Your search keyword '"Corcobado, T."' showing total 26 results

1. Worldwide forest surveys reveal forty-three new species in Phytophthora major Clade 2 with fundamental implications for the evolution and biogeography of the genus and global plant biosecurity

Author

Jung, T., primary, Milenković, I., additional, Balci, Y., additional, Janoušek, J., additional, Kudláček, T., additional, Nagy, Z.Á., additional, Baharuddin, B., additional, Bakonyi, J., additional, Broders, K.D., additional, Cacciola, S.O., additional, Chang, T.-T., additional, Chi, N.M., additional, Corcobado, T., additional, Cravador, A., additional, Đorđević, B., additional, Durán, A., additional, Ferreira, M., additional, Fu, C.-H., additional, Garcia, L., additional, Hieno, A., additional, Ho, H.-H., additional, Hong, C., additional, Junaid, M., additional, Kageyama, K., additional, Kuswinanti, T., additional, Maia, C., additional, Májek, T., additional, Masuya, H., additional, Magnano di San Lio, G., additional, Mendieta-Araica, B., additional, Nasri, N., additional, Oliveira, L.S.S., additional, Pane, A., additional, Pérez-Sierra, A., additional, Rosmana, A., additional, Sanfuentes von Stowasser, E., additional, Scanu, B., additional, Singh, R., additional, Stanivuković, Z., additional, Tarigan, M., additional, Thu, P.Q., additional, Tomić, Z., additional, Tomšovský, M., additional, Uematsu, S., additional, Webber, J.F., additional, Zheng, H.-C., additional, Zheng, F.-C., additional, Brasier, C.M., additional, and Horta Jung, M., additional

Published

2024

2. Extensive morphological and behavioural diversity among fourteen new and seven described species in Phytophthora Clade 10 and its evolutionary implications

Author

Jung, T., Milenković, I., Corcobado, T., Májek, T., Janoušek, J., Kudláček, T., Tomšovský, M., Nagy, Z.Á., Durán, A., Tarigan, M., Sanfuentes von Stowasser, E., Singh, R., Ferreira, M., Webber, J. F., Scanu, B., Chi, N. M., Thu, P. Q., Junaid, M., Rosmana, A., Baharuddin, B., Kuswinanti, T., Nasri, N., Kageyama, K., Hieno, A., Masuya, H., Uematsu, S., Oliva, J., Redondo, M., Maia, Cristiana, Matsiakh, I., Kramarets, V., O'Hanlon, R., Tomić, Ž., Brasier, C. M., Horta Jung, M., and Naturalis journals & series

Subjects

Gondwana, Ecology, Evolution, Laurasia, phylogeny, allopatric, radiation, Biogeography, Behavior and Systematics, sympatric, oomycete, Allopatric, biogeography, Ecology, Evolution, Behavior and Systematics

Abstract

During extensive surveys of global Phytophthora diversity 14 new species detected in natural ecosystems in Chile, Indonesia, USA (Louisiana), Sweden, Ukraine and Vietnam were assigned to Phytophthora major Clade 10 based on a multigene phylogeny of nine nuclear and three mitochondrial gene regions. Clade 10 now comprises three subclades. Subclades 10a and 10b contain species with nonpapillate sporangia, a range of breeding systems and a mainly soil-and waterborne lifestyle. These include the previously described P. afrocarpa, P. gallica and P. intercalaris and eight of the new species: P. ludoviciana, P. procera, P. pseudogallica, P. scandinavica, P. subarctica, P. tenuimura, P. tonkinensis and P. ukrainensis. In contrast, all species in Subclade 10c have papillate sporangia and are self-fertile (or homothallic) with an aerial lifestyle including the known P. boehmeriae, P. gondwanensis, P. kernoviae and P. morindae and the new species P. celebensis, P. chilensis, P. javanensis, P. multiglobulosa, P. pseudochilensis and P. pseudokernoviae. All new Phytophthora species differed from each other and from related species by their unique combinations of morphological characters, breeding systems, cardinal temperatures and growth rates. The biogeography and evolutionary history of Clade 10 are discussed. We propose that the three subclades originated via the early divergence of pre-Gondwanan ancestors > 175 Mya into water-and soilborne and aerially dispersed lineages and subsequently underwent multiple allopatric and sympatric radiations during their global spread.

