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马尾松人工林混交改造下根系-菌丝-微生物互作对土壤磷转化的调控机制

贺明霞黄雪蔓尤业明王博童慧杨欣然明安刚招礼军栾军伟

北京林业大学学报2025，Vol.47Issue(3)：83-94,12.

北京林业大学学报2025，Vol.47Issue(3)：83-94,12.DOI:10.12171/j.1000-1522.20240322

马尾松人工林混交改造下根系-菌丝-微生物互作对土壤磷转化的调控机制

Regulatory mechanism of root-mycelial-microorganism interactions on soil phosphorus transformation of Pinus massoniana plantation under mixed renovation

贺明霞 ¹黄雪蔓 ¹尤业明 ¹王博 ¹童慧 ¹杨欣然 ²明安刚 ³招礼军 ¹栾军伟⁴

作者信息

1. 广西大学林学院,广西森林生态与保育重点实验室,广西南宁 530004
2. 国际竹藤中心竹藤资源与环境研究所,竹藤科学与技术国家林业和草原局重点实验室,北京 100102||国际竹藤中心三亚研究基地,海南三亚 572022
3. 中国林业科学研究院热带林业实验中心,广西凭祥 532600||广西友谊关森林生态系统国家定位观测研究站,崇左凭祥友谊关森林生态系统广西野外科学研究观测站,广西凭祥 532600
4. 国际竹藤中心三亚研究基地,海南三亚 572022
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摘要

Abstract

[Objective]This paper aims to reveal the regulation mechanisms of soil phosphorus fraction conversion in Pinus massoniana plantations under multi-layered,uneven-aged mixed transformation,providing theoretical support for alleviating soil phosphorus limitation and ecological function decline caused by continuous planting of coniferous pure forests.[Method]Using Pinus massoniana pure forest and its mixed plantation of different aged with Castanopsis hystri and Erythrophleum fordii as research object,the effects of root-mycelium-microbe interactions on phosphorus cycling were resolved by means of inter-root limiting devices with mesh sizes of 1.45 mm(root+mycelium)and 53 μm(mycelium).[Result](1)Introducing Castanopsis hystri and Erythrophleum fordii mixed transformation into the pure forest,soil total labile phosphorus content was elevated by 41.34%and 44.42%,total moderately labile phosphorus content was elevated by 36.84%and 40.26%.(2)In the mixed forest,total microbial biomass phosphorus content was significantly increased by 91.21%and 79.52%,and the total acid phosphatase activity was significantly increased by 86.25%and 103.46%.Soil total nitrogen,total microbial biomass phosphorus,and L-leucine aminopeptidase were main environmental factors regulating the transformation of soil phosphorus fractions.(3)Only after increasing the involvement of mycelium,phosphorus activation coefficients in the soil of three stands were significantly increased by 24.37%,20.24%,20.69%,respectively.(4)Compared with only increasing mycelium involvement,root inputs resulted in total active phosphorus and total moderately active phosphorus in pure forests to decrease by 35.55%and 30.25%,respectively,and the active inorganic phosphorus in Castanopsis hystri and Erythrophleum fordii mixed forests to drop by 28.14%and 34.59%,respectively.[Conclusion]The cycling and transformation of soil phosphorus fractions in a mixed mosaic forest are influenced by soil microorganisms,enzyme activities,and soil nitrogen.Roots play a major role in transformation of phosphorus in soil,and the interaction between root system and mycelium can complicate the interactions of microbial communities in their soils,affecting the transformation and effectiveness of soil phosphorus.

关键词

马尾松人工林/土壤磷组分/土壤酶活性/根际/菌根真菌

Key words

Pinus massoniana plantation/soil phosphorus fraction/soil enzyme activity/rhizosphere/mycorrhizal fungi

分类

林学

引用本文复制引用

贺明霞,黄雪蔓,尤业明,王博,童慧,杨欣然,明安刚,招礼军,栾军伟..马尾松人工林混交改造下根系-菌丝-微生物互作对土壤磷转化的调控机制[J].北京林业大学学报,2025,47(3):83-94,12.

基金项目

国家重点研发计划(2021YFD2200405),国家自然科学基金项目(31930078、32171755),国际竹藤中心基本科研业务费(1632021023),国际竹藤中心三亚研究基地基本科研业务费(1630032024002),国际竹藤中心三亚研究基地学科建设项目(YJPY202400103),崇左凭祥友谊关森林生态系统广西野外科学观测研究站科研能力建设项目(桂科2203513003). （2021YFD2200405）

北京林业大学学报

OA北大核心

ISSN：1000-1522

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