Abstract
The Papeda Citrus subgenus includes several species belonging to two genetically distinct groups, containing mostly little-exploited wild forms of citrus. However, little is known about the potentially large and novel aromatic diversity contained in these wild citruses. In this study, we characterized and compared the essential oils obtained from peels and leaves from representatives of both Papeda groups, and three related hybrids. Using a combination of GC, GC-MS, and 13C-NMR spectrometry, we identified a total of 60 compounds in peel oils (PO), and 76 compounds in leaf oils (LO). Limonene was the major component in almost all citrus PO, except for C. micrantha and C. hystrix, where β-pinene dominated (around 35%). LO composition was more variable, with different major compounds among almost all samples, except for two citrus pairs: C. micrantha/C. hystrix and two accessions of C. ichangensis. In hybrid relatives, the profiles were largely consistent with their Citrus/Papeda parental lineage. This high chemical diversity, not only among the sections of the subgenus Papeda, but also between species and even at the intraspecific level, suggests that Papeda may be an important source of aroma diversity for future experimental crosses with field crop species.
Highlights
There are Oceanian species known to hybridize with Citrus species, belonging to the genera Eremocitrus, Microcitrus, Clymenia, and Oxanthera
Among the ten studied accessions, only nine peel oil samples were obtained by hydrodistillation of peels, because one accession of C. ichangensis did not produce a sufficient number of fruits
All the trees are maintained in the INRAE-CIRAD citrus collection (certified as Biological Resource Center (BRC) citrus NF96-600) located in San Ghjulianu, Corsica (France): latitude 42◦ 17’ N; longitude 9◦ 32’ E; Mediterranean climate; average: rainfall and temperature 840 mm and 15.2 ◦ C per annum, respectively; soil derived from alluvial deposits and classified as fersiallitic; pH range 6.0–6.6 [31]
Summary
There are Oceanian species known to hybridize with Citrus species, belonging to the genera Eremocitrus, Microcitrus, Clymenia, and Oxanthera. Together, these genera constitute the “true citrus” group as described by Swingle and Reece [6]. One of the main characteristics of Citrus is the presence of highly aromatic essential oils in tissue storage cells of the fruit, leaf, and flower (petals). These essential oils are complex mixtures that can contain hundreds of compounds with a very wide chemical diversity, which is prized by the aromatic and cosmetic industry [7]. Much of the aromatic diversity found in other Citrus, including fruits of the Papeda subgenus, remains largely unknown
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