Influences of Serendipita indica and Dictyophorae echinovolvata on the Growth and Fusarium Wilt Disease Resistance of Banana

Simple Summary By using ‘Zhongjiao No.3’ and ‘Zhongjiao No.4’ banana seedlings as plant materials, we investigated the influences of Serendipita indica and bamboo fungus (Dictyophorae echinovolvata) culture substrates on the growth and wilt disease resistance of banana. S. indica colonization significantly enhanced the growth of the two banana cultivars, while banana seedlings grown in nutrient soil containing bamboo fungus culture substrates inoculated with D. echinovolvata showed suppressed growth. Moreover, both S. indica colonization and D. echinovolvata culture substrates addition can alleviate the disease symptoms caused by Fusarium oxysporum f. sp. cubense tropical race 4 (FocTR4), and their combined application showed the best disease resistance enhancement effect. The results obtained in this study can provide a basis for the application of S. indica and bamboo fungus in the prevention and control of banana Fusarium wilt disease in the future. Abstract Recently, many control methods have been tried and applied in the Fusarium wilt disease control of banana and have achieved definite progresses. In this study, by using ‘Zhongjiao No.3’ and ‘Zhongjiao No.4’ banana seedlings as materials, the effects of Serendipita indica and bamboo fungus (Dictyophorae echinovolvata) culture substrates on the growth and Fusarium wilt disease resistance of banana were investigated. Results showed that the plant height, leaf length, leaf width, root length and root thickness, aboveground part fresh weight, root fresh weight, and relative chlorophyll content and nitrogen content in leaves of banana seedlings colonized with S. indica were all greater than those of non-colonized controls, while these parameters of banana seedlings grown in nutrient soil containing D. echinovolvata culture substrates were significantly suppressed. Both S. indica non-colonized and colonized seedlings cultivated in nutrient containing 1/4 D. echinovolvata culture substrates showed much milder symptoms compared with those cultivated in normal nutrient soil, indicating that the addition of bamboo fungus substrates to the soil can enhance the Fusarium wilt resistance of banana. The results obtained in this study can provide a basis for the application of S. indica and bamboo fungus in the prevention and control of banana Fusarium wilt disease.


Introduction
Serendipita indica (named formerly as Piriformospora indica) is an arbuscular mycorrhizal (AM)-like fungus isolated from the shrub roots in a desert of India by Verma et al. [1,2]. cultivar, while ZJ3 was somewhat sensitive to banana wilt disease. The S. indica and FocTR4 isolates used in this experiment were kept in our lab. The bamboo fungus culture substrates (containing 68% bamboo shaving, 30% rice hull, 1% urea, and 1% quicklime, pH 4.5~5.0) that have been inoculated with Dictyophorae echinovolvata for one month were purchased from a mushroom market in Nanping city, Fujian province of China.

Preparations of S. indica and FocTR4 Inoculation Solutions
Three round S. indica agar discs with a diameter of 5 mm were added into a triangular flask containing 100 mL PDB medium and cultured in the dark at 200 rpm at 28 • C for three days. Next, the obtained S. indica fermentation solution was diluted with distilled water for about 3 times and used as inoculation solution (containing approximately 60 g mycelia per liter and 1 × 10 5 spores per milliliter) [8]. With the same method, FocTR4 fermentation solution was prepared. Then, FocTR4 inoculation solution were prepared according to the method described by Wang et al. [18]. Briefly, FocTR4 fermentation solution was filtered using two layers of lens papers to remove mycelia, then spores were collected by centrifugation at 4000 rpm for 5 min, re-suspended in Hoagland nutrition solution, and adjusted to a final concentration of 1 × 10 7 spores/mL.

