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1.
The root-knot nematode Meloidogyne chitwoodi is a severe pest on sandy soils in Belgium and causes quality damage to economically important crops such as carrot, potato and black salsify. Pre-planting soil sampling to detect infestations has proven useful to farmers when taking decisions on the crop rotation. To develop an adequate sampling strategy, the vertical distribution of M. chitwoodi was examined under summer barley, carrot, fodder beet, bean, marigold and black fallow on two fields with a sandy soil. Soil samples were collected at monthly intervals from April 2004 to April 2006. Cores were taken to a depth of 70 cm and split into 10 cm segments. Nematodes were extracted by zonal centrifugation. Fodder beet increased the population of M. chitwoodi immensely; carrot was also a good host. Barley was a moderate host and under bean and marigolds the population decreased. The relative distribution of M. chitwoodi over the different soil layers during two successive years was consistent in each field. The different successions with good, moderate and poor hosts did not influence this distribution significantly. A logistic model was fitted to the mean cumulative percentages of nematodes at increasing soil depth. Farmers are advised to take soil samples for detection of M. chitwoodi immediately after harvest, especially after crops with a long field period. Adapting the depth of the cores taken to the vertical distribution of the population can increase the chances of detection. Our results suggest that this distribution is persistent in crop rotations and depends on field characteristics.  相似文献   

2.
In two experiments in the Wageningen Rhizolab with potato cv. Mentor planted in soils with or without potato cyst nematodes (Globodera pallida, W) the number of roots per cm2 was observed two weekly by video camera, in horizontally placed minirhizotrons at depths varying from 5 to 100 cm. In both experiments initial root growth was more rapid in the top soil of the uninfected soil. In the first experiment under optimal water supply, root formation continued longer in the top 30 cm of infested soil leading to twice as many roots at the end of the growing season as in uninfested soil. In the subsoil from 30 to 100 cm, however, root formation was strongly reduced by cyst nematodes leading to an uneven distribution of roots throughout the profile. In the second experiment potato cyst nematodes only increased rooting in the top soil with reduced irrigation. Potato cyst nematodes did not affect the water use efficiency of the crop whereas reduced irrigation increased water use efficiency by about 22%. Without potato cyst nematodes the soil profile was depleted of mineral nitrogen until a depth of 1 m whereas with high initial population densities no nitrogen was taken up in the subsoil between 30 and 100 cm. The spational heterogenity of roots and nitrogen in the soil is an important mechanism of damage. This finding may lead to improved cultural practices and breeding for tolerance.  相似文献   

3.
Plant-parasitic nematodes can cause serious plant diseases and adversely affect crop production. We investigated the temporal and vertical dynamics of plant-parasitic nematodes in northeast China to determine if long-term fertilizer application suppresses the population of plant-parasitic nematodes and influences their vertical distribution in the black soil region. The long-term fertilizer application lasted for 14 years, and included three treatments: pig manure combined with chemical fertilizer (MCF), chemical fertilizer (urea and ammonium phosphate, CF), and no fertilizer (NF). A 3-year corn-wheat-soybean rotation was grown on the field site, soil samples were obtained in the corn phase and nematodes were extracted, identified and counted. Six plant-parasitic nematode genera with relative abundance over 0.1% were found in this study. Heterodera was the dominant genus in all three fertilizer treatments, and its relative abundance was highest in NF (45.4%) and lowest in MCF (32.8%). Fertilizer application had a significant effect on abundance of total soil nematodes but not on either plant-parasitic nematodes or Heterodera. Significant differences in the abundance of total soil nematodes, plant-parasitic nematodes and Heterodera were observed among soil depths and interaction of fertilizer × soil depth. Total soil nematodes were mainly distributed in the 0–20 cm soil layer, and plant-parasitic nematodes and Heterodera were mostly distributed in the 10–30 cm soil layer. Fertilizer application did not show a significant effect on plant-parasitic nematodes or Heterodera at any of the sampling depths from 0 to 80 cm. The results indicated that fertilizer has no effective control on plant-parasitic nematodes when dominant genera and their respective plant hosts exist in relatively high abundance.  相似文献   

4.
分别在玉米拔节期(BJ)和抽雄期(CX)进行水分胁迫试验,利用微根管技术观测不同发育期干旱过程中根分布动态,并利用根分布模型模拟相关参数(d_(50)和d_(95):累积根比例分别为50%和95%的土层深度),对不同干旱胁迫处理的土壤湿度、根系分布及相关参数时空动态特征进行分析。结果表明:水分控制后的土壤湿度在130cm以上基本达到预期干旱效果,即BJ和CX处理在控水时段0~100 cm土层土壤相对湿度都降至40%以下,但深层土壤湿度并未受到水分控制影响;拔节和抽雄期干旱胁迫条件下,根长密度(RLD)最大值分别为2.18±0.89cm·cm~(-3)和2.10±0.47 cm·cm~(-3),所在土壤深度为60 cm,对照(CK)RLD最大值为1.24±0.77 cm·cm~(-3),所在深度为40 cm,CK和BJ处理的RLD在最大值深度以下随土层深度增加而减小,CX处理的RLD在80 cm以下仍保持较大值;BJ和CX比CK的d50分别增大45%和59%,d95分别增大8%和41%,证明玉米根系因干旱胁迫而向深层土壤生长。  相似文献   

