%0 Journal Article
%A DENG Jing
%A LIU Yang
%A SHEN Xian
%A SHI Jia-Qi
%T C,N and P Stoichiometry at Different Stages of Litter Decomposition in Subalpine Forest of Western Sichuan Province and Interspecies Comparison
%D 2017
%R 10.7525/j.issn.1673-5102.2017.02.009
%J Bulletin of Botanical Research
%P 216-226
%V 37
%N 2
%X We used spatial sequence instead of time successional sequence to study the stoichiometry of litter decomposition in subalpine forest of Western Sichuan. Three litter layers including Fresh litter layer(L), Fermentative layer(F) and Humus layer(H) under natural conditions were taken to simulate different litter decomposition stages, studied on Carbon(C), nitrogen(N), phosphorus(P) and dissolved organic carbon(DOC), soluble nitrogen(SN) and phosphorus(SP) contents of three litter layers of <em>Picea asperata(Pa), Abies faxoniana(Af), Betula platyphylla</em> Suk(<em>Bp</em>) and <em>Rhododendron lapponicum(Rl)</em> in four subalpine forests. The forest type and decomposition stages significantly affected C, N, P contents and its stoichiometric ratio in the process of litter decomposition. For all the forest litter, DOC and SP contents reduced and leached quickly at the early decomposition stage whereas slowly in the later periods of decomposition. SN, SP and DOC contents of hardwood species were generally higher than those of conifer species, which in the order of <em>Bp &gt; Rl &gt; Af &gt; Pa</em>, especially at the early decomposition stages. There was significant difference between conifer species and hardwood species, and SN content of <em>Pa</em> and <em>Af</em> reduced with the ongoing of decomposition process while <em>Bp</em> and <em>Rl</em> got highest in the F layer. C content reduced with the ongoing of decomposition process, and N content of <em>Af, Bp</em> and <em>Rl</em> got highest when they were in the Fermentative layer(F &gt; L &gt; H). Litter decomposition stages had no significant effect on P content of <em>Pa</em> and Bp. Overall, litter C/P and N/P of subalpine forest were significantly lower than the global average, C/N, C/P, N/P, DOC/C, SN/N, SP/P also reduced with the ongoing of decomposition process. For DOC/C, <em>Bp</em> and <em>Rl</em> significant decreased at early decomposition stages, and <em>Af</em> significantly decreased at late decomposition stages. N:P of <em>Af</em> increased at first and then decreased, but for <em>Rl</em> showed a trend of rising in the decomposition. These results provided a comprehensive understanding of the litter decomposition process and nutrient cycling in the subalpine forest.
%U https://bbr.nefu.edu.cn/EN/10.7525/j.issn.1673-5102.2017.02.009