S. indica Inoculation and Colonization Observation
Roots of tissue-cultured banana seedlings were slightly wounded with surgical blades, soaked in S. indica inoculation solution for 6 h, and transplanted into plastic breeding bags containing nutrient soils (pH 5.5~6.0, Pindstrup, Ryomgård, Denmark). To better ensure its colonization, the S. indica inoculation solution was watered into the soil nearby the banana roots (S+ group) for three times [8]. Seedlings treated with the same volume and equally diluted PDB were used as controls (CK group). For the detection of S. indica colonization, at two weeks post-inoculation, roots of S+ plants were collected and cut into 1 cm segments, soaked in 10% KOH solution for 24 h, washed with sterile water for 5 times, treated with 1% hydrochloric acid solution for 4 min, then stained using 0.05% Trypan blue staining solution for 1 min [19] and observed under a Olympus optical microscope (Tokyo, Japan).

Growth Indexes Measurement
To investigate the effects of S. indica on the growth and development of banana, seedlings with and without S. indica colonization were transplanted into nutrient soil. To study the effects of bamboo fungus culture substrates on banana growth and development, half of the S. indica colonized and non-colonized seedlings were transplanted into nutrient soil containing no (CK group), 1/4 (1/4 group), 1/2 (1/2 group), and complete (ZS group) bamboo fungus culture substrates that have been inoculated with D. echinovolvata for one month, respectively. Then, all the seedlings were cultured in a greenhouse at 28 • C and transplanted into flowerpots at 2 months post-transplanting (mpt). At 1, 2, and 3 mpt, growth parameters such as plant height, leaf length, and leaf width were measured. At 3 mpt, root length, root number, root thickness, and fresh weight of overground and roots were also measured. Moreover, the chlorophyll relative content and nitrogen content in banana leaves were measured using a chlorophyll meter (TYS-4N, Beijing, China) at 3 mpt.

FocTR4 Inoculation
Banana seedlings without and with S. indica colonization were divided into two groups. One group was transplanted into nutrient soil (CK and S+ groups), and the other group was transplanted into nutrient soil containing 1/4 of bamboo fungus culture substrates (1/4Z and 1/4SZ groups). All the seedlings were cultured in a greenhouse at 28 • C for one month. Then, roots of CK and 1/4Z groups were directly immersed in FocTR4 inoculation solution for 24 h (F and ZF groups) [18]. Since S. indica can delay the appearance of Fusarium wilt symptoms [8], to accelerate symptom appearance of S. indica colonized banana seedling, the roots of S+ and 1/4SZ seedlings were firstly wounded using surgical blades, then washed and soaked in FocTR4 inoculation solution for 24 h (SF and SZF groups). After FocTR4 inoculation, seedlings were replanted back, and the FocTR4 inoculation solution was watered into the soil nearby the root system. Then, they were cultured in a greenhouse at 28 • C with a photoperiod of 12 h light/12 h dark. Five weeks later, disease symptoms of each banana seedling group were observed.

Statistics Analysis
For each group and each treatment, at least 10 seedlings of both the two banana cultivars were used, and all the parameters were measured for at least three times. Results for the detected parameters are presented as the mean ± standard deviation (SD). All the data analyses were performed using Microsoft Excel 2019 and IBM ® SPSS ® Statistics 25 (IBM Corporation, Armonk, NY, USA). Difference significance analysis among different groups was performed by using Duncan's multiple-range test at 0.05 level. GraphPad Prism v6.01 (GraphPad Software, Inc., San Diego, CA, USA) was used for figure drawing.

S. indica Colonization Detection Results
Two weeks after inoculation, S. indica colonization in banana roots was observed ( Figure 1). Typical pear-shaped spores were observed in roots of almost all the S. indica treated banana roots of the two banana cultivars, indicating that S. indica can easily colonized the roots of both ZJ3 and ZJ4 [8].
group was transplanted into nutrient soil containing 1/4 of bamboo fungus culture substrates (1/4Z and 1/4SZ groups). All the seedlings were cultured in a greenhouse at 28 °C for one month. Then, roots of CK and 1/4Z groups were directly immersed in FocTR4 inoculation solution for 24 h (F and ZF groups) [18]. Since S. indica can delay the appearance of Fusarium wilt symptoms [8], to accelerate symptom appearance of S. indica colonized banana seedling, the roots of S+ and 1/4SZ seedlings were firstly wounded using surgical blades, then washed and soaked in FocTR4 inoculation solution for 24 h (SF and SZF groups). After FocTR4 inoculation, seedlings were replanted back, and the FocTR4 inoculation solution was watered into the soil nearby the root system. Then, they were cultured in a greenhouse at 28 °C with a photoperiod of 12 h light/12 h dark. Five weeks later, disease symptoms of each banana seedling group were observed.

