罗马尼亚西北部的土壤特性与森林衰退

IF 2.4 2区 农林科学 Q1 FORESTRY
Forests Pub Date : 2024-01-08 DOI:10.3390/f15010124
A. Oneț, Roxana Vidican, Carmen Ghergheles, Larisa Corcoz, V. Stoian, C. Oneț, A. Teusdea
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引用次数: 0

摘要

本文介绍了在罗马尼亚比霍尔县 Varciorog 的一块研究田中,通过化学和生物特性对土壤质量和健康状况进行的研究。土壤样本于 2023 年 3 月从 3 个土壤变量中采集。在每个土壤变量中,都测定了一些土壤化学参数和细菌数量。对菌根的定殖频率和强度以及节丛和液泡进行评分,以确定每种土壤的菌根潜力。群落级生理特征用于确定功能微生物群及其分解特定基质的能力。对照变体(CTRL)是一片功能性森林,榉树栽培比例为 90%,在对照变体中,土壤特性与 1 号地点(衰退的混交林)和 2 号地点(处于完全干燥阶段的栗树林)测定的土壤特性进行了比较。通过单因子方差分析和邓肯事后检验对数据进行了统计处理,结果显示,不同分析地点的微生物功能群落潜力存在显著差异。此外,在 3 种土壤变体中,细菌数量、pH 值、腐殖质、可交换铝、粗砂、粉尘和细砂等土壤参数也存在明显差异。为了研究细菌数量与化学参数之间的联系,计算了皮尔逊相关性。结果表明,所研究的大多数土壤特性之间都有很强的相关性。土壤功能微生物群的 Ecoplates 方法突出了三个测试地点微生物群落之间的各种差异。菌根的定殖显示了共生形成的不同潜力。菌根定殖的峰值出现在衰退林中,定殖频率为 43.36%,定殖强度为 24.56%。灌丛在衰退林中达到 11.36%,而在对照地和衰退地,该指标低于 4%。囊泡与对照林和腐烂林的关联度更高,存在率超过 1.30%。作为微生物总体活动的指标,衰退森林和腐烂森林中记录的活动总和较高。在这些地方,功能微生物群的活动被放大了。衰退过程激活了更高的功能群多样性,并与更大面积的基质分解能力有关,这表明与分解有机物有关的微生物功能范围更广。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Soil Properties and Forest Decline in the North-Western Part of Romania
The paper presents the study of the soil quality and health expressed by the chemical and biological properties in a research field placed at Varciorog, Bihor County, Romania. The soil samples were collected from 3 soil variants in March 2023. In each soil variant, some soil chemical parameters and the abundance of bacteria were determined. The frequency and intensity of colonization, along with arbuscules and vesicles, were scored to determine the mycorrhizal potential of each soil. The community-level physiological profile was used to determine the functional microbiome and its ability to decompose a specific set of substrates. In the control variant (CTRL), which is a functional forest cultivated with beech in a proportion of 90%, the soil properties were compared with those determined from Site 1 (a declined mixed forest) and from Site 2 (chestnut forest in a stage of complete drying). The data were statistically processed with a one-way ANOVA test, followed by the Duncan post-hoc test, which revealed significant variation in the potential of microbial functional communities across the analyzed sites. Also, the soil parameters that significantly varied in the 3 soil variants were bacterial number, pH, humus, exchangeable aluminum, coarse sand, dust, and fine sand. The Pearson correlation was computed to study the links between bacterial numbers and chemical parameters. The results showed strong correlations between most of the studied soil properties. The Ecoplates approach to soil functional microbiome highlighted various differences between the microbial communities of the three tested sites. Mycorrhizal colonization shows different potentials for symbiosis formation. The peak of mycorrhizal colonization was in declined forest, with 43.36% colonization frequency and 24.56% intensity. Arbuscules reached 11.36% in declined forest, while in control and decayed sites, the indicator was under 4%. Vesicles are more associated with control and decayed forests, with values of presence over 1.30%. As an indicator of microbial general activity, the sum of recorded activities was higher in declined and decayed forests. At these sites, the activity of the functional microbiome was amplified. The decline process activates a higher diversity of functional groups and is associated with a larger area of substrate decomposition capacity, which indicates a more extensive range of microbial functions related to breaking down organic matter.
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来源期刊
Forests
Forests FORESTRY-
CiteScore
4.40
自引率
17.20%
发文量
1823
审稿时长
19.02 days
期刊介绍: Forests (ISSN 1999-4907) is an international and cross-disciplinary scholarly journal of forestry and forest ecology. It publishes research papers, short communications and review papers. There is no restriction on the length of the papers. Our aim is to encourage scientists to publish their experimental and theoretical research in as much detail as possible. Full experimental and/or methodical details must be provided for research articles.
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