TY  - JOUR
AU  - Mullett, Martin S.
AU  - Harris, Anna R.
AU  - Scanu, Bruno
AU  - Van Poucke, Kris
AU  - Leboldus, Jared
AU  - Stamm, Elizabeth
AU  - Bourret, Tyler B.
AU  - Christova, Petya K.
AU  - Oliva, Jonas
AU  - Redondo, Miguel A.
AU  - Talgo, Venche
AU  - Corcobado, Tamara
AU  - Milenković, Ivan
AU  - Horta Jung, Marilia
AU  - Webber, Joan
AU  - Heungens, Kurt
AU  - Jung, Thomas
PY  - 2024
UR  - https://omorika.sfb.bg.ac.rs/handle/123456789/1496
AB  - Phytophthora pseudosyringae is a self-fertile pathogen of woody plants, particularly associated with tree species from the genera Fagus, Notholithocarpus, Nothofagus and Quercus, which is found across Europe and in parts of North America and Chile. It can behave as a soil pathogen infecting roots and the stem collar region, as well as an aerial pathogen infecting leaves, twigs and stem barks, causing particular damage in the United Kingdom and western North America. The population structure, migration and potential outcrossing of a worldwide collection of isolates were investigated using genotyping-by-sequencing. Coalescent-based migration analysis revealed that the North American population originated from Europe. Historical gene flow has occurred between the continents in both directions to some extent, yet contemporary migration is overwhelmingly from Europe to North America. Two broad population clusters dominate the global population of the pathogen, with a subgroup derived from one of the main clusters found only in western North America. Index of association and network analyses indicate an influential level of outcrossing has occurred in this preferentially inbreeding, homothallic oomycete. Outcrossing between the two main population clusters has created distinct subgroups of admixed individuals that are, however, less common than the main population clusters. Differences in life history traits between the two main population clusters should be further investigated together with virulence and host range tests to evaluate the risk each population poses to natural environments worldwide.
T2  - Molecular Plant Pathology
T1  - Phylogeography, origin and population structure of the self-fertile emerging plant pathogen Phytophthora pseudosyringae
IS  - 4
VL  - 25
DO  - 10.1111/mpp.13450
UR  - conv_1780
ER  - 

@article{
author = "Mullett, Martin S. and Harris, Anna R. and Scanu, Bruno and Van Poucke, Kris and Leboldus, Jared and Stamm, Elizabeth and Bourret, Tyler B. and Christova, Petya K. and Oliva, Jonas and Redondo, Miguel A. and Talgo, Venche and Corcobado, Tamara and Milenković, Ivan and Horta Jung, Marilia and Webber, Joan and Heungens, Kurt and Jung, Thomas",
year = "2024",
abstract = "Phytophthora pseudosyringae is a self-fertile pathogen of woody plants, particularly associated with tree species from the genera Fagus, Notholithocarpus, Nothofagus and Quercus, which is found across Europe and in parts of North America and Chile. It can behave as a soil pathogen infecting roots and the stem collar region, as well as an aerial pathogen infecting leaves, twigs and stem barks, causing particular damage in the United Kingdom and western North America. The population structure, migration and potential outcrossing of a worldwide collection of isolates were investigated using genotyping-by-sequencing. Coalescent-based migration analysis revealed that the North American population originated from Europe. Historical gene flow has occurred between the continents in both directions to some extent, yet contemporary migration is overwhelmingly from Europe to North America. Two broad population clusters dominate the global population of the pathogen, with a subgroup derived from one of the main clusters found only in western North America. Index of association and network analyses indicate an influential level of outcrossing has occurred in this preferentially inbreeding, homothallic oomycete. Outcrossing between the two main population clusters has created distinct subgroups of admixed individuals that are, however, less common than the main population clusters. Differences in life history traits between the two main population clusters should be further investigated together with virulence and host range tests to evaluate the risk each population poses to natural environments worldwide.",
journal = "Molecular Plant Pathology",
title = "Phylogeography, origin and population structure of the self-fertile emerging plant pathogen Phytophthora pseudosyringae",
number = "4",
volume = "25",
doi = "10.1111/mpp.13450",
url = "conv_1780"
}

Mullett, M. S., Harris, A. R., Scanu, B., Van Poucke, K., Leboldus, J., Stamm, E., Bourret, T. B., Christova, P. K., Oliva, J., Redondo, M. A., Talgo, V., Corcobado, T., Milenković, I., Horta Jung, M., Webber, J., Heungens, K.,& Jung, T.. (2024). Phylogeography, origin and population structure of the self-fertile emerging plant pathogen Phytophthora pseudosyringae. in Molecular Plant Pathology, 25(4).
https://doi.org/10.1111/mpp.13450
conv_1780