Statistics Analysis
For each group and each treatment, at least 10 seedlings of both the two banana cultivars were used, and all the parameters were measured for at least three times. Results for the detected parameters are presented as the mean ± standard deviation (SD). All the data analyses were performed using Microsoft Excel 2019 and IBM ® SPSS ® Statistics 25 (IBM Corporation, Armonk, NY, USA). Difference significance analysis among different groups was performed by using Duncan's multiple-range test at 0.05 level. GraphPad Prism v6.01 (GraphPad Software, Inc., San Diego, CA, USA) was used for figure drawing.

S. indica Colonization Detection Results
Two weeks after inoculation, S. indica colonization in banana roots was observed ( Figure 1). Typical pear-shaped spores were observed in roots of almost all the S. indica treated banana roots of the two banana cultivars, indicating that S. indica can easily colonized the roots of both ZJ3 and ZJ4 [8].

Effects of S. indica on the Growth of Banana Seedlings
After transplanting, the plant height, leaf length, and leaf width of banana seedlings were measured monthly and for a total of three times. The plant height, leaf length, and leaf width of S. indica-colonized ZJ3 and ZJ4 seedlings were both significantly higher than those of their corresponding control group at all the three timepoints (p < 0.05) (Figures 2  and 3). At 1 mpt, the plant height, leaf length, and leaf width of ZJ3 seedlings in S+ group was, respectively, about 1.35-, 1.38-, and 1.41-fold of CK group (Figure 2A), and the leaf width of ZJ4 seedlings in S+ group was about 1.50-fold of CK group. At 2 mpt, the plant height and leaf length of S+ group ZJ4 was about 1.26-and 1.25-fold the CK group,

Effects of S. indica on the Growth of Banana Seedlings
After transplanting, the plant height, leaf length, and leaf width of banana seedlings were measured monthly and for a total of three times. The plant height, leaf length, and leaf width of S. indica-colonized ZJ3 and ZJ4 seedlings were both significantly higher than those of their corresponding control group at all the three timepoints (p < 0.05) (Figures 2 and 3). At 1 mpt, the plant height, leaf length, and leaf width of ZJ3 seedlings in S+ group was, respectively, about 1.35-, 1.38-, and 1.41-fold of CK group (Figure 2A), and the leaf width of ZJ4 seedlings in S+ group was about 1.50-fold of CK group. At 2 mpt, the plant height and leaf length of S+ group ZJ4 was about 1.26-and 1.25-fold the CK group, respectively ( Figure 2B). At 3 mpt, the root length, root thickness, aboveground part fresh weight, and root fresh weight of the two banana cultivars were measured. Almost all these parameters of banana seedlings in S+ group were significantly higher than those of the CK (p < 0.05) ( Table 1 and Figure 4). The root fresh weight for ZJ3 and ZJ4 in S+ group was 1.72-and 1.99-fold of their corresponding CK group, respectively. The root numbers of ZJ3 and ZJ4 in S+ group were significantly greater than that in CK groups (p < 0.05), which was 1.47-fold and 1.27-fold of their corresponding CK, respectively. weight, and root fresh weight of the two banana cultivars were measured. Almost all these parameters of banana seedlings in S+ group were significantly higher than those of the CK (p < 0.05) ( Table 1 and Figure 4). The root fresh weight for ZJ3 and ZJ4 in S+ group was 1.72-and 1.99-fold of their corresponding CK group, respectively. The root numbers of ZJ3 and ZJ4 in S+ group were significantly greater than that in CK groups (p < 0.05), which was 1.47-fold and 1.27-fold of their corresponding CK, respectively.        , the left one is the typical seedlings in S+ group, and the right one is typical seedlings in CK group.

