic species of Sardinia (Italy), as new dual HIV-1 inhibitors effective on HIV-1 replication

Author

Sanna, Cinzia, primary, Scognamiglio, Monica, additional, Fiorentino, Antonio, additional, Corona, Angela, additional, Graziani, Vittoria, additional, Caredda, Alessia, additional, Cortis, Pierluigi, additional, Montisci, Mariofilippo, additional, Ceresola, Elisa Rita, additional, Canducci, Filippo, additional, Poli, Ferruccio, additional, Tramontano, Enzo, additional, and Esposito, Francesca, additional

Published

2018

40. Morphological observations on the reproductive structures of Ambrosina (Araceae), a Mediterranean endemic monotypic genus

Author

GERACI, ANNA, primary, CORTIS, PIERLUIGI, additional, SCHICCHI, ROSARIO, additional, and TROIA, ANGELO, additional

Published

2017

41. Chemical and biomolecular analyses to discriminate three taxa of Pistacia genus from Sardinia Island (Italy) and their antifungal activity

Author

Marengo, Arianna, primary, Piras, Alessandra, additional, Falconieri, Danilo, additional, Porcedda, Silvia, additional, Caboni, Pierluigi, additional, Cortis, Pierluigi, additional, Foddis, Caterina, additional, Loi, Claudia, additional, Gonçalves, Maria José, additional, Salgueiro, Lígia, additional, and Maxia, Andrea, additional

Published

2017

42. Chemical and biomolecular analyses to discriminate three taxa of Pistacia genus from Sardinia Island (Italy) and their antifungal activity.

Author

Marengo, Arianna, Piras, Alessandra, Falconieri, Danilo, Porcedda, Silvia, Caboni, Pierluigi, Cortis, Pierluigi, Foddis, Caterina, Loi, Claudia, Gonçalves, Maria José, Salgueiro, Lígia, and Maxia, Andrea

Abstract

This work reports the results and the comparison concerning the chemical and biomolecular analyses and the antifungal activity of three wild Pistacia species (Anacardiaceae) from Sardinia. Volatile oils from leaves and twigs of Pistacia x saportae, Pistacia lentiscus and Pistacia terebinthus were characterised using GC-FID and GC-MS techniques and tested against some fungal strains. Two DNA nuclear regions (ITS and 5S-rRNA-NTS) were amplified through PCR technique and sequenced. The three **Pistacia have similar chemical profile, although there are some important quantitative differences. The analysis of ITS and 5S-rRNA-NTS regions, reveals a species-specific nucleotide variation among the three **taxa. This method could emerge as a powerful tool for the species identification, especially because the discrimination of these three **taxa appears difficult for non-expert botanists. Concerning the antifungal activity, P. lentiscus and P. x saportae show the highest activity against Cryptococcus neoformans, with a MIC value of 0.32 μL/mL. [ABSTRACT FROM AUTHOR]

Published

2018

43. Chemical, molecular, and proteomic analyses of moss bag biomonitoring in a petrochemical area of Sardinia (Italy)

Author

Cortis, Pierluigi, primary, Vannini, Candida, additional, Cogoni, Annalena, additional, De Mattia, Fabrizio, additional, Bracale, Marcella, additional, Mezzasalma, Valerio, additional, and Labra, Massimo, additional

Published

2015

44. Pollinator convergence and the nature of species' boundaries in sympatric Sardinian Ophrys (Orchidaceae).

Author

Cortis, Pierluigi, Vereecken, Nicolas, Schiestl, Florian F.P., Barone Lumaga, M. R., Scrugli, Anna, Cozzolino, Salvatore, Cortis, Pierluigi, Vereecken, Nicolas, Schiestl, Florian F.P., Barone Lumaga, M. R., Scrugli, Anna, and Cozzolino, Salvatore

Abstract

In the sexually deceptive Ophrys genus, species isolation is generally considered ethological and occurs via different, specific pollinators, but there are cases in which Ophrys species can share a common pollinator and differ in pollen placement on the body of the insect. In that condition, species are expected to be reproductively isolated through a pre-mating mechanical barrier. Here, the relative contribution of pre- vs. post-mating barriers to gene flow among two Ophrys species that share a common pollinator and can occur in sympatry is studied., Journal Article, Research Support, Non-U.S. Gov't, SCOPUS: ar.j, info:eu-repo/semantics/published

Published

2009

45. The role of pollinator attracting scent in the sexually deceptive orchids Ophrys chestermanii, O. normanii and O. tenthredinifera

