喷灌强度对滨海盐碱地土壤水盐运移特征的影响

为研究一维条件下喷灌强度对滨海盐碱地土壤湿润峰运移、水分再分布特征及盐分淋洗的影响,选用滨海盐碱地黏质重度盐碱土和砂质重度盐碱土2种土壤,设置5个喷灌强度(分别是1.72、3.13、5.27、8.75、10.11mm/h),进行室内喷灌条件下土柱模拟试验。结果表明,喷灌强度与土壤黏粒含量显著影响湿润锋运移。湿润锋推进速度随着喷灌强度增加而增大,而湿润深度随之减小,且土壤黏粒含量越高,越不利于湿润锋运移;随着土壤水分再分布过程的推进,黏质重度盐碱土在3.13mm/h喷灌强度下同一深度体积含水率较其他处理大,砂质重度盐碱土在1.72mm/h喷灌强度条件下土柱具有较高的保水性;采用喷灌淋洗,可使上层土壤脱盐,盐分均累积至下层土壤,并使其急剧增加且达到最大值。对于黏质重度盐碱土,3.13mm/h喷灌强度下,盐分淋洗效果较好,而对于砂质重度盐碱土,8.75mm/h喷灌强度淋洗效果优于其他处理。该研究可为喷灌技术合理和可持续开发利用滨海盐碱地提供参考。     

滴灌流量对土壤水盐运移及再分布的作用规律研究

通过室内土箱模拟试验,对不同滴头流量处理的土壤水盐运移及再分布规律进行了研究,结果显示:两滴头交汇界面处的湿润锋依滴头流量不同而呈椭圆形或圆形;大滴头流量促进了水分的水平运动,水平扩散速率明显大于垂直入渗速率;随着滴头流量的减小,水平和垂直方向的入渗距离逐渐接近;土壤湿润体体积与总灌水量有关,而与滴头流量并无显著相关;根据湿润锋的运动,给出了试验用土大田建议滴头流量;滴灌结束后,水盐经历了一个非常重要的再分布过程,经过再分布,土壤水盐进一步向深层运移,促进了上层土壤的淡化,小滴头流量的淋盐效果明显好于大滴头流量;土壤盐分的运移在前3天的再分布中最为活跃;试验得出了保证作物生长需要和淋盐需要的每滴头灌溉水量,对实践具有一定的指导意义。     

Zeolite Effects on Immobile Water Content and Mass Exchange Coefficient at Different Soil Textures

The concern for groundwater pollution by agrichemicals through solute movement within the soil is widespread. Zeolite is a type of soil amendment that is utilized to improve physical properties of soil and ameliorate polluted soil. The high negative charge of the zeolite and its open space structure allows adsorption and access of heavy metals and other cations and anions. The objectives of this research were (i) to determine the effects of different application rates of zeolite (0, 2, 4, and 8 g kg^?1) on the immobile water content and mass exchange coefficient in a loam soil and then (ii) to determine the effects of optimum application rate of zeolite on the immobile water content and mass exchange coefficient of sandy loam and clay loam soils in saturated conditions by a mobile and immobile (MIM) model. In a disturbed soil column, a method was proposed for determination of MIM model parameters, that is, immobile water content (θ_im), mass exchange coefficient (α), and hydrodynamic dispersion coefficient (D_h). Breakthrough curves were obtained for different soil textures with different zeolite applications in three replicates, by miscible displacement of chloride (Cl^?1) in disturbed soil column. Cl^?1 breakthrough curves were evaluated in terms of the MIM model. The results showed that the pore water velocity calculated based on the total soil volumetric water content (θ_im+ θ_m) and real pore water velocity calculated based on the mobile water content (θ_m) increased in the loam soil with an increase in zeolite application rate, so that, between these different rates of zeolite application, the maximum value of pore water velocity and real pore water velocity occurred at zeolite application rates of 8.6 and 11.5 g kg^?1, which are indicated as the optimum application rates. However, the comparison between different soils showed that the zeolite application rate of 8 g kg^?1 could increase pore water velocity of sandy loam and loam soils by 31% more than that of clay loam soil. The immobile water content and mass exchange coefficient of loam soil were correlated with the zeolite application rate and reduced with an increase in the rate of applied zeolite. In a comparison between different soils at zeolite application rate of 8 g kg^?1, the immobile water contents of the zeolite-treated soil decreased by 57%, 60%, and 39% on sandy loam, loam, and clay loam soils, respectively, compared with the untreated soil. Furthermore, zeolite application could reduce mass exchange coefficient by 9%, 43%, and 21% on sandy loam, loam, and clay loam soils, respectively. A positive linear relationship was found between θ_im and α. Zeolite application increased real pore water velocity of sandy loam soil by 39% and 46% compared with loam and clay loam soils, respectively. In other studies there was a decrease in ammonium and nitrate leaching due to the zeolite application, and therefore, an increase in real pore water velocity due to zeolite application in sandy loam soil, as compared with the loam and clay loam soils, may not show more rapid movement of solute and agrichemicals to the groundwater.     

