Frontiers in Plant Science (Jan 2019)

Differential Strategies to Tolerate Flooding in Polygonum hydropiper Plants Originating From Low- and High-Elevation Habitats

  • Xin-Sheng Chen,
  • Xin-Sheng Chen,
  • Ya-Fang Li,
  • Ya-Fang Li,
  • Yun-He Cai,
  • Yong-Hong Xie,
  • Yong-Hong Xie,
  • Zheng-Miao Deng,
  • Zheng-Miao Deng,
  • Feng Li,
  • Feng Li,
  • Zhi-Yong Hou,
  • Zhi-Yong Hou

DOI
https://doi.org/10.3389/fpls.2018.01970
Journal volume & issue
Vol. 9

Abstract

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In species that occur over a wide range of flooding conditions, plant populations may have evolved divergent strategies as a consequence of long-term adaptation to local flooding conditions. In the present study, we investigated the effects of a flooding gradient on the growth and carbohydrate reserves of Polygonum hydropiper plants originating from low- and high-elevation habitats in the Dongting Lake wetlands. The results indicated that shoot length did not differ, whereas the total biomass and carbohydrate reserves were reduced under flooded compared to well-drained conditions for plants originating from both habitat types. However, shoot length, shoot mass, rhizome mass, and total biomass were lower in plants from low-elevation habitats than in those from high-elevation habitats in the flooded condition. Soluble sugar and starch contents in belowground biomass were higher in plants from low-elevation habitats than in those from high-elevation habitats independently of the water level. Therefore, P. hydropiper plants from low-elevation habitats exhibit a lower growth rate and more conservative energy strategy to cope with flooding in comparison with plants from high-elevation habitats. Differential strategies to cope with flooding among P. hydropiper populations are most likely a response to the flooding pressures of the habitat of origin and may potentially drive ecotype differentiation within species along flooding gradients.

Keywords