Effects of S. indica on the Relative Chlorophyll Contents and Nitrogen Content in Banana Leaves
At 3 mpt, the relative chlorophyll content and nitrogen content in leaves of ZJ3 and ZJ4 were measured. Results showed that both the two parameters of ZJ3 and ZJ4 in S+ group were significantly higher than those of CK (p < 0.05) ( Figure 5). Moreover, the relative chlorophyll content and nitrogen content of ZJ4 in S+ group were both the highest, reaching 33.93 SPAD and 13.38 mg/g, respectively.

Effects of S. indica on the Relative Chlorophyll Contents and Nitrogen Content in Banana Leaves
At 3 mpt, the relative chlorophyll content and nitrogen content in leaves of ZJ3 and ZJ4 were measured. Results showed that both the two parameters of ZJ3 and ZJ4 in S+ group were significantly higher than those of CK (p < 0.05) ( Figure 5). Moreover, the relative chlorophyll content and nitrogen content of ZJ4 in S+ group were both the highest, reaching 33.93 SPAD and 13.38 mg/g, respectively.

Effects of Bamboo Fungus on the Growth of Banana Seedlings
The plant height, leaf length, and leaf width of banana seedlings grown in nutrient soil containing different ratios of bamboo fungus culture substrates were measured at 1, 2, and 3 mpt (Table 2 and Figure 6). At 1 mpt, no significant plant height difference was found among different groups of the two banana cultivars. There was also no significant difference in leaf width among different groups of ZJ3 seedlings, but the leaf length of ZJ3 seedlings in CK group was significantly greater than the 1/2 and ZS groups. The average leaf length and width of ZJ4 seedlings in CK group were both significantly higher than those of other groups.

Effects of Bamboo Fungus on the Growth of Banana Seedlings
The plant height, leaf length, and leaf width of banana seedlings grown in nutrient soil containing different ratios of bamboo fungus culture substrates were measured at 1,  (Table 2 and Figure 6). At 1 mpt, no significant plant height difference was found among different groups of the two banana cultivars. There was also no significant difference in leaf width among different groups of ZJ3 seedlings, but the leaf length of ZJ3 seedlings in CK group was significantly greater than the 1/2 and ZS groups. The average leaf length and width of ZJ4 seedlings in CK group were both significantly higher than those of other groups.
At 2 mpt, the average plant height of ZJ3 seedlings followed the order CK > 1/4 > 1/2 > ZS. The leaf length and width of ZJ3 in CK group showed no significant difference with the 1/4 group, but seedlings in these two groups were both significantly higher than ZS group seedlings. The leaf length and width of ZJ4 seedlings in CK group showed no significant difference with 1/4 group, while their average plant height, leaf length, and leaf width were significantly larger than those of the ZS group. At 3 mpt, the plant height, leaf length, and leaf width of ZJ3 and ZJ4 both followed the order CK > 1/4 > 1/2 > ZS, and these parameters of CK group were all significantly higher than other groups. The plant height and leaf length of ZS group were significantly lower than those of other groups, and the leaf width of ZS group was not significantly different from that of 1/2 group, but significantly lower than that of CK group and 1/4 group.
At 3 mpt, the biomass and root development parameters of banana seedlings were also measured (Table 3 and Figure 7). The root length, root number, root thickness, and root fresh weight of ZJ3 seedlings in CK group showed little difference with that of 1/4 group, while the aboveground part fresh weight was significantly higher than that of 1/4 group, and all indexes were significantly greater than those of 1/2 group and ZS group. Compared with the CK group, the root length, root number, aboveground part, and root fresh weight of ZJ4 seedlings in 1/4 group significantly reduced, but no significant root thickness was found between the two groups. Moreover, all the root indexes of ZS group for both ZJ3 and ZJ4 were significantly lower than those of other groups.