Differential leaching of cations and sulfate in gypsum amended soils

Abstract

An adequate supply of available Ca in the soil solution of the pegging zone during fruit development is required for production of high yields of high quality peanuts (Arachis hypogaea L.). On low Ca soils, application of gypsum during early bloom is recommended in order to ascertain adequate availability of Ca. Reaction of gypsum in soils under leaching conditions vary considerably and play an important role in fruit development and yield of peanuts. A laboratory study was conducted in leaching soil columns to investigate the effects of one gypsum amendment on leaching of Ca, K, Mg, and SO₄ to a depth of 8 cm (fruiting zone of peanut). Six soils of varying physical and chemical properties representative of major peanut growing soils in Georgia were utilized. Following leaching with 15 cm water through gypsum‐amended soil columns, 50% to 56% and 74% to 77% of applied Ca and SO₄, respectively, were leached below 8 cm in the sandy‐Carnegie, Dothan, Fuquay and Tifton soils. The respective values for the sandy clay loam‐Greenville and Faceville soils were 28% to 36% and 58% to 69%. Lower initial Ca status and greater leaching of Ca from the applied gypsum in the sandy soils as compared to sandy clay loam soils suggest greater beneficial effects of supplemental gypsum application for peanut production in the former soils than in the latter soils. Leaching of K or Mg (as percentage of Mehlich 1 extractable K or Mg) in gypsum‐amended treatment was considerably greater in sandy soils than that in the sandy clay loam soils. In view of the reported adverse effects of high concentrations of soil K and Mg in the fruiting zone on the yield and quality of peanuts, greater leaching of K and Mg from the fruiting zone in gypsum amended sandy soils enable them to maintain a favorable cation balance for the production of high yields of quality peanuts.     

水平微润灌湿润体HYDRUS-2D模拟及其影响因素分析

为探索土壤质地、初始含水率、压力水头和埋深对水平微润灌土壤湿润体特性的影响机理,利用试验数据验证了水平微润灌HYDRUS-2 D模拟结果的可靠性,模拟值与实测值非常吻合。在此基础上,模拟研究了3种土壤质地(砂壤土、壤土、粉壤土)以及壤土中不同初始含水率(0.085、0.106、0.130 cm~3/cm~3)、压力水头(0.6、1.2、1.8 m)和埋深(20、30、40 cm)条件下土壤湿润体动态变化规律。结果表明:土壤湿润锋运移距离皆符合垂直向下水平方向垂直向上的规律,湿润体在形状上差异不大,土壤含水率等值线均为近似"同心圆";土壤质地对湿润体特性有显著影响,土壤质地越黏重,湿润锋运移速率越慢,湿润体体积越小,土壤含水率等值线越密集,其"圆心"越靠近微润管,灌水结束时,壤土和砂壤土湿润体体积分别是粉壤土的1.3倍和2.5倍;在确定的土壤质地条件下,初始含水率和压力水头对湿润体特性有较大影响,湿润锋运移距离及湿润体体积均随土壤初始含水率、压力水头的增大而增大,初始含水率为0.106和0.130 cm~3/cm~3的湿润体体积分别是0.085 cm~3/cm~3的1.2倍和1.5倍,压力水头为1.2和1.8 m的湿润体体积分别是0.6 m的1.6倍和2.2倍;微润管埋深对湿润体分布位置有显著影响,埋深较浅时,湿润锋容易到达地表,埋深较深时,土壤湿润体随埋深下移而同步下移。     

