Histochemical, metabolic and ultrastructural changes in leaf patelliform nectaries explain extrafloral nectar synthesis and secretion in Clerodendrum chinense.

Our study suggests extrafloral nectar secretion in C. chinense to be both eccrine and merocrine in nature. A distinct intermediate lipid-rich layer that separates the epidermis from nectary parenchyma was revealed, which possibly acts as a barrier to water flow in nectar. This study also revealed distinction between nectar and phloem sap, and starch could act as nectar precursor as evidenced from enzymatic and ultrastructural studies. Thus, our findings on changing architecture with temporal secretion of extrafloral nectaries revealed a cell physiological process involved in nectar biosynthesis and secretion.