Abstract
Wilt disease of roselle (Hibiscus sabdariffa L.) is common in Taiwan; however, the causative agent remains unknown. The stems of wilted roselle are browned, slightly constricted, and covered by white aerial hyphae, suggesting that potential pathogens may originate from soil. To identify the potential pathogens, we conducted a rhizosphere microbiota survey in phenotypically healthy and diseased plants through fungal internal transcribed spacer (ITS) and bacterial 16S rRNA amplicon sequencing for uncovering the microbial compositions in the roselle rhizosphere. The fungal family Nectriaceae exhibited significantly higher abundance in diseased rhizospheres than in healthy rhizospheres, and this bacterial community was more specific to geography (i.e., plot-dependent) than to rhizosphere disease status. However, a few bacterial groups such as Bacilli were associated with the healthy rhizosphere. Fusarium species were the most dominant species of Nectriaceae in the survey and became the main target for potential pathogen isolation. We successfully isolated 119 strains from diseased plants in roselle fields. Koch’s postulates were used to evaluate the pathogenicity of these strains; our results indicated that Fusarium solani K1 (FsK1) can cause wilting and a rotted pith in roselles, which was consistent with observations in the fields. This is the first demonstration that F. solani can cause roselle wilt in Taiwan. Furthermore, these newly isolated strains are the most dominant operational taxonomic units detected in ITS amplicon sequencing in diseased rhizospheres, which serves as further evidence that F. solani is the main pathogen causing the roselle wilt disease. Administration of Bacillus velezensis SOI-3374, a strain isolated from a healthy roselle rhizosphere, caused considerable anti-FsK1 activity, and it can serve as a potential biocontrol agent against roselle wilt disease.
Highlights
Roselle (Hibiscus sabdariffa L.) is a multipurpose crop that belongs to the Malvaceae family (Alshoosh, 1997; Islam et al, 2016)
Four main objectives were achieved: (1) fungal and bacterial communities were surveyed in the rhizospheres of healthy and diseased roselles; (2) we found that Fusarium species were overabundant in diseased roselle plants compared with their healthy counterparts; (3) the dominant fungal species of F. solani was successfully isolated and verified as being the most likely pathogen causing roselle wilt disease; (4) a bacterial strain, Bacillus velezensis SOI-3374, isolated from the healthy roselle rhizosphere exhibited a significant anti-F. solani effect in vitro, highlighting its potential as a biocontrol agent for this disease
Amplicon sequencing was used to explore the mycobiota and microbiota in healthy and diseased roselle rhizosphere soils; the results indicated that the abundant fungal operational taxonomic units (OTUs), OTU_JX371352 was considerably more common in diseased soil rhizospheres than in healthy soil rhizospheres and is a potential pathogen
Summary
Roselle (Hibiscus sabdariffa L.) is a multipurpose crop that belongs to the Malvaceae family (Alshoosh, 1997; Islam et al, 2016). Roselle is native to West Africa and India and is currently grown in numerous tropical and subtropical regions. It is an annual or perennial, woody or herbaceous plant and can be divided into two common varieties that are cultivated for food According to a national survey conducted by the Agricultural and Food Agency in Taiwan, as of 2019, the nationwide cultivation area of roselle was approximately 182.53 ha, with an annual yield of approximately 305,925 kg. Various diseases occur in roselle plants in Taiwan, including gray mold (Botrytis cinerea), irregular leaf spot (Cercospora malayensis), anthracnose (Colletotrichum gloeosporioides), Sclerotinia rot (Sclerotinia sclerotiorum), Phytophthora infection (Phytophthora nicotianae), bacterial wilt (Ralstonia solanacearum), wrinkled leaves and phyllody disorder (16SrI phytoplasma), and diseases caused by nematodes and insect pests (Tzean, 2019)
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