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Global subsoil organic carbon turnover times dominantly controlled by soil properties rather than climate

机译：全球地下土壤有机碳周转时间主要由土壤性质而非气候控制

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Soil organic carbon (SOC) in the subsoil below 0.3 m accounts for the majority of total SOC and may be as sensitive to climate change as topsoil SOC. Here we map global SOC turnover times (τ) in the subsoil layer at 1 km resolution using observational databases. Global mean τ is estimated to be

101 5_{729}^{1414}

yr (mean with 95% confidence interval), and deserts and tundra show the shortest (

14 6_{114}^{188}

yr) and longest (

385 4_{2651}^{5622}

yr) τ respectively. Across the globe, mean τ ranges from 9 (the 5% quantile) to 6332 years (the 95% quantile). Temperature is the most important factor negatively affecting τ, but the overall effect of climate (including temperature and precipitation) is secondary compared with the overall effect of assessed soil properties (e.g., soil texture and pH). The high-resolution mapping of τ and the quantification of its controls provide a benchmark for diagnosing subsoil SOC dynamics under climate change.

机译：低于0.3μm的土壤中的土壤有机碳（SOC）占总SOC的大部分，并且对气候变化的敏感性可能与表土SOC一样。在这里，我们使用观测数据库以1？km的分辨率绘制了地下土壤层中的全球SOC转换时间（τ）。全局平均值τ估计为<数学xmlns：mml =“ http://www.w3.org/1998/Math/MathML” id =“ M2”溢出=“ scroll”> 101 < msubsup> 5 729 1414 年（均值置信区间为95％），而沙漠和苔原显示的时间最短（

146114188年）和最长（385426515622yr）τ。在全球范围内，平均τ范围从9（5％的分位数）到6332年（95％的分位数）。温度是对τ产生不利影响的最重要因素，但与评估的土壤性质（例如土壤质地和pH值）的整体影响相比，气候的整体影响（包括温度和降水）次之。 τ的高分辨率映射及其控制的量化为诊断气候变化下的地下土壤SOC动态提供了基准。

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期刊名称 Nature Communications
作者
Zhongkui Luo; Guocheng Wang; Enli Wang;
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年(卷),期 -1(10),-1
年度 -1
页码 3688
总页数 10
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专利

1. Global subsoil organic carbon turnover times dominantly controlled by soil properties rather than climate [J] . Zhongkui Luo, Guocheng Wang, Enli Wang Nature Communications . 2019,第1期

机译：全球底土有机碳周转时间通过土壤性质而不是气候占主导地控制
2. Spatial controls of topsoil and subsoil organic carbon turnover under C-3-C-4 vegetation change [J] . Geoderma: An International Journal of Soil Science . 2017,第期

机译：C-3-C-4植被变化下表土和底土有机碳转运的空间控制
3. Global climate change and soil carbon stocks; predictions from two contrasting models for the turnover of organic carbon in soil [J] . Jones C, McConnell C, Coleman K, Global change biology . 2005,第1期

机译：全球气候变化和土壤碳储量;两种对比模型对土壤中有机碳周转的预测
4. DEEP PLACEMENT OF ORGANIC AMENDMENTS IN DENSE SODIC SUBSOILS: EFFECTS ON SUGARCANE ROOT GROWTH, SOIL CARBON LEVELS AND SOILBIOLOGICAL PROPERTIES [C] . Conference of the Australian Society of Sugar Cane Technologists . 2018

机译：致密素质底层有机修改的深度放置：对甘蔗根生长，土壤碳水平和污垢特性的影响
5. Effect of the addition of organic amendments to an ultisol subsoil on soil properties and ornamental plant growth. [D] . Sloan, Richard Crofton, Jr. 2001

机译：向ultisol基础土壤添加有机改良剂对土壤特性和观赏植物生长的影响。
6. Combinations of soil properties carbon inputs and climate control the saturation deficit dynamics of stable soil carbon over 17-year fertilizaiton [O] . Jiaying Di, Minggang Xu, Wenju Zhang, -1

机译：土壤特性碳输入量和气候控制相结合稳定施肥17年的稳定土壤碳饱和度亏缺动态
7. Supplementary material to quot;Soil properties override climate controls on global soil organic carbon stocksquot; [O] . Zhongkui Luo, Raphael Viscarra-Rossel 2020

机译：“土壤性质超越全球土壤有机碳储量气候控制”的补充材料

Global subsoil organic carbon turnover times dominantly controlled by soil properties rather than climate

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