Growth and Development of the Banana Plant: I. The Growing Regions of the Vegetative Shoot

This is a study of the vegetative growth of the banana plant,with special reference to the structure of the shoot apex, theorigin of the leaf primordia and buds, and the growth of theleaf base into the pseudostem. The various regions in whichintercalary growth contributes to the vegetative plant bodyare described. The anatomical structures observed are illustratedby photomicrographs. Binucleate cells are conspicuous in theleaf bases and in cells produced by intercalary men-stems. Theformation of the air chambers which are characteristic of themature leaf and of the septa, which are formed as persistentsheets of cells which bound these chambers, is described. Thecell divisions which build the septa, and also those which causethe eccentric growth of the midrib are noted, and their proximityto adjacent vascular strands is stressed. Other marginal meristemsbuild the lamina of the leaf. The function of the central apicalmeristem of the shoot is not to create a massive axis whichgrows in length, for this vegetative function is taken overby the lateral organs, the growth of which greatly overshadowsthat in the main axis. However, as the vegetative shoot growsolder, its central mass of meristem does become progressivelylarger. Cell divisions in this central area are sparse, thoughsufficient to increase its bulk slowly, while the main organ-buildingand cell-multiplying functions are delegated to the lateralorgans. This condition changes on flowering when a massive,true, erect stem forms. Axillary buds do not occur in the vegetativeshoot, but adventitious buds appear in an anomalous situation.The vegetative shoot behaves as though there is an extremelystrong apical dominance, which suppresses all buds and growthin the axis itself. But an elusive question is the mechanismwhich stimulates, or controls, the behaviour of so many dividingcells, distributed so widely, through so many discrete areasof cell division or intercalary meristematic activity. The frequentproximity of vascular strands, as probable sources of both nutrientsand stimuli to cell division, is suggestive here.