Natural forest restoration enhanced abundance and changed composition of soil phosphorus cycling genes compared with plantations

IF 2 3区 农林科学 Q3 ECOLOGY
Yun Wang , Hua Zheng , Chi Zhang , Falin Chen , Jing Zeng , Zhiyun Ouyang
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引用次数: 0

Abstract

How and to what extent forest restoration type influences phosphorus (P) cycling genes on abundance, diversity, and composition remain poorly understood, limiting the assessment of forest restoration types. Using a high-throughput functional gene microarray, we compared the abundance, diversity, and composition of P cycling genes in naturally restored natural secondary forests, artificially restored native Masson pine plantations, and introduced slash pine plantations in the red soil region of southern China. The abundance of P cycling genes, particularly phytase genes involved in organic P mineralization, was the highest in soils of natural secondary forests, followed by native Masson pine plantations, and finally, introduced slash pine plantations. The correlation between P cycling gene abundance and available P content exhibited an inverse pattern. P cycling gene composition varied significantly among the three forest restoration types. The similarity of P cycling gene composition in native Masson pine plantations to that of natural secondary forests was larger than that observed in introduced slash pine plantations. The vegetation-related factors of the ShannonWiener diversity index of trees, litter stock, tree biomass, and fine root surface area, and soil properties of total P, available P, clay content, silt content, and pH, significantly correlated with the P cycling gene composition. Maintaining high tree diversity is critical for supporting a high abundance of P cycling genes, which is beneficial for maintaining a high P status and active P cycling in forest soils. Natural forest restoration enhanced the abundance and changed the composition of soil P cycling genes compared with plantations.
与人工林相比,天然林恢复提高了土壤磷循环基因的丰度并改变了其组成
人们对森林恢复类型如何以及在多大程度上影响磷(P)循环基因的丰度、多样性和组成仍然知之甚少,这限制了对森林恢复类型的评估。利用高通量功能基因芯片,我们比较了中国南方红壤地区自然恢复的天然次生林、人工恢复的原生马松人工林和引进的斜伐松人工林中磷循环基因的丰度、多样性和组成。在天然次生林土壤中,钾循环基因的丰度最高,尤其是参与有机钾矿化的植酸酶基因,其次是原生马松人工林,最后是引进的斜纹松人工林。P 循环基因丰度与可用 P 含量之间的相关性呈反比。三种森林恢复类型的 P 循环基因组成差异很大。原生马松人工林的 P 循环基因组成与天然次生林的相似性大于引进的斜纹松人工林。与植被相关的因素,如树木的香农维纳多样性指数、枯落物存量、树木生物量和细根表面积,以及土壤特性,如总磷、可利用磷、粘土含量、淤泥含量和 pH 值,与碳循环基因组成有显著相关性。保持树木的高度多样性对于支持高浓度的P循环基因至关重要,而高浓度的P循环基因有利于保持森林土壤中的高P状态和活跃的P循环。与人工林相比,天然林恢复提高了土壤中钾循环基因的丰度并改变了其组成。
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来源期刊
Pedobiologia
Pedobiologia 环境科学-生态学
CiteScore
4.20
自引率
8.70%
发文量
38
审稿时长
64 days
期刊介绍: Pedobiologia publishes peer reviewed articles describing original work in the field of soil ecology, which includes the study of soil organisms and their interactions with factors in their biotic and abiotic environments. Analysis of biological structures, interactions, functions, and processes in soil is fundamental for understanding the dynamical nature of terrestrial ecosystems, a prerequisite for appropriate soil management. The scope of this journal consists of fundamental and applied aspects of soil ecology; key focal points include interactions among organisms in soil, organismal controls on soil processes, causes and consequences of soil biodiversity, and aboveground-belowground interactions. We publish: original research that tests clearly defined hypotheses addressing topics of current interest in soil ecology (including studies demonstrating nonsignificant effects); descriptions of novel methodological approaches, or evaluations of current approaches, that address a clear need in soil ecology research; innovative syntheses of the soil ecology literature, including metaanalyses, topical in depth reviews and short opinion/perspective pieces, and descriptions of original conceptual frameworks; and short notes reporting novel observations of ecological significance.
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