STRUCTURAL INVESTIGATIONS OF ASEXUAL REPRODUCTION IN NEPHROLEPIS EXALTATA AND PLATYCERIUM BIFURCATUM

Abstract

Nephrolepis exaltata cv. Bostoniensis, the Boston fern, exhibits extreme stem dimorphism. The plant has orthotropic, dictyostelic shoots which bear pinnatifid leaves and plagiotropic, protostelic stolons which are aphyllous. Vegetative reproduction occurs by budding from primary and secondary stolons. Secondary stolons arise exogenously from derivatives of the apical cell of the primary stolon, whereas root primordia develop endogenously. Shoots develop in vivo when a creeping stolon makes contact with the substrate via extensive root proliferation. When stolon segments are excised and grown in vitro, secondary stolon primordia expand and initiate leaf primordia, forming new leafy shoots. In Platycerium bifurcatum, the staghorn fern, asexual propagation occurs on ageotropic roots ramifying among the basal nest fronds. Root bud initiation is marked by root tip hypertrophy following cortical parenchyma expansion. Root apical cell derivatives produce the bud apex; the root apical cell remains separate from the developing root bud. Superficially, vegetative reproduction in Nephrolepis and Platycerium appears to involve unusual organs. However, both ferns exhibit leafy bud development from distinct sites of origin, not from undetermined primordia or from direct transformation of root to shoot. Thus, distinctness of organ types is maintained in these two ferns and no evidence for interconvertibility of organ types has been found.