TY - JOUR
T1 - Environmental control of sepalness and petalness in perianth organs of waterlilies
T2 - A new Mosaic Theory for the evolutionary origin of a differentiated perianth
AU - Warner, Kate A.
AU - Rudall, Paula J.
AU - Frohlich, Michael W.
N1 - Funding Information:
We thank Chrissie Prychid for help in the Jodrell laboratory, John Sitch, Michelle Mathews, and Roselle Andrews for tending our specimens at the Royal Botanic Gardens, Kew, and the staff at Battle Abbey for allowing us access to their lake and Nuphar lutea plants. Merrie Dadd, Annie Warner, Shirley Warner, and Michael Warner provided assistance in collecting data and specimens during field trips. This project was funded by a Natural History Museum studentship to KAW, the Floral Genome Project (NSF Plant Genome Research Program project DBI-0115684), and also by NSF grant DEB-9974374 to MWF.
PY - 2009/8
Y1 - 2009/8
N2 - The conventional concept of an 'undifferentiated perianth', implying that all perianth organs of a flower are alike, obscures the fact that individual perianth organs are sometimes differentiated into sepaloid and petaloid regions, as in the early-divergent angiosperms Nuphar, Nymphaea, and Schisandra. In the waterlilies Nuphar and Nymphaea, sepaloid regions closely coincide with regions of the perianth that were exposed when the flower was in bud, whereas petaloid regions occur in covered regions, suggesting that their development is at least partly controlled by the environment of the developing tepal. Green and colourful areas differ from each other in trichome density and presence of papillae, features that often distinguish sepals and petals. Field experiments to test whether artificial exposure can induce sepalness in the inner tepals showed that development of sepaloid patches is initiated by exposure, at least in the waterlily species examined. Although light is an important environmental cue, other important factors include an absence of surface contact. Our interpretation contradicts the unspoken rule that 'sepal' and 'petal' must refer to whole organs. We propose a novel theory (the Mosaic theory), in which the distinction between sepalness and petalness evolved early in angiosperm history, but these features were not fixed to particular organs and were primarily environmentally controlled. At a later stage in angiosperm evolution, sepaloid and petaloid characteristics became fixed to whole organs in specific whorls, thus reducing or removing the need for environmental control in favour of fixed developmental control.
AB - The conventional concept of an 'undifferentiated perianth', implying that all perianth organs of a flower are alike, obscures the fact that individual perianth organs are sometimes differentiated into sepaloid and petaloid regions, as in the early-divergent angiosperms Nuphar, Nymphaea, and Schisandra. In the waterlilies Nuphar and Nymphaea, sepaloid regions closely coincide with regions of the perianth that were exposed when the flower was in bud, whereas petaloid regions occur in covered regions, suggesting that their development is at least partly controlled by the environment of the developing tepal. Green and colourful areas differ from each other in trichome density and presence of papillae, features that often distinguish sepals and petals. Field experiments to test whether artificial exposure can induce sepalness in the inner tepals showed that development of sepaloid patches is initiated by exposure, at least in the waterlily species examined. Although light is an important environmental cue, other important factors include an absence of surface contact. Our interpretation contradicts the unspoken rule that 'sepal' and 'petal' must refer to whole organs. We propose a novel theory (the Mosaic theory), in which the distinction between sepalness and petalness evolved early in angiosperm history, but these features were not fixed to particular organs and were primarily environmentally controlled. At a later stage in angiosperm evolution, sepaloid and petaloid characteristics became fixed to whole organs in specific whorls, thus reducing or removing the need for environmental control in favour of fixed developmental control.
UR - http://www.scopus.com/inward/record.url?scp=68949160004&partnerID=8YFLogxK
UR - http://www.scopus.com/inward/citedby.url?scp=68949160004&partnerID=8YFLogxK
U2 - 10.1093/jxb/erp202
DO - 10.1093/jxb/erp202
M3 - Article
C2 - 19574253
AN - SCOPUS:68949160004
SN - 0022-0957
VL - 60
SP - 3559
EP - 3574
JO - Journal of experimental botany
JF - Journal of experimental botany
IS - 12
ER -