Abstract
Floral longevity (FL) is an important trait influencing plant reproductive success by affecting the chance of insect pollination. However, it is still unclear which factors affect FL, and whether FL is evolutionarily associated with structural traits. Since construction costs and water loss by transpiration play a role in leaf longevity, we speculated that floral structures may affect the maintenance and loss of water in flowers and, therefore, FL. Here, we investigated the slipper orchid Paphiopedilum and Cypripedium, which are closely related, but strongly differ in their FL. To understand the evolutionary association of floral anatomical traits with FL, we used a phylogenetic independent comparative method to examine the relationships between 30 floral anatomical traits and FL in 18 species of Paphiopedilum and Cypripedium. Compared with Paphiopedilum species, Cypripedium species have lower values for floral traits related to drought tolerance and water retention capacity. Long FL was basically accompanied by the thicker epidermal and endodermal tissues of the floral stem, the thicker adaxial and abaxial epidermis of the flower, and low floral vein and stomatal densities. Vein density of the dorsal sepals and synsepals was negatively correlated with stomatal density. Our results supported the hypothesis that there was a correlation between FL and floral anatomical traits in slipper orchids. The ability to retain water in the flowers was associated with FL. These findings provide a new insight into the evolutionary association of floral traits with transpirational water loss for orchids under natural selection.
Highlights
Floral longevity (FL) is an important floral functional trait that influences the reproductive success of flowering plants by affecting the chance of insects visiting flowers (Primack, 1985; Ashman and Schoen, 1994)
We examined the association between FL and floral anatomy using 13 Paphiopedilum species and 5 Cypripedium species
The difference in FL between Paphiopedilum and Cypripedium was driven by floral anatomical traits related to reducing water loss, such as endodermal thickness and epidermis thickness of the floral stem and epidermis thickness, vein density, and stomatal density of the flower
Summary
Floral longevity (FL) is an important floral functional trait that influences the reproductive success of flowering plants by affecting the chance of insects visiting flowers (Primack, 1985; Ashman and Schoen, 1994). Harder and Johnson, 2005; Vespirini and Pacini, 2005; Itagaki and Sakai, 2006; Weber and Goodwillie, 2012; Arroyo et al, 2013; Jorgensen and Arathi, 2013). Previous studies have found that water plays an important role for bud expansion, flower opening, and nectar production during the whole stage of flower display (Mohan Ram and Rao, 1984; Patino and Grace, 2002; Tsukaguchi et al, 2003; van Doorn and van Meeteren, 2003; Galen, 2005). Water balance plays an important role in the maintenance of flower life span and turgor pressure, it is still unclear which flower traits affect the water balance and FL
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