施肥时机对土壤水氮运移转化规律的影响

为揭示不同施肥时机（全过程、前1/2和后1/2入渗水量施肥）下土壤水氮运移转化规律,以砂壤土和黏壤土质地的一维垂直肥液（尿素）入渗试验为基础,重点分析不同施肥时机下土壤水氮分布与再分布过程中的运移转化规律,并量化比较其对土壤中氮素含量的影响。结果表明,施肥时机对土壤累积入渗量和湿润体中水分分布影响微小,但对不同形态氮素运移转化影响显著;砂壤土和黏壤土入渗结束时刻,全过程和后1/2入渗水量施肥时,其尿素态氮、铵态氮（NH₄⁺—N）和硝态氮（NO₃^-—N）含量均随土层深度增大而减小;前1/2入渗水量施肥时,尿素态氮和NO₃^-—N含量在湿润体边缘累积,NH₄⁺—N呈先增大后减小趋势,且主要分布在5—25 cm土层;再分布阶段,全过程和后1/2入渗水量施肥时,砂壤土和黏壤土中尿素态氮分别在再分布3天和5天时基本水解完成,同时NH₄⁺—N含量达到峰值,NO₃^-—N含量再分布10天内未出现下降趋势;前1/2入渗水量施肥时,尿素态氮再分布10天时基本水解完成,NH₄⁺—N含量再分布5~10天达到峰值,NO₃^-—N含量则呈先增加后减小趋势;后1/2入渗水量和全过程施肥条件下,砂壤土和黏壤土再分布10天时0—40 cm土层中NH₄⁺—N和NO₃^-—N含量均大于前1/2入渗水量施肥,说明其氮素潜在利用效率高,故推荐畦（沟）灌合理施肥时机为后1/2入渗水量或全过程施肥。研究结果可为农田畦（沟）灌施肥系统的设计和管理提供理论基础和技术支撑。     

土壤质地对柱花草生长发育、生物量及土壤肥力变化的影响

采用大田试验的方法,在云南省元谋县小雷宰流域内壤土、砂壤土和重壤土3种质地土壤上,以热研5号柱花草为材料,研究土壤质地对柱花草生长发育、生物量及土壤有机质、有机碳、全氮和全磷的影响。试验结果表明:3种土壤质地上种植柱花草,柱花草地上部和地下部生长量和生物量表现幼苗期增加缓慢,而分枝期后增加快的趋势。壤土耕性好,兼有砂土和重壤土的优点,有利柱花草地上部分的生长发育,柱花草地上部生长量、生物量及改善土壤肥力方面显著高于重壤土。砂壤土有利于柱花草根系向深层土壤生长,柱花草地下部生长量、生物量及根瘤显著高于种植在重壤土。在3种土壤质地种植柱花草后,土壤有机质、有机碳、全氮和全磷均有上升趋势。综合而言,通气性和保肥保水能力居中的壤土更适合柱花草的生长发育及干物质的积累。     

Effect of magnetized water on infiltration capacity of different soil textures

The infiltration process is important in the planning and management of irrigation systems. This study was performed in Mazandaran province, Iran, to compare the effect of magnetized and non‐magnetized irrigation water on cumulative infiltration and final infiltration rate of three soil textures. Magnetized water was obtained by passing the water through a strong permanent magnet installed on a feed pipeline. The results showed that the effects of soil texture and magnetized irrigation water on cumulative water infiltration and final infiltration rate was significant (P < 0.01). Cumulative water infiltration and final infiltration rates with magnetized water were greater than that of non‐magnetized water. The cumulative water infiltration rate after 4 h for magnetized and non‐magnetized water was 26.4 and 12.7 cm in clay soil, 37.6 and 20 cm in silty loam soil and 40.8 and 29.3 cm in sandy loam soil, respectively. The final infiltration rates after 4 h for magnetized and non‐magnetized water were 0.05 and 0.023 cm/min in clay soil, 0.063 and 0.036 cm/min in silty loam soil and 0.076 and 0.046 cm/min in sandy loam soil, respectively. Therefore, magnetized irrigation water had most effect on the infiltration capacity of clay soil.     