Mullett MS, Harris AR, Scanu B, Van Poucke K, Leboldus J, Stamm E, Bourret TB, Christova PK, Oliva J, Redondo MA, Talgo V, Corcobado T, Milenković I, Horta Jung M, Webber J, Heungens K, Jung T. Phylogeography, origin and population structure of the self-fertile emerging plant pathogen Phytophthora pseudosyringae. in Molecular Plant Pathology. 2024;25(4).
doi:10.1111/mpp.13450
conv_1780 .

Mullett, Martin S., Harris, Anna R., Scanu, Bruno, Van Poucke, Kris, Leboldus, Jared, Stamm, Elizabeth, Bourret, Tyler B., Christova, Petya K., Oliva, Jonas, Redondo, Miguel A., Talgo, Venche, Corcobado, Tamara, Milenković, Ivan, Horta Jung, Marilia, Webber, Joan, Heungens, Kurt, Jung, Thomas, "Phylogeography, origin and population structure of the self-fertile emerging plant pathogen Phytophthora pseudosyringae" in Molecular Plant Pathology, 25, no. 4 (2024),
https://doi.org/10.1111/mpp.13450 .,
conv_1780 .

TY  - JOUR
AU  - Morales-Rodriguez, Carmen
AU  - Anslan, Sten
AU  - Auger-Rozenberg, Marie-Anne
AU  - Augustin, Sylvie
AU  - Baranchikov, Yuri
AU  - Bellahirech, Amani
AU  - Burokiene, Daiva
AU  - Cepukoit, Dovile
AU  - Cota, Ejup
AU  - Davydenko, Kateryna
AU  - Lehtijarvi, H. Tugba Dogmus
AU  - Drenkhan, Rein
AU  - Drenkhan, Tiia
AU  - Eschen, Rene
AU  - Franić, Iva
AU  - Glavendekić, Milka
AU  - de Groot, Maarten
AU  - Kacprzyk, Magdalena
AU  - Kenis, Marc
AU  - Kirichenko, Natalia
AU  - Matsiakh, Iryna
AU  - Musolin, Dmitry L.
AU  - Nowakowska, Justyna A.
AU  - O'Hanlon, Richard
AU  - Prospero, Simone
AU  - Roques, Alain
AU  - Santini, Alberto
AU  - Talgo, Venche
AU  - Tedersoo, Leho
AU  - Uimari, Anne
AU  - Vannini, Andrea
AU  - Witzell, Johanna
AU  - Woodward, Steve
AU  - Zambounis, Antonios
AU  - Cleary, Michelle
PY  - 2019
UR  - https://omorika.sfb.bg.ac.rs/handle/123456789/1085
AB  - The number of invasive alien pest and pathogen species affecting ecosystem functioning, human health and economies has increased dramatically over the last decades. Discoveries of invasive pests and pathogens previously unknown to science or with unknown host associations yet damaging on novel hosts highlights the necessity of developing novel tools to predict their appearance in hitherto naive environments. The use of sentinel plant systems is a promising tool to improve the detection of pests and pathogens before introduction and to provide valuable information for the development of preventative measures to minimize economic or environmental impacts. Though sentinel plantings have been established and studied during the last decade, there still remains a great need for guidance on which tools and protocols to put into practice in order to make assessments accurate and reliable. The sampling and diagnostic protocols chosen should enable as much information as possible about potential damaging agents and species identification. Consistency and comparison of results are based on the adoption of common procedures for sampling design and sample processing. In this paper, we suggest harmonized procedures that should be used in sentinel planting surveys for effective sampling and identification of potential pests and pathogens. We also review the benefits and limitations of various diagnostic methods for early detection in sentinel systems, and the feasibility of the results obtained supporting National Plant Protection Organizations in pest and commodity risk analysis.
T2  - Neobiota
T1  - Forewarned is forearmed: harmonized approaches for early detection of potentially invasive pests and pathogens in sentinel plantings
EP  - 123
IS  - 47
SP  - 95
DO  - 10.3897/neobiota.47.34276
UR  - conv_1436
ER  - 