Published

2022

3. First Report of Dieback of Quercus suber Trees Associated with Phytophthora quercina in Morocco

Author

Dorado, F. J., primary, Corcobado, T., additional, Brandano, A., additional, Abbas, Y., additional, Alcaide, F., additional, Janoušek, J., additional, Jung, T., additional, Scanu, B., additional, and Solla, A., additional

Published

2023

4. Extensive morphological and behavioural diversity among fourteen new and seven described species inPhytophthora Clade 10 and its evolutionary implications

Author

Jung, T., primary, Milenković, I., additional, Corcobado, T., additional, Májek, T., additional, Janoušek, J., additional, Kudláček, T., additional, Tomšovský, M., additional, Nagy, Z.Á., additional, Durán, A., additional, Tarigan, M., additional, Sanfuentes von Stowasser, E., additional, Singh, R., additional, Ferreira, M., additional, Webber, J.F., additional, Scanu, B., additional, Chi, N.M., additional, Thu, P.Q., additional, Junaid, M., additional, Rosmana, A., additional, Baharuddin, B., additional, Kuswinanti, T., additional, Nasri, N., additional, Kageyama, K., additional, Hieno, A., additional, Masuya, H., additional, Uematsu, S., additional, Oliva, J., additional, Redondo, M., additional, Maia, C., additional, Matsiakh, I., additional, Kramarets, V., additional, O'Hanlon, R., additional, Tomić, Ž., additional, Brasier, C.M., additional, and Horta Jung, M., additional

Published

2022

5. Extensive morphological and behavioural diversity among fourteen new and seven described species in Phytophthora Clade 10 and its evolutionary implications

Author

Jung T., Milenković I., Corcobado T., Májek T., Janoušek J., Kudláček T., Tomšovský M., Nagy Z.Á., Durán A., Tarigan M., Sanfuentes von Stowasser E., Singh R., Ferreira M., Webber J.F., Scanu B., Chi N.M., Thu P.Q., Junaid M., Rosmana A., Baharuddin B., Kuswinanti T., Nasri N., Kageyama K., Hieno A., Masuya H., Uematsu S., Oliva J., Redondo M., Maia C., Matsiakh I., Kramarets V., O'Hanlon R., Tomić Ž., Brasier C.M., Horta Jung M., Jung T., Milenković I., Corcobado T., Májek T., Janoušek J., Kudláček T., Tomšovský M., Nagy Z.Á., Durán A., Tarigan M., Sanfuentes von Stowasser E., Singh R., Ferreira M., Webber J.F., Scanu B., Chi N.M., Thu P.Q., Junaid M., Rosmana A., Baharuddin B., Kuswinanti T., Nasri N., Kageyama K., Hieno A., Masuya H., Uematsu S., Oliva J., Redondo M., Maia C., Matsiakh I., Kramarets V., O'Hanlon R., Tomić Ž., Brasier C.M., and Horta Jung M.

Published

2022

6. Germination and seed traits in common alder ( Alnus spp.): The potential contribution of rear‐edge populations to ecological restoration success

Author

Gomes Marques, I., primary, Faria, C., additional, Conceição, S. I. R., additional, Jansson, R., additional, Corcobado, T., additional, MilanoviĆ, S., additional, Laurent, Y., additional, Bernez, I., additional, Dufour, S., additional, Mandák, B., additional, Ennouni, H., additional, Sahli, A., additional, Ater, M., additional, Dorado, F. J., additional, Caperta, A. D., additional, David, T. S., additional, Solla, A., additional, and Rodríguez‐González, P. M., additional

Published

2021

7. Phytophthora alni on Alnus glutinosa reported for the first time in Spain

Author

Solla, A., Pérez-Sierra, A., Corcobado, T., Haque, M. M., Diez, J. J., and Jung, T.

Published

2010

8. Widespread Phytophthora infestations in European nurseries put forest, semi-natural and horticultural ecosystems at high risk of Phytophthora diseases

Author

Universitat Politècnica de València. Departamento de Ecosistemas Agroforestales - Departament d'Ecosistemes Agroforestals, Regione Autonoma della Sardegna, European Cooperation in Science and Technology, Jung, T., Orlikowski, L., Henricot, B., Abad Campos, María Paloma, 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., Universitat Politècnica de València. Departamento de Ecosistemas Agroforestales - Departament d'Ecosistemes Agroforestals, Regione Autonoma della Sardegna, European Cooperation in Science and Technology, Jung, T., Orlikowski, L., Henricot, B., Abad Campos, María Paloma, Aday, A. G., Aguin Casal, O., Bakonyi, J., Cacciola, S. O., Cech, T., Chavarriaga, D., Corcobado, T., Cravador, A., Decourcelle, T., Denton, G., and Diamandis, S.

