Abstract
Trichoderma is a genus of filamentous fungi with several species widely studied and used as biological control
agents (BCAs) in agriculture. With respect to fungal disease control, Trichoderma spp. can use different mechanisms of action, including mycoparasitism, antibiosis, competition and/or activation of plant defences. Armillaria
spp. are the causal pathogens of Armillaria root rot (ARR) disease, which is widely distributed and of great
economic and environmental importance in agriculture and forestry. ARR can be devastating to plant health,
through colonisation and rotting of the root system and collar of the infected plant/tree, which can cause a
reduction in yield and eventually death. Armillaria can live as a saprophyte that survives on dead plant material,
making eradication of ARR extremely difficult. In an exhaustive analysis of work published to date on the control
of Armillaria spp. by Trichoderma spp., using the WoS and Scopus databases, we identified 31 papers. We discuss
these reports in light of their key findings, including number of publications per year, the countries where they
were published, the journals and the citations obtained so far. Although the vast majority do not identify the
mechanism of action involved in control, some describe mycoparasitism, antibiosis, competition or modification
of the rhizospheric microbiota as being responsible for effective biological control of the pathogen. Further
research into these mechanisms and additional in-depth analysis of less studied or currently unidentified
mechanisms, such as the activation of plant defences, would be highly beneficial to our understanding of Trichoderma as a BCA of Armillaria.
agents (BCAs) in agriculture. With respect to fungal disease control, Trichoderma spp. can use different mechanisms of action, including mycoparasitism, antibiosis, competition and/or activation of plant defences. Armillaria
spp. are the causal pathogens of Armillaria root rot (ARR) disease, which is widely distributed and of great
economic and environmental importance in agriculture and forestry. ARR can be devastating to plant health,
through colonisation and rotting of the root system and collar of the infected plant/tree, which can cause a
reduction in yield and eventually death. Armillaria can live as a saprophyte that survives on dead plant material,
making eradication of ARR extremely difficult. In an exhaustive analysis of work published to date on the control
of Armillaria spp. by Trichoderma spp., using the WoS and Scopus databases, we identified 31 papers. We discuss
these reports in light of their key findings, including number of publications per year, the countries where they
were published, the journals and the citations obtained so far. Although the vast majority do not identify the
mechanism of action involved in control, some describe mycoparasitism, antibiosis, competition or modification
of the rhizospheric microbiota as being responsible for effective biological control of the pathogen. Further
research into these mechanisms and additional in-depth analysis of less studied or currently unidentified
mechanisms, such as the activation of plant defences, would be highly beneficial to our understanding of Trichoderma as a BCA of Armillaria.
| Original language | English |
|---|---|
| Article number | 105424 |
| Journal | Biological Control |
| Volume | 188 |
| Early online date | 12 Dec 2023 |
| DOIs | |
| Publication status | Published - 5 Jan 2024 |
Bibliographical note
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