Citations:obdiplostemonous


 * 1978 Hsüan Keng & Ro-Siu Ling Keng, Orders and families of Malayan seed plants: synopsis of orders and families of Malayan gymnosperms, dicotyledons, and monocotyledons, NUS Press, p173
 * [...] the stamens, which are definite in number, normally obdiplostemonous (namely, the stamens are in two alternating whorls, those of the outer whorl opposite the petals – see Fig. 102) [...]
 * 1988 Subhash C. Datta, Systematic Botany, New Age International, p329
 * The Rutaceae is allied to the Meliaceae, Sapindaceae and Anacardiaceae due to the heath-like habit, leaf-structure, disc formation and obdiplostemonous androecium.
 * 1990 Klaus Kubitzki, Karl Ulrich Kramer, P. S. Green, Jens G. Rohwer & Volker Bittrich, The Families and genera of vascular plants, Volume 6, Springer, p435
 * This arrangement led van Steenis (1932) to hypothesize an obdiplostemonous ancestor for the family.
 * 1996 Peter K. Endress, Diversity and evolutionary biology of tropical flowers, Cambridge University Press, p96
 * Diplostemonous and obdiplostemonous flowers may also occur in the same family (e.g. Rutaceae); Zygophyllaceae are obdiplostemonous, Liliaceae are diplostemonous.
 * 2010 Louis P. Ronse De Craene, Floral Diagrams: An Aid to Understanding Flower Morphology and Evolution, Cambridge University Press, p203
 * In the genus Mitella the androecium can exceptionally be more variable, ranging from obdiplostemonous to (ob)haplostemonous arrangements.