Affiliation:
1. Research Institute of Tropical Forestry, Chinese Academy of Forestry, Guangzhou 510520, China
2. College of Landscape Architecture, Nanjing Forestry University, Nanjing 210037, China
Abstract
In recent years, some new Qi-Nan clones of Aquilaria sinensis, which have the characteristics of easily induced and high-quality agarwood, have been selected and propagated by grafting seedlings. To date, research on the grafting of Qi-Nan seedlings is limited. In this study, the effects of grafting on physiological characteristics and endophytic fungi of seedlings within a short period after grafting were studied by means of histochemical observations, physiological index determinations and Illumina sequencing. The results showed that the grafting healing time of ordinary A. sinensis was at least 10 days shorter than that of Qi-Nan, according to the degree of lignification of callus, and the tissue basis for the healing was the interxylary phloem. The MDA content of Qi-Nan peaked earlier than that of ordinary A. sinensis. The contents of JA and ABA peaked earlier in ordinary A. sinensis, and the SA content was significantly higher than that of Qi-Nan at 20–40 days; on average, it was 17.33% higher than that of Qi-Nan. A total of 5 phyla, 28 classes, 84 orders, 197 families, 489 genera and 842 species of endophytic fungi were identified before and after grafting. After grafting, the abundance and diversity of endophytic fungi in ordinary A. sinensis and Qi-Nan decreased, and the endophytic fungi were significantly different before and after grafting. In ordinary A. sinensis, before grafting, Dothideomycetes was the dominant class, and after grafting, Sordariomycetes was the dominant class. The dominant class of Qi-Nan before and after grafting was Dothideomycetes. The dominant genus of ordinary A. sinensis before grafting was Devriesia, and after grafting, it was Fusarium; that of Qi-Nan before grafting was Hyweljonesia and after grafting was Arthopyrenia. Functional genes of the endophytic fungi were mostly related to carbohydrate metabolism and energy metabolism, which may be the reason why endophytic fungi promote agarwood formation in Aquilaria trees. The findings suggest that the healing of the grafting interface in A. sinensis seedlings was the result of multiple factors, and endophytic fungi of Qi-Nan scion changed after grafting.
Funder
Fundamental Research Funds of CAF
Guangzhou collaborative innovation center on science-tech of ecology and landscape
Cited by
2 articles.
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