Abstract

[EN] 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 discused.

Published

2016

9. Early survival of Quercus ilex subspecies from different populations after infections and co-infections by multiple Phytophthora species

Author

Corcobado, T., primary, Miranda-Torres, J. J., additional, Martín-García, J., additional, Jung, T., additional, and Solla, A., additional

Published

2016

10. Ubiquitious Phytophthora infestations of forest, horticultural and ornamental nurseries and plantings demonstrate major failure of plant biosecurity in Europe

Author

Jung, T, Orlikowski, L, Henricot, B, €  Campos P, Abadâ, Aday, Ag, Casal O, Aguà ­ n., Bakonyi, J, Cacciola, So, Cech, T, Corcobado, T, Cravador, A, Denton, G, Diamandis, G., Doä, Ÿ. muÅ Ÿ. â. €  Lehtijà ¤ rvi H. T., Ginetti B, ., Hantula, J, Hartmann, G, Herrero, G. M., Lilja, A, Horta, M, Keca, N, Kramarets, V, Lyubenova, A, Machado, H, Magnano di San Lio, G, Mansilla Và ¡ zquez, P. J., Marà ais, B, Matsiakh, I, Milenkovic, I, Moricca, S, Nechwatal, J, Oszako, T, Pane, Antonella, Paplomatas, Ej, Pintos Varela, C, ­ nez C, Rial MartÃ, Robin, C, Rytkà nen, A, ¡ nchez ME, Sã, Scanu B, ., Schlenzig, A, Schumacher, J, Solla, A, Sousa, E, ¸ V, Talgã, Tsopelas, P, Vannini, A, Vettraino, A. M., Wenneker, M, and Perà © zâ €  Sierra, A.

Published

2012

11. WidespreadPhytophthorainfestations in European nurseries put forest, semi-natural and horticultural ecosystems at high risk of Phytophthora diseases

Author

Jung, T., primary, Orlikowski, L., additional, Henricot, B., additional, Abad-Campos, P., additional, Aday, A. G., additional, Aguín Casal, O., additional, Bakonyi, J., additional, Cacciola, S. O., additional, Cech, T., additional, Chavarriaga, D., additional, Corcobado, T., additional, Cravador, A., additional, Decourcelle, T., additional, Denton, G., additional, Diamandis, S., additional, Doğmuş-Lehtijärvi, H. T., additional, Franceschini, A., additional, Ginetti, B., additional, Green, S., additional, Glavendekić, M., additional, Hantula, J., additional, Hartmann, G., additional, Herrero, M., additional, Ivic, D., additional, Horta Jung, M., additional, Lilja, A., additional, Keca, N., additional, Kramarets, V., additional, Lyubenova, A., additional, Machado, H., additional, Magnano di San Lio, G., additional, Mansilla Vázquez, P. J., additional, Marçais, B., additional, Matsiakh, I., additional, Milenkovic, I., additional, Moricca, S., additional, Nagy, Z. Á., additional, Nechwatal, J., additional, Olsson, C., additional, Oszako, T., additional, Pane, A., additional, Paplomatas, E. J., additional, Pintos Varela, C., additional, Prospero, S., additional, Rial Martínez, C., additional, Rigling, D., additional, Robin, C., additional, Rytkönen, A., additional, Sánchez, M. E., additional, Sanz Ros, A. V., additional, Scanu, B., additional, Schlenzig, A., additional, Schumacher, J., additional, Slavov, S., additional, Solla, A., additional, Sousa, E., additional, Stenlid, J., additional, Talgø, V., additional, Tomic, Z., additional, Tsopelas, P., additional, Vannini, A., additional, Vettraino, A. M., additional, Wenneker, M., additional, Woodward, S., additional, and Peréz-Sierra, A., additional

Published

2015

12. Seasonal variations of ectomycorrhizal communities in declining Quercus ilex forests: interactions with topography, tree health status and Phytophthora cinnamomi infections

Author

Corcobado, T., primary, Moreno, G., additional, Azul, A. M., additional, and Solla, A., additional

Published

2015

13. Early survival of Quercus ilex subspecies from different populations after infections and co-infections by multiple Phytophthora species.

