Phytophthora austrocedri in Argentina and Co-Inhabiting Phytophthoras: Roles of Anthropogenic and Abiotic Factors in Species Distribution and Diversity

LA MANNA, LUDMILA; ELLIOTT, MATT; GRESLEBIN, ALINA; TARABINI, MANUELA; HEDLEY, PETE E.; VÉLEZ, MARÍA LAURA; GOMEZ, FEDERICO; COCK, PETER; LA MANNA, LUDMILA; ELLIOTT, MATT; GRESLEBIN, ALINA; TARABINI, MANUELA; HEDLEY, PETE E.; VÉLEZ, MARÍA LAURA; GOMEZ, FEDERICO; COCK, PETER

Forests

MDPI

Lugar: Basel; Año: 2020 vol. 11

1999-4907

This work reports the first survey of Phytophthora diversity in forests soils of Andean Patagonia. It also discusses the role of anthropogenic impact on Phytophthora distribution inferred from the findings on Phytophthora diversity and on the distribution of Phytophthora austrocedri-diseased forests. Invasive pathogen species threaten ecosystems and human activities contribute to their entry and spread. Information on pathogens already established, and early detection of potential invasive ones, are crucial to disease management and prevention. Phytophthora austrocedri causes the most damaging forest disease in Patagonia, affecting the endemic species Austrocedrus chilensis. However, the relationship between anthropogenic impacts and the disease distribution has not been analyzed enough. The aims of this work were: to evaluate Phytophthora diversity in soils of Andean Patagonia using a metabarcoding method, and analyze this information in relation to soil type and land use; to assess the distribution of Austrocedrus disease over time in relation to anthropogenic and abiotic gradients in an area of interest; and to discuss the role of human activities in Phytophthora spread. High throughput Illumina sequencing was used to detect Phytophthora DNA in soil samples. The distribution of Austrocedrus disease over time was assessed by satellite imagery interpretation. Twenty three Phytophthora species, 12 of which were new records for Argentina, were detected. The most abundant species was P. austrocedri, followed by P. x cambivora, P. ramorum and P. kernoviae. The most frequent was P. x cambivora, followed by P. austrocedri and P. ramorum. Phytophthora richness and abundance, and Austrocedrus disease distribution, were influenced by land use, anthropogenic impact and soil drainage. Results showed several Phytophthoras, including well-known pathogenic species. The threat they could have on Patagonian ecosystems and their relation to human activities are discussed. This study evidenced the need of management measures to control the spread of P. austrocedri and other invasive Phytophthora species in Patagonia.