Pathogen-induced changes in floral scent may increase honeybee-mediated dispersal of Erwinia amylovora
Honeybees are well recognised for their key role in plant reproduction as pollinators. On the other hand, their activity may vector some pathogens, such as the bacterium Erwinia amylovora , the causative agent of fire blight disease in pomaceous plants. In this research, we evaluated whether honeybe...
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| Published in | The ISME Journal Vol. 13; no. 4; pp. 847 - 859 |
|---|---|
| Main Authors | , , , , , , , |
| Format | Journal Article |
| Language | English |
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Nature Publishing Group UK
01.04.2019
Oxford University Press |
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| Abstract | Honeybees are well recognised for their key role in plant reproduction as pollinators. On the other hand, their activity may vector some pathogens, such as the bacterium
Erwinia amylovora
, the causative agent of fire blight disease in pomaceous plants. In this research, we evaluated whether honeybees are able to discriminate between healthy and
E. amylovora
-infected flowers, thus altering the dispersal of the pathogen. For this reason, honeybees were previously trained to forage either on inoculated or healthy (control) apple flower. After the training, the two honeybee groups were equally exposed to inoculated and control flowering apple plants. To assess their preference, three independent methods were used: (1) direct count of visiting bees per time frame; (2) incidence on apple flowers of a marker bacterium (
Pantoea agglomerans
, strain P10c) carried by foragers; (3) quantification of
E. amylovora
populations in the collected pollen loads, proportional to the number of visits to infected flowers. The results show that both honeybee groups preferred control flowers over inoculated ones. The characterisation of volatile compounds released by flowers revealed a different emission of several bioactive compounds, providing an explanation for honeybee preference. As an unexpected ecological consequence, the influence of infection on floral scent increasing the visit rate on healthy flowers may promote a secondary bacterial spread. |
|---|---|
| AbstractList | Honeybees are well recognised for their key role in plant reproduction as pollinators. On the other hand, their activity may vector some pathogens, such as the bacterium Erwinia amylovora, the causative agent of fire blight disease in pomaceous plants. In this research, we evaluated whether honeybees are able to discriminate between healthy and E. amylovora-infected flowers, thus altering the dispersal of the pathogen. For this reason, honeybees were previously trained to forage either on inoculated or healthy (control) apple flower. After the training, the two honeybee groups were equally exposed to inoculated and control flowering apple plants. To assess their preference, three independent methods were used: (1) direct count of visiting bees per time frame; (2) incidence on apple flowers of a marker bacterium (Pantoea agglomerans, strain P10c) carried by foragers; (3) quantification of E. amylovora populations in the collected pollen loads, proportional to the number of visits to infected flowers. The results show that both honeybee groups preferred control flowers over inoculated ones. The characterisation of volatile compounds released by flowers revealed a different emission of several bioactive compounds, providing an explanation for honeybee preference. As an unexpected ecological consequence, the influence of infection on floral scent increasing the visit rate on healthy flowers may promote a secondary bacterial spread. Honeybees are well recognised for their key role in plant reproduction as pollinators. On the other hand, their activity may vector some pathogens, such as the bacterium Erwinia amylovora , the causative agent of fire blight disease in pomaceous plants. In this research, we evaluated whether honeybees are able to discriminate between healthy and E. amylovora -infected flowers, thus altering the dispersal of the pathogen. For this reason, honeybees were previously trained to forage either on inoculated or healthy (control) apple flower. After the training, the two honeybee groups were equally exposed to inoculated and control flowering apple plants. To assess their preference, three independent methods were used: (1) direct count of visiting bees per time frame; (2) incidence on apple flowers of a marker bacterium ( Pantoea agglomerans , strain P10c) carried by foragers; (3) quantification of E. amylovora populations in the collected pollen loads, proportional to the number of visits to infected flowers. The results show that both honeybee groups preferred control flowers over inoculated ones. The characterisation of volatile compounds released by flowers revealed a different emission of several bioactive compounds, providing an explanation for honeybee preference. As an unexpected ecological consequence, the influence of infection on floral scent increasing the visit rate on healthy flowers may promote a secondary bacterial spread. Honeybees are well recognised for their key role in plant reproduction as pollinators. On the other hand, their activity may vector some pathogens, such as the bacterium Erwinia amylovora, the