Abstract
BackgroundNatural hybridization is prevalent in ferns, and plays an important role in fern evolution and speciation. In the Indo West-Pacific region, the mangrove fern genus Acrostichum consists of two largely sympatric species, A. aureum and A. speciosum. Although there has been no report of interspecific hybridization before, we found some individuals morphologically intermediate between them in Guangdong and Hainan, China, for the first time, which were suspected to be hybrids. In this study, we aimed to test the hypothesis of natural hybridization between A. aureum and A. speciosum in Guangdong and Hainan using three low-copy nuclear genes. A chloroplast intergenic spacer was used to infer the hybridization direction once the hybrid status was confirmed. In addition, we examined spore shapes and germination for these taxa.ResultsBoth A. aureum and A. speciosum showed a low level of polymorphism at all three nuclear genes; however, they were well separated at these loci. At both locations, each individual of the putative hybrid showed additivity in chromatograms at all sites where the two species showed fixed differences. Haplotype analysis at all three nuclear genes indicated that each individual of the putative hybrid possessed two haplotypes, matching with those of A. aureum and A. speciosum, respectively. Sequencing of the chloroplast trnV-trnM regions showed that A. aureum differed from A. speciosum by eleven nucleotide substitutions and three indels (insertions/deletions), and all sampled individuals of the putative hybrid had the identical sequences with A. speciosum. Compared with A. aureum and A. speciosum, the putative hybrid had much reduced spore germination rate.ConclusionsSequence data of the three nuclear genes provide compelling evidence for natural hybridization between A. aureum and A. speciosum, and all the hybrid individuals are likely F1s. The hybridization is unidirectional and A. speciosum is the maternal parent of the hybrid based on the assumption of maternal inheritance of chloroplast DNA. Human disturbance on mangrove habitats may facilitate the establishment of hybrids of Acrostichum.
Highlights
Natural hybridization is prevalent in ferns, and plays an important role in fern evolution and speciation
A. speciosum is restricted in the Indo West-Pacific (IWP) region and A. danaeifolium is confined to the Atlantic East-Pacific (AEP) region, while A. aureum is widely distributed in both regions [20,21]
At the three nuclear genes, almost all samples of A. aureum and A. speciosum, and most samples of the putative hybrid, could be directly sequenced and clear sequences were obtained. Both A. aureum and A. speciosum exhibited limited sequence variation. These two species were highly diverged at all three nuclear genes and one chloroplast DNA fragment
Summary
Natural hybridization is prevalent in ferns, and plays an important role in fern evolution and speciation. In the Indo West-Pacific region, the mangrove fern genus Acrostichum consists of two largely sympatric species, A. aureum and A. speciosum. Both A. aureum and A. speciosum occur on the landward edge of mangrove swamps, they show different ecological preferences to light and salinity. A. aureum is often encountered as a river or creek plant where fresh water influence is strong [20,22,23] It behaves like a light demanding fern, and often can be found in deteriorated or disturbed mangrove areas [24,25]. The frond of A. aureum is thickly coriaceous, while that of A. speciosum is papery It seems that the textures of the two species conform to their ecological preferences to light
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