Pool complexity and molecular diversity shaped topsoil organic matter accumulation following decadal forest restoration in a karst terrain

IF 9.8 1区 农林科学 Q1 SOIL SCIENCE Soil Biology & Biochemistry Pub Date : 2022-03-01 DOI:10.1016/j.soilbio.2022.108553
Shuotong Chen , Xiao Feng , Qingmei Lin , Chun Liu , Kun Cheng , Xuhui Zhang , Rongjun Bian , Xiaoyu Liu , Yan Wang , Marios Drosos , Jufeng Zheng , Lianqing Li , Genxing Pan
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Abstract

Fast accumulation of soil organic matter (SOM) following forest restoration shifted from cropland has been widely reported, but how the pools and molecular composition change across soil aggregate fractions remains unclear. In this study, undisturbed topsoil (0–10 cm) samples were collected across a decadal chronosequence of forest stands (RL10, RL20 and RL40) restored for 10, 20 and 40 years following maize cropland (CL) abandonment in a karst terrain of Guizhou, Southwest China. SOM changes were explored using the size and density fractionation of water-stable aggregates, 13C isotopic signalling and biomarker analyses as well as 13C solid-state NMR assays. Compared to that of CL, SOM content was increased by 24%, 79% and 181%, mass proportion of macroaggregates increased by 136%, 179% and 250%, and particulate organic matter (POM) increased by 13%, 108% and 382%, respectively at RL10, RL20 and RL40. With biomarker analyses, the relative abundances of plant-derived organics (lignin, cutin, suberin, wax and phytosterols), mostly protected in aggregates, increased, while those of microbe-derived OC, predominantly mineral bound, decreased in response to prolonged forest restoration. Calculated as per the Shannon diversity index (H’), changes in SOM pool complexity and molecular diversity were parallel to the SOM accumulation trend. The pool size ratio of POM to MAOM (mineral-associated organic matter) and the molecular abundance ratio of PL (plant-derived lipids) to ML (microbe-derived lipids) appeared to be indicative of SOM accumulation following forest restoration. With prolonged forest restoration, the topsoil OM shifted from microbial MAOM dominance to plant-derived POM dominance. Furthermore, the great topsoil OM enhancement in restored forest stands was shaped by pool complexity and molecular diversity changes with the complex interactions among plant-microbial-mineral assemblages in the karst topsoil. Both the pool complexity and molecular diversity of SOM should be considered in addressing carbon sequestration with forest restoration concerning the functioning of soil ecosystems and services under global change pressures.

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喀斯特地区森林年代际恢复后表层土壤有机质积累由池复杂性和分子多样性决定
森林恢复后土壤有机质(SOM)的快速积累已被广泛报道,但土壤团聚体组分的库和分子组成如何变化尚不清楚。本研究对贵州喀斯特地区玉米退耕后10年、20年和40年恢复的林分(RL10、RL20和RL40) 0 ~ 10 cm未受干扰的表土样本进行了年代际时序分析。利用水稳定聚集体的大小和密度分异、13C同位素信号和生物标志物分析以及13C固态核磁共振分析来探索SOM的变化。与CL相比,RL10、RL20和RL40的SOM含量分别增加了24%、79%和181%,大团聚体质量比例分别增加了136%、179%和250%,颗粒物有机质(POM)分别增加了13%、108%和382%。生物标志物分析表明,植物源有机物(木质素、角质层、木质素、蜡质和植物甾醇)的相对丰度随着森林恢复时间的延长而增加,而微生物源有机物(以矿物结合为主)的相对丰度则减少。根据Shannon多样性指数(H’)计算,SOM池复杂性和分子多样性的变化与SOM积累趋势平行。POM与MAOM(矿物相关有机质)的池大小比以及PL(植物源性脂质)与ML(微生物源性脂质)的分子丰度比似乎表明森林恢复后SOM的积累。随着森林恢复时间的延长,表层土壤有机质由微生物MAOM优势向植物源POM优势转变。此外,恢复林分表层土壤有机质的显著增加受喀斯特表层土壤中植物-微生物-矿物组合复杂相互作用的池复杂性和分子多样性变化的影响。考虑全球变化压力下土壤生态系统的功能和服务,在解决森林恢复固碳问题时,应考虑土壤土壤库的复杂性和分子多样性。
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来源期刊
Soil Biology & Biochemistry
Soil Biology & Biochemistry 农林科学-土壤科学
CiteScore
16.90
自引率
9.30%
发文量
312
审稿时长
49 days
期刊介绍: Soil Biology & Biochemistry publishes original research articles of international significance focusing on biological processes in soil and their applications to soil and environmental quality. Major topics include the ecology and biochemical processes of soil organisms, their effects on the environment, and interactions with plants. The journal also welcomes state-of-the-art reviews and discussions on contemporary research in soil biology and biochemistry.
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