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Tree physiology
02 11, 2024;44 (2):

Physiological, metabolic and hormonal responses of two Pinus spp. with contrasting susceptibility to brown-spot needle blight disease.

Pedro Monteiro, Luis Valledor, Sonia Osorio, Álvaro Camisón, José Gabriel Vallarino, Aurelio Gómez-Cadenas, Julio Javier Díez, Glória Pinto
Author Information
  1. Pedro Monteiro: Centre for Environmental and Marine Studies (CESAM), Department of Biology, University of Aveiro, Campus Universitário de Santiago, Aveiro 3810-193, Portugal.
  2. Luis Valledor: Plant Physiology, Department of Organisms and Systems Biology, Biotechnology Institute of Asturias, University of Oviedo, Campus de El Cristo, Calle Catedrático Rodrigo Uría, 33071 Oviedo, Asturias, Spain.
  3. Sonia Osorio: Department of Molecular Biology and Biochemistry, Institute of Subtropical and Mediterranean Horticulture "La Mayora" (IHSM), University of Málaga-Superior Council of Scientific Research, Campus de Teatinos, Avenida Louis Pasteur 49, Málaga 29071, Spain.
  4. Álvaro Camisón: Centre for Environmental and Marine Studies (CESAM), Department of Biology, University of Aveiro, Campus Universitário de Santiago, Aveiro 3810-193, Portugal.
  5. José Gabriel Vallarino: Department of Molecular Biology and Biochemistry, Institute of Subtropical and Mediterranean Horticulture "La Mayora" (IHSM), University of Málaga-Superior Council of Scientific Research, Campus de Teatinos, Avenida Louis Pasteur 49, Málaga 29071, Spain.
  6. Aurelio Gómez-Cadenas: Departamento de Biología, Bioquímica y Ciencias Naturales, Universitat Jaume I, Avenida Vicent Sos Baynat, Castelló de la Plana 12071, Spain.
  7. Julio Javier Díez: Department of Plant Production and Forest Resources, University of Valladolid, Avenida de Madrid 44, Palencia 34071, Spain.
  8. Glória Pinto: Centre for Environmental and Marine Studies (CESAM), Department of Biology, University of Aveiro, Campus Universitário de Santiago, Aveiro 3810-193, Portugal.
PMID: 38195942 DOI: 10.1093/treephys/tpae003

Abstract

Needle blights are serious fungal diseases affecting European natural and planted pine forests. Brown-spot needle blight (BSNB) disease, caused by the fungus Lecanosticta acicola, causes canopy defoliation and severe productivity losses, with consequences depending on host susceptibility. To gain new insights into BSNB plant-pathogen interactions, constitutive and pathogen-induced traits were assessed in two host species with differential disease susceptibility. Six-month-old Pinus radiata D. Don (susceptible) and Pinus pinea L. (more resistant) seedlings were needle inoculated with L. acicola under controlled conditions. Eighty days after inoculation, healthy-looking needles from symptomatic plants were assessed for physiological parameters and sampled for biochemical analysis. Disease progression, plant growth, leaf gas-exchanges and biochemical parameters were complemented with hormonal and untargeted primary metabolism analysis and integrated for a holistic analysis. Constitutive differences between pine species were observed. Pinus pinea presented higher stomatal conductance and transpiration rate and higher amino and organic acids, abscisic acid as well as putrescine content than P. radiata. Symptoms from BSNB disease were observed in 54.54% of P. radiata and 45.45% of P. pinea seedlings, being more pronounced and generalized in P. radiata. For both species, plant height, sub-stomatal CO2 concentration and water-use efficiency were impacted by infection. In P. radiata, total soluble sugars, starch and total flavonoids content increased after infection. No differences in hormone content after infection were observed. However, secondary metabolism was induced in P. pinea visible through total phenolics, flavonoids and putrescine accumulation. Overall, the observed results suggest that P. pinea constitutive and induced traits may function as two layers of a defence strategy which contributed to an increased BSNB resistance in comparison with P. radiata. This is the first integrative study linking plant physiological and molecular traits in Pinus-Lecanosticta acicola pathosystem, contributing to a better understanding of the underlying resistance mechanisms to BSNB disease in pines.

Keywords

Lecanosticta acicola emergent forest diseases metabolomics pine foliar diseases

Grants

  1. VA208P20/Junta Castilla y León (JCYL, Spain) and EU funds
  2. PLEC2021-008076/Spanish Ministry of Science and Innovation and by the European Union through the Next Generation funds
  3. /Ramón y Cajal Programs RYC2021-034936-I (Spanish Ministry of Science and Innovation)
  4. /EMERGIA Programme (EMERGIA20_00309-Junta de Andalucía)
  5. P21-00315/PAIDI 2020 and 2021-Junta de Andalucia
  6. PID2021-128527OB-I00/Spanish Ministry of Science and Innovation
  7. /'Ayudas Margarita Salas para la formación de jóvenes doctores' from the Universidad de Extremadura (Spain)
  8. CENTRO-08-5864-FSE-000031/Programa Operacional Regional do Centro (Centro 2020) Portugal 2020 and Fundo Social Europeu
  9. SFRH/BD/143879/2019/Portuguese Foundation for Science and Technology (FCT/MCTES)

MeSH Term

Pinus
Putrescine
Ascomycota
Seedlings
Flavonoids

Chemicals

Putrescine
Flavonoids
Journal Article

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