Author

Gögler, Julia, Stökl, Johannes, Sramkova, Anna, Twele, Robert, Francke, Wittko, Cortis, Pierluigi, Scrugli, Antonio, Giotta, Cesario, Piccitto, Marcello, Ayasse, Manfred, Gögler, Julia, Stökl, Johannes, Sramkova, Anna, Twele, Robert, Francke, Wittko, Cortis, Pierluigi, Scrugli, Antonio, Giotta, Cesario, Piccitto, Marcello, and Ayasse, Manfred

Abstract

Sexual deception of male bees is one of the most remarkable mechanisms of pollination (Ackermann 1986, Proctor & al. 1996). Flowers of the orchid genus Ophrys mimic females of their pollinator species, usually bees and wasps, to attract males, which try to copulate with the flowers. During this so-called “pseudocopulation” the male removes the pollinia and transfers them to another flower to ensure pollination. Apart from visual and tactile cues, floral scent was shown to be most important for eliciting mating behaviour in males (Kullenberg 1961, Schiestl & al. 1999, Ayasse & al. 2003). Pollination in Ophrys is highly specific and usually each Ophrys species attracts only one pollinator species (Paulus & Gack 1990). The high degree of specialization provides the means of reproductive isolation between the intercrossable Ophrys-species (Ehrendorfer 1980). The complex odour-bouquets released by the flowers are species-specific and often consist of more than 100 different chemical compounds (Borg-Karlson & al. 1985, Ayasse 2006). Speciation in Ophrys-orchids may be brought about by changes in the pollinator attracting floral scent. The attraction of a new pollinator may act as a pre-zygotic isolation barrier (Stebbins 1970, Paulus & Gack 1990, Soliva & al. 2001). We investigated three sympatrically occuring Ophrys-species on Sardinia. O. chestermanii and O. normanii are endemic and are both pollinated by males of the bumblebee B. vestalis. O. tenthredinifera is pollinated by Eucera nigrilabris. There are different opinions concerning the taxonomic status of O. normanii. It has been described as an actual hybrid between O. chestermanii and O. tenthredinifera (Wood 1983). Paulus & Gack (1995) suggested that it is an own species, that either has developed from a hybrid between O. chestermanii and O. normanii or that has evolved by radiation from O. tenthredinifera. By conducting behavioural-tests with B. vestalis males, performing gas chromatographic analyses and electrop, Sexualtäuschorchideen der Gattung Ophrys (Orchidaceae) imitieren die Weibchen ihrer Bestäuber in Duft, Form und Farbe. Insektenmännchen versuchen mit dem Labellum der Blüte zu kopulieren und transportieren den Pollen von Blüte zu Blüte, wodurch die Orchidee bestäubt wird. In dieser Arbeit untersuchten wir die Bestäuber anlockenden Duftstoffe der beiden endemisch auf Sardinien vorkommenden Arten O. normanii und O. chestermanii, die beide von Bombus vestalis Männchen (Hymenoptera: Apidae) bestäubt werden und von O. tenthredinifera, die Eucera nigrilabris (Hymenoptera: Apidae) zur Bestäubung anlockt. O. normanii wurde von Wood (1983) als Primärhybride beschrieben. Nach Paulus und Gack (1995) handelt es sich um eine hybridogene Art oder um eine Art die durch Abspaltung von O. tenthredinifera entstanden ist. Das Ziel der Untersuchungen war die Identifizierung Männchen-anlockender Verbindungen. Die Attraktivität der drei Arten für B. vestalis Männchen sollte Hinweise auf den Artstatus von O. normanii geben. In Biotests mit B. vestalis-Männchen lösten Blütenextrakte von O. normanii und O. chestermanii ebenso wie B. vestalis-Weibchen Kopulationsverhalten der Männchen aus, nicht jedoch Extrakte von O. tenthredinifera. Folglich handelt es sich bei O. normanii nicht um einen aktuellen Hybriden zwischen O. chestermanii und O. tenthredinifera. Ein Vergleich der GC-EAD-aktiven Duftbouquets mittels Diskriminanzanalyse ergab große Ähnlichkeiten zwischen O. normanii und O. chestermanii für die Substanzklassen der Ester, Alkohole und Fettsäuren, die daher vermutlich eine Schlüsselfunktion bei der Bestäuberanlockung haben.

