Shifts in soil nitrogen availability and associated microbial drivers during stand development of Mongolian pine plantations
文献类型: 外文期刊
第一作者: Zhang, Yansong
作者: Zhang, Yansong;Zeng, De-Hui;Li, Xin;Lin, Guigang;Zhang, Yansong;Li, Xin;Wang, Guochen;Lin, Guigang
作者机构:
关键词: ammonia oxidizer; nitrification; nitrogen mineralization; plant-soil interaction; soil acid-base chemistry; soil microbe
期刊名称:LAND DEGRADATION & DEVELOPMENT ( 影响因子:4.7; 五年影响因子:5.0 )
ISSN: 1085-3278
年卷期: 2023 年 34 卷 11 期
页码:
收录情况: SCI
摘要: Afforestation on degraded lands is an effective measure to control desertification and soil erosion, but these functions are often constrained by soil nitrogen (N) availability. Moreover, soil N availability usually shifts along plantation development, yet we have a limited understanding of factors driving this shift. Here, we examined dynamics of soil N mineralization and nitrification rates along plantation development, and explored mechanisms behind these dynamics from the perspective of N-cycling microbes. We measured needle litter quality, N-hydrolyzing enzyme activity, biomass and community composition of soil microbes (phospholipid fatty acid analysis) and ammonia oxidizers (real-time quantitative PCR and high-throughput sequencing), and net N mineralization and nitrification rates along a chronosequence of Pinus sylvestris var. mongolica stands with six age classes ranging from 15- to 61-year-old in the Three-North region of China. Results showed that stand development increased net N mineralization rate by 54%, nitrate-N concentration by 106%, and nitrate-N:ammonium-N ratio from 1.09 to 2.63. Gram-positive:gram-negative bacterial ratio and beta-N-acetylglucosaminidase activity initially increased and subsequently decreased along stand development with the highest values in 40-year-old stands, while fungal:bacterial ratio showed the opposite pattern with the lowest value in 40-year-old stands. These shifts in soil microbial properties were associated with age-related changes in needle litter C:N ratio and soil pH. Net N mineralization rate was positively related to beta-N-acetylglucosaminidase activities, but not to soil microbial biomass and community composition. Net nitrification rate was negatively correlated with ammonia-oxidizing archaeal abundances and positively with ammonia-oxidizing bacterial abundances. Collectively, our results indicate that soil N availability increases and N cycling accelerates with plantation growth, and suggest that microbial N recycling driven by beta-N-acetylglucosaminidase is tightly related to soil N dynamics along stand development.
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