Effects of Bamboo Fungus on the Relative Chlorophyll Content and Nitrogen Content of Banana Seedlings
At 3 mpt, the relative chlorophyll content and nitrogen content of banana seedlings were also measured. It was found that the relative chlorophyll content and nitrogen content of ZJ3 and ZJ4 both followed the order: CK > 1/4 > 1/2 > ZS ( Figure 8). The relative chlorophyll content and nitrogen content of ZJ3 seedlings in 1/4 group was significantly lower than those of CK group seedlings, but significantly higher than 1/2 and ZS groups. There was no significant relative chlorophyll content and nitrogen content difference between 1/4 group and CK group of ZJ4, and these parameters of the two groups were both significantly larger than their corresponding 1/2 and ZS groups.

Effects of S. indica and Bamboo Fungus on Banana Fusarium wilt Resistance
The disease symptoms in banana were observed at 5 weeks post-pathogen inoculation ( Figure 9). Results showed that the browning area in corms of ZJ3 and ZJ4 in F group accounted for about 18.53% and 9.61% of the whole corm, respectively. The ZJ3 and ZJ4 seedlings in ZF group both showed much milder symptoms than those in F groups, suggesting that the bamboo fungus culture substrates addition into nutrient soil can inhibit the infection of FocTR4. To accelerate the banana wilt symptom appearance of S. indica colonized banana seedlings, roots were wounded before FocTR4 inoculation. In SF group, the corms of ZJ3 and ZJ4 both showed a large area of browning, which accounted for about 35.50% and 27.68% of their whole corm, respectively. The symptoms in ZJ3 and ZJ4 corms in SZF group

Effects of Bamboo Fungus on the Relative Chlorophyll Content and Nitrogen Content of Banana Seedlings
At 3 mpt, the relative chlorophyll content and nitrogen content of banana seedlings were also measured. It was found that the relative chlorophyll content and nitrogen content of ZJ3 and ZJ4 both followed the order: CK > 1/4 > 1/2 > ZS ( Figure 8). The relative chlorophyll content and nitrogen content of ZJ3 seedlings in 1/4 group was significantly lower than those of CK group seedlings, but significantly higher than 1/2 and ZS groups. There was no significant relative chlorophyll content and nitrogen content difference between 1/4 group and CK group of ZJ4, and these parameters of the two groups were both significantly larger than their corresponding 1/2 and ZS groups.

Effects of Bamboo Fungus on the Relative Chlorophyll Content and Nitrogen Content of Banana Seedlings
At 3 mpt, the relative chlorophyll content and nitrogen content of banana seedlings were also measured. It was found that the relative chlorophyll content and nitrogen content of ZJ3 and ZJ4 both followed the order: CK > 1/4 > 1/2 > ZS ( Figure 8). The relative chlorophyll content and nitrogen content of ZJ3 seedlings in 1/4 group was significantly lower than those of CK group seedlings, but significantly higher than 1/2 and ZS groups. There was no significant relative chlorophyll content and nitrogen content difference between 1/4 group and CK group of ZJ4, and these parameters of the two groups were both significantly larger than their corresponding 1/2 and ZS groups.