@article{
author = "Morales-Rodriguez, Carmen and Anslan, Sten and Auger-Rozenberg, Marie-Anne and Augustin, Sylvie and Baranchikov, Yuri and Bellahirech, Amani and Burokiene, Daiva and Cepukoit, Dovile and Cota, Ejup and Davydenko, Kateryna and Lehtijarvi, H. Tugba Dogmus and Drenkhan, Rein and Drenkhan, Tiia and Eschen, Rene and Franić, Iva and Glavendekić, Milka and de Groot, Maarten and Kacprzyk, Magdalena and Kenis, Marc and Kirichenko, Natalia and Matsiakh, Iryna and Musolin, Dmitry L. and Nowakowska, Justyna A. and O'Hanlon, Richard and Prospero, Simone and Roques, Alain and Santini, Alberto and Talgo, Venche and Tedersoo, Leho and Uimari, Anne and Vannini, Andrea and Witzell, Johanna and Woodward, Steve and Zambounis, Antonios and Cleary, Michelle",
year = "2019",
abstract = "The number of invasive alien pest and pathogen species affecting ecosystem functioning, human health and economies has increased dramatically over the last decades. Discoveries of invasive pests and pathogens previously unknown to science or with unknown host associations yet damaging on novel hosts highlights the necessity of developing novel tools to predict their appearance in hitherto naive environments. The use of sentinel plant systems is a promising tool to improve the detection of pests and pathogens before introduction and to provide valuable information for the development of preventative measures to minimize economic or environmental impacts. Though sentinel plantings have been established and studied during the last decade, there still remains a great need for guidance on which tools and protocols to put into practice in order to make assessments accurate and reliable. The sampling and diagnostic protocols chosen should enable as much information as possible about potential damaging agents and species identification. Consistency and comparison of results are based on the adoption of common procedures for sampling design and sample processing. In this paper, we suggest harmonized procedures that should be used in sentinel planting surveys for effective sampling and identification of potential pests and pathogens. We also review the benefits and limitations of various diagnostic methods for early detection in sentinel systems, and the feasibility of the results obtained supporting National Plant Protection Organizations in pest and commodity risk analysis.",
journal = "Neobiota",
title = "Forewarned is forearmed: harmonized approaches for early detection of potentially invasive pests and pathogens in sentinel plantings",
pages = "123-95",
number = "47",
doi = "10.3897/neobiota.47.34276",
url = "conv_1436"
}

Morales-Rodriguez, C., Anslan, S., Auger-Rozenberg, M., Augustin, S., Baranchikov, Y., Bellahirech, A., Burokiene, D., Cepukoit, D., Cota, E., Davydenko, K., Lehtijarvi, H. T. D., Drenkhan, R., Drenkhan, T., Eschen, R., Franić, I., Glavendekić, M., de Groot, M., Kacprzyk, M., Kenis, M., Kirichenko, N., Matsiakh, I., Musolin, D. L., Nowakowska, J. A., O'Hanlon, R., Prospero, S., Roques, A., Santini, A., Talgo, V., Tedersoo, L., Uimari, A., Vannini, A., Witzell, J., Woodward, S., Zambounis, A.,& Cleary, M.. (2019). Forewarned is forearmed: harmonized approaches for early detection of potentially invasive pests and pathogens in sentinel plantings. in Neobiota(47), 95-123.
https://doi.org/10.3897/neobiota.47.34276
conv_1436

Morales-Rodriguez C, Anslan S, Auger-Rozenberg M, Augustin S, Baranchikov Y, Bellahirech A, Burokiene D, Cepukoit D, Cota E, Davydenko K, Lehtijarvi HTD, Drenkhan R, Drenkhan T, Eschen R, Franić I, Glavendekić M, de Groot M, Kacprzyk M, Kenis M, Kirichenko N, Matsiakh I, Musolin DL, Nowakowska JA, O'Hanlon R, Prospero S, Roques A, Santini A, Talgo V, Tedersoo L, Uimari A, Vannini A, Witzell J, Woodward S, Zambounis A, Cleary M. Forewarned is forearmed: harmonized approaches for early detection of potentially invasive pests and pathogens in sentinel plantings. in Neobiota. 2019;(47):95-123.
doi:10.3897/neobiota.47.34276
conv_1436 .

