Occurrence of Stem Rot on Acacia mangium Caused by Amauroderma subresinosum.

Abstract

Acacia mangium has the characteristics of developed root system, nitrogen fixation and soil improvement, fast growth and high yield, and improvement of soil fertility. It is often used as a windbreak tree species in rubber plantations, a highway shade tree, for coastal and mountain restoration in Hainan . In October 2021, a stem rot disease with an incidence of 3% was found in Baisha city(19°22'18″N,109°16'58″E), Hainan Province, China. In the early stage of the disease, the crown showed chlorotic leaves, followed by defoliation. In later stages, whole tree dieback was observed. The basal tissue of the stem of the diseased tree had white rot, and black-brown basidiocarps were observed about 1 m away from the ground. The basidiocarps surface of fresh was disinfected with 75 % ethanol, the epidermal tissue was removed, and the inner tissue blocks were transferred to PDA medium. After culturing in dark at 28°C for 3 days, a colony with white aerial mycelium was isolated and designated: HNBSMZXS20211011001. The basidiocarp was dark brown, sessile, mostly one-year-old, and the cap is nearly semi-circular, wooden, slightly shiny, with a size of 14.7 to 18.1cm × 9.5 to 10.1 cm. The base is thick (5 to 6.5 cm) and the edge is thin (0.3 to 0.7 cm). The basidiospores are oval, 10.7 to 13.65μm × 6.7 to 9.06μm in size, with a double-layer wall. The outer wall is transparent and the inner wall is light yellow. The basidiospores contain 1~2 oil droplets. The morphological features are consistent with those of Amauroderma subresinosum (Murrill) Corner (Zhang et al., 2000). The basidiocarps and type strain cultures were stored as accessions in the Laboratory of Plant Pathogen Fungus Biology, Hainan University. For pathogenicity tests, sawdust culture medium was used (soft sawdust 82%, wheat bran 15%, glucose 2%, gypsum 1%, mixed with water in proportion, sterilized at 121°C for 40min). The mycelium plug from a fresh culture (d=5mm) was taken from the edge of the colony of type strain, and transferred to the sterilized sawdust medium. When mycelium has colonized the media, it was used to inoculate plants. Media without mycelium was used as a control. Naturally growing seedlings (three year old) of A.mangium were selected from the teaching nurseries of Hainan University (20°6'25''N,110°32'24''E). First, 75 % alcohol was sprayed on the stem of the base of A.mangium for surface disinfection. After the surface was dried, a slight wound (about 4×2cm) was made on the surface with a sterilized scalpel. A inoculated and control sawdust media rods were tightly attached to the wound, moistened with cotton balls soaked in sterile water, and then fixed with plastic wrap, and the outer layer was wrapped with newsprint. Inoculation and controls were replicated three times. Two months after inoculated, the stems of the plants inoculated with the isolated fungus grew white hyphae and showed white rot symptoms, and the leaves became chlorotic and defoliated with complete tree decline in six months, which was consistent with the original symptoms observed. By comparison, white callus had grown on the edge of the stem wounds of the control plants. The same fungus was re-isolated from the inoculated plants and confirmed as A.subresinosum based on the internal transcribed spacer (ITS), the ribosomal large subunit(LSU), and the translation elongation factor 1-α(EF1-α) gene sequence, the fungus was not isolated from control plants thus fulfilling Koch's postulates. The ITS region of r-DNA, the ribosomal large subunit(LSU), the translation elongation factor 1-α gene(EF1-α) were amplified using ITS1/ITS4(White et al. 1990), LR0R/LR5(Hu et al. 2021), EF1-983F/EF1-1567R(Buckley et al. 2005) primers, respectively. The sequences of ITS (OQ674500), LSU (OQ674502) and EF1-α gene (OQ883944) were submitted to GenBank. Through with BLAST, the identities of the ITS, LSU and EF1-α sequences to A.subresinosum (GenBank Accession no. ITS: LC176755; LSU: MK119903 and EF1-α: MK121572) was 99.82%; 99.15% and 99.82%, respectively, the identities were more than 99 %. It was reported that A.subresinosum could infect Casuarina equisetifolia and Areca catechu(Chen et al., 2016; Cheng. 2017; Wu et al., 2019). However, this is the first report of Amauroderma subresinosum causing stem rot of Acacia mangiumin Hainan, China. This report will facilitate field diagnosis and provide scientific reference for further research on the disease.