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Uthoff, Jana; Jakobs-Schönwandt, Desiree; Schmidt, Jan Henrik; Hallmann, Johannes; Dietz, Karl-Josef; Patel, Anant

Biological enhancement of the cover crop Phacelia tanacetifolia (Boraginaceae) with the nematophagous fungus Pochonia chlamydosporia to control the root-knot nematode Meloidogyne hapla in a succeeding tomato plant

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  • Medientyp: E-Artikel
  • Titel: Biological enhancement of the cover crop Phacelia tanacetifolia (Boraginaceae) with the nematophagous fungus Pochonia chlamydosporia to control the root-knot nematode Meloidogyne hapla in a succeeding tomato plant
  • Beteiligte: Uthoff, Jana; Jakobs-Schönwandt, Desiree; Schmidt, Jan Henrik; Hallmann, Johannes; Dietz, Karl-Josef; Patel, Anant
  • Erschienen: Springer Science and Business Media LLC, 2024
  • Erschienen in: BioControl
  • Sprache: Englisch
  • DOI: 10.1007/s10526-023-10222-5
  • ISSN: 1386-6141; 1573-8248
  • Schlagwörter: Insect Science ; Agronomy and Crop Science
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  • Beschreibung: <jats:title>Abstract</jats:title><jats:p>Root-knot nematodes cause global economic losses in a wide range of crops. We investigated the potential of seed coatings of the cover crop <jats:italic>Phacelia tanacetifolia</jats:italic> (Boraginaceae) when inoculated with the nematophagous fungus <jats:italic>Pochonia chlamydosporia</jats:italic> (Hypocreales: Clavicipitaceae) to protect subsequently grown tomato plants from root galling caused by the root-knot nematode <jats:italic>Meloidogyne hapla</jats:italic> (Tylenchida: Meloidogynidae). Therefore, seeds of <jats:italic>P.</jats:italic> <jats:italic>tanacetifolia</jats:italic> were coated with <jats:italic>P.</jats:italic> <jats:italic>chlamydosporia</jats:italic> blastospores and planted in <jats:italic>M.</jats:italic> <jats:italic>hapla</jats:italic>-infested pots. After 50 days of growth in infested soil, <jats:italic>M.</jats:italic> <jats:italic>hapla</jats:italic> eggs were extracted from <jats:italic>P.</jats:italic> <jats:italic>tanacetifolia</jats:italic> roots and quantified. Tomato plants grown in the remaining soil served as bioindicator of <jats:italic>M.</jats:italic> <jats:italic>hapla</jats:italic> infestation as expressed by the gall index. Results showed that seed coating of <jats:italic>P. tanacetifolia</jats:italic> with <jats:italic>P. chlamydosporia</jats:italic> (290 ± 51 CFU per seed) reduced the number of <jats:italic>M. hapla</jats:italic> eggs up to 95.6% in comparison to untreated controls. <jats:italic>Pochonia chlamydosporia</jats:italic> as blastospore suspension (5·10<jats:sup>8</jats:sup> blastospores per 600 ml soil) reduced the number of <jats:italic>M. hapla</jats:italic> eggs by up to 75.5%. Additionally, tomato plants grown for 50 days in substrates previously planted with <jats:italic>P.</jats:italic> <jats:italic>tanacetifolia</jats:italic> seeds coated with <jats:italic>P.</jats:italic> <jats:italic>chlamydosporia</jats:italic> showed a significantly lower gall index than plants grown in untreated pots. In conclusion, biological enhancement of <jats:italic>P. tanacetifolia</jats:italic> by seed coating with <jats:italic>P.</jats:italic> <jats:italic>chlamydosporia</jats:italic> successfully reduced <jats:italic>M. hapla</jats:italic> and thus provides an additional tool in the management of this nematode. The method still has potential for further improvement such as increasing blastospore viability within the seed coating by optimized formulation technology.</jats:p>