咸水淋洗改良滨海盐渍土的潜力研究

通过室内土柱模拟试验,研究了不同矿化度咸水对砂壤质滨海盐碱土土壤入渗特征的影响,以及咸水淋洗土壤水盐变化规律和节水潜力。研究结果表明,高矿化度咸水略微降低土壤入渗性能,但当淋洗水矿化度高于15.61g/L时,土壤入渗性能不再继续降低;不同矿化度水处理淋出液矿化度都经历快速下降、较快下降、缓慢下降3个阶段,土壤盐分随咸水淋洗水量的增加先上升,再经历急剧下降、快速下降、缓慢下降,土壤经咸水淋洗后盐分含量明显下降;根据水盐平衡预估咸水淋洗具有较高的节水潜力,5.35g/L和10.36g/L的咸水淋洗节水潜力分别约为48.08%,38.46%,海水淋洗节水潜力最小,约为24.04%。     

Movement of phorate under constant and variable surface water flux in initially dry and moist soils

The distribution of phorate was studied in three texturally different soils under constant and variable surface flux of water. Phorate distribution profiles and leaching curves showed that the insecticide was displaced more efficiently and its concentration peak formed at deeper depth with constant than with variable water flux in sandy loam soils irrespective of initial soil water content. However, phorate distribution profiles were found to be independent of the methods of water application in clay soil because of its extremely low permeability.     

Investigation of Pentachlorophenol Vertical Transportation in Soil Column During its Phototransformation on the Soil Surface

Pentachlorophenol (PCP) vertical transportation in soil column during its phototransformation on the soil surface was investigated using a new designed photoreactor. Three kinds of soils were used to study the effect of soil water and soil properties. In air-dried sandy loam, no obvious PCP transportation occurred in the soil profile when PCP was phototransformed on the soil surface. And the average removal of PCP in the whole soil column was close to zero after 48 h irradiation. In the moist sandy loam, PCP in the deeper soil could transport to the soil surface with water evaporation and then be transformed during UV irradiation, thus the average PCP removal in the whole soil column was improved. When the initial water contents are 9.3 and 19.2%, the average PCP removal in the sandy loam after 48 h irradiation accounted to 20.9 and 39.9%, respectively. The improving of PCP removal induced by soil water was limited in the clay and silt soils where PCP transportation was impeded because of their higher adsorption capacity. In the silt soil where the initial water content was 19.7%, not only PCP transportation in the deeper soil but also PCP phototransformation on the surface was inhibited seriously because of the high organic matter content of 18%.     

Effects of Slow‐Release Fertilizers on Tomato Growth and Nitrogen Leaching

Tomatoes (Lycopersicon esculentum Mill.) were grown in 9.46‐L plastic pots in a glasshouse for evaluation of their growth and nitrogen (N) losses through leaching. Plants were fertilized with either ammonium nitrate (AN) or one of three slow‐release N fertilizers. The slow‐release N fertilizers were Georgia Pacific liquid 30‐0‐0 (L30), Georgia Pacific granular 42‐0‐0 (N42), and Georgia Pacific granular 24‐0‐0 (N24). Each fertilizer was applied at 112 low N rate (L) and 224 high N rate (H) kg N ha^?1. The pots were filled with either a sandy soil from Florida or a loam soil from Georgia. Increasing the N rate did not influence shoot biomass at 19 days after transplanting (DAT) and increased biomass production at 77 DAT. Shoot biomass differed significantly among fertilizer treatments. The accumulation of N in shoots was significantly influenced by fertilizer source, rate, and soil type. The plants grown in the loam soil accumulated significantly more N than those grown in the sandy soil with the same treatment. In the loam soil, the highest and lowest N accumulations occurred in the N42‐H and N24‐L treatments, respectively; and in the sandy soil the corresponding treatments were AN‐H and N24‐L. The amount of N leached varied with the different fertilizers, soils, and time. The net leaching of N ranged from ?0.4% to 6.3% of the fertilizer N applied for the loam soil and 6.5% to 32.9% for the sand soil. The net amount of N leached from the loam soil at both high and low application rates declined in the following order: AN > N24 > N42 > L30; the corresponding order for the sandy soil was AN‐H > N42‐H > L30‐H > N24‐H. L30 had the least leaching potential, and ammonium nitrate had the most. Slow‐release fertilizers had significantly less leaching N than did ammonia nitrate.     

