Seasonal Changes of Soil Nitrogen Mineralization Along Restoration Gradient of Sandy Grassland, Northern China

IF 0.4 4区 环境科学与生态学 Q4 ECOLOGY Polish Journal of Ecology Pub Date : 2021-02-02 DOI:10.3161/15052249PJE2020.68.4.002
P. Lv, X. Zuo, Shanshan Sun, Jing Zhang, Shenglong Zhao, Ya Hu
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Abstract

ABSTRACT Soil nitrogen mineralization strongly affects N availability, thus impacting the primary productivity in ecosystems. The seasonal environmental changes affect soil mineralization in restored sandy grasslands such as a studied mobile dune (MD), a semi-fixed dune (SFD), a fixed dune (FD) and a grassland (G). During the growing season, we examined the association of soil N mineralization rate with vegetation characteristics, soil properties and climatic factors through the multivariate stepwise regression model. The vegetation cover, species diversity, above- and belowground biomass, soil carbon, nitrogen, soil water content (SWC), pH, electrical conductivity, very fine sand, clay and silt fractions increased during sandy grassland restoration. The NH4+-N concentration in MD and SFD was higher than that in FD and G, while NO3--N and inorganic N concentration showed a reverse trend. The NH4+N, NO3--N and inorganic N concentrations in MD, SFD and FD reached to the highest values in June, while in G they were highest in May. The net mineralization and nitrification rates increased with sandy grassland restoration; both of these rates were much greater in June than in other months at all sites. Regression analysis showed that the NO3--N concentration, SWC, pH of the soil and precipitation could explain 75% of the total variation in net nitrification rate, and the NO3--N concentration and precipitation could explain 59% of the total variation in the net mineralization rate. These results illustrate that the sandy grassland restoration can enhance the soil N availability, with soil N mineralization mainly determined by the changes of the NO3--N concentration and precipitation.
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北方沙质草地恢复梯度土壤氮矿化的季节变化
摘要土壤氮矿化强烈影响氮的有效性,从而影响生态系统的初级生产力。季节性环境变化影响恢复沙质草原的土壤矿化,如研究的流动沙丘(MD)、半固定沙丘(SFD)、固定沙丘(FD)和草地(G)。在生长季节,我们通过多元逐步回归模型检验了土壤氮矿化率与植被特征、土壤性质和气候因素的关系。沙质草原恢复过程中,植被覆盖率、物种多样性、地上和地下生物量、土壤碳、氮、土壤含水量、pH值、电导率、极细砂、粘土和淤泥含量增加。MD和SFD的NH4+-N浓度高于FD和G,而NO3--N和无机氮浓度则呈相反趋势。MD、SFD和FD的NH4+N、NO3--N和无机氮浓度在6月达到最高值,而G的NH4+-N、NO3-N和无机氮含量在5月达到最高;这两个比率在6月份都远高于其他月份。回归分析表明,NO3-N浓度、土壤SWC、pH值和降水量可解释净硝化速率总变化的75%,NO3-氮浓度和降水量可以解释净矿化速率总变化59%。这些结果表明,沙质草地的恢复可以提高土壤氮的有效性,土壤氮矿化主要由NO3-N浓度和降水量的变化决定。
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来源期刊
Polish Journal of Ecology
Polish Journal of Ecology 环境科学-生态学
CiteScore
1.10
自引率
0.00%
发文量
9
审稿时长
18-36 weeks
期刊介绍: POLISH JOURNAL OF ECOLOGY (formerly Ekologia polska) publishes original scientific research papers dealing with all aspects of ecology: both fundamental and applied, physiological ecology, evolutionary ecology, ecology of population, community, ecosystem, landscape as well as global ecology. There is no bias regarding taxons, ecosystems or geographical regions.
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