Abstract
The origin of morphological novelties is an important but neglected issue of evolutionary biology. The fruit of the genus Physalis, a berry, is encapsulated by a novel morphological feature of the post-floral, accrescent calyx that is referred to as a Chinese lantern. The evolutionary developmental genetics of the Chinese lantern have been investigated in the last decade; however, the selective values of the morphological novelty remain elusive. Here, we measured the photosynthetic parameters of the fruiting calyces, monitored microclimatic variation within the Chinese lanterns during fruit development, performed floral-calyx-removal experiments, and recorded the fitness-related traits in Physalis floridana. Ultimately, we show that the green-fruiting calyx of Physalis has photosynthetic capabilities, thus serving as an energy source for fruit development. Moreover, the developing Chinese lantern provides a microclimate that benefits the development and maturation of berry and seed, and it improves plant fitness in terms of fruit/seed weight and number, and fruit maturation under low-temperature environments. Furthermore, the lantern structure facilitates the dispersal of fruits and seeds by water and wind. Our results suggest that the Chinese lantern morphology of Physalis is an evolutionary adaptive trait and improves plant fitness, thus providing new insight into the origin of morphological novelties.
Highlights
Morphological variations and morphological novelties are assumed to be a result of adaptive evolution
How did the novelty arise? We previously found that the origin of the Chinese lantern is associated with the heterotopic expression of the Physalis floridana MADS-box gene 2 (MPF2) in floral organs[11]
MPF3 interacts with MPF2 to bind the variants of the CArG-boxes in the MPF2 promoter[13], governing the floral expression of MPF2, which is the key to the origin of the Chinese lantern in Physalis
Summary
Morphological variations and morphological novelties are assumed to be a result of adaptive evolution. The selective value of the Chinese lantern remains unknown; its potential adaptive functions have been discussed previously[19], and include facilitating wind-mediated fruit dispersal[9], maintaining an adaptive microclimate[16], originating as a byproduct of fertility evolution[11,20], and being a source of photosynthesis and protection of inner organs[12]. This accessory structure may benefit berry development and seed dispersal, but empirical evidence is lacking. This study aimed to assess the potential selective values of the Chinese lantern in Physalis by evaluating its biological and ecological roles
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