Morales-Rodriguez, Carmen, Anslan, Sten, Auger-Rozenberg, Marie-Anne, Augustin, Sylvie, Baranchikov, Yuri, Bellahirech, Amani, Burokiene, Daiva, Cepukoit, Dovile, Cota, Ejup, Davydenko, Kateryna, Lehtijarvi, H. Tugba Dogmus, Drenkhan, Rein, Drenkhan, Tiia, Eschen, Rene, Franić, Iva, Glavendekić, Milka, de Groot, Maarten, Kacprzyk, Magdalena, Kenis, Marc, Kirichenko, Natalia, Matsiakh, Iryna, Musolin, Dmitry L., Nowakowska, Justyna A., O'Hanlon, Richard, Prospero, Simone, Roques, Alain, Santini, Alberto, Talgo, Venche, Tedersoo, Leho, Uimari, Anne, Vannini, Andrea, Witzell, Johanna, Woodward, Steve, Zambounis, Antonios, Cleary, Michelle, "Forewarned is forearmed: harmonized approaches for early detection of potentially invasive pests and pathogens in sentinel plantings" in Neobiota, no. 47 (2019):95-123,
https://doi.org/10.3897/neobiota.47.34276 .,
conv_1436 .

TY  - JOUR
AU  - Jung, T.
AU  - Orlikowski, L.
AU  - Henricot, B.
AU  - Abad-Campos, P.
AU  - Aday, A. G.
AU  - Aguin Casal, O.
AU  - Bakonyi, J.
AU  - Cacciola, S. O.
AU  - Cech, T.
AU  - Chavarriaga, D.
AU  - Corcobado, Tamara
AU  - Cravador, A.
AU  - Decourcelle, T.
AU  - Denton, G.
AU  - Diamandis, S.
AU  - Dogmus-Lehtijaervi, H. T.
AU  - Franceschini, A.
AU  - Ginetti, B.
AU  - Green, Samantha
AU  - Glavendekić, Milka
AU  - Hantula, J.
AU  - Hartmann, G.
AU  - Herrero, M.
AU  - Ivić, D.
AU  - Horta Jung, M.
AU  - Lilja, A.
AU  - Keča, Nenad
AU  - Kramarets, V.
AU  - Lyubenova, A.
AU  - Machado, H.
AU  - Magnano di San Lio, G.
AU  - Mansilla Vazquez, P. J.
AU  - Marcais, B.
AU  - Matsiakh, I.
AU  - Milenković, Ivan
AU  - Moricca, S.
AU  - Nagy, Zoltan
AU  - Nechwatal, J.
AU  - Olsson, C.
AU  - Oszako, Tomasz
AU  - Pane, A.
AU  - Paplomatas, E. J.
AU  - Pintos Varela, C.
AU  - Prospero, Simone
AU  - Rial Martinez, C.
AU  - Rigling, D.
AU  - Robin, Cecile
AU  - Rytkoenen, A.
AU  - Sanchez, M. E.
AU  - Sanz Ros, A. V.
AU  - Scanu, Bruno
AU  - Schlenzig, A.
AU  - Schumacher, J.
AU  - Slavov, S.
AU  - Solla, Alejandro
AU  - Sousa, E.
AU  - Stenlid, J.
AU  - Talgo, Venche
AU  - Tomić, Z.
AU  - Tsopelas, Panaghiotis
AU  - Vannini, A.
AU  - Vettraino, Anna Maria
AU  - Wenneker, M.
AU  - Woodward, S.
AU  - Perez-Sierra, Ana
PY  - 2016
UR  - https://omorika.sfb.bg.ac.rs/handle/123456789/723
AB  - An analysis of incidence of Phytophthora spp. in 732 European nurseries producing forest transplants, larger specimen trees, landscape plants and ornamentals, plus 2525 areas in which trees and shrubs were planted, is presented based on work conducted by 38 research groups in 23 European countries between 1972 and 2013. Forty-nine Phytophthora taxa were recorded in 670 nurseries (91.5%); within these nurseries, 1614 of 1992 nursery stands (81.0%) were infested, although most affected plants appeared healthy. In forest and landscape plantings, 56 Phytophthora taxa were recovered from 1667 of 2525 tested sites (66.0%). Affected plants frequently showed symptoms such as crown thinning, chlorosis and dieback caused by extensive fine root losses and/or collar rot. Many well-known highly damaging host-Phytophthora combinations were frequently detected but 297 and 407 new Phytophthora-host associations were also observed in nurseries and plantings, respectively. On average, 1.3 Phytophthora species/taxa per infested nursery stand and planting site were isolated. At least 47 of the 68 Phytophthora species/taxa detected in nurseries and plantings were exotic species several of which are considered well established in both nurseries and plantings in Europe. Seven known Phytophthora species/taxa were found for the first time in Europe, while 10 taxa had not been previously recorded from nurseries or plantings; in addition, 5 taxa were first detections on woody plant species. Seven Phytophthora taxa were previously unknown to science. The reasons for these failures of plant biosecurity in Europe, implications for forest and semi-natural ecosystems and possible ways to improve biosecurity are discussed.
T2  - Forest Pathology
T1  - Widespread Phytophthora infestations in European nurseries put forest, semi-natural and horticultural ecosystems at high risk of Phytophthora diseases
EP  - 163
IS  - 2
SP  - 134
VL  - 46
DO  - 10.1111/efp.12239
UR  - conv_1209
ER  - 