容重对土壤水分入渗能力影响模拟试验

通过人工改变土壤颗粒级配,配制典型砂壤、中壤、黏壤,并设置不同容重水平,用土柱积水入渗模拟了土壤容重对其入渗能力的影响,为土壤改良和促进天然降水转化利用提供理论依据。结果表明,容重对土壤入渗能力有较大影响。试验土壤入渗能力随容重增大递减,3种典型土壤稳定入渗速率与容重均呈对数负相关,砂壤120 min累积入渗量与容重呈幂函数负相关,中壤、黏壤则呈线性负相关。考斯加科夫入渗模型中,表征初始入渗速率的参数随容重增大递减,表征入渗能力衰减速度的参数则随容重增大递增,说明土壤初始入渗能力随容重增大递减,入渗能力衰减速度随容重增大递增。     

毛管埋深和层状质地对番茄滴灌水氮利用效率的影响

为了确定不同质地土壤中地下滴灌的适宜毛管埋深,通过两年日光温室滴灌施肥灌溉试验,研究了毛管埋深、土壤层状质地和施氮量对番茄产量、品质及水分利用效率（WUE）、氮肥表观利用率（AFUE）和氮肥偏生产力（PFP）的影响。研究结果表明,均质壤土中,毛管埋深、施氮量及其交互作用对番茄产量和WUE影响不显著,地下滴灌番茄Vc含量比地表滴灌低;番茄AFUE随毛管埋深增加而降低,施氮量由150 kg/hm2增加到225 kg/hm2时,番茄PFP显著降低。对均质壤土,建议毛管埋深15 cm、施氮量150 kg/hm2,以获得较高的PFP。土壤的层状质地结构明显降低番茄的产量、WUE和PFP,与均质壤土处理相比,上砂下壤和砂土夹层处理WUE分别低32%和11%,产量和PFP分别低33%和12%,从提高水氮利用效率的角度出发,建议在上粗下细（上砂下壤）的层状土壤中慎重使用地下滴灌。     

Kinetics of nitrification under upland and flooded soils of varying texture

Abstract

Higher rates of nitrification often reported in fine than in coarse textured soils may not be a direct effect of soil texture because in most of the earlier studies, soil water content has been usually expressed as gravimetric, volumetric or soil's water‐holding capacity without consideration of differences in density/ porosity for soils of varying texture. The same water content in texturally different soils could provide very different conditions of soil aeration and associated nitrifying activity. Effects of soil texture on nitrification was studied by incubating three semiarid subtropical soils having sandy loam, loam, and silty clay textures at 35°C for 30 days using water‐filled pore space (WFPS) as the criterion of soil aeration. Upland or aerobic soil conditions, simulated by incubating soil at 60% WFPS, exhibited very fast nitrification of added fertilizer nitrogen (N) and most of the applied 100 mg of ammonium‐nitrogen (NH₄+‐N/kg soil) was nitrified within 10 days of incubation in all three soils irrespective of the differences in texture. Under flooded soil conditions (120% WFPS), nitrification was slow and only 84 to 92% of the applied NH₄+‐N was nitrified even after 30 days. Nitrification could be described by first‐order kinetics for both the upland and flooded moisture regimes, thus nitrification rate depended upon NH₄+ concentration. At similar gravimetric water contents, rates of nitrification differed greatly in soils of varying texture, but when varying water‐holding capacity and bulk density were accounted for using WFPS, all the soils behaved similarly at 60% WFPS. Under impeded aeration (flooded conditions), however, substantial differences were observed in nitrification in soils of varying texture, the largest in fine‐textured Chamror silty clay followed by Habowal loam and the smallest in Tolewal sandy loam soil. These results illustrate the utility of WFPS, compared with soil water content, and its reliability as an indicator of aeration dependent nitrification for soils of varying texture.     

Influence of compost amendments on the hydraulic functioning of brownfield soils

This study assessed the impact of compost on the hydraulic properties of three soils (sandy loam, clay loam and diesel‐contaminated sandy loam) with relatively poor physical quality typical of brownfield sites. Soils were amended with two composts at 750 t/ha. Samples were also collected from a clay‐capped brownfield site, previously amended with 250, 500 or 750 t/ha of compost. Water‐release characteristics and saturated hydraulic conductivity were determined for all soils and physical quality indicators derived. Unsaturated flow in field profiles after compost application with two depths of incorporation and two indigenous subsoils was simulated using Hydrus‐1D. Compost generally increased water retention. Hydraulic conductivity tended to decrease following compost application in sandy loam but increased in clay and clay loam, where compost addition resulted in a larger dominant pore size. Although compost improved physical quality indicators, they remained suboptimum in clay and clay loam soil, which exhibited poor aeration, and in the contaminated sandy loam, where available water capacity was limited, possibly due to changes in wettability. Increasing application rates in the field enhanced water retention at low potentials and hydraulic conductivity near saturation but did not alter physical quality indicators. Numerical simulation indicated that the 500 t/ha application resulted in the best soil moisture regime. Increasing the depth of incorporation in the clay cap improved drainage and reduced waterlogging, but incorporation in more permeable subsoil resulted in prolonged dry conditions to greater depths.     

