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Where Did Our Beloved Bananas Come From?

A close up view of the unjoined ends of a bunch of bananas.
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Bananas are thought to have been first domesticated by people 7,000 years ago on the island of New Guinea. But the domestication history of bananas is complicated, while their classification is hotly debated, as boundaries between species and subspecies are often unclear.


Now, a study in Frontiers in Plant Science shows that this history is even more complex than previously thought. The results confirm that the genome of today’s domesticated varieties contains traces of three extra, as yet unknown, ancestors.


“Here we show that most of today’s diploid cultivated bananas that descend from the wild banana M. acuminata are hybrids between different subspecies. At least three extra wild ‘mystery ancestors’ must have contributed to this mixed genome thousands of years ago, but haven’t been identified yet,” said Dr Julie Sardos, a scientist at The Alliance of Bioversity International and CIAT in Montpellier, France, and the study’s first author. 


Complex domestication history


Domesticated bananas (except for the Fei bananas in the Pacific) are thought to be descended from a cluster of four ancestors ̶ either subspecies of the wild banana Musa acuminata, or distinct but closely related species. M. acuminata seems to have evolved in the northern borderlands between India and Myanmar, and to have existed across Australasia approximately 10m years before it was first domesticated. A further complication is that domesticated varieties can have two (‘diploid’), three (‘triploid’), or four (‘tetraploid’) copies of every chromosome, and that many are also descended from the wild species M. balbisiana.


Recent smaller-scale studies suggested that even this already complex scenario might not be the whole story, and that further ancestors related to M. acuminata could have been involved in the domestication. The new results not only confirm that this is indeed the case, they also show for the first time that that these gene pools are common in domesticated banana genomes.


Banana collecting missions


The authors sequenced the DNA in 226 extracts leaf extracts from the world’s largest collection of banana samples at The Alliance of Bioversity International and CIAT’s ‘Musa Germplasm Transit Centre’ in Belgium. Among these samples, 68 belonged to nine wild subspecies of M. acuminata, 154 to diploid domesticated varieties descended from M. acuminata, and four more distantly related wild species and hybrids as comparisons. Many had previously been gathered in dedicated ‘banana collecting missions’ to Indonesia, the island of New Guinea, and the autonomous region of Bougainville.


The researchers first measured the levels of relatedness between cultivars and wild bananas and made ´family trees´ based on the diversity at 39,031 Single Nucleotide Polymorphisms (SNPs). They used a subset of these – evenly spread across the genome, with each pair demarcating a block of approximately 100,000 ‘DNA letters’ – to statistically analyze the ancestry of each block. For the first time they detected traces of three further ancestors in the genome of all domesticated samples, for which no matches are yet known from the wild.


Mystery ancestors might survive somewhere


The mystery ancestors might be long since extinct. “But our personal conviction is that they are still living somewhere in the wild, either poorly described by science or not described at all, in which case they are probably threatened,” said Sardos.


Sardos et al. have a good idea where to look for them: “Our genetic comparisons show that the first of these mystery ancestors must have come from the region between the Gulf of Thailand and west of the South China Sea. The second, from the region between north Borneo and the Philippines. The third, from the island of New Guinea.”


Could help breed better bananas


Which useful traits these mystery ancestors might have contributed to domesticated bananas is not yet known. For example, the crucial trait of parthenocarpy, fruit setting without the need for pollination, is thought to have been inherited from M. acuminata, while cooking bananas owe a large chunk of their DNA to the subspecies (or perhaps separate species) M. acuminata banksii.


Second corresponding author Dr Mathieu Rouard, likewise at Bioversity International, said: “Identifying the ancestors of cultivated bananas is important, as it will help us understand the processes and the paths that shaped the banana diversity observed today, a crucial step to breed bananas of the future.”


“Breeders need to understand the genetic make-up of today’s domesticated diploid bananas for their crosses between cultivars, and this study is a major first step toward the characterization in great detail of many of these cultivars.”


Sardos said: “Based on these results, we will work with partners to explore and genotype wild banana diversity in the three geographic regions that our study pinpointed, with the hope to identify these unidentified contributors to cultivated bananas. It will also be important to investigate the different advantages and traits that each of these contributors provided to cultivated bananas.”


Reference: Sardos J, Breton C, Perrier X, et al. Hybridization, missing wild ancestors and the domestication of cultivated diploid bananas. Front Plant Sci. 2022;13. doi:10.3389/fpls.2022.969220


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