Author

Corcobado, T., Miranda‐Torres, J. J., Martín‐García, J., Jung, T., and Solla, A.

Subjects

*HOLM oak, *TREE populations, *PHYTOPHTHORA diseases, *GERMINATION, *REGENERATION (Botany)

Abstract

Forests in Europe are threatened by increased diversity of Phytophthora species, but effects on trees of simultaneous infections by Phytophthora and ecological consequences of their coexistence are unknown. This study explored variation in early survival of Quercus ilex to Phytophthora infections and assessed interactions between Phytophthora species when trees were co-infected. Three Phytophthora species (P. cinnamomi, P. gonapodyides and P. quercina), seeds from 16 populations of Q. ilex (ballota and ilex subspecies) and two infection times were used as sources of variation in two experiments. The influence of Phytophthora species, Q. ilex subspecies and populations on plant germination and survival were analysed using generalized linear mixed models and survival analysis techniques. Germination rates were not influenced by Phytophthora spp. (P = 0.194) but by the subspecies and populations of Q. ilex (P < 0.001). In Phytophthora-infested soils, Q. ilex subsp. ilex germinated at higher rates than Q. ilex subsp. ballota. Plant survival was strongly influenced by Phytophthora species (P < 0.001), not by the subspecies and populations of Q. ilex. Seedling mortality was reduced and delayed if a less virulent Phytophthora species infected plants prior to infection by a more virulent Phytophthora species. The results help to explain oak decline syndrome and the lack of natural and artificial regeneration of Q. ilex forests. Lack of interspecific variability of early survival to Phytophthora spp. discourages direct sowing for artificial reforestation programmes. Large, thick seeds, giving plants rapid growth, are advantageous traits when soils are infested with Phytophthora spp. [ABSTRACT FROM AUTHOR]

Published

2017

14. Influence of temperature on germination of Quercus ilex in Phytophthora cinnamomi, P. gonapodyides, P. quercina and P. psychrophila infested soils

Author

Martín‐García, J., primary, Solla, A., additional, Corcobado, T., additional, Siasou, E., additional, and Woodward, S., additional

Published

2014

15. Widespread Phytophthora infestations in European nurseries put forest, semi-natural and horticultural ecosystems at high risk of Phytophthora diseases.

Author

Jung, T., Orlikowski, L., Henricot, B., Abad‐Campos, P., Aday, A. G., Aguín Casal, O., Bakonyi, J., Cacciola, S. O., Cech, T., Chavarriaga, D., Corcobado, T., Cravador, A., Decourcelle, T., Denton, G., Diamandis, S., Doğmuş‐Lehtijärvi, H. T., Franceschini, A., Ginetti, B., Green, S., and Glavendekić, M.

Subjects

PHYTOPHTHORA diseases, PLANT nurseries, FOREST management, LANDSCAPE protection, BIOSECURITY, FUNGI classification

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. [ABSTRACT FROM AUTHOR]

Published

2016

16. First report of Phytophthora gonapodyides involved in the decline of Quercus ilex in xeric conditions in Spain

Author

Corcobado, T., primary, Cubera, E., additional, Pérez‐Sierra, A., additional, Jung, T., additional, and Solla, A., additional

Published

2010

17. Influence of temperature on germination of Quercus ilex in Phytophthora cinnamomi, P. gonapodyides, P. quercina and P. psychrophila infested soils.

Author

Martín‐García, J., Solla, A., Corcobado, T., Siasou, E., Woodward, S., and Belbahri, L.

Subjects

EFFECT of temperature on plants, HOLM oak, PHYTOPHTHORA cinnamomi, GERMINATION, PLANT mortality, MYCELIUM, SEEDLINGS

Abstract

The influence of temperature on germination of Quercus ilex acorns in Phytophthora infested soils was quantified for the first time. Radicle damage and mortality of Q. ilex seeds germinating at 17, 20, 23 and 26°C in Phytophthora cinnamomi, P. gonapodyides, P. quercina and P. psychrophila infested soils were assessed and related to in vitro mycelium growth of the same isolates of the pathogens. The optimum growth temperatures of isolates of P. cinnamomi, P. gonapodyides, P. quercina and P. psychrophila were 20-23, 23-26, 20-23 and 20°C, respectively. At 17 and 20°C, all four Phytophthora species caused 100% acorn mortality, whereas at 26°C, acorn mortality was 100, 10, 25 and 0% in P. cinnamomi, P. gonapodyides, P. quercina and P. psychrophila infested soils, respectively. At 23°C, P. cinnamomi and P. gonapodyides reduced acorn radicle length more than P. quercina and P. psychrophila, whereas at 26°C, only P. cinnamomi caused further reduction in radicle length. The higher susceptibility of germinating acorns in comparison to seedlings reported in the literature indicates age-related susceptibility of Q. ilex to Phytophthora. The seedling/pathogen growth ratio was inversely related to the reduction in radicle length at different temperatures ( [ABSTRACT FROM AUTHOR]

