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贺兰山中段不同海拔青海云杉林非根和根围土壤生态化学计量特征及影响因素
引用本文:杨壹,邱开阳,朱亚超,谢应忠,刘王锁,黄业芸,崔璐瑶,王思瑶. 贺兰山中段不同海拔青海云杉林非根和根围土壤生态化学计量特征及影响因素[J]. 生态学报, 2023, 43(19): 7974-7986
作者姓名:杨壹  邱开阳  朱亚超  谢应忠  刘王锁  黄业芸  崔璐瑶  王思瑶
作者单位:宁夏大学农学院, 银川 750021;宁夏草牧业工程技术研究中心, 银川 750021;农业农村部饲草高效生产模式创新重点实验室, 银川 750021;宁夏大学西北土地退化与生态恢复国家重点实验室培育基地, 银川 750021;宁夏贺兰山国家级自然保护区管理局, 银川 750021
基金项目:国家自然科学基金(42001095);宁夏重点研发计划重点项目(2020BEG02001);宁夏自然科学基金优秀青年项目(2022AAC05007)
摘    要:面对全球变化,准确掌握陆地森林生态系统生物地球化学循环过程及其影响因素,有助于维持生态系统多功能性与稳定性,实现增汇并延长碳汇服务,持续增进并改善人民福祉。为了探究贺兰山山地森林生态系统优势建群种青海云杉(Picea crassifolia)林土壤生态化学计量特征对海拔的生态响应及其影响因素,从土壤、林分、地形影响因素的角度出发,采用冗余分析(Redundancy analysis, RDA)和方差分解分析(Variance partitioning analysis, VPA)阐明影响其非根和根围土壤生态化学计量特征空间变异的关键因素。结果表明:(1)贺兰山青海云杉林非根和根围土壤C、N养分含量均维持在较高水平,高海拔区域青海云杉生长受土壤P限制高;相较非根土壤,根围土壤虽养分含量较低,但具有较高的养分周转能力,如有机质分解与矿化、固持P的潜力等。(2)随海拔变化,非根和根围土壤养分及其生态化学计量比变化趋势不同,非根土除了全氮(TN)含量外其他养分含量及化学计量比在不同海拔间均差异显著(P<0.05),根围土全磷(TP)、碳磷比(C/P)具有显著性差异(P>0.05)。...

关 键 词:青海云杉林  土壤养分  生态化学计量  非根和根围土壤  贺兰山
收稿时间:2022-06-28
修稿时间:2023-02-25

Soil ecological stoichiometric and its influencing factors of bulk soil and ectorhizosphere soil in Picea crassifolia forest along an elevation gradient in the middle of Helan Mountains
YANG Yi,QIU Kaiyang,ZHU Yachao,XIE Yingzhong,LIU Wangsuo,HUANG Yeyun,CUI Luyao,WANG Siyao. Soil ecological stoichiometric and its influencing factors of bulk soil and ectorhizosphere soil in Picea crassifolia forest along an elevation gradient in the middle of Helan Mountains[J]. Acta Ecologica Sinica, 2023, 43(19): 7974-7986
Authors:YANG Yi  QIU Kaiyang  ZHU Yachao  XIE Yingzhong  LIU Wangsuo  HUANG Yeyun  CUI Luyao  WANG Siyao
Affiliation:School of Agriculture, Ningxia University, Yinchuan 750021, China;Ningxia Grassland and Animal Husbandry Engineering Technology Research Center, Ningxia University, Yinchuan 750021, China;Key Laboratory for Model Innovation in Forage Production Efficiency, Ministry of Agriculture and Rural Affairs, P. R. China, Ningxia University, Yinchuan 750021, China;Key Laboratory of Land Degradation and Ecosystem Restoration in Northwest China, Ningxia University, Yinchuan 750021, China;Helan Mountains National Nature Reserve of Ningxia, Yinchuan 750021, China
Abstract:In the face of global climate change, an accurate grasp of the biogeochemical cycling process and its key influencing factors in terrestrial forest ecosystems is beneficial for maintaining the multifunctionality and the stability of the ecosystem, achieving increased and extended carbon sink services, and continuously enhancing and improving people''s well-being. Redundancy analysis (RDA) and Variance partitioning analysis (VPA) were used to clarify the key factors affecting the spatial variation of the stoichiometric characteristics of bulk soil and ectorhizosphere soil of the Picea crassifolia forest from the perspective of soil, forest stand and topography in this study, in order to explore the influencing factors and the ecological response of soil ecostoichiometric characteristics to the altitude of the forest of P. crassifolia, which is the constructive species in the forest ecosystem of Helan Mountains. The results of experiment showed that:(1) the contents of C and N nutrients in bulk soil and ectorhizosphere soil of P. crassifolia forest in Helan Mountains were remained at a high level, while the growth of P. crassifolia in the high-altitude areas was affected by the high P limit of soil. Compared with the bulk soil of P. crassifolia forest, the ectorhizosphere soil has higher capacity of nutrient turnover, such as the decomposition and mineralization of organic matter, and the potential of P retention, although the nutrient content of ectorhizosphere soil was relatively lower. (2) there were significant differences in bulk soil and ectorhizosphere soil ecostoichiometric characteristics of P. crassifolia forest between different altitudes (P<0.05). With the increase of altitude, the bulk soil and ectorhizosphere soil nutrients and ecostoichiometric ratios changed differently, and all soil nutrient contents and ecostoichiometric ratios of bulk soil were significantly different between different altitudes except total nitrogen content (TN) (P<0.05), and total phosphorus (TP) and C/P ratio (C/P) had significant differences of ectorhizosphere soil (P<0.05). (3) three groups of influencing factors, i.e. the soil, forest stand, and topography, together accounted for 61.35% and 39.64% of the variation of the ecostoichiometric characteristics of bulk soil and ectorhizosphere soil, respectively. It was found that altitude, microbial biomass carbon (MBC), and microbial biomass phosphorus (MBP) were the dominant factors affecting the vertical variation of the ecostoichiometric characteristics of bulk soil, while those of ectorhizosphere soil were significantly affected by the normalized difference vegetation index (NDVI). The single effect of soil factors on the ecostoichiometric characteristics of bulk soil and ectorrhizosphere soil was twice and three times as great as that of forest stand factors, respectively. In summary, the spatial heterogeneity of the ecostoichiometric characteristics of bulk soil and ectorhizosphere soil in P. crassifolia forest in Helan Mountains was mainly driven by soil factors, secondly by forest stand factors. The effect of topographic factors was to change vegetation characteristic and soil properties mainly through the redistribution of environmental factors, so as to affect the spatial pattern of soil nutrient stoichiometry in P. crassifolia forest. This study is helpful to evaluate the soil nutrient deficit status and key influencing factors in mountain ecosystems, and is also beneficial for providing a scientific basis and theoretical support for soil nutrient regulation and sustainable management in the forest land from the perspective of ecological stoichiometry.
Keywords:Picea crassifolia forest  soil nutrients  ecological stoichiometry  bulk soil and ectorhizosphere soil  Helan Mountains
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