Asymmetric Soil Warming under Global Climate Change

机译：全球气候变化下的非对称土壤变暖

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摘要

Daily surface soil temperature data from 360 weather stations in China during 1962–2011 were retrieved and analyzed. The data revealed two aspects of asymmetric soil warming. Firstly, there was asymmetry between day and night in terms of increases in soil temperature. The daily maximum surface soil temperature (

S T_{\max}

) and daily minimum surface soil temperature (

S T_{\min}

) increased at rates of 0.031 and 0.055 °C/year over the 50-year interval, respectively. As a consequence of the more rapid increases in

S T_{\min}

, the soil diurnal temperature range (SDTR) decreased at most stations (average rate of –0.025 °C/year), with the most profound decrease in winter (–0.08 °C/year). The solar duration (SD) was positively related to SDTR and is regarded as the key underlying cause of the decreasing SDTR. Secondly, there was asymmetry between the soil and air in the temperature increase. The differences between soil and air temperature (

T_{D}

) were highest in summer (2.76 °C) and smallest in winter (1.55 °C), which decreased by 0.3 °C over the study interval, this meant agricultural practice plans based on air temperature alone may be severely limited. The difference between soil temperature and air temperature reduces at night. This would facilitate the wintering of perennials in areas near the zero-contour line.

机译：检索并分析了1962-2011年中国360个气象站的每日地表土壤温度数据。数据揭示了土壤不对称升温的两个方面。首先，就土壤温度的升高而言，昼夜之间存在不对称性。每日最高表面土壤温度（<数学xmlns：mml =“ http://www.w3.org/1998/Math/MathML” id =“ mm1”溢出=“ scroll”> <种植> <种植> S T max ）和每天最低表层土壤温度（<数学xmlns：mml =“ http://www.w3.org/1998/Math/MathML” id =“ mm2”溢出=“ scroll”> S < / mi> T min ）以在50年的时间间隔内，分别为0.031和0.055°C /年。由于

< mi> S Tmin，大多数站点的土壤昼夜温度范围（SDTR）下降（平均速率为–0.025°C /年），而冬季则最大幅度下降（–0.08°C /年）。太阳持续时间（SD）与SDTR呈正相关，被认为是SDTR下降的关键根本原因。其次，温度升高使土壤与空气不对称。土壤和气温之间的差异（<数学xmlns：mml =“ http://www.w3.org/1998/Math/MathML” id =“ mm4”溢出=“ scroll”>TD在夏季（2.76°C）最高，在冬季（1.55°C）最小C），在研究间隔内降低了0.3°C，这意味着仅基于气温的农业实践计划可能会受到严重限制。夜间土壤温度和空气温度之间的差异减小。这将促进零轮廓线附近地区多年生植物的越冬。

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期刊名称 International Journal of Environmental Research and Public Health
作者
Hui Zhang; Binhui Liu; Daowei Zhou; Zhengfang Wu; Ting Wang;
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作者单位

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年(卷),期 2019(16),9
年度 2019
页码 1504
总页数 13
原文格式 PDF
正文语种
中图分类公共卫生工程;
关键词
asymmetric soil temperature SDTR increase decrease;

机译：不对称;土壤温度;SDTR;增加;减少;
入库时间 2022-08-17 12:04:18

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Asymmetric Soil Warming under Global Climate Change

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