Ecological impacts of diversified agroforestry on soil nutrients and bacterial communities in Pinus massoniana plantations in the southern subtropics

IF 5.6 1区 农林科学 Q1 AGRICULTURAL ENGINEERING Industrial Crops and Products Pub Date : 2024-11-09 DOI:10.1016/j.indcrop.2024.119933
Saif Ullah , Xiaomei Han , Izhar Ali , Wannian Li , Tong Wu , Yuanyuan Xu , Mei Yang
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Abstract

Converting forests from single-species to mixed-species planting affects soil chemical and biological properties, yet its impacts within medicinal plant-based agroforestry systems remain largely unexamined. This research assessed the soil nutrient spectrum and bacterial community composition in a monoculture Pinus massoniana (CK) and various agroforestry models: (M1) Pinus massoniana and Alpina oxyphylla, (M2) Pinus massoniana and Ficus simplicissima, (M3) Pinus massoniana and Amomum villosum, and (M4) Pinus massoniana and Curcuma longa, within both field soil and rhizosphere environments. Results showed significant (p < 0.05) improvements in soil pH and cation exchange capacity (CEC) in agroforestry systems. Agroforestry models exhibited greater variability in soil macronutrient distribution, including nitrogen, potassium, calcium, magnesium, and sulfur (N, K, Ca, Mg, S), compared to monocultures. Specifically, Curcuma longa (M4C.RS) had 46.12 % higher total N content than monoculture Pinus massoniana. Micronutrients were higher in agroforestry rhizospheres, except for total zinc, which was higher in monoculture Pinus massoniana. Bacterial community analysis revealed dominant phyla including Acidobacteriota, Proteobacteria, Actinobacteria, and Chloroflexi. Agroforestry models had higher abundance of Proteobacteria, while monoculture had higher Acidobacteriota. Alpha diversity metrics, including Chao1 and Shannon indices, indicated higher species richness and evenness in agroforestry models, particularly in the rhizosphere of Amomum villosum (M3A.RS) and Curcuma longa (M4C.RS). Phylogenetic analysis indicated greater genetic diversity in agroforestry models, in terms of species richness and phylogenetic variation especially for Proteobacteria. Cluster analysis and NMDS revealed close grouping of agroforestry models, with dbRDA showing significant associations between environmental variables (pH, CEC, and nutrient profile), emphasizing their critical role in shaping bacterial community composition, supported by Spearman correlation. Functional prediction (PICRUSt2) indicated metabolism as the predominant functional category. Therefore, transition from monoculture to agroforestry, especially with Curcuma longa (M4), significantly enhanced soil fertility and ecosystem sustainability.
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多样化农林业对南亚热带马松种植园土壤养分和细菌群落的生态影响
将森林从单一树种种植转变为混合树种种植会影响土壤的化学和生物特性,但其对以药用植物为基础的农林系统的影响在很大程度上仍未得到研究。本研究评估了在田间土壤和根瘤菌层环境中,单一种植的马尾松(CK)和各种农林模式(M1)马尾松和Alpina oxyphylla、(M2)马尾松和Ficus simplicissima、(M3)马尾松和Amomum villosum以及(M4)马尾松和莪术)的土壤养分谱和细菌群落组成。结果表明,农林系统的土壤 pH 值和阳离子交换容量(CEC)有明显改善(p < 0.05)。与单一种植相比,农林模式在土壤宏量营养元素(包括氮、钾、钙、镁和硫(N、K、Ca、Mg、S))分布方面表现出更大的差异性。具体而言,莪术(M4C.RS)的总氮含量比单一栽培的马尾松(Pinus massoniana)高 46.12%。农林根瘤菌群中的微量营养元素含量较高,但单一栽培的马尾松中的总锌含量较高。细菌群落分析显示,优势菌门包括酸性杆菌、蛋白质细菌、放线菌和绿杆菌。农林模式中的变形菌较多,而单一栽培模式中的酸性杆菌较多。阿尔法多样性指标(包括 Chao1 和香农指数)表明,农林模式中的物种丰富度和均匀度较高,尤其是在菰(Amomum villosum,M3A.RS)和莪术(Curcuma longa,M4C.RS)的根瘤菌群中。系统发育分析表明,在物种丰富度和系统发育变异方面,农林模式具有更高的遗传多样性,特别是在蛋白细菌方面。聚类分析和 NMDS 显示,农林模式之间的分组关系密切,dbRDA 显示环境变量(pH 值、CEC 和养分状况)之间存在显著关联,强调了这些变量在塑造细菌群落组成方面的关键作用,Spearman 相关性也证明了这一点。功能预测(PICRUSt2)表明,新陈代谢是最主要的功能类别。因此,从单一种植过渡到农林业,特别是使用莪术(M4),可显著提高土壤肥力和生态系统的可持续性。
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来源期刊
Industrial Crops and Products
Industrial Crops and Products 农林科学-农业工程
CiteScore
9.50
自引率
8.50%
发文量
1518
审稿时长
43 days
期刊介绍: Industrial Crops and Products is an International Journal publishing academic and industrial research on industrial (defined as non-food/non-feed) crops and products. Papers concern both crop-oriented and bio-based materials from crops-oriented research, and should be of interest to an international audience, hypothesis driven, and where comparisons are made statistics performed.
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