Root and stem anatomy and histochemistry of four grasses from the Jianghan Floodplain along the Yangtze River, China

Abstract The present study examined anatomical and histochemical features of belowground axes of four grass species ( Cynodon dactylon , Eremochloa ophiuroides , Hemerthria altissima , and Paspalum distichum ) which occur in wetlands and can survive flooding. They may help to restore the degraded ecological environment of the floodplain in the Jianghan Plain and the Three Gorges Dam riparian zone of the Yangtze River, China. Brightfield and epifluorescence microscopy gave evidence that the roots of the four species share similar structures with each having endodermis and exodermis, with mostly Y-shaped Casparian walls, suberin lamellae, and lignified secondary cell walls. But the timing of wall deposit apposition and the degree of secondary thickening vary among the species. The root cortical aerenchyma is basically lysigenous. Rhizomes and stolons have an epidermis with thick cuticle, a peripheral, mechanically stiff ring with or without small embedded vascular bundles and a chlorenchyma. The cortex is of varying thickness, with or without collenchymas. A central core of vascular bundles is usually surrounded by a sclerenchyma ring of varying thickness, depending upon the species. Pith cavities and small cortical cavities are normal except for unusual honeycomb or expansigenous aerenchyma in one species. The peripheral mechanical ring and the sclerenchyma ring contain suberin and lignin, but no detectable Casparian bands. Even in non-flooded conditions, anatomical traits of these species provide adaptive features allowing them to occupy riparian zones as they occur at the Yangtze River.