Published

2008

46. DNA barcoding to analyse taxonomically complex groups in plants: the case ofThymus(Lamiaceae)

Author

Federici, Silvia, primary, Galimberti, Andrea, additional, Bartolucci, Fabrizio, additional, Bruni, Ilaria, additional, De mattia, Fabrizio, additional, Cortis, Pierluigi, additional, and Labra, Massimo, additional

Published

2013

47. Integrating past and present studies on Ophrys pollination - a comment on Bradshaw et al.

Author

VEREECKEN, NICOLAS J., primary, STREINZER, MARTIN, additional, AYASSE, MANFRED, additional, SPAETHE, JOHANNES, additional, PAULUS, HANNES F., additional, STÖKL, JOHANNES, additional, CORTIS, PIERLUIGI, additional, and SCHIESTL, FLORIAN P., additional

Published

2011

48. Chemical, molecular, and proteomic analyses of moss bag biomonitoring in a petrochemical area of Sardinia (Italy).

Author

Cortis, Pierluigi, Vannini, Candida, Cogoni, Annalena, Mattia, Fabrizio, Bracale, Marcella, Mezzasalma, Valerio, and Labra, Massimo

Subjects

AIR pollution, HEAVY metals, PROTEOMICS, PETROLEUM chemicals, PETROLEUM refineries

Abstract

In this study, Hypnum cupressiforme moss bags were used to examine the atmospheric deposition of trace elements in the oil refinery region of Sardinia (Italy) compared with surrounding natural zones. The concentrations of 13 elements [arsenic (As), calcium (Ca), cadmium (Cd), chromium (Cr), copper (Cu), iron (Fe), potassium (K), magnesium (Mg), sodium (Na), nickel (Ni), lead (Pb), vanadium (V), and zinc (Zn)] were determined using inductively coupled plasma optical emission spectrometry. A significant accumulation of pollutants was detected using active biomonitoring with moss bags compared with a control site. The most relevant contaminants for all of the tested sites were Cr, Cu, Ni, and Zn. Moreover, the accumulation of Cr and Zn in the refinery industrial areas, IA1 and IA2, was more than five times greater than that detected at the control site. Levels of Cd, Mg, and Pb were also higher at all of the monitored sites compared with the control site. Both genomic and proteomic methods were used to study the response of H. cupressiforme to air pollution. No DNA damage or mutations were detected using the amplified fragment length polymorphisms (AFLP) method. At the protein level, 15 gel spots exhibited differential expression profiles between the moss samples collected at the IA1 site and the control site. Furthermore, among the 14 spots that showed a decrease in protein expression, nine were associated with ribulose-1,5-bisphosphate carboxylase/oxygenase (RuBisCO) and proteins of the light-harvesting complexes of photosystem (PS) II, three were associated with protein synthesis, and three were stress-related proteins. Thus, some of these proteins may represent good moss biosensors which could be used as pre-alert markers of environmental pollution. [ABSTRACT FROM AUTHOR]

Published

2016

49. Rapid In Situ Detection of THC and CBD in Cannabis sativaL. by 1064 nm Raman Spectroscopy

Author

Porcu, Stefania, Tuveri, Enrica, Palanca, Marco, Melis, Claudia, La Franca, Ignazio Macellaro, Satta, Jessica, Chiriu, Daniele, Carbonaro, Carlo Maria, Cortis, Pierluigi, De Agostini, Antonio, and Ricci, Pier Carlo

Abstract

The need to find a rapid and worthwhile technique for the in situ detection of the content of delta-9-tetrahydrocannabinol (THC) and cannabidiol (CBD) in Cannabis sativaL. is an ever-increasing problem in the forensic field. Among all the techniques for the detection of cannabinoids, Raman spectroscopy can be identified as the most cost-effective, fast, noninvasive, and nondestructive. In this study, 42 different samples were analyzed using Raman spectroscopy with 1064 nm excitation wavelength. The use of an IR wavelength laser showed the possibility to clearly identify THC and CBD in fresh samples, without any further processing, knocking out the contribution of the fluorescence generated by visible and near-IR sources. The results allow assigning all the Raman features in THC- and CBD-rich natural samples. The multivariate analysis underlines the high reproducibility of the spectra and the possibility to distinguish immediately the Raman spectra of the two cannabinoid species. Furthermore, the ratio between the Raman bands at 1295/1440 and 1623/1663 cm–1is identified as an immediate test parameter to evaluate the THC content in the samples.

Published

2022

50. The bryophyte flora of the Asinara Island (northwest Sardinia, Italy).

Author

Cogoni, Annalena, Scrugli, Antonio, Flore, Francesca, Cortis, Pierluigi, and Aleffi, Michele

Subjects

*CATALOGING, *BRYOPHYTES, *ARCHEGONIATAE, *NONVASCULAR plants, *BRYOLOGY

Abstract

Seventy-four taxa (59 mosses, 13 hepatics, and 2 anthocerotes) are reported from the National Park of Asinara island, an islet situated at the north west of Sardinia. Besides general comments on phytogeographic and ecological aspects of this catalogue, some taxa, Riccia sommieri, Tortiila israelis, Scieropodium cespitans, Enthostodon muhlenbergii are commented. [ABSTRACT FROM AUTHOR]

Published

2009