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利用长期定位试验的土壤,研究了温度、水分、热力学函数之间的关系。结果表明,不同玉米秸秆还田土壤比较,土壤水势温度效应为高量玉米秸秆还田〉低量玉米秸秆还田〉单施化肥;在同一温度条件下,提高土壤水势可增加土壤非饱和导水率,呈现高量玉米秸秆还田〉低量玉米秸秆还田、单施化肥;在相同的土壤含水量条件下,增加温度可提高土壤非饱和导水率,其导水率温度效应值(dk/dt)高量玉米秸秆还田〈低量玉米秸秆还田和单施化肥。土壤含水量一定时,随着相对偏摩尔自由能变和相对偏摩尔焓变增大,土壤非饱和导水率也增大,并且高量玉米秸秆还田大于低量玉米秸秆还田和单化施肥,拟合得出的相对偏摩尔自由能变和相对偏摩尔焓变与土壤非饱和导水率方程,具有较好的适应性。 相似文献
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为计算黄土高原3种土壤温度下的非饱和土壤导水率,采用土壤水分动力学方法和数值模拟,利用室内试验分别对3种土壤不同温度下的土壤水分特征曲线,湿润峰下渗速率以及湿润峰湿度与湿润剖面平均湿度的关系进行了定量研究,得到出了以下结果,(1)建立了黄土高原3种土壤非饱和土壤导水率温度效应的定量模型,K(θ)=△aθ^b+KTte,栖模型为了解田间土壤水分的动态变化及评价土壤水分有效性提供了理论依据,(2)在已有模型的基础上,计算了不同含水量,温度升高1℃所引起非饱和土壤导水率和土壤有效水的净增加量,并推导出更为直观的温度对土壤水分传导有效性影响的定量模型,可以直接计算不同温度下非饱和土壤导水率的温度效应。 相似文献
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用平衡水气压法测定几种土壤对气态水的吸附量,进而推求吸附气态水的热力学函数。结果表明,土壤吸附气态水的机制类似BET多分子吸附。供试土样的实验最大平衡吸附量顺序:表土为黄泥巴>盐碱土>红油土>垆土>黑垆土;同一土壤不同层次为粘化层>表层。实验最大平衡吸附量与土壤阳离子代换量、比表面和物理性粘粒含量呈正相关。在含水量为5.3%时,几种土壤相对偏摩尔焓值顺序:表土为黑垆土>垆土>盐碱土>红油土;同一种土壤(黑垆土),表层>粘化层。相对偏摩尔自由能和熵的大小顺序基本与相对偏摩尔焓相同。土壤吸附气态水的相对偏摩尔焓、自由能、熵与土壤比表面呈反相关,相对偏摩尔焓与土壤阳离子代换量亦成反相关,并皆与温度有密切关系。 相似文献
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太湖地区主要水稻土的土壤水分参数研究 总被引:3,自引:2,他引:3
太湖地区主要水稻土类型的水分参数研究结果表明 ,水稻土 4个土层的土壤水分特征曲线基本一致。土壤的饱和含水量、田间持水量、凋萎系数和土壤有效水的含量均从土壤上层到下层呈降低的趋势 ;土壤的非饱和导水率与负压水头之间呈负相关的指数曲线变化 ,当负压水头达到 10 k Pa时 ,非饱和导水率降低到最小值 ,且基本趋于稳定 ;非饱和土壤水扩散率变化于 1.1× 10 - 3~ 1.886× 10 - 3cm2 / min之间 ,非饱和土壤水扩散率随含水量也呈指数曲线变化。 相似文献
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温度与水分状况对作物叶片水分能态的影响 总被引:2,自引:0,他引:2
在实验室条件下试验研究不同温度与水分胁迫对小麦和玉米幼苗叶水势及渗透势的影响结果表明,在一定温度时随土壤水势的降低,叶水势呈下降趋势;相同土壤水势条件下随温度升高,叶水势呈下降趋势。温度和水分状况对叶片渗透势的影响与叶水势不同,随温度升高和水分胁迫的加剧,叶片渗透势则呈先降后升趋势。通过对作物叶水势和渗透势变化幅度的比较,说明小麦的渗透调节能力和抗旱性能均大于玉米。对植物叶片水分水偏摩尔自由能(ΔG)、焓(ΔS)、熵(ΔH)计算与分析,初步从能量的观点证实作物在27℃左右温度时生长最佳。 相似文献
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为了研究温度变化对土壤水分特征曲线的影响,采用高速离心机法测定南方红壤和水稻土在4,12,20,28,36℃温度条件下土体脱湿过程的水分特征曲线,并运用VG模型进行参数提取,探讨了温度对土壤当量孔径分布、非饱和导水率及水分扩散度等参数的影响。结果表明:相同水势条件下红壤和水稻土的含水率随温度增加而显著减少(P0.05),表现出4℃12℃20℃28℃36℃的关系,且同一温度下的红壤持水性能显著高于水稻土(P0.05);不同温度处理下红壤和水稻土的非饱和导水率以及水分扩散度均表现出20℃最高、36℃最小的显著差异性(P0.05),这表明土壤在20℃时的导水能力和入渗能力相对最佳,且同一温度下红壤的非饱和导水率和水分扩散度均低于水稻土;红壤和水稻土的饱和含水率θ_s、进气值相关参数α、形状系数n均随温度增加而缓慢减小,拟合参数随温度变化而差异显著(P0.05),这说明土壤水分特征曲线参数对温度有一定的敏感性。研究结果可为进一步探讨温度对南方土壤持水性能和水分运移机制研究提供合理的参考依据。 相似文献
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[目的]提高Mualem模型计算非饱和导水率的准确性。[方法]采用理论推导结合数据统计的方法研究该模型中的饱和导水率ks修正问题。基于Brooks—Corey土壤水分特征曲线模型,建立修正导水率ko与土壤水分特征曲线之间的理论关系式;通过回归分析得到ko与土壤水分特征曲线之间的理论关系式中相关参数。[结果]利用原状黄土的非饱和渗透试验数据,对考虑修正导水率ko的Mualem模型的准确性进行了验证,得到了比较满意的结果。[结论]研究成果可用于依据土壤水分特征曲线直接确定非饱和土导水率,对非饱和导水率预测研究具有一定参考价值。 相似文献
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不同农业措施对土壤持水特征的影响及其保水作用 总被引:4,自引:0,他引:4
