Interactions among Fe²⁺, S^2-, and Zn²⁺ tolerance, root anatomy, and radial oxygen loss in mangrove plants

Root anatomy, radial oxygen loss (ROL), and tolerances to ferrous (Fe ²⁺), sulphide (S^2-), and zinc (Zn²⁺) ions were investigated in seedlings of eight species of mangrove, including three pioneer species, three rhizophoraceous and two landward semi-mangrove species. The results showed an interesting co-tolerance to Fe²⁺, S^2-, and Zn²⁺. The three rhizophoraceous species (Bruguiera gymnorrhiza, Kandelia obovata and Rhizophora stylosa), which possessed the thickest lignified exodermis and the 'tightest barrier' in ROL spatial pattern, consistently exhibited the highest tolerance to Fe²⁺, S^2-, and Zn ²⁺. B. gymnorrhiza could directly reduce ROL by increasing lignification within the exodermis. Such an induced barrier to ROL is a probable defence response to prevent further invasion and spread of toxins within plants. The data also indicated that, in B. gymnorrhiza, Fe²⁺ or S^2-, or both, induced a lignified exodermis that delayed the entry of Zn²⁺ into the roots and thereby contributed to a higher tolerance to Zn²⁺. This study provides new evidence of exclusive strategies of mangrove seedling roots in dealing with contaminations. The information is also important in the selection and cultivation of tolerant species for the bioremediation of contaminated waters or soils. © 2012 The Author.