Can limits of plant available water be inferred from soil moisture distributions?

IF 2.3 4区 农林科学 Q1 AGRICULTURE, MULTIDISCIPLINARY Agricultural & Environmental Letters Pub Date : 2023-07-18 DOI:10.1002/ael2.20113
Meetpal S. Kukal, Suat Irmak
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Abstract

Robust assessment of crop water availability requires effective integration of soil moisture data within the range of field capacity (θFC) to permanent wilting point (θPWP). Emerging needs for spatiotemporally dynamic θFC and θPWP are difficult to achieve with lab determinations. Therefore, we used long-term data from 182 sites across the United States to evaluate whether soil moisture extremes defined by 95th and 5th percentiles represent θFC and θPWP, respectively. Soil moisture extremes and lab-measured θFC and θPWP were well correlated (R2 = 0.71−0.92), however, both 95th and 5th percentiles overestimated θFC and θPWP at most depths (RMSE = 6%–16% vwc). Percentiles of soil moisture distribution that corresponded to lab-determined θFC and θPWP varied widely and were a function of precipitation received at the site and site- and soil-depth specific clay content. These findings imply that while θFC and θPWP may not be broadly represented by soil moisture extremes (95th and 5th percentiles), there may be potential to statistically infer the positioning of θFC and θPWP within long-term soil moisture distributions using biophysical determinants such as aridity and soil characteristics.

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植物有效水分的限制可以从土壤水分分布中推断出来吗?
作物水分有效性的稳健评估需要有效整合田间容量(θFC)至永久枯萎点(θPWP)范围内的土壤水分数据。对时空动态θFC和θPWP的新需求很难通过实验室测定来实现。因此,我们使用来自美国182个地点的长期数据来评估由第95个百分位数和第5个百分位位数定义的土壤湿度极值是否分别代表θFC和θPWP。土壤极端湿度和实验室测量的θFC和θPWP具有很好的相关性(R2=0.71−0.92),然而,第95个百分位数和第5个百分位位数在大多数深度都高估了θFC和βPWP(RMSE=6%–16%vwc)。与实验室确定的θFC和θPWP相对应的土壤水分分布百分比变化很大,是现场降水量和现场特定土壤深度粘土含量的函数。这些发现表明,虽然θFC和θPWP可能不能用土壤湿度极值(第95个百分位数和第5个百分位位数)来广泛表示,但利用干旱度和土壤特征等生物物理决定因素,可能有可能从统计学上推断出θFC和βPWP在长期土壤湿度分布中的位置。
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来源期刊
CiteScore
3.70
自引率
3.80%
发文量
28
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