Journal
PLANT BIOLOGY
Volume 17, Issue 4, Pages 893-903Publisher
WILEY
DOI: 10.1111/plb.12317
Keywords
Clonal module; clonal propagation; drought; Pb contamination; Phragmites australis; well-watered treatment
Categories
Funding
- National Natural Science Foundation [31100403]
- National '973' Programme of China [2015CB150801]
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Clonal propagation is important for the survival and maintenance of the common reed Phragmites australis. Pot culture experiments were conducted to investigate the effects of lead (Pb) concentration (0, 500, 1500, 3000, 4500mgkg(-1)) and water stress on the clonal reproductive ability of this species. The Pb concentration found in plant organs, in decreasing order, was roots >shoots >rhizomes. There was a negative relationship between the growth of clonal propagative modules (excluding axillary shoot buds) and Pb concentrations, which caused a decrease in biomass, rhizome growth and number of axillary and apical rhizome buds. Daughter axillary shoots exhibited a tolerance strategy, with no significant change in their number; the axillary and apical rhizome buds, daughter apical rhizome shoots and rhizomes exhibited compensatory growth during the late stage of Pb (excluding 4500mgkg(-1)) treatment in a wet environment. Pb applications above 500mgkg(-1) reduced these parameters significantly in the drought treatment, except for the number of axillary shoot buds, which did not change. Our results indicate that clonal propagative resistance to Pb contamination can occur via tolerance strategies, compensatory growth and a Pb allocation strategy, enabling these reeds to maintain population stability in wet environments. However, clonal modular growth and reproductive ability were inhibited significantly by the interaction between drought and Pb, which would cause a decline in P.australis populations in a dry environment. Lead concentrations of 4500 and 500mgkg(-1) in soils might meet or exceed the Pb tolerance threshold of clonally propagated reeds in wet and dry environments, respectively.
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