Published

2015

18. The ADnet Bayesian belief network for alder decline: Integrating empirical data and expert knowledge.

Author

Gomes Marques I, Vieites-Blanco C, Rodríguez-González PM, Segurado P, Marques M, Barrento MJ, Fernandes MR, Cupertino A, Almeida H, Biurrun I, Corcobado T, Costa E Silva F, Díez JJ, Dufour S, Faria C, Ferreira MT, Ferreira V, Jansson R, Machado H, Marçais B, Moreira AC, Oliva J, Pielech R, Rodrigues AP, David TS, Solla A, and Jung T

Subjects

Plant Diseases microbiology, Plant Diseases statistics & numerical data, Phytophthora, Ecosystem, Europe epidemiology, Forests, Conservation of Natural Resources, Bayes Theorem, Alnus

Abstract

The globalization in plant material trading has caused the emergence of invasive pests in many ecosystems, such as the alder pathogen Phytophthora ×alni in European riparian forests. Due to the ecological importance of alder to the functioning of rivers and the increasing incidence of P. ×alni-induced alder decline, effective and accessible decision tools are required to help managers and stakeholders control the disease. This study proposes a Bayesian belief network methodology to integrate diverse information on the factors affecting the survival and infection ability of P. ×alni in riparian habitats to help predict and manage disease incidence. The resulting Alder Decline Network (ADnet) management tool integrates information about alder decline from scientific literature, expert knowledge and empirical data. Expert knowledge was gathered through elicitation techniques that included 19 experts from 12 institutions and 8 countries. An original dataset was created covering 1189 European locations, from which P. ×alni occurrence was modeled based on bioclimatic variables. ADnet uncertainty was evaluated through its sensitivity to changes in states and three scenario analyses. The ADnet tool indicated that mild temperatures and high precipitation are key factors favoring pathogen survival. Flood timing, water velocity, and soil type have the strongest influence on disease incidence. ADnet can support ecosystem management decisions and knowledge transfer to address P. ×alni-induced alder decline at local or regional levels across Europe. Management actions such as avoiding the planting of potentially infected trees or removing man-made structures that increase the flooding period in disease-affected sites could decrease the incidence of alder disease in riparian forests and limit its spread. The coverage of the ADnet tool can be expanded by updating data on the pathogen's occurrence, particularly from its distributional limits. Research on the role of genetic variability in alder susceptibility and pathogen virulence may also help improve future ADnet versions., Competing Interests: Declaration of competing interest The authors have no competing interests to declare that are relevant to the content of this article., (Copyright © 2024. Published by Elsevier B.V.)

Published

2024

19. Phylogeography, origin and population structure of the self-fertile emerging plant pathogen Phytophthora pseudosyringae.

Author

Mullett MS, Harris AR, Scanu B, Van Poucke K, LeBoldus J, Stamm E, Bourret TB, Christova PK, Oliva J, Redondo MA, Talgø V, Corcobado T, Milenković I, Jung MH, Webber J, Heungens K, and Jung T

Subjects

Humans, Phylogeography, Plant Diseases, Plants, Trees, Phytophthora genetics

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., (© 2024 The Authors. Molecular Plant Pathology published by British Society for Plant Pathology and John Wiley & Sons Ltd.)

