Histochemical analyses of the pseudopollen of ten species of Maxillaria sec
tion Grandiflorae revealed that the main storage product is protein, althou
gh starch is usually also present. Lipids are rare in pseudopollen and thus
do not seem to play an important role in attracting insects. In Maxillaria
sanderiana, pseudopollen is formed by the fragmentation of multicellular,
uniseriate trichomes, derived by the repeated division of a single, papilla
-like, basal secretory cell that contains well-developed dictyosomes, endop
lasmic reticulum and mitochondria. At first, there is continuity of cytopla
sm between adjacent component cells of a trichome via plasmodesmata. During
maturation, the cytoplasm retracts as the cell volume increases and the pl
asmodesmata become less obvious. Each component cell of the trichome eventu
ally comprises a large protein body and a small amount of peripheral cytopl
asm containing amyloplasts, a few small lipid bodies, mitochondria and a nu
cleus with nucleolus. Finally, the trichome undergoes fragmentation, formin
g individual cells or chains of cells of varying lengths. Light microscopy
observations indicate a similar sequence in the other species examined. The
occurrence of pseudopollen in section Grandiflorae and alliance Splendens
may indicate that this character has evolved at least twice in Maxillaria.
(C) 2000 Annals of Botany Company.