PALSER, B. F., PHILIPSON, W. R. & PHILIPSON, M. N., 1991. Characteristics of ovary, ovule and mature megagametophyte in Rhododendron L. (Ericaceae) and their taxonomic significance. The ovary, ovule and megagametophyte at the time the latter is mature are described for 177 species representing all subgenera, sections and most subsections recognized in Rhododendron. All three, but particularly the ovary, vary considerably. The ovary is compared among species as to size; shape of apex–tapered vs. depressed; relative dimensions; indumentum–five basic hair types; wall structure including crystal distribution and frequency, stomata, cuticular ornamentation; locule number, shape and size relative to radius; wall thickness relative to radius; placenta size, shape, depth of cleft, level of cleft junction, presence or not of a decurrent placental stalk ridge; number of ovules, their arrangement and orientation on placenta; and presence and distribution of internal stomata and hairs. The nectary which girdles the base of the ovary also varies in size, shape, indumentum, stomata and some internal features. The ovule is anatropous, unitegmic and tenuinucellate with the lateral and micropylar nucellus disappearing completely and the megagametophyte elongating into the micropyle in all species. Also common to almost all are an endothelium, hypostase, differentiated epidermis–most often tanniniferous, and starch in integument around egg apparatus and micropyle. There are differences in size, shape, proportion occupied by gametophyte and micropyle, thickness of integument, degree of differentiation of some features, amount and area of starch and occurrence of chalazal and micropylar tails or of incipient micropylar and/or chalazal appendages. The megagametophyte, which develops according to the Polygonum pattern, has two distinct portions, the chalazal bounded by the endothelium with small antipodal cells at its end and the usually broader micropylar part within the micropyle containing a rather large egg apparatus with distinctive synergids; starch is present in the central cell and the polar nuclei are most often fused. Differences occur in proportions of the parts to one another, amount of starch, etc. Sixty-three characters were entered onto a computer, clustered by two different techniques and dendrograms constructed. Personal analysis and both dendrograms show section Vireya to be characterized by a syndrome of distinctive features and clearly separated from the rest of the genus. Subgenus Hymenanthes also has its particular syndrome but is somewhat less distinct from the remainder of the genus. Even less distinct but still grouped together are species of section Choniasirum and of section Sciadorhodion. Many species of section Rhododendron and of subgenus Tsutsusi tend to cluster together but section Rhododendron and most sections of the azalea complex are more generalized and moderate in the ovary, ovule and megagametophyte characters and do not separate sharply from one another.