Published

2024

20. Climate acts as an environmental filter to plant pathogens.

Author

Caballol M, Redondo MÁ, Catalán N, Corcobado T, Jung T, Marçais B, Milenković I, Nemesio-Gorriz M, Stenlid J, and Oliva J

Subjects

Temperature, Seasons, Europe, Climate Change, Climate, Plants

Abstract

Climate shapes the distribution of plant-associated microbes such as mycorrhizal and endophytic fungi. However, the role of climate in plant pathogen community assembly is less understood. Here, we explored the role of climate in the assembly of Phytophthora communities at >250 sites along a latitudinal gradient from Spain to northern Sweden and an altitudinal gradient from the Spanish Pyrenees to lowland areas. Communities were detected by ITS sequencing of river filtrates. Mediation analysis supported the role of climate in the biogeography of Phytophthora and ruled out other environmental factors such as geography or tree diversity. Comparisons of functional and species diversity showed that environmental filtering dominated over competitive exclusion in Europe. Temperature and precipitation acted as environmental filters at different extremes of the gradients. In northern regions, winter temperatures acted as an environmental filter on Phytophthora community assembly, selecting species adapted to survive low minimum temperatures. In southern latitudes, a hot dry climate was the main environmental filter, resulting in communities dominated by drought-tolerant Phytophthora species with thick oospore walls, a high optimum temperature for growth, and a high maximum temperature limit for growth. By taking a community ecology approach, we show that the establishment of Phytophthora plant pathogens in Europe is mainly restricted by cold temperatures., (© The Author(s) 2024. Published by Oxford University Press on behalf of the International Society for Microbial Ecology.)

Published

2024

21. Phytophthora , Nothophytophthora and Halophytophthora diversity in rivers, streams and riparian alder ecosystems of Central Europe.

Author

Corcobado T, Cech TL, Daxer A, Ďatková H, Janoušek J, Patra S, Jahn D, Hüttler C, Milenković I, Tomšovský M, Jung MH, and Jung T

Abstract

Waterways are ideal pathways for Phytophthora dispersal and potential introduction to terrestrial ecosystems. While many Phytophthora species from phylogenetic clades 6, 9 and 10 are predominant oomycetes in watercourses due to their adaptation to a lifestyle as saprotrophs and opportunistic pathogens of riparian plants, species from clades 2, 7 and 8 are predominantly soil- or airborne using aquatic habitats as temporal niches for spreading and invading terrestrial sites along the watercourses. In contrast to forest ecosystems, knowledge of Phytophthora diversity in watercourses in Central Europe is limited. Between 2014 and 2019 extensive surveys of streams and rivers were undertaken across Austria, in South Moravia, Czech Republic and Žilina province, Slovakia to unveil the diversity and distribution of Phytophthora and related oomycetes. In addition, in Austria riparian forests of black alder ( Alnus glutinosa ) and grey alder ( A. incana ) in lowlands and in the Alps were examined. A variety of Phytophthora species from clades 2, 6, 7, 8, 9 and 10 were isolated, with clade 6 species showing the widest distribution and abundance. Furthermore, interspecific clade 6 hybrids and other oomycetes such as Halophytophthora fluviatilis and undescribed Nothophytophthora spp. were also obtained. In riparian alders, symptoms of Phytophthora infections were associated with species from the P.  ×  alni complex and P. plurivora . Phytophthora plurivora was most common in alder stands whereas P. uniformis was the oomycete species occurring at the highest altitude in alpine riparian areas., Supplementary Information: The online version contains supplementary material available at 10.1007/s11557-023-01898-1., Competing Interests: Competing interestsThe authors declare no competing interests., (© The Author(s) 2023.)

Published

2023

22. First Report of Dieback of Quercus suber Trees Associated with Phytophthora quercina in Morocco.

Author

Dorado FJ, Corcobado T, Brandano A, Abbas Y, Alcaide F, Janousek J, Jung T, Scanu B, and Solla A