Effects of S. indica and Bamboo Fungus on Banana Fusarium wilt Resistance
The disease symptoms in banana were observed at 5 weeks post-pathogen inoculation (Figure 9). Results showed that the browning area in corms of ZJ3 and ZJ4 in F group accounted for about 18.53% and 9.61% of the whole corm, respectively. The ZJ3 and ZJ4 seedlings in ZF group both showed much milder symptoms than those in F groups, suggesting that the bamboo fungus culture substrates addition into nutrient soil can inhibit the infection of FocTR4. To accelerate the banana wilt symptom appearance of S. indica colonized banana seedlings, roots were wounded before FocTR4 inoculation. In SF group, the corms of ZJ3 and ZJ4 both showed a large area of browning, which accounted for about 35.50% and 27.68% of their whole corm, respectively. The symptoms in ZJ3 and ZJ4 corms in SZF group

Effects of S. indica and Bamboo Fungus on Banana Fusarium Wilt Resistance
The disease symptoms in banana were observed at 5 weeks post-pathogen inoculation (Figure 9). Results showed that the browning area in corms of ZJ3 and ZJ4 in F group accounted for about 18.53% and 9.61% of the whole corm, respectively. The ZJ3 and ZJ4 seedlings in ZF group both showed much milder symptoms than those in F groups, suggesting that the bamboo fungus culture substrates addition into nutrient soil can inhibit the infection of FocTR4. To accelerate the banana wilt symptom appearance of S. indica colonized banana seedlings, roots were wounded before FocTR4 inoculation. In SF group, the corms of ZJ3 and ZJ4 both showed a large area of browning, which accounted for about 35.50% and 27.68% of their whole corm, respectively. The symptoms in ZJ3 and ZJ4 corms in SZF group were much milder than those of SF group. This indicated that the addition of bamboo fungus culture substrates to the nutrient soil could also improve the Fusarium resistance of S. indica colonized banana (Figure 9). Moreover, consistent with their Fusarium wilt resistance, the symptoms in ZJ4 were found to be much milder than ZJ3. were much milder than those of SF group. This indicated that the addition of bamboo fungus culture substrates to the nutrient soil could also improve the Fusarium resistance of S. indica colonized banana (Figure 9). Moreover, consistent with their Fusarium wilt resistance, the symptoms in ZJ4 were found to be much milder than ZJ3.

Discussion
The banana industry has been threatened by banana wilt disease caused by Fusarium oxysporum f.sp. cubense (Foc) for a long time [20,21]. Up to now, however, the disease is still uncontrollable. S. indica is an arbuscular mycorrhizal-like fungus that can colonize plant roots extensively and form a symbiotic relationship with its host. Accumulated evidence has shown that the colonization of S. indica could improve the nutrient absorption, promote plant growth and development, and enhance the resistance or tolerance of banana to abiotic and biotic stresses [5][6][7][8]. Bamboo fungus is a nutritious edible mushroom which not only has high medicinal value, but also has antioxidant and anti-microbial activities. One of our previous studies had confirmed that the crude extracts of D. echinovolvata could inhibit the FocTR4 growth on PDA medium [9]. However, whether it can be used in the control of banana Fusarium wilt disease was not explored. In this study, we applied the two fungi to banana, and investigated their influences on banana growth and FocTR4 resistance. Results obtained in this study were as follows.

S. indica Can Promote the Growth of Banana Seedlings
S. indica has a growth-promoting effect similar to arbuscular mycorrhizal fungi [22]. It can colonize in the roots of various plants and increase the biomass and yield of host plants by increasing the material and nutrient absorption of host plants [23]. Inoculation of S. indica could advance seed germination time, promote plant height, leaf number, leaf length, leaf width, root number, and root length, and improve the quality and yield of Dendrobium officinale [24]. Cotton seedlings colonized by S. indica showed significantly increased plant height, stem diameter, leaf area, net photosynthetic rate, and increased drought resistance [25]. The growth promoting effects have been reported in 'Grand Naine' banana and 'Tianbaojiao' banana seedlings [4,5]. In this study, a similar promoting

Discussion
The banana industry has been threatened by banana wilt disease caused by Fusarium oxysporum f.sp. cubense (Foc) for a long time [20,21]. Up to now, however, the disease is still uncontrollable. S. indica is an arbuscular mycorrhizal-like fungus that can colonize plant roots extensively and form a symbiotic relationship with its host. Accumulated evidence has shown that the colonization of S. indica could improve the nutrient absorption, promote plant growth and development, and enhance the resistance or tolerance of banana to abiotic and biotic stresses [5][6][7][8]. Bamboo fungus is a nutritious edible mushroom which not only has high medicinal value, but also has antioxidant and anti-microbial activities. One of our previous studies had confirmed that the crude extracts of D. echinovolvata could inhibit the FocTR4 growth on PDA medium [9]. However, whether it can be used in the control of banana Fusarium wilt disease was not explored. In this study, we applied the two fungi to banana, and investigated their influences on banana growth and FocTR4 resistance. Results obtained in this study were as follows.