本试验讨沧了容重及粒径大小对土壤持水性的影响,并对各种物料处理(或措施)的保水效果及其对土壤持水特征的影响进行了探讨。结果表明:随着容重的增大,土壤的透气和饱和导水率迅速下降;水分饱和时的土壤重量含水量(W%)因容重的增大而减少,但随着土壤水势的降低,W%不受容重所影响。0.3mm和1~0.3mm的较小粒径土粒的持水量在高土壤水势范围内往往较大颗粒持水量为高;然而,随着土壤水势的下降(-30kPa),较小土粒失水较快,较大土粒的持水量相对较高。保水剂和粪对土壤水的保持具有良好作用,当水势-200kPa,重量含水量W%16%,保水剂和牛粪分别可使W%提高1.4%~9.9%和0.8%~2.5%。化肥在-50kPa,W%19%时同样可提高土壤的持水能力(W%提高0.8%~3.0%)。土壤结构剂、秸秆时土壤持水特征曲线的影响范围较窄,在土壤水势较高的情况下才显示其保水效果。 相似文献
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矿区生态修复过程中不同立地类型土壤水动力学特性 总被引:1,自引:1,他引:0
[目的]揭示矿区不同立地土壤水动力学特性及其影响因素,为矿区生态环境恢复治理提供科学依据。[方法]基于矿区不同立地类型土壤水分特征曲线、非饱和导水率、孔隙度与紧实度等监测试验,揭示不同立地类型土壤持水性、有效水含量和导水特性等变化规律。[结果]土壤持水性和供水性在受损区<修复3a区<修复5a区<修复10a区<修复15a区<未干扰区,但修复区20—40cm土壤持水性、供水性较0—20cm土壤低,修复效果不明显;土壤结构改善效果遵循受损区<修复区<未干扰区的变化规律,且修复区亚表层土壤结构改善效果不明显。采用指数函数拟合吸力和非饱和导水率效果较好(r2>0.95),相同吸力下,容重大而非饱和导水率较小;非饱和导水率和容重呈负相关,和孔隙度呈正相关且相关性随吸力增加降低。矿区0—20cm易有效含水量呈现受损区<修复3a区<修复5a区<修复10a区<未干扰区<修复15a区,但修复区20—40cm土层易有效水含量较0—20cm小。[结论]土壤易有效水含量和容重、紧实度呈负相关关系,与总孔隙度、黏粒含量呈正相关关系。修复后土壤结构有所改善,持蓄调节水分能力有所提高。 相似文献
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腐殖酸的数均分子量测定 总被引:1,自引:0,他引:1
腐殖酸是广泛存在于土壤、污泥、泥炭、煤和水域中的天然大分子电解质,它对土壤肥力、植物生长、环境中元素的迁移和富集有重要作用,近廿年来日益为人们所重视,但其化学结构和分子量的确切范围目前尚不甚清楚。迄今为止,尚没有一种测定各种腐殖酸分子量的良好方法[11]。 相似文献
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本文讨论我国几种主要土壤胶体的NH4+吸附特征。土壤胶体对NH4+的吸附符合两种表面Langmuir方程。土壤胶体对NH4+的结合能力强弱顺序是:黄棕壤>黑土、(土娄)土>红壤>砖红壤,而NH4+的解吸率大小顺序与此相反。Langmuir吸附方程参数K1与土壤胶体的粘粒矿物组成有关,并与土壤胶体对NH4+的相对偏好性(A值)呈正相关。Langmuir参数(M1+M2)与土壤胶体的CEC呈正相关,去有机质(OM.)前后△K1与△OM.呈反相关。去有机质可增加土壤胶体对NH4+的偏好性。土壤胶体的NH4+吸附和解吸特征决定于其组成和表面性质,并受有机无机复合作用的影响。永久电荷吸附位对NH4+的偏好性较强,而可变电荷吸附位则较弱。 相似文献
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《Communications in Soil Science and Plant Analysis》2012,43(15-16):2460-2473
The objectives of this research were to determine inorganic phosphorus (P) fractions in calcareous soils of southern Khorasan and find their relationship with sorghum‐available P. Eighty soil samples were obtained and analyzed for some physical and chemical characteristics, among them 24 samples that varied in plant‐available P and soil properties were used for soil testing. From 24, 8 samples were selected for P fractionation as well. Five extraction procedures were used for soil testing. Results indicate that the extracted plant‐available P by the Olsen et al. (1954) and Paauw (1971) methods show the greatest correlation coefficients with plant P uptake and sorghum dry matter. The sequential inorganic P extraction analyzing indicated that the abundance of various inorganic fractions was in the order Ca10‐P > Al‐P > Ca8‐P > Ca2‐P > Oc‐P > Fe‐P. The results also indicate Olsen P correlates positively and significantly with Ca2‐P and Fe‐P fractions and positively but not significantly with the Al‐P fraction. 相似文献
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《Communications in Soil Science and Plant Analysis》2012,43(13-14):2080-2101
