A NEW CLEARING‐SQUASH TECHNIQUE FOR THE STUDY OF OVULE DEVELOPMENT IN ANGIOSPERMS

The simple, efficient method described here for the study of ovule and megagametophyte development in angiosperms provides for the extension of investigation beyond the limits imposed by the traditional but arduous section technique. Excised pistils previously fixed in FPA 50 and stored in 70 % ethanol are placed in a clearing fluid composed of lactic acid (85 %), chloral hydrate, phenol, clove oil, and xylene (2:2:2:2:1, by weight). After 24 hr, ovules dissected from the ovularies are transferred with some of the fluid to a slide, covered so that the cover glass is supported laterally by two permanently affixed covers, and examined with phase contrast optics. The unique action of the clearing fluid permits the study of cellular structure with the phase oil objective focused at any focal plane within the ovule. Downward focusing thus reveals a series of optical sections in the sagittal, frontal, or transverse plane depending on the orientation of the ovule. Orientation can be altered by a slight shifting of the cover glass on the lateral support mounts. The ovules become quite fragile in the clearing fluid. Pressure applied to the cover glass gradually breaks the ovule apart without disrupting the structural integrity of individual cells. This squash procedure provides for extending observations to cytological features of megasporocytes, megaspores, and megagametophytes previously identified in intact ovules. The new method is applied here to the study of ovule development in two unrelated species, Cassia abbreviata Oliver var. granitica Bak. f. (Leguminosae) and Ludwigia uruguayensis (Camb.) Hara. (Onagraceae). For best results, the ovules of Ludwigia must be pretreated in lactic acid (85 %) for 24 hr prior to application of the clearing fluid. Other methods for pretreatment likely will be required as the technique is applied to a wider range of flowering plant species.