5.
The relation between log dosage of DD injected at 15 cm depth or of dazomet applied to the soil surface (all in November 1971) and probit mortality ofRotylenchus and trichodorids in the top 20 cm of a field on sandy soil was found to be linear. Dosage increase efficiencies of both chemicals against both nematode species were medium to high. Superficial application of dazomet was very effective against the nematodes that would have survived if only a low dosage of DD had been injected at 15 cm depth. Injection of 40 ml or 80 ml DD per m2 at 15 cm depth killed all nematodes between 20 cm and 60 cm deep. Gladiolus planted in the spring of 1972 grew better, flowered earlier and produced more weight of corms on treated than on untreated plots. The poor growth on the untreated plots cannot be ascribed to direct damage by nematodes or to the effect of TRV transmitted to the plants by the viruliferous trichodorids occurring in these plots in high densities. Symptoms of TRV infection in plants grown in 1973 from the corms harvested in the 1972 experimental field showed that only DD treatments had reduced the rate of TRV transmission considerably. However, even the highest dosages of DD had only reduced it from 26% (on untreated plots) to about 8%. Most probably, this residual TRV infection was due to transmission by trichodorids that had survived in soil layers below 60 cm depth. Therefore, soil treatment with nematicides, cannot prevent TRV transmission to gladiolus sufficiently where viruliferous trichodorids occur at great depths, as is the case in many sandy soils having a low water table.  相似文献   

6.
Westphal A  Smart JR 《Phytopathology》2003,93(9):1182-1189
ABSTRACT The population density of the reniform nematode, Rotylenchulus reniformis, was monitored at depths of 0 to 30, 30 to 60, 60 to 90, and 90 to 120 cm in a tillage and crop sequence trial in south Texas in 2000 and 2001. Main plots were subjected to three different tillage systems: conventional tillage (moldboard plowing and disking), ridge tillage, and no-tillage. Subplots were planted with three different crop sequences: spring cotton and fall corn every year; spring cotton and fall corn in one year, followed by corn for two years; and cotton followed by corn and then grain sorghum, one spring crop per year. The population density of R. reniformis on corn and grain sorghum was low throughout the soil profile. In plots planted with spring cotton and fall corn every year, fewer nematodes were found at depths of 60 to 120 cm in the no-tillage and ridge tillage systems than in the conventional tillage system. Population densities were lower at depths of 0 to 60 cm than at 60 to 120 cm. Soil moisture and cotton root length did not affect nematode population densities in the field. When soil was placed in pots and planted with cotton in the greenhouse, lower population densities developed in soil taken from depths of 0 to 60 cm than in soil from depths of 60 to 120 cm. Final nematode populations were similar in size in soil from the different tillage systems, but reproductive factors were higher in soil from plots with reduced-tillage systems than in soil from plots with conventional tillage. Reduced-tillage practices lowered the risk of increases in R. reniformis populations and reduced population densities following 2 years of non-hosts throughout soil depths, but population densities resurged to the same high levels as in soil planted with cotton every year during one season of cotton.  相似文献   

7.
A 3-year field study examined the effects of 1,3-dichloropropene or oxamyl on tuber yields in four early- and five late-maturing potato cultivars. The nematicide treatments increased total tuber yield by ≈ 12% for early-maturing cultivars, but by less than 2% for the late-maturing cultivars. The treatments reduced the numbers of root lesion nematodes (primarily Pratylenchus penetrans ), which were the dominant plant parasitic nematodes at the site. Covariance analysis indicated that treatment effects on total tuber yield were no longer significant after adjusting for root lesion nematodes in soil at harvest, confirming that these nematodes had a direct effect on the host. As expected, there were significant inverse relationships ( P  = 0·05) between total tuber yields and numbers of root lesion nematodes in soil and in roots. However, the application of nematicides in late-maturing cultivars was found to be of no practical value. Crop production systems designed to reduce or optimize pesticide applications can form one criterion in the development of more environmentally sensitive management strategies. The merit of utilizing chemicals for root lesion nematode control are considered with regard to cultivar maturity.  相似文献   