重非水相流体在砂壤中驱替与残留试验研究

通过对PCE在砂壤土中的人渗再分布以及水分驱替和残留的试验研究,结果表明:PCE在砂壤中的人渗与再分布深度和时间的关系可以很好地用对数函数来描述.水分驱替后被置换区域土壤内PCE的饱和度明显降低,向下迁移并累积,达到一定含量后,PCE向下运动锋面速率增大.被水置换后,PCE在土体内将残留一小部分,残留饱和度为4%～15%,多小于10%,随着容重增大残留量将增加,残留的PCE在土体中缓慢溶解,随水分类似于溶解的溶质进行对流和扩散,向上可能到达地表,挥发进入大气;向下则可能进入地下水体,成为长期的潜在污染源.     

生化黄腐酸对不同质地苏打盐碱土水盐运移特征的影响

为了探讨生化黄腐酸（biochemical fulvic acid, BFA）对不同质地（砂质壤土和壤质砂土）苏打盐碱土的改良作用机理，明确BFA对不同质地苏打盐碱土水盐运移特征的影响，该研究通过室内一维垂直入渗试验，对不同BFA施加量（0（CK）、1、2、4、8 g/kg）条件下土壤水盐运移特征、入渗模型参数和土壤八大盐分离子的变化特征进行了研究。结果表明：对于砂质壤土，当入渗至280 min时，与CK相比，BFA施加量为1、2、4、8 g/kg处理的累积入渗量分别减小了3.70%、10.19%、12.04%、25.00%，湿润峰深度分别减小了9.33%、17.00%、24.00%、27.33%；对于壤质砂土，当入渗至40 min时，与CK相比，BFA施加量为1、2、4、8 g/kg处理的累积入渗量分别减小了1.36%、10.51%、18.98%、29.83%，湿润峰深度分别减小了5.00%、11.33%、21.67%、31.33%。土壤水分入渗速率会随着BFA施加量的增加而减小，在0、5、10、15、20、25、30 cm土层深度，8 g/kg施加量处理的砂质壤土含水率分别高于CK处理11.43%、4.99%、8.54%、8.79%、9.02%、4.98%、-7.76%，而壤质砂土含水率分别高于CK处理4.76%、9.28%、6.18%、9.25%、8.05%、8.77%、-0.06%。Kostiakov和Philip模型均能较好地模拟土壤水分入渗过程，且随着BFA施加量的增加，吸渗率逐渐减小。然而施加BFA同样会增加不同深度土层的含盐量，在土壤钙离子、镁离子浓度较低的情况下，可能会使得土壤中富集钠离子。因此，施加BFA能够改变不同质地苏打盐碱土的水盐运移特征，为了防止施加BFA加剧土壤的次生盐碱化以及考虑施加BFA后的经济效益，该研究推荐BFA施加量为2～4 g/kg时对于不同质地苏打盐碱土具有更好的改良效果。     

基于信息熵方法的土壤水分入渗方程试验研究

对沙壤土、黏壤土进行水分入渗试验,确定4种熵方程(E-Horton、E-Kostiakov、E-Philip、E-GreenAmpt)系数并标定了一般方程(Horton、Kostiakov、Philip、Green-Ampt)系数。根据所得到的方程计算相应的入渗率,并与试验观测数据进行比较。结果表明:在沙壤土中,E-Horton、E-Kostiakov、E-Philip方程能较好地反映土壤水分入渗规律,E-Green-Ampt方程高估了土壤水分入渗率。在黏壤土中,4种熵方程拟合效果均较差。与一般方程比较,基于信息熵方法的土壤水分入渗方程更适于沙质土壤,因为该方法不需要标定方程的参数,简便可行,而且较好地反映了参数的物理意义,为优化灌溉提供理论依据。