@article{
author = "Jung, T. and Orlikowski, L. and Henricot, B. and Abad-Campos, P. and Aday, A. G. and Aguin Casal, O. and Bakonyi, J. and Cacciola, S. O. and Cech, T. and Chavarriaga, D. and Corcobado, Tamara and Cravador, A. and Decourcelle, T. and Denton, G. and Diamandis, S. and Dogmus-Lehtijaervi, H. T. and Franceschini, A. and Ginetti, B. and Green, Samantha and Glavendekić, Milka and Hantula, J. and Hartmann, G. and Herrero, M. and Ivić, D. and Horta Jung, M. and Lilja, A. and Keča, Nenad and Kramarets, V. and Lyubenova, A. and Machado, H. and Magnano di San Lio, G. and Mansilla Vazquez, P. J. and Marcais, B. and Matsiakh, I. and Milenković, Ivan and Moricca, S. and Nagy, Zoltan and Nechwatal, J. and Olsson, C. and Oszako, Tomasz and Pane, A. and Paplomatas, E. J. and Pintos Varela, C. and Prospero, Simone and Rial Martinez, C. and Rigling, D. and Robin, Cecile and Rytkoenen, A. and Sanchez, M. E. and Sanz Ros, A. V. and Scanu, Bruno and Schlenzig, A. and Schumacher, J. and Slavov, S. and Solla, Alejandro and Sousa, E. and Stenlid, J. and Talgo, Venche and Tomić, Z. and Tsopelas, Panaghiotis and Vannini, A. and Vettraino, Anna Maria and Wenneker, M. and Woodward, S. and Perez-Sierra, Ana",
year = "2016",
abstract = "An analysis of incidence of Phytophthora spp. in 732 European nurseries producing forest transplants, larger specimen trees, landscape plants and ornamentals, plus 2525 areas in which trees and shrubs were planted, is presented based on work conducted by 38 research groups in 23 European countries between 1972 and 2013. Forty-nine Phytophthora taxa were recorded in 670 nurseries (91.5%); within these nurseries, 1614 of 1992 nursery stands (81.0%) were infested, although most affected plants appeared healthy. In forest and landscape plantings, 56 Phytophthora taxa were recovered from 1667 of 2525 tested sites (66.0%). Affected plants frequently showed symptoms such as crown thinning, chlorosis and dieback caused by extensive fine root losses and/or collar rot. Many well-known highly damaging host-Phytophthora combinations were frequently detected but 297 and 407 new Phytophthora-host associations were also observed in nurseries and plantings, respectively. On average, 1.3 Phytophthora species/taxa per infested nursery stand and planting site were isolated. At least 47 of the 68 Phytophthora species/taxa detected in nurseries and plantings were exotic species several of which are considered well established in both nurseries and plantings in Europe. Seven known Phytophthora species/taxa were found for the first time in Europe, while 10 taxa had not been previously recorded from nurseries or plantings; in addition, 5 taxa were first detections on woody plant species. Seven Phytophthora taxa were previously unknown to science. The reasons for these failures of plant biosecurity in Europe, implications for forest and semi-natural ecosystems and possible ways to improve biosecurity are discussed.",
journal = "Forest Pathology",
title = "Widespread Phytophthora infestations in European nurseries put forest, semi-natural and horticultural ecosystems at high risk of Phytophthora diseases",
pages = "163-134",
number = "2",
volume = "46",
doi = "10.1111/efp.12239",
url = "conv_1209"
}