Abstract: A laboratory experiment involving the use of leaching columns reproducing the topmost portion of a Hyperdystric Acrisol (FAO 1998) or plinthic Palexerult (Soil Survey Staff 2003) treated in its Ap horizon with sugar foam wastes and phosphogypsum was conducted. The amendments increased the contents in exchangeable calcium (Ca) of the Ap horizon and, to a lesser extent, also that of the AB horizon. However, the contents in exchangeable magnesium (Mg) and sodium (Na) decreased as much in Ap as they did in AB; by contrast, the potassium (K) content exhibited a less marked decrease. The potassium chloride (KCl)–extractable aluminium (Al) of the Ap horizon was dramatically decreased much more than that of the AB horizon by the amendments. In the soil solution from Ap, the amendments raised the pH and decreased the Al concentration; in that from AB, however, they caused an initial pH decrease, a tendency that reversed as the gypsum was leached and eventually led to the pH exceeding that in the soil solution from control. The first few water extractions exhibited increased Mg concentration. This trend was reversed in the second leaching cycle, where the concentrations of Mg in the amended columns were lower than those in the controls. In the soil solution, the variation of the Ca and sulphate (SO4 2–) concentrations was influenced by the salt‐sorption effect. The total Al content in soil solution from AB increased during the first leaching cycle and then decreased during the second. The amendments decreased the activities of Al3+, AlOH+2, and Al(OH)2 + in the Ap horizon and increased those of Al3+, AlSO4 +, Al(SO4)2 ?, and AlF+2 in the first leaching cycle in the AB horizon. The productivity of the Ap horizon after the treatments was assessed using a wheat crop (T. aestivum, var. ‘Jabato’) in a greenhouse. 相似文献
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《Communications in Soil Science and Plant Analysis》2012,43(8):980-991
Phosphorus (P) dynamics and availability in soils are influenced by P fertilization. This paper aimed to evaluate inorganic P fractions bonded to calcium (Ca), iron (Fe), and aluminum (Al), associating them with soil mineralogy. The experiment was carried out using an acidic kaolinitic–oxidic soil, located in an irrigated area cultivated with coffee plants (Coffee arabica L.), submitted to successive annual fertilizations with triple superphosphate doses of 0, 50, 100 200, and 400 kg ha?1 phosphorus pentoxide (P2O5) in randomized blocks with three replications. Phosphorus fractions were determined in soil samples collected at two depths, 0–10 and 10–20 cm, according to the methodology used by Chang and Jackson (1957). The inorganic P fractions presented the following sequence: P-Al > P-Fe > P-Ca. The dynamics of forms of inorganic P showed that P-Al is controlling the P bioavailability as a result of an acidic pH and a very simple and thermodynamically stable clay mineralogy, typical of very weathered and old tropical soils. 相似文献