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沿短自然养分梯度的针叶林中菌根菌丝体的生长与生物量

Growth and biomass of mycorrhizal mycelia in coniferous forests along short natural nutrient gradients.

作者信息

Nilsson Lars Ola, Giesler Reiner, Bååth Erland, Wallander Håkan

机构信息

Department of Ecology, Microbial Ecology, Lund University, SE-223 62 Lund, Sweden.

出版信息

New Phytol. 2005 Feb;165(2):613-22. doi: 10.1111/j.1469-8137.2004.01223.x.

DOI:10.1111/j.1469-8137.2004.01223.x
PMID:15720671
Abstract

Total fungal biomass, the biomass of ectomycorrhizal and ericoid mycorrhizal (EM + ErM), and arbuscular mycorrhizal (AM) fungi, as well as the production of EM and AM fungi, were estimated in coniferous forest soils along four natural nutrient gradients. Plant community changes, forest productivity, soil pH and N availability increase over relatively short distances (< 100 m) along the gradients. The amounts of the phospholipid fatty acid (PLFA) 18 : 2omega6,9 were used to estimate total fungi (not including AM), and the PLFA 16 : 1omega5 to estimate AM fungi in soil samples. The decrease in the PLFA 18 : 2omega6,9 during incubation of soils was used to estimate EM + ErM biomass. Production of AM and EM mycorrhiza was estimated using ingrowth mesh bags. Total fungal biomass was highest in soils with the lowest nutrient availability and tree productivity. Biomass of ErM + EM was also highest in these soils. We found tendencies that EM mycelial production was lowest in the soils with the highest nutrient availability and tree productivity. Production of AM fungi was highest in nutrient-rich soils with high pH. Our results suggest that mycorrhizal communities change from being ErM-, to EM- and finally to AM-dominated along these gradients. The observed changes in mycorrhizal type in the short nutrient gradients follow similar patterns to those suggested for altitudinal or latitudinal gradients over longer distances.

摘要

沿着四个自然养分梯度,对针叶林土壤中的真菌总生物量、外生菌根和石楠状菌根(EM + ErM)生物量以及丛枝菌根(AM)真菌生物量,以及EM和AM真菌的产量进行了估算。沿着这些梯度,在相对较短的距离(< 100米)内,植物群落发生变化,森林生产力、土壤pH值和氮有效性增加。利用磷脂脂肪酸(PLFA)18 : 2ω6,9的含量估算土壤样品中的真菌总量(不包括AM),利用PLFA 16 : 1ω5估算AM真菌。土壤培养过程中PLFA 18 : 2ω6,9的减少用于估算EM + ErM生物量。使用内生长网袋估算AM和EM菌根的产量。真菌总生物量在养分有效性和树木生产力最低的土壤中最高。ErM + EM的生物量在这些土壤中也最高。我们发现,在养分有效性和树木生产力最高的土壤中,EM菌丝体产量最低。AM真菌的产量在高pH值的富营养土壤中最高。我们的结果表明,沿着这些梯度,菌根群落从以ErM为主,转变为以EM为主,最终转变为以AM为主。在短养分梯度中观察到的菌根类型变化,与在更长距离的海拔或纬度梯度中所推测的模式相似。

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