First report of Neofusicoccum australe causing dieback of honeybush in the Western Cape, South Africa

First report of Neofusicoccum australe causing dieback of honeybush in the Western Cape, South Africa

Honeybush (Cyclopia spp.) is an indigenous, leguminous member of the Cape fynbos biome growing in the coastal winter rainfall districts of the Western and Eastern Cape Provinces of South Africa (Joubert et al. 2011). Honeybush is used for the production of herbal teas and is harvested from wild-grow...

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Veröffentlicht in:Plant disease. - 1997. - (2022) vom: 15. Aug.
1. Verfasser: Halleen, Francois (VerfasserIn)
Weitere Verfasser: Havenga, Minette, McLeod, Adèle, Mostert, Lizel
Format: Online-Aufsatz
Sprache:English
Veröffentlicht: 2022
Zugriff auf das übergeordnete Werk:Plant disease
Schlagworte:Journal Article Botryosphaeriaceae Causal Agent Crop Type Cyclopia subternata Etiology Fungi Ornamentals Pathogen detection Subject Areas mehr... canker dieback pathogenicity woody ornamentals
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520 |a Honeybush (Cyclopia spp.) is an indigenous, leguminous member of the Cape fynbos biome growing in the coastal winter rainfall districts of the Western and Eastern Cape Provinces of South Africa (Joubert et al. 2011). Honeybush is used for the production of herbal teas and is harvested from wild-growing and cultivated plantations (du Toit et al. 1998). Very little is known regarding diseases caused by pathogens on this indigenous plant. Only one report of twig dieback on honeybush caused by several Diaporthe Nitschke species have been reported in South Africa (Smit et al. 2021). Several honeybush producers reported poor growth and dieback in their C. subternata plantations in the Western Cape Province, South Africa. Symptoms included twig dieback, branch dieback, death of branches as well as death of entire plants. In April 2008, branches from 8-year-old cultivated plants with dieback symptoms were collected in Stellenbosch. Fungal isolations were carried out from affected material as described by Van Niekerk et al. (2004) which consistently revealed the presence of a Botryosphaeriaceae species. Two isolates were grown on water agar with sterile pine needles and incubated at 25˚C using a 12-hour day/night cycle and near-ultraviolet light. Pycnidia formed after two weeks. Morphological characteristics similar to Neofusicoccum australe (Slippers, Crous & Wingfield) Crous, Slippers & Phillips were observed (Phillips et al. 2013). Conidia were hyaline, aseptate, fusiform with subtruncate bases (16.8-)18.8-22.1(-24.6) × (4.8-)5.3-6.1(-6.4) µm (n=50). Conidiogenous cells were holoblastic, hyaline and subcylindrical to flask-shaped tapering to the apex (11-15 × 2 µm) (n=10). Colonies on potato dextrose agar were light primrose turning olivaceous grey after 7 days with a light-yellow pigment diffusing into the medium. Mycelia was moderately dense with an appressed centre mat. The identity of the isolates was further confirmed by sequencing the ribosomal RNA Internal Transcribed Spacer (ITS) and the elongation factor 1-alpha (EF-1α) gene regions using primer pairs ITS4-ITS5 (White et al. 1990) and EF1-728F-EF1-986R (Alves et al. 2008), respectively. Sequences had a 100% similarity to N. australe ex-type CMW6837 isolate (accessions AY339262 and AY339270) (Slippers et al. 2004). Two isolates (STEU6554 and STEU6557) were deposited in the culture collection at the Department of Plant Pathology at Stellenbosch University and the sequences were submitted to GenBank with accession numbers ON745603, ON745604, ON746573 and ON746574. Pathogenicity tests using the two N. australe isolates were conducted by inoculating two shoots each of three field-grown C. subternata plants with a 4mm colonised potato dextrose agar (PDA) mycelium plug of each isolate on wounds made by a 4mm cork borer (Van Niekerk et al. 2004). A third shoot was inoculated with a uncolonized PDA plug as the negative control. After 12 weeks, brown-black lesions that were significantly longer (average 55.2 mm) than the uncolonized agar plug control (16.1 mm) were observed. Lesions were observed in all three plants. Neofusicoccum australe was re-isolated (van Niekerk et al. 2004) from all inoculated shoots confirming Koch's postulates. The economic impact and damages caused by N. australe as well as its incidence and severity on honeybush in South Africa is unknown. However, the pathogen caused dieback of entire branches and death of plants indicating that it could be an important pathogen of honeybush. Additionally, N. australe is one of the most important disease-causing Botryosphaeriaceae pathogens on a wide range of economical fruit and vine crops globally (Mojeremane et al. 2020). This is the first report of N. australe as a known pathogen causing decline and dieback of C. subternata in South Africa. References: Alves, A. et al. 2008. Fungal Divers. 28:1. du Toit, J. et al. 1998. J. Sustain. Agric. 12:67. Joubert, E. et al. 2011. S. Afr. J. Bot. 77:887. Mojeremane, K. et al. 2020. Phytopathol. Mediterr. 59:581. Phillips, A. J. et al. 2013. Stud. Mycol. 76:51. Slippers, B. et al. 2004. Mycologia 96:1030. Smit, L. et al. 2021. Eur. J. Plant Pathol. 161:565. van Niekerk, J. M. et al. 2004. Mycologia 96:781. White, T. J. et al. 1990. Pages 315 in: In PCR Protocols: A Guide to Methods and Applications. Academic Press Inc, USA. Declaration. The author(s) declare no conflict of interest Acknowledgments. This work benefitted from the financial support of the Agricultural Research Council, Infruitec-Nietvoorbij, South Africa 
650 4 |a Journal Article 
650 4 |a Botryosphaeriaceae 
650 4 |a Causal Agent 
650 4 |a Crop Type 
650 4 |a Cyclopia subternata 
650 4 |a Etiology 
650 4 |a Fungi 
650 4 |a Ornamentals 
650 4 |a Pathogen detection 
650 4 |a Subject Areas 
650 4 |a canker 
650 4 |a dieback 
650 4 |a pathogenicity 
650 4 |a woody ornamentals 
700 1 |a Havenga, Minette  |e verfasserin  |4 aut 
700 1 |a McLeod, Adèle  |e verfasserin  |4 aut 
700 1 |a Mostert, Lizel  |e verfasserin  |4 aut 
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