S. indica Can Promote the Growth of Banana Seedlings
S. indica has a growth-promoting effect similar to arbuscular mycorrhizal fungi [22]. It can colonize in the roots of various plants and increase the biomass and yield of host plants by increasing the material and nutrient absorption of host plants [23]. Inoculation of S. indica could advance seed germination time, promote plant height, leaf number, leaf length, leaf width, root number, and root length, and improve the quality and yield of Dendrobium officinale [24]. Cotton seedlings colonized by S. indica showed significantly increased plant height, stem diameter, leaf area, net photosynthetic rate, and increased drought resistance [25]. The growth promoting effects have been reported in 'Grand Naine' banana and 'Tianbaojiao' banana seedlings [4,5]. In this study, a similar promoting effect of S. indica in the fungal colonized 'Zhongjiao No.3' and 'Zhongjiao No.4' banana cultivars was also proved, indicating that the fungus's growth promoting ability is not strictly cultivar-dependent. Li et al. reported that S. indica colonization could significantly enhance the chlorophyll accumulations in banana leaves [5]. Consistently, in this study, we also found that the fungus colonization significantly increased the relative chlorophyll content and nitrogen content of both ZJ3 and ZJ4 banana seedlings.

Bamboo Fungus Inhibited the Growth but Could Improve the Fusarium Wilt Resistance of Banana
Our study revealed that bamboo fungus culture substrates had a certain inhibitory effect on banana growth. By determining the growth-related parameters, we found that almost all the parameters of banana seedlings in different groups followed the order: CK > 1/4 > 1/2 > ZS. This indicated that bamboo fungus culture substrates inhibited the growth of banana seedlings, and the higher bamboo fungus culture substrates proportion in the nutrient soil, the more obvious inhibitory effect. This might be caused by the antioxidant and anti-microbial activities of D. echinovolvata [26]. Moreover, the nutrient content of bamboo fungus culture substrates is not as good as that of the nutrient soil and the pH value of bamboo fungus culture substrates was lower, which might also lead to its inhibitory effect on the growth of banana seedlings.
As the growth of banana seedlings grown in the nutrient soil containing 1/4 bamboo fungus culture substrates showed no significant difference compared with seedlings grown in nutrient soil at 1 mpt, we further investigated the influence of bamboo fungus culture substrates addition on the banana Fusarium wilt disease resistance. Results showed that both 'Zhongjiao No.3' and 'Zhongjiao No.4' banana seedlings grown in the nutrient soil containing 1/4 bamboo fungus culture substrates showed much milder symptoms than their control groups, indicating that bamboo fungus can alleviate the symptoms of banana Fusarium wilt to a certain extent and improve the Fusarium wilt resistance of banana. Thus, it can be concluded that the edible bamboo fungus intercropping or applying bamboo fungus fermentation solution might be a much easier and more favorable way for banana wilt disease control [27,28].

