Pollination of Picea orientalis (Pinaceae): Saccus Morphology Governs Pollen Buoyancy

Sacci of conifer pollen do not function primarily to increase the efficiency of wind pollination as is widely thought. Rather, they are bladders and cause pollen to float upwards in a liquid drop into the ovules. This observation is seemingly unsupported in the case of oriental spruce (Picea orienta...

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Published inAmerican journal of botany Vol. 86; no. 2; pp. 190 - 197
Main Authors Runions, C. John, Rensing, Kim H., Takaso, Tokushiro, Owens, John N.
Format Journal Article
LanguageEnglish
Published Columbus Botanical Society of America 01.02.1999
Botanical Society of America, Inc
Subjects
Anatomy
Anatomy and Morphology
Botany
Buoyancy
Cell walls
Conifers
Evolution
Microscopy
Ovules
Phosphines
Picea
Pinaceae
Pollen
Pollination
sacci
Trees
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Summary:Sacci of conifer pollen do not function primarily to increase the efficiency of wind pollination as is widely thought. Rather, they are bladders and cause pollen to float upwards in a liquid drop into the ovules. This observation is seemingly unsupported in the case of oriental spruce (Picea orientalis (L.) Link), which has saccate pollen. Ovulate cones are pendant at the time of pollination, which requires that pollen sink into the ovules. Pollen of oriental spruce floats at first but within 1-2 min sinks into the ovule. As sinking does not occur in saccate pollen of other Pinaceae, a variety of techniques was used to determine anatomical differences leading to this uncharacteristic tendency. Light, scanning electron, and confocal microscopy of the pollen surface yielded no significant appearing difference between pollen of oriental spruce and white spruce. However, transmission electron microscopy of freeze-fixed/freeze-substituted hydrated pollen revealed that the ektexine of oriental spruce pollen sacci is porous compared to that of white spruce. Confocal microscopy allowed examination of pollen hydration dynamics. Water enters pollen at the distal pole between sacci, and resulting rapid expansion of the tube cell forces air out of the saccate space. White spruce pollen remains buoyant because of enclosed air pockets in the saccus ektexine. Evolutionary change in pollen wall anatomy with resultant loss of saccus function is correlated with a change in ovulate strobilus orientation at pollination in oriental spruce. A suite of characters interact in the conifer pollination mechanism, and concerted change in these characters may lead to speciation.
Bibliography:Current address: Iriomote Station, Tropical Biosphere Research Center, University of the Ryukyus, 870 Uehara, Taketomi‐cho, Okinawa 907‐15, Japan.
Author for correspondence, Current address: Section of Ecology and Systematics, Corson Hall, Cornell University, Ithaca, NY 14853.
ISSN:0002-9122
1537-2197
DOI:10.2307/2656936