Abstract
Aegiceras corniculatum (L.) Blanco, a mangrove shrub species in the Myrsine family, often grows at the seaward edge of the mangrove zone in China. In the present study, seasonal dynamics of nutrient resorption and phenolics concentration associated with leaf senescence of A. corniculatum were investigated in order to evaluate its possible nutrient conservation strategies in the subtropical Zhangjiang river estuary. It was found that the nitrogen (N) and phosphorus (P) concentrations in mature leaves showed similar seasonal changes with the highest concentrations in winter and the lowest in summer, and were significantly higher than those in senescent leaves. The N:P ratios of mature leaves through the year were found to be less than 14, indicating that the A. corniculatum forest was N-limited. The nitrogen resorption efficiency (NRE) was higher than phosphorus resorption efficiency (PRE), and N resorption was complete. In addition, A. corniculatum leaves contained high total phenolics (TPs) and total condensed tannin (TCT) levels (both above 20%). TPs concentrations in mature and senescent leaves were all inversely related to their N or P concentrations. TPs:N and TCT:N ratios in senescent leaves were significantly higher than those in mature leaves. The obtained results suggested that high NRE during leaf senescence and high TPs:N and TCT:N ratios in senescent leaves might be important nutrient conservation strategies for the mangrove shrub A. corniculatum forest growing in N-limited conditions.
Highlights
Mangrove species that flourish in low-nutrient environments have very efficient mechanisms for retaining and recycling nutrients [1]
The obtained results suggested that high nitrogen resorption efficiency (NRE) during leaf senescence and high total phenolics (TPs):N
total condensed tannin (TCT):N ratios in senescent leaves might be important nutrient conservation strategies for the mangrove shrub A. corniculatum forest growing in N-limited conditions
Summary
Mangrove species that flourish in low-nutrient environments have very efficient mechanisms for retaining and recycling nutrients [1]. Aegiceras corniculatum (L.) Blanco is a cryptoviviparous mangrove species, often grows at the seaward edge of the mangrove zone in China. This species seems most characteristic of the seaward mangal fringe and occurs typically as an isolated low shrub [2]. Compared with other mangrove species, A. corniculatum shrubs have high annual litter fall production in subtropical China [3]. The resulting litter from the leaf fall must be decomposed and the nutrients contained in that litter must be remineralized to become available again for plant uptake.
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