Abstract

Cork oak (Quercus suber L.) is an evergreen tree native to SW Europe and NW Africa. It covers 2·106 ha in the western Mediterranean basin, forms heterogeneous forest ecosystems and represents an important source of income derived from cork production. While in Iberia, Italy, Tunisia and Algeria, drought and several endemic pathogens have been associated with cork oak decline (Moricca et al. 2016; Smahi et al. 2017), in Morocco there is no evidence, apart from overgrazing and human intervention (Fennane and Rejdali 2015), of a pathogen associated with oak decline. In December 2019, extensive dieback and mortality of 60-year-old cork oak trees were observed in a natural stand of ca 150 ha located 5 km east from Touazithe, in Maâmora forest, Morocco (34°13'38''N, 6°14'51''W - 87 m a.s.l.). Two years before, Q. suber seedlings from a local nursery were planted to increase tree density. Symptoms in trees and planted seedlings included chlorosis, reddish-brown discoloration of the whole crown and dieback starting in the upper crown. Root rot and lack of fine roots were observed. Tree mortality was estimated at ca 30%, and disease incidences of trees and seedlings were 45 and 70%, respectively. A Phytophthora species was consistently isolated from the rhizosphere of 3 symptomatic trees randomly selected at the site using leaves as bait (Jung et al. 1996). On carrot agar Phytophthora colonies were uniform and cottonwool-like. Sporangia were typically terminal, with ovoid, and obpyriform shape, mostly papillate, measuring 30.7 ± 4.7 µm length and 22.7 ± 4.1 µm wide. Oogonia were produced in single culture, and they were globose to subglobose, elongated to ellipsoid, 32.1 ± 2.9 µm in diameter and 46.1 ± 4.8 µm in length. Oospores were usually spherical, thick-walled, and measured 28.1 ± 2.4 µm. Antheridia were paragynous, mostly spherical, measuring 12.2 ± 1.4 µm. Isolates had minimum and maximum temperatures of 5 °C and 30 °C, respectively, and a growth optimum at 20 °C. Apart from the small size of sporangia, features were typical of Phytophthora quercina Jung. The identity of a representative strain (TJ1500) was corroborated by sequencing the ITS and mitochondrial cox1 gene regions, and BLAST search in GenBank showed 100% homology with sequences of the ex-type culture of P. quercina (KF358229 and KF358241 accessions, respectively). Both sequences of the representative isolate were submitted to GenBank (accessions OP086243 and OP290549). The strain TJ1500 is currently stored within the culture collections of the Mendel University in Brno and the University of Sassari. Its pathogenicity was verified and compared with a P. cinnamomi strain in a soil infestation test with one-year-old cork oak seedlings (Corcobado et al. 2017). Five months after inoculation, the symptoms described were observed in the seedlings, and fine root weight of plants inoculated with the TJ1500 strain and P. cinnamomi was reduced by 19 and 42%, respectively, in relation to non-inoculated controls. The pathogen was re-isolated from the necrotic roots, thus fulfilling Koch's postulates. So far, P. quercina has been reported associated with chronic mortality of cork oak in new plantations in Spain (Martín-García et al. 2015; Jung et al. 2016) and natural forests in Italy (Seddaiu et al. 2020). To our knowledge this is the first report of P. quercina in Morocco. Givenat Morocco is an important cork producing country, our finding warns about the risk this pathogen poses to Q. suber and other North African oaks.

Published

2022

23. Metabolomic and Physiological Changes in Fagus sylvatica Seedlings Infected with Phytophthora plurivora and the A1 and A2 Mating Types of P. ×cambivora .

Author

Corcobado T, Milenković I, Saiz-Fernández I, Kudláček T, Plichta R, Májek T, Bačová A, Ďatková H, Dálya LB, Trifković M, Mureddu D, Račko V, Kardošová M, Ďurkovič J, Rattunde R, and Jung T

Abstract

Phytophthora infections are followed by histological alterations, physiological and metabolomic adjustments in the host but very few studies contemplate these changes simultaneously. Fagus sylvatica seedlings were inoculated with A1 and A2 mating types of the heterothallic P. ×cambivora and with the homothallic P. plurivora to identify plant physiological and metabolomic changes accompanying microscope observations of the colonization process one, two and three weeks after inoculation. Phytophthora plurivora -infected plants died at a faster pace than those inoculated with P. ×cambivora and showed higher mortality than P. ×cambivora A1-infected plants. Phytophthora ×cambivora A1 and A2 caused similar progression and total rate of mortality. Most differences in the physiological parameters between inoculated and non-inoculated plants were detected two weeks after inoculation. Alterations in primary and secondary metabolites in roots and leaves were demonstrated for all the inoculated plants two and three weeks after inoculation. The results indicate that P. plurivora is more aggressive to Fagus sylvatica seedlings than both mating types of P. ×cambivora while P. ×cambivora A1 showed a slower infection mode than P. ×cambivora A2 and led to minor plant metabolomic adjustments.