causative agent of fire blight disease in pomaceous plants. In this research, we evaluated whether honeybees are able to discriminate between healthy and E. amylovora-infected flowers, thus altering the dispersal of the pathogen. For this reason, honeybees were previously trained to forage either on inoculated or healthy (control) apple flower. After the training, the two honeybee groups were equally exposed to inoculated and control flowering apple plants. To assess their preference, three independent methods were used: (1) direct count of visiting bees per time frame; (2) incidence on apple flowers of a marker bacterium (Pantoea agglomerans, strain P10c) carried by foragers; (3) quantification of E. amylovora populations in the collected pollen loads, proportional to the number of visits to infected flowers. The results show that both honeybee groups preferred control flowers over inoculated ones. The characterisation of volatile compounds released by flowers revealed a different emission of several bioactive compounds, providing an explanation for honeybee preference. As an unexpected ecological consequence, the influence of infection on floral scent increasing the visit rate on healthy flowers may promote a secondary bacterial spread.Honeybees are well recognised for their key role in plant reproduction as pollinators. On the other hand, their activity may vector some pathogens, such as the bacterium Erwinia amylovora, the causative agent of fire blight disease in pomaceous plants. In this research, we evaluated whether honeybees are able to discriminate between healthy and E. amylovora-infected flowers, thus altering the dispersal of the pathogen. For this reason, honeybees were previously trained to forage either on inoculated or healthy (control) apple flower. After the training, the two honeybee groups were equally exposed to inoculated and control flowering apple plants. To assess their preference, three independent methods were used: (1) direct count of visiting bees per time frame; (2) incidence on apple flowers of a marker bacterium (Pantoea agglomerans, strain P10c) carried by foragers; (3) quantification of E. amylovora populations in the collected pollen loads, proportional to the number of visits to infected flowers. The results show that both honeybee groups preferred control flowers over inoculated ones. The characterisation of volatile compounds released by flowers revealed a different emission of several bioactive compounds, providing an explanation for honeybee preference. As an unexpected ecological consequence, the influence of infection on floral scent increasing the visit rate on healthy flowers may promote a secondary bacterial spread. |
| Author | Cellini, Antonio Savioli, Stefano Spinelli, Francesco Farneti, Brian Angeli, Sergio Giacomuzzi, Valentino Rodriguez-Estrada, Maria T. Donati, Irene |
| Author_xml | – sequence: 1 givenname: Antonio orcidid: 0000-0002-9022-239X surname: Cellini fullname: Cellini, Antonio organization: Department of Agricultural and Food Sciences, Alma Mater Studiorum - University of Bologna – sequence: 2 givenname: Valentino surname: Giacomuzzi fullname: Giacomuzzi, Valentino organization: Faculty of Science and Technology, Free University of Bozen-Bolzano – sequence: 3 givenname: Irene surname: Donati fullname: Donati, Irene organization: Department of Agricultural and Food Sciences, Alma Mater Studiorum - University of Bologna – sequence: 4 givenname: Brian surname: Farneti fullname: Farneti, Brian organization: Department of Genomics and Biology of Fruit Crops, Research and Innovation Centre, Fondazione Edmund Mach – sequence: 5 givenname: Maria T. surname: Rodriguez-Estrada fullname: Rodriguez-Estrada, Maria T. organization: Department of Agricultural and Food Sciences, Alma Mater Studiorum - University of Bologna – sequence: 6 givenname: Stefano surname: Savioli fullname: Savioli, Stefano organization: Department of Agricultural and Food Sciences, Alma Mater Studiorum - University of Bologna – sequence: 7 givenname: Sergio orcidid: 0000-0002-8463-7476 surname: Angeli fullname: Angeli, Sergio organization: Faculty of Science and Technology, Free University of Bozen-Bolzano – sequence: 8 givenname: Francesco surname: Spinelli fullname: Spinelli, Francesco email: francesco.spinelli3@unibo.it organization: Department of Agricultural and Food Sciences, Alma Mater Studiorum - University of Bologna |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/30504898$$D View this record in MEDLINE/PubMed |
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| SubjectTerms | 631/326/41/2531 631/449/2668 Animals Apis mellifera Apples Bacteria Bees Bioactive compounds Biomedical and Life Sciences Blight Dispersal Dispersion Ecological effects Ecology Erwinia amylovora Erwinia amylovora - physiology Evolutionary Biology Flowering Flowers Flowers - physiology Life Sciences Malus - physiology Microbial Ecology Microbial Genetics and Genomics Microbiology Odorants Pathogens Plant diseases Plant Diseases - microbiology Plant Nectar - chemistry Plant reproduction Plants (botany) Pollen Pollen - chemistry Pollinators Volatile compounds Volatile Organic Compounds - chemistry |
| Title | Pathogen-induced changes in floral scent may increase honeybee-mediated dispersal of Erwinia amylovora |
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