8.
The effect of soil solarization on the viability of plant pathogens and disease was evaluated in Victoria. The treatment was tested in NW and S Victoria with natural soil inoculated with high inoculum levels of Eusarium oxysporum, Plasmodiophora brassicae, Sclerotium cepivorum, Sclerotinia minor, Sclerotinia sclerotiorum, Verticillium dahliae and the nematodes Meloidogyne javanica and Pratylenchus penetrans. Other experiments were established at sites with a previous history of disease.
Solarization of artificially inoculated soils reduced inoculum levels to at least a depth of 10 cm and effectively controlled diseases caused by P. brassicae on broccoli, and S. minor and S. sclerotiorum on lettuce. The treatment reduced inoculum levels but not disease of carnations and watermelons affected by E. oxysporum , tomatoes affected by M. javanica , celery affected by P. penetrans , and onions affected by S. cepivorum. Results were inconclusive for tomatoes affected by V. dahliae.
Experiments in naturally infested soils established that solarization reduced disease and increased yields of Chinese cabbage affected by P. brassicae , celery affected by P. penetrans , lettuce affected by S. minor and watermelon affected by root rot.
Solarization reduced disease of onions affected by S. cepivorum but did not significantly increase yield. At all sites the treatment reduced the number of viable propagules of the pathogens to at least a depth of 10 cm.  相似文献   

9.
Alhagi sparsifolia Shap. (Fabaceae) is a spiny, perennial herb. The species grows in the salinized, arid regions in North China. This study investigated the response characteristics of the root growth and the distribution of one-year-old A. sparsifolia seedlings to different groundwater depths in controlled plots. The ecological adaptability of the root systems of A. sparsifolia seedlings was examined using the artificial digging method. Results showed that: (1) A. sparsifolia seedlings adapted to an increase in groundwater depth mainly through increasing the penetration depth and growth rate of vertical roots. The vertical roots grew rapidly when soil moisture content reached 3%-9%, but slowly when soil moisture content was 13%-20%. The vertical roots stopped growing when soil moisture content reached 30% (the critical soil moisture point). (2) The morphological plasticity of roots is an important strategy used by A. sparsifolia seedlings to obtain water and adapt to dry soil conditions. When the groundwater table was shallow, horizontal roots quickly expanded and tillering increased in order to compete for light resources, whereas when the groundwater table was deeper, vertical roots developed quickly to exploit space in the deeper soil layers. (3) The decrease in groundwater depth was probably responsible for the root distribution in the shallow soil layers. Root biomass and surface area both decreased with soil depth. One strategy of A. sparsifolia seedlings in dealing with the increase in groundwater depth is to increase root biomass in the deep soil layers. The relationship between the root growth/distribution of A. sparsifolia and the depth of groundwater table can be used as guidance for harvesting A. sparsifolia biomass and managing water resources for forage grasses. It is also of ecological significance as it reveals how desert plants adapt to arid environments.  相似文献   

10.
ABSTRACT The interactive effects of concomitant infection by the nematode Pratylenchus penetrans and the fungus Verticillium dahliae on symptom expression in Russet Burbank potato was studied in growth chamber experiments. Treatments were P. penetrans at three initial densities, V. dahliae at one inoculum density, the combination of the nematode at these three densities and the fungus, and a noninfested control. Gas exchange was measured nondestructively in leaf cohorts of different ages, one to three times weekly, with a LI-COR portable photosynthesis system. The single-pathogen treatments had no effect on assimilation or transpiration rates, but joint infection had a significant impact. In concomitant infection, photosynthesis was impaired more than transpiration, so estimates of leaf health were based on carbon assimilation rates only. Reductions in assimilation rate were apparent before the onset of visual symptoms. Assimilation rates decreased as much as 44% in the top, and newest, leaves of concomitantly infected plants, compared to rates in control plants. Even so, the health of newly produced leaves did not become progressively worse through time. With light use efficiency less than 0.20 mol of CO(2) fixed per mol of photosynthetically active radiation used as the criterion for disease incidence, disease progressed acropetally from the oldest to the youngest leaves. In plants infected with P. penetrans (0.8 nematodes per cm(3) of soil) in combination with V. dahliae, all leaves in cohorts 1 and 2 were symptomatic by 45 days after planting, and leaves in cohorts 3 to 6 became symptomatic at weekly intervals thereafter. For the control and single-pathogen treatments, the first time that light use efficiency fell below 0.20 in all leaves in cohort 1 was 71 days after planting. Concomitant infection reduced leaf life span by about 3 weeks. Both visual and physiological symptom expression were invariant to differences in initial nematode inoculum densities ranging from 0.8 to 2.5 nematodes per cm(3) of soil in one experiment and from 1.3 to 4.1 nematodes per cm(3) of soil in a second experiment.  相似文献   

