中文摘要：

采用分解袋法,对闽江河口湿地2种挺水植物——芦苇（Phragmites australis）和互花米草（Spartina alterniflora）花和叶枯落物的立枯和倒伏分解过程及C、N、P元素动态进行研究。结果表明：（1）立枯分解是2种湿地盐沼植物重要的分解阶段,干物质损失率在13.26%—31.89%之间。多项式模型能较好描述2种植物花和叶的枯落物分解残留率动态。（2）立枯分解阶段,芦苇花和叶的C含量主要为波动下降,互花米草较为稳定;倒伏阶段后期,2种植物都以升高为主。立枯分解阶段2种植物枯落物N含量略有下降,而倒伏阶段逐渐上升。分解过程中枯落物P含量的波动较大。（3）2种植物花和叶C、N的NAI值在分解过程中〈100%。芦苇的花和叶中P的NAI值在立枯和倒伏分解阶段都经历了明显下降和升高的过程,而互花米草在立枯阶段变化不大,倒伏阶段下降较为明显。（4）与芦苇相比,互花米草的花和叶枯落物C库较高,N库较低,P库差异不大。

英文摘要：

The above-ground litter component in wetland ecosystems is an important carbon and nutrient store,and the rate of its decomposition influences both wetland productivity and those processes that contribute to biogeochemical cycling.This paper examined the decomposition and nutrient dynamics of the leaf and flower litter produced by two contrasting emergent macrophytes in the Min River estuary of southeast China;Spartina alterniflora is an invasive species and Phragmites australis a native one.The results demonstrated that： （1） Decomposition of standing litter within the vegetation was an important stage in the decomposition process with a loss of dry mass between 13%—15% in P.australis and 21%—32% in S.alterniflora.At day 210,the loss rate of dry mass in P.australis and S.alterniflora was accounting about 64%—67% and 59%—66%,respectively.There was no significant difference in litter mass loss between S.alterniflora and P.australis.（2） In the first 90 days of decomposition,carbon（C） concentration of P.australis litter reduced in a fluctuating pattern whereas S.alterniflora was relatively stable.However,in the later decay at the sediment surface（after 180 days）,the C concentration in both species increased.At day 210,the C concentration of the flower litter in S.alterniflora and P.australis had regained their initial values and leaf litter concentrations were 107% and 106% respectively.The variation in litter nitrogen（N） concentrations of the two species showed the same pattern with a slow decrease during the standing stage,and an increase during the days of decay at the sediment surface.At day 210,the N concentration of the flower litter in S.alterniflora and P.australis was 125% and 254% of their initial values and leaf litter was 191% and 185%,respectively.However,average phosphorus（P） concentration varied distinctly between the two species： there was a quick decrease in P concentration for P.australis in the first 15 days of decomposition to 14% and 12% for flowers and leaves,