Published

2022

24. The Destructive Tree Pathogen Phytophthora ramorum Originates from the Laurosilva Forests of East Asia.

Author

Jung T, Horta Jung M, Webber JF, Kageyama K, Hieno A, Masuya H, Uematsu S, Pérez-Sierra A, Harris AR, Forster J, Rees H, Scanu B, Patra S, Kudláček T, Janoušek J, Corcobado T, Milenković I, Nagy Z, Csorba I, Bakonyi J, and Brasier CM

Abstract

As global plant trade expands, tree disease epidemics caused by pathogen introductions are increasing. Since ca 2000, the introduced oomycete Phytophthora ramorum has caused devastating epidemics in Europe and North America, spreading as four ancient clonal lineages, each of a single mating type, suggesting different geographical origins. We surveyed laurosilva forests for P. ramorum around Fansipan mountain on the Vietnam-China border and on Shikoku and Kyushu islands, southwest Japan. The surveys yielded 71 P. ramorum isolates which we assigned to eight new lineages, IC1 to IC5 from Vietnam and NP1 to NP3 from Japan, based on differences in colony characteristics, gene x environment responses and multigene phylogeny. Molecular phylogenetic trees and networks revealed the eight Asian lineages were dispersed across the topology of the introduced European and North American lineages. The deepest node within P. ramorum , the divergence of lineages NP1 and NP2, was estimated at 0.5 to 1.6 Myr. The Asian lineages were each of a single mating type, and at some locations, lineages of "opposite" mating type were present, suggesting opportunities for inter-lineage recombination. Based on the high level of phenotypic and phylogenetic diversity in the sample populations, the coalescence results and the absence of overt host symptoms, we conclude that P. ramorum comprises many anciently divergent lineages native to the laurosilva forests between eastern Indochina and Japan.

Published

2021

25. Patterns of Genetic Diversification in the Invasive Hybrid Plant Pathogen Phytophthora × alni and Its Parental Species P. uniformis .

Author

Mizeriene G, Cerny K, Zyka V, Bakonyi J, Nagy ZÁ, Oliva J, Redondo MA, Corcobado T, Martín-García J, and Prospero S

Subjects

Ecosystem, Europe, Genetic Variation, Genotype, Microsatellite Repeats genetics, Plant Diseases, Sweden, Phytophthora genetics

Abstract

In pathogenic fungi and oomycetes, interspecific hybridization may lead to the formation of new species having a greater impact on natural ecosystems than the parental species. From the early 1990s, a severe alder ( Alnus spp.) decline due to an unknown Phytophthora species was observed in several European countries. Genetic analyses revealed that the disease was caused by the triploid hybrid P. × alni , which originated in Europe from the hybridization of P. uniformis and P. × multiformis . Here, we investigated the population structure of P. × alni (158 isolates) and P. uniformis (85 isolates) in several European countries using microsatellite markers. Our analyses confirmed the genetic structure previously observed in other European populations, with P. uniformis populations consisting of at most two multilocus genotypes (MLGs) and P. × alni populations dominated by MLG Pxa-1. The genetic structure of P. × alni populations in the Czech Republic, Hungary and Sweden seemed to reflect the physical isolation of river systems. Most rare P. × alni MLGs showed a loss of heterozygosity (LOH) at one or a few microsatellite loci compared with other MLGs. This LOH may allow a stabilization within the P. × alni genome or a rapid adaptation to stress situations. Alternatively, alleles may be lost because of random genetic drift in small, isolated populations, with no effect on fitness of P. × alni . Additional studies would be necessary to confirm these patterns of population diversification and to better understand the factors driving it.

Published

2020

26. Invasive forest pathogens in Europe: Cross-country variation in public awareness but consistency in policy acceptability.

Author

Eriksson L, Boberg J, Cech TL, Corcobado T, Desprez-Loustau ML, Hietala AM, Jung MH, Jung T, Lehtijarvi HTD, Oskay F, Slavov S, Solheim H, Stenlid J, and Oliva J

Subjects

Europe, Surveys and Questionnaires, Forests, Policy

Abstract

Political action can reduce introductions of diseases caused by invasive forest pathogens (IPs) and public support is important for effective prevention. The public's awareness of IP problems and the acceptability of policies aiming to combat these pathogens were surveyed in nine European countries (N = 3469). Although awareness of specific diseases (e.g., ash dieback) varied, problem awareness and policy acceptability were similar across countries. The public was positive towards policies for informational measures and stricter standards for plant production, but less positive towards restricting public access to protected areas. Multilevel models, including individual and country level variables, revealed that media exposure was positively associated with awareness of IP problems, and strengthened the link between problem awareness and policy acceptability. Results suggest that learning about IPs through the media and recognizing the associated problems increase policy acceptability. Overall, the study elaborates on the anthropogenic dimension of diseases caused by IPs.

Published

2019