The mass water content of paddy soil after harvest is strongly associated with the accumulation of organic matter as the source of available nitrogen

IF 1.9 4区 农林科学 Q3 ENVIRONMENTAL SCIENCES
Hideo Azuma, S. Takahashi, N. Kato, K. Inubushi
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引用次数: 1

Abstract

ABSTRACT Paddy soils are the dominant source of nitrogen for rice via mineralization, and knowledge about the available nitrogen (AN) in paddy soil is important for rice cultivation. Although the relationship between AN and soil physicochemical parameters has been studied, no systematic studies of the relationships between AN and the soil moisture content of various soil types in Japan have been studied. Therefore, we examined the impacts of soil types and treatment of organic matter application or paddy–upland rotation on these relationships. We sampled topsoils from 30 paddy fields throughout Japan. We compared the relationships between AN and soil physicochemical properties, such as total nitrogen (TN), cation exchange capacity, soil water-holding capacity (WHC), mass water content after harvest (MWH), and water content after harvest (WCH). The scatter diagram revealed that AN and either MWH or WCH (p < 0.01) had the highest positive linear correlation coefficient; the pattern became clearer after separating Andosols and non-Andosols. We analyzed the relationship between AN and either TN or MWH in 100 topsoils, including soils from treatment plots with successive organic matter application or paddy-upland rotation. A significantly positive correlation between AN and TN was observed, although the regression slopes for volcanic or non-volcanic soils differed. The decrease in AN due to frequent paddy–upland rotation was greater than that for TN. On the other hand, a highly positive correlation between AN and MWH was observed, and the coefficient of determination was higher than that for AN and TN. TN and the WHC increased when the accumulation of organic matter in paddy soil was greater. As there was a positive correlation between WHC and MWH, a positive correlation was also observed between AN and MWH. Additionally, we investigated year-to-year variation in MWH using topsoil samples collected before autumn tillage, for 3–5 consecutive years in 24 plots, for various soil types throughout Japan. In order to eliminate the effects of precipitation and to minimize the fluctuation of MWH in paddy topsoil, it was desirable to collect topsoil samples within 24–96 hours of the last precipitation of 1 mm h−1 or more, for the measurement of moisture content.
水稻土收获后的质量含水量与作为速效氮来源的有机质积累密切相关
水稻土是水稻矿化氮的主要来源,了解水稻土有效氮(AN)对水稻种植具有重要意义。虽然对氮素与土壤理化参数的关系进行了研究,但对日本不同土壤类型的氮素与土壤含水量的关系还没有系统的研究。因此,我们研究了土壤类型和有机质施用或水旱轮作处理对这些关系的影响。我们从日本各地的30块稻田取样表层土壤。比较了硝态氮与土壤理化性质如总氮(TN)、阳离子交换量、土壤持水量(WHC)、收获后质量含水量(MWH)和收获后含水量(WCH)之间的关系。散点图显示,AN与MWH和WCH的线性正相关系数最高(p < 0.01);将安妥沙和非安妥沙分开后,这种模式更加清晰。我们分析了100种表层土壤的氮化氮与全氮或MWH的关系,包括连续施用有机质或水旱轮作处理地块的土壤。尽管火山土与非火山土的回归斜率不同,但氮化钾与全氮呈显著正相关。频繁水旱轮作对氮化钾的影响大于对全氮的影响。另一方面,氮化钾与MWH呈高度正相关,且决定系数高于全氮和全氮。随着水稻土有机质积累量的增加,全氮和总含水量也随之增加。由于WHC与MWH呈正相关,因此AN与MWH也呈正相关。此外,我们利用秋耕前收集的表层土壤样品,连续3-5年调查了日本各地不同土壤类型的24个地块的MWH的年变化。为了消除降水的影响,并尽量减少水稻表土中MWH的波动,最好在最后一次1 mm h−1或以上的降水后24-96小时内收集表土样品,用于测量水分含量。
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来源期刊
Soil Science and Plant Nutrition
Soil Science and Plant Nutrition 农林科学-农艺学
CiteScore
4.80
自引率
15.00%
发文量
56
审稿时长
18-36 weeks
期刊介绍: Soil Science and Plant Nutrition is the official English journal of the Japanese Society of Soil Science and Plant Nutrition (JSSSPN), and publishes original research and reviews in soil physics, chemistry and mineralogy; soil biology; plant nutrition; soil genesis, classification and survey; soil fertility; fertilizers and soil amendments; environment; socio cultural soil science. The Journal publishes full length papers, short papers, and reviews.
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