S. indica Improved the Fusarium Wilt Resistance of Banana and This Promoting Effect Could
Be Strengthened by Bamboo Fungus Additives S. indica colonization can improve the resistance of many plants to pathogenic fungi [29][30][31]. For example, evidence has shown that the S. indica enhanced the resistance of wheat to Fusarium head blight [32], Arabidopsis thaliana to verticillium wilt [33], tomato to early blight [34], chickpea to Botrytis cinerea [35], and so on. Foc is a soil-borne fungus with a long incubation time and low spore concentration [36,37], making the complete control of the banana Fusarium wilt disease very hard. A previous study had shown that S. indica can delay the onset of Fusarium wilt symptoms by increasing antioxidant enzyme activities [8] and by suppressing the FocTR4 induced fatty acid accumulation in banana root [38]. In our present study, we conducted Fusarium wilt disease resistance evaluation experiments of S. indica colonized banana seedlings and compared the symptom appearance of seedlings grown in normal nutrient soil and in nutrient soil containing 1/4 bamboo fungus culture substrates. As S. indica colonized banana seedlings showed much delayed symptom onset, injury treatment was applied [39,40]. Results showed that, like the S. indica non-colonized seedlings, the symptoms in corms of S. indica colonized ZJ3 and ZJ4 seedlings grown in nutrient soil containing 1/4 bamboo fungus culture substrates also showed much milder symptom than those of grown in normal nutrient soil, which again indicated that bamboo fungus culture substrates addition can alleviate the Fusarium wilt symptoms and improve the resistance of banana to Fusarium wilt disease.
The development of banana Fusarium wilt epidemics could be influenced by many factors, including banana genetic resistance, soil physical and chemical properties, soil microbial populations, crop management, and so on [41,42]. The mixtures of biological control agent and organic additives have been proven to have great potential for improving plant Fusarium diseases resistance [43]. Given the growth-and stress resistance-promoting effects of S. indica on banana hosts and the anti-microbial activities of bamboo fungus, the application of them in banana may be considered as an eco-friendly strategy for Fusarium wilt disease control in the future [44].

Conclusions
Our study revealed that the S. indica colonization significantly improved the growth of banana seedlings, while the growth of seedlings grown in nutrient soil containing bamboo fungus culture substrates was suppressed. The suppression effect increased as the proportion of the bamboo fungus substrates increased. S. indica colonization could alleviate the symptoms caused by FocTR4, and both the S. indica colonized and non-colonized banana seedlings grown in nutrient soil containing 1/4 D. echinovolvata culture substrates showed obvious milder symptoms compared with the seedlings grown in normal nutrient soil after FocTR4 infection, indicating that the addition of D. echinovolvata culture substrates can alleviate the Fusarium wilt symptoms. The results obtained in this study can provide technical support and a theoretical basis for the application of S. indica and bamboo fungus intercropping in the prevention and control of banana Fusarium wilt disease ( Figure 10). The underlying mechanism for the effects of S. indica and bamboo fungus on banana Fusarium wilt resistance needs to be further studied in future research.
Biology 2022, 11, x 13 of 15 microbial populations, crop management, and so on [41,42]. The mixtures of biological control agent and organic additives have been proven to have great potential for improving plant Fusarium diseases resistance [43]. Given the growth-and stress resistance-promoting effects of S. indica on banana hosts and the anti-microbial activities of bamboo fungus, the application of them in banana may be considered as an eco-friendly strategy for Fusarium wilt disease control in the future [44].

Conclusions
Our study revealed that the S. indica colonization significantly improved the growth of banana seedlings, while the growth of seedlings grown in nutrient soil containing bamboo fungus culture substrates was suppressed. The suppression effect increased as the proportion of the bamboo fungus substrates increased. S. indica colonization could alleviate the symptoms caused by FocTR4, and both the S. indica colonized and non-colonized banana seedlings grown in nutrient soil containing 1/4 D. echinovolvata culture substrates showed obvious milder symptoms compared with the seedlings grown in normal nutrient soil after FocTR4 infection, indicating that the addition of D. echinovolvata culture substrates can alleviate the Fusarium wilt symptoms. The results obtained in this study can provide technical support and a theoretical basis for the application of S. indica and bamboo fungus intercropping in the prevention and control of banana Fusarium wilt disease ( Figure 10). The underlying mechanism for the effects of S. indica and bamboo fungus on banana Fusarium wilt resistance needs to be further studied in future research.