Differential response of soil characteristics and extracellular enzyme activities along an altitude gradient in a subtropical forest ecosystem, eastern China

IF 5.4 1区农林科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY

Catena Pub Date : 2025-05-08 DOI:10.1016/j.catena.2025.109132

Ziqing Xu , Xuefeng Xie , Qi Shao , Lijie Pu , Michael Meadows , Zhenyi Jia , Xiaoyi Shi , Zhenzhen Zhang , Tao Wu , Fei Xu

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引用次数: 0

Abstract

Variations in altitude profoundly affect soil characteristics and extracellular enzyme activities (EEAs) due to the distinct vertical zonation of mountains. However, understanding the nature and strength of the interactive linkages among soil characteristics, C:N:P stoichiometry, and EEAs along altitudinal gradients in subtropical forest ecosystems remains elusive. Here, we designed an altitude gradient that covered five altitude levels on Tianmu Mountain, located in the transition zone between the central and northern subtropics, eastern China. This study explores how the soil characteristics and EEAs vary with altitude and aims to clarify the nature and strength of the interactive linkages among soil characteristics, C:N:P stoichiometry, and EEAs along an altitude gradient. Soil sand ratio, soil water content (SWC), electrical conductivity (EC), soil organic carbon (SOC), total nitrogen (TN), protease (PRO), urease (URE), and acid phosphatase (ACP) activities exhibited fluctuating upward trends with increasing altitude, peaking at the 1500 m asl. Conversely, silt ratio and pH levels demonstrated a downward trajectory, reaching their nadir at the same altitude. Meanwhile, the clay ratio, ammonium, and nutrient stoichiometric ratio initially increase but then decline with their highest value at 800 m or 1000 m. On the contrary, soil nitrate and total phosphorus (TP), first decrease and then increase again with increasing altitude, reaching their lowest value at 1000 m and 800 m, respectively. Soil catalase (CAT) and invertase (INV) activity exhibited a pronounced upward surge followed by a stabilization as altitude increased. Moreover, the altitude-dependent differences in the soil EEAs were primarily affected by SOC, SWC, TN, sand, silt, and pH, with explained variation higher than 30 % (P < 0.01). Overall, this study demonstrates a clear altitude effect on soil characteristics and EEAs, and the alterations in soil characteristics across altitudes are essential in shaping the soil EEAs in subtropical forest ecosystems.

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中国东部亚热带森林生态系统土壤特征和胞外酶活性沿海拔梯度的差异响应

由于山地垂直地带性明显，海拔高度的变化对土壤特征和胞外酶活性产生了深刻的影响。然而，在亚热带森林生态系统中，土壤特征、碳氮磷化学计量学和EEAs之间沿海拔梯度的交互联系的性质和强度仍然难以理解。在这里，我们设计了一个海拔梯度，覆盖了天目山的五个海拔高度，天目山位于中国东部亚热带中部和北部之间的过渡地带。本研究探讨了土壤特征和EEAs随海拔的变化规律，旨在阐明土壤特征、C:N:P化学计量学和EEAs之间沿海拔梯度的相互作用联系的性质和强度。土壤砂比、土壤含水量（SWC）、电导率（EC）、土壤有机碳（SOC）、总氮（TN）、蛋白酶（PRO）、脲酶（URE）和酸性磷酸酶（ACP）活性随海拔的升高呈波动上升趋势，在海拔1500 m处达到峰值。相反，泥沙比和pH值呈下降趋势，在同一海拔高度达到最低点。粘土比、铵态氮和养分化学计量比均呈先升高后下降的趋势，在800 m和1000 m处达到最大值。相反，土壤硝态氮和全磷（TP）随海拔升高先降低后增加，分别在1000 m和800 m处达到最低。土壤过氧化氢酶（CAT）和转化酶（INV）活性随着海拔的升高呈现出明显的上升趋势，随后趋于稳定。此外，土壤EEAs的海拔依赖性差异主要受有机碳、SWC、全氮、沙粒、粉粒和pH的影响，其解释变异大于30% (P <；0.01)。总体而言，研究表明海拔高度对土壤特征和eea有明显的影响，并且不同海拔高度土壤特征的变化对亚热带森林生态系统土壤eea的形成至关重要。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Catena 环境科学-地球科学综合

CiteScore

10.50

自引率

9.70%

发文量

816

审稿时长

54 days

期刊介绍： Catena publishes papers describing original field and laboratory investigations and reviews on geoecology and landscape evolution with emphasis on interdisciplinary aspects of soil science, hydrology and geomorphology. It aims to disseminate new knowledge and foster better understanding of the physical environment, of evolutionary sequences that have resulted in past and current landscapes, and of the natural processes that are likely to determine the fate of our terrestrial environment. Papers within any one of the above topics are welcome provided they are of sufficiently wide interest and relevance.