Jung, T., Orlikowski, L., Henricot, B., Abad-Campos, P., Aday, A. G., Aguin Casal, O., Bakonyi, J., Cacciola, S. O., Cech, T., Chavarriaga, D., Corcobado, T., Cravador, A., Decourcelle, T., Denton, G., Diamandis, S., Dogmus-Lehtijaervi, H. T., Franceschini, A., Ginetti, B., Green, S., Glavendekić, M., Hantula, J., Hartmann, G., Herrero, M., Ivić, D., Horta Jung, M., Lilja, A., Keča, N., Kramarets, V., Lyubenova, A., Machado, H., Magnano di San Lio, G., Mansilla Vazquez, P. J., Marcais, B., Matsiakh, I., Milenković, I., Moricca, S., Nagy, Z., Nechwatal, J., Olsson, C., Oszako, T., Pane, A., Paplomatas, E. J., Pintos Varela, C., Prospero, S., Rial Martinez, C., Rigling, D., Robin, C., Rytkoenen, A., Sanchez, M. E., Sanz Ros, A. V., Scanu, B., Schlenzig, A., Schumacher, J., Slavov, S., Solla, A., Sousa, E., Stenlid, J., Talgo, V., Tomić, Z., Tsopelas, P., Vannini, A., Vettraino, A. M., Wenneker, M., Woodward, S.,& Perez-Sierra, A.. (2016). Widespread Phytophthora infestations in European nurseries put forest, semi-natural and horticultural ecosystems at high risk of Phytophthora diseases. in Forest Pathology, 46(2), 134-163.
https://doi.org/10.1111/efp.12239
conv_1209

Jung T, Orlikowski L, Henricot B, Abad-Campos P, Aday AG, Aguin Casal O, Bakonyi J, Cacciola SO, Cech T, Chavarriaga D, Corcobado T, Cravador A, Decourcelle T, Denton G, Diamandis S, Dogmus-Lehtijaervi HT, Franceschini A, Ginetti B, Green S, Glavendekić M, Hantula J, Hartmann G, Herrero M, Ivić D, Horta Jung M, Lilja A, Keča N, Kramarets V, Lyubenova A, Machado H, Magnano di San Lio G, Mansilla Vazquez PJ, Marcais B, Matsiakh I, Milenković I, Moricca S, Nagy Z, Nechwatal J, Olsson C, Oszako T, Pane A, Paplomatas EJ, Pintos Varela C, Prospero S, Rial Martinez C, Rigling D, Robin C, Rytkoenen A, Sanchez ME, Sanz Ros AV, Scanu B, Schlenzig A, Schumacher J, Slavov S, Solla A, Sousa E, Stenlid J, Talgo V, Tomić Z, Tsopelas P, Vannini A, Vettraino AM, Wenneker M, Woodward S, Perez-Sierra A. Widespread Phytophthora infestations in European nurseries put forest, semi-natural and horticultural ecosystems at high risk of Phytophthora diseases. in Forest Pathology. 2016;46(2):134-163.
doi:10.1111/efp.12239
conv_1209 .

Jung, T., Orlikowski, L., Henricot, B., Abad-Campos, P., Aday, A. G., Aguin Casal, O., Bakonyi, J., Cacciola, S. O., Cech, T., Chavarriaga, D., Corcobado, Tamara, Cravador, A., Decourcelle, T., Denton, G., Diamandis, S., Dogmus-Lehtijaervi, H. T., Franceschini, A., Ginetti, B., Green, Samantha, Glavendekić, Milka, Hantula, J., Hartmann, G., Herrero, M., Ivić, D., Horta Jung, M., Lilja, A., Keča, Nenad, Kramarets, V., Lyubenova, A., Machado, H., Magnano di San Lio, G., Mansilla Vazquez, P. J., Marcais, B., Matsiakh, I., Milenković, Ivan, Moricca, S., Nagy, Zoltan, Nechwatal, J., Olsson, C., Oszako, Tomasz, Pane, A., Paplomatas, E. J., Pintos Varela, C., Prospero, Simone, Rial Martinez, C., Rigling, D., Robin, Cecile, Rytkoenen, A., Sanchez, M. E., Sanz Ros, A. V., Scanu, Bruno, Schlenzig, A., Schumacher, J., Slavov, S., Solla, Alejandro, Sousa, E., Stenlid, J., Talgo, Venche, Tomić, Z., Tsopelas, Panaghiotis, Vannini, A., Vettraino, Anna Maria, Wenneker, M., Woodward, S., Perez-Sierra, Ana, "Widespread Phytophthora infestations in European nurseries put forest, semi-natural and horticultural ecosystems at high risk of Phytophthora diseases" in Forest Pathology, 46, no. 2 (2016):134-163,
https://doi.org/10.1111/efp.12239 .,
conv_1209 .