炭基肥对老茶园土壤有机碳矿化温度敏感性的影响

doi:10.3969/j.issn.1000-6362.2024.03.003

中国农业气象 ›› 2024, Vol. 45 ›› Issue (03): 245-256.doi: 10.3969/j.issn.1000-6362.2024.03.003

炭基肥对老茶园土壤有机碳矿化温度敏感性的影响

陈峻锐，韦翔华，胡钧铭，石元值，张俊辉，郑富海

1.广西大学农学院，南宁 530004；2.广西农业科学院农业资源与环境研究所/广西耕地保育重点实验室，南宁 530007；3.中国农业科学院茶叶科学研究所，杭州 310008

收稿日期:2023-07-12 出版日期:2024-03-20 发布日期:2024-03-13
作者简介:陈峻锐，E-mail：913052785@qq.com；韦翔华，E-mail：xhwfd@gxu.edu.com
基金资助:
中央引导地方科技发展资金项目（桂科ZY23055047）；广西“新世纪十百千人才工程”专项资金（2018221）；广西科技基地和人才专项（桂科AA23026002）；广西茶叶试验站建设专项（桂TS202106）；广西农业科学院创新团队项目（桂农科2021YT040）

Effect of Biochar-based Fertilizer on Temperature Sensitivity of Soil Organic Carbon Mineralization in Aged Tea Gardens

CHEN Jun-rui, WEI Xiang-hua, HU Jun-ming, SHI Yuan-zhi, ZHANG Jun-hui, ZHENG Fu-hai

1.Agricultural College, Guangxi University, Nanning 530004, China; 2.Agricultural Resources and Environmental Research Institute, Guangxi Academy of Agricultural Sciences/Guangxi Key Laboratory of Arable Land Conservation, Nanning 530007; 3.Tea Research Institute, Chinese Academy of Agricultural Science, Hangzhou 310008

Received:2023-07-12 Online:2024-03-20 Published:2024-03-13

摘要/Abstract

摘要： 采取室内恒温培养法，以施用炭基肥（BF）、不施炭基肥（CK）的40a茶园土壤为研究对象，设定15℃、25℃和35℃共3种不同温度场景，连续监测土壤有机碳（soil organic carbon，SOC）矿化特征并分析有机碳矿化温度敏感性，为评估老茶园固碳减排及障碍消减提供参考。结果表明：（1）炭基肥提升了温变场景下茶园土壤pH值和SOC含量。15℃、25℃和35℃培养温度下，BF处理的土壤pH值较CK处理分别增加0.45、0.07和0.28个单位；BF处理的SOC含量较CK处理分别提高22.19%、16.65%和25.50%。（2）炭基肥增加了温变场景下茶园SOC累计矿化量、潜在矿化势（C_S）及土壤呼吸强度，对SOC矿化呈现正激发效应。15℃、25℃和35℃培养温度下，BF处理的SOC累计矿化量较CK处理分别提高15.61%、46.51%和36.89%。BF处理的CS值随温度升高呈现先增加后减少的变化趋势，25℃培养温度下BF处理的C_S值较15℃和35℃培养温度下分别提高147.11%和29.21%。（3）炭基肥降低温度升高处理下茶园SOC矿化温度敏感性。25～35℃温度范围内，BF处理的Q₁₀（土壤有机碳矿化温度敏感性）值较CK处理降低6.25%；BF处理在25～35℃温度范围内Q₁₀值较15～25℃温度范围内的Q₁₀值降低25%。说明施用炭基肥可有效改良40a茶园土壤理化性质，增加土壤固碳，并提升茶园土壤碳库应对温度变化的稳定性，炭基肥利于优化低产老龄茶园可持续生产管理。

关键词: 土壤有机碳, 温室效应, 温度敏感性, 老茶园, 生物炭

Abstract: The indoor constant temperature culture method was adopted, and the 40-year-old tea garden soil applied with biochar-based fertilizer (BF) and without biochar-based fertilizer (CK) were selected as the research objects. Three different temperature scenarios were set at 15℃, 25℃ and 35℃, and the soil organic carbon (SOC) mineralization characteristics were continuously monitored and the temperature sensitivity of SOC mineralization was analyzed. It will provide reference for evaluating carbon sequestration emission reduction and obstacle reduction in aged tea gardens. The results showed that: (1) biochar-based fertilizer increased the pH and SOC content of tea garden soil under the temperature variation. At 15℃, 25℃ and 35℃, compared with CK treatment，the soil pH of BF treatment increased by 0.45, 0.07 and 0.28, respectively. The SOC content of BF treatment increased by 22.19%, 16.65% and 25.50%, respectively. (2) Biochar-based fertilizer increased the SOC accumulative mineralization amount, mineralization potential (C_S) and soil respiration intensity in tea gardens under temperature change, showing a positive priming effect on SOC mineralization. At 15℃, 25℃ and 35℃, compared with CK treatment, the accumulated SOC mineralization amount of BF treatment increased by 15.61%, 46.51% and 36.89%, respectively. The C_S value of BF treatment first increased and then decreased with rising temperature. Compared with 15℃ and 35℃, the C_S value of BF treatment at 25℃ increased by 147.11% and 29.21% respectively. (3) Biochar-based fertilizer decreased the temperature sensitivity of SOC mineralization in tea gardens under increasing temperature. In the temperature range of 25−35℃, the Q₁₀ (temperature sensitivity of soil organic carbon mineralization) value of BF treatment decreased by 6.25% compared with CK treatment. The Q₁₀ value of BF treatment in the temperature range of 25−35℃ decreased by 25% compared with the Q₁₀ value in the temperature range of 15−25℃. The results indicated that the application of biochar-based fertilizer can effectively improve the physical and chemical properties of the 40-year-old tea garden soil, increase soil carbon sequestration, and improve the stability of the soil carbon pool in response to temperature changes in the tea garden. Biochar-based fertilizer is conducive to optimizing the sustainable production management of low-yield and aging tea gardens.

Key words: Soil organic carbon, Greenhouse effect, Temperature sensitivity, Aged tea garden, Biochar

陈峻锐, 韦翔华, 胡钧铭, 石元值, 张俊辉, 郑富海. 炭基肥对老茶园土壤有机碳矿化温度敏感性的影响[J]. 中国农业气象, 2024, 45(03): 245-256.

CHEN Jun-rui, WEI Xiang-hua, HU Jun-ming, SHI Yuan-zhi, ZHANG Jun-hui, ZHENG Fu-hai. Effect of Biochar-based Fertilizer on Temperature Sensitivity of Soil Organic Carbon Mineralization in Aged Tea Gardens[J]. Chinese Journal of Agrometeorology, 2024, 45(03): 245-256.

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炭基肥对老茶园土壤有机碳矿化温度敏感性的影响

Effect of Biochar-based Fertilizer on Temperature Sensitivity of Soil Organic Carbon Mineralization in Aged Tea Gardens

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