Effects of forest-to-agriculture conversion on soil arbuscular mycorrhizal fungi in the Western Black Sea Region

IF 6.1 1区农林科学 Q1 SOIL SCIENCE

Soil & Tillage Research Pub Date : 2025-04-14 DOI:10.1016/j.still.2025.106581

Şahin Palta , Elif Tokel , Eren Baş , Tancredo Souza

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Abstract

This study investigates the effects of forest-to-farmland and forest-to-rangeland conversion on arbuscular mycorrhizal fungi (AMF) biodiversity and soil properties in Ultisols of the Western Black Sea Region, Turkey. Using a factorial design with three land-use types (forest, rangeland, and conventional tillage) and two soil depths (0–15 cm and 15–30 cm), we analysed soil samples for AMF community composition, species richness, spore abundance, and key soil hydro-physical and chemical properties. Our results revealed significant shifts in AMF biodiversity associated with land-use change (p < 0.01). A total of 35 AMF species were identified, with the highest species richness (11.32 species), Simpson index (0.91), Shannon index (2.64), and Hurlbert’s PIE (0.91) observed in forest soils at 0–15 cm depth. In contrast, rangeland at 15–30 cm depth showed the highest spore abundance (491 spores 50 g⁻¹ soil), while conventional tillage at 15–30 cm had the highest Pielou index (0.86), indicating distinct ecological adaptations across land-use types. Forest soils were dominated by Racocetra coralloidea and Glomus sp., whereas rangeland soils exhibited greater frequency of Acaulospora sp. (27 %), A. scrobiculata (19 %), and Rhizophagus intraradices (14 %). In conventionally tilled soils, Glomus sp. (32 %) and Claroideoglomus etunicatum (21 %) were most prevalent, with lower overall AMF diversity, highlighting the negative impact of intensive soil disturbance. Structural Equation Modeling (SEM) demonstrated strong interdependencies between soil physical and chemical properties and AMF community dynamics. Forest conversion to rangeland and farmland led to significant reductions in AMF diversity, particularly at the surface layer (0–15 cm), where habitat simplification and soil disturbance negatively affected symbiotic interactions. Our findings emphasize the importance of sustainable land management practices, such as reduced tillage and organic amendments, to mitigate AMF biodiversity loss and preserve soil ecosystem functions. Future research should explore the resilience of AMF communities under varying land-use scenarios to guide effective conservation and agricultural strategies.

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黑海西部地区林改农对土壤丛枝菌根真菌的影响

本研究探讨了土耳其黑海西部地区的林改田和林改牧对丛枝菌根真菌（AMF）生物多样性和土壤性质的影响。采用三种土地利用类型（森林、牧场和常规耕作）和两种土壤深度（0-15 cm和15-30 cm）的因子设计，分析了土壤样品中的AMF群落组成、物种丰富度、孢子丰度和关键的土壤水物理和化学性质。结果表明，AMF生物多样性随土地利用变化发生显著变化（p <； 0.01）。共鉴定出35种AMF，物种丰富度最高（11.32种），Simpson指数（0.91）、Shannon指数（2.64）和Hurlbert’s PIE指数（0.91）均出现在0 ~ 15 cm深度的森林土壤中。相比之下，15-30 cm深度的牧场显示出最高的孢子丰度（491个孢子50 g⁻¹土），而15-30 cm深度的常规耕作具有最高的Pielou指数（0.86），表明不同土地利用类型的生态适应性不同。森林土壤以Racocetra coralloidea和Glomus sp.为主，而草地土壤以Acaulospora sp.（27 %）、a.s robiculata（19 %）和Rhizophagus intraradices（14 %）为主。在常规耕作的土壤中，Glomus sp.（32 %）和Claroideoglomus etunicatum（21 %）最为普遍，AMF总体多样性较低，突出了土壤剧烈扰动的负面影响。结构方程模型（SEM）表明土壤理化性质与AMF群落动态之间存在很强的相互依赖性。森林向牧场和农田的转变导致AMF多样性显著减少，特别是在表层（0-15 cm），栖息地简化和土壤干扰对共生相互作用产生负面影响。我们的研究结果强调了可持续土地管理实践的重要性，如减少耕作和有机改良，以减轻AMF生物多样性丧失和保护土壤生态系统功能。未来的研究应探索不同土地利用情景下AMF群落的恢复力，以指导有效的保护和农业策略。

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来源期刊

Soil & Tillage Research 农林科学-土壤科学

CiteScore

13.00

自引率

6.20%

发文量

266

审稿时长

5 months

期刊介绍： Soil & Tillage Research examines the physical, chemical and biological changes in the soil caused by tillage and field traffic. Manuscripts will be considered on aspects of soil science, physics, technology, mechanization and applied engineering for a sustainable balance among productivity, environmental quality and profitability. The following are examples of suitable topics within the scope of the journal of Soil and Tillage Research: The agricultural and biosystems engineering associated with tillage (including no-tillage, reduced-tillage and direct drilling), irrigation and drainage, crops and crop rotations, fertilization, rehabilitation of mine spoils and processes used to modify soils. Soil change effects on establishment and yield of crops, growth of plants and roots, structure and erosion of soil, cycling of carbon and nutrients, greenhouse gas emissions, leaching, runoff and other processes that affect environmental quality. Characterization or modeling of tillage and field traffic responses, soil, climate, or topographic effects, soil deformation processes, tillage tools, traction devices, energy requirements, economics, surface and subsurface water quality effects, tillage effects on weed, pest and disease control, and their interactions.