中文摘要：

通过添加土壤原总磷(TP)0~60%的过磷酸钙和室内培养的技术手段,研究了外源磷素输入对农区湿地土壤碳库有效性及其周转特性的动态影响。结果表明,随外源磷素输入水平的增加,土壤可溶性有机碳(DOC)含量和微生物量碳(MBC)含量增加;土壤总有机碳(TOC)含量下降,下降率最高达23%。活性有机碳成分中,外源磷输入对高活性有机碳(HLOC)影响最显著,60%磷素输入处理HLOC含量比未施加外源磷素高54%;易氧化有机碳(ROC)含量随外源磷输入水平的增加而下降,最大下降率为22%;中活性有机碳(MLOC)含量、活性有机碳(LOC)含量无明显改变。涉碳循环生物酶中,β-葡聚糖苷酶(βG)和纤维二糖水解酶(CBH)活性均随外源磷素输入水平的增加而显著提升,但脱氢酶(DH)活性并无显著变化。此外,土壤碳矿化强度和潜在矿化势也与外源磷素输入后的土壤TP呈正相关。总体来看,外源磷素输入显著增加了湿地土壤碳库的有效性及周转速率。

英文摘要：

Exogenous nutrients significantly influence wetland ecosystems.In particular,the invasion of exogenous nitrogen(N)andphosphorus(P)significantly influences carbon cycle in wetland soils which further changes global carbon cycle in soil-atmospherecontinuum.While there are currently several studies on exogenous N,the study of exogenous P is still lacking.To explore the effect of the input of exogenous P on the availability and turnover characteristics of soil carbon pool in wetlands,an experiment was designedfor the simulation of the dynamics of exogenous P accumulation.The study simulated additive P gradient rates of0(P-0),5%(P-5),10%(P-10),20%(P-20),30%(P-30)and60%(P-60)relative to initial total phosphorus(TP)content of sampled soils.Superphosphatewas the mode of addition of P to the soil coupled with the simulation of laboratory data.The changes in characteristics ofsoil carbon composition and biochemical indicators of P with the input of different levels of exogenous P were analyzed using conventionalbiochemical testing methods.The study also integrated several other factors for Pearson correlation analysis.The resultsshowed that soil TP and Olsen-P contents strictly followed the loading rates of superphosphate,with a notable increase in microbialbiomass phosphorus(MBP).The activity of acid phosphatase(AcP)was significantly suppressed by P addition.Dissolved organiccarbon(DOC)and microbial biomass carbon(MBC)increased with increasing inputs of exogenous P,while total organic carbon(TOC)decreased at a maximum rate of23%.For active organic carbon components of the soil,highly labile organic carbon(HLOC)was54%higher under P-60treatment than under the control group(P-0).Then recalcitrant organic carbon(ROC)content remarkablydecreased with increasing input of exogenous P,with a maximum rate of decline of22%.To certain extent,the results indicated thatsoil carbon pool was activated and the efficiency of availability increased.However,mid-labile organic carbon(MLOC)and labileorganic carbon(LOC)almost had no change with