11.
安徽省潜山县栝蒌根结线虫发生危害及大田药效试验   总被引:3,自引:0,他引:3  
为了有效防治栝蒌根结线虫,调查了安徽省潜山县栝蒌根结线虫及其发生,并分析了栝蒌根围土壤线虫的组成。通过线虫形态学鉴定,认为潜山栝蒌上的根结线虫为Meloidogyne incognita。栝萎根围土壤中有口针线虫占调查总量的50.7%,根结线虫2龄幼虫(J2)占31.8%。对当年栝萎J2在土壤表、中、下层的分布和年发生调查结果表明,J2在各层的分布量因月份不同而不同,并分别于3月初到9月中旬问出现2次虫口高峰;防治试验结果表明,除有机肥外,各试验小区在施药后49天J2虫口相对减退率在89.6%以上;施药后124天,克线丹和1.8%阿维菌素处理的小区增果率为250%~480%,收到很好的防效。  相似文献   

12.
Phytophthora root rot is of paramount importance in avocado orchards of southern Spain. Soil solarization has been demonstrated to control the pathogen in infested areas from which infected trees had been removed. We aimed to determine whether soil solarization in established avocado orchards controls the disease. Soil solarization increased average maximum hourly soil temperatures by 6.5–6.9°C in unshaded areas of avocado orchards in coastal areas of southern Spain, depending on depth and year. The corresponding temperatures in shaded areas were c. 2–3°C lower. P. cinnamomi in soil, on infected avocado rootlets, and in a nutrient substrate buried at 30–60 cm depth was reduced to negligible amounts after 6–8 weeks of solarization in both unshaded and shaded locations of avocado orchards. P. cinnamomi could not be detected in avocado rootlets up to 14 months later, suggesting a long-term effect. Soil solarization did not affect growth of the trees, and fruit yields were increased as compared with control plots. Following soil solarization for 3 weeks from mid-July 1994, when maximum hourly temperatures reached 33–36°C, P. cinnamomi could not be recovered from a depth of up to 45 cm in unshaded areas or from a depth of up to 30 cm in shaded areas after the initial 10-day period. The viability of inoculum of the pathogen buried at depths between 15 and 60 cm in bare soil was determined by sequential sampling in two solarization experiments starting 12 June and 4 July 1995, respectively. In the first experiment, P. cinnamomi could not be detected at any depth after 4–8 weeks of solarization in unshaded areas but could be recovered at all depths except 15 cm in shaded areas. In the second experiment, where temperatures were higher and the soil surface not shaded, P. cinnamomi could not be recovered after 2 weeks at 15 and 30 cm.  相似文献   

13.
Glasshouse experiments were conducted from March to July 2003 to determine the effects of sowing depth, and the time, duration, and depth of flooding on the emergence, survival, and growth of Fimbristylis miliacea (L.) Vahl. The treatments that were evaluated in the first experiment were three seeding depths (0, 0.5, and 1.0 cm), while in the second experiment, three flooding depths (saturated soil with no standing water and soil with water depths of 5 and 10 cm) and three flooding durations (7, 14, and 21 days from sowing) were evaluated. In the third experiment, three flooding depths (saturated soil with no standing water, and soil with water depths of 5 and 10 cm) and four flooding regimes (7, 14, 21 or 28 days after sowing [DAS]) were evaluated. Surface seeding gave the highest emergence rate compared to the 0.5 cm and 1.0 cm soil depths. A significantly higher emergence rate was recorded with the saturated conditions than with the flooded conditions. A flooding duration of ≥ 14 days showed a clear trend of reduced emergence with increasing flooding depth. A significantly higher survival rate, plant height, root length, number of leaves, and dry matter were recorded at soil saturation followed by the 5 cm and 10 cm flooding depths when flooding was simulated at 7 and 14 DAS. When the flooding was delayed to 21 and 28 DAS, the 10 cm flooding depth was required to suppress this weed. The results provide sufficient evidence to confirm that from deeper seed burial (1 cm sowing depth), flooding depths of ≥ 5 cm of durations of 14 and 21 days and at the onset of flooding within 14 DAS were effective in suppressing the emergence and growth of F. miliacea .  相似文献   

14.
The effects of aldicarb on populations of root lesion nematodes (primarily Pratylenchus penetrans ) and on grain yields of spring barley and wheat were examined in the field over 3 years, 1981*83. The incidence of barley net blotch ( Pyrenophora teres ), wheat leaf blotch ( Leptosphaeria nodorum ), and common root rot ( Cochliobolus sativus ) was also recorded in 1982 and 1983. Aldicarb treatments reduced the size of root lesion nematode populations in soil and roots in all years, except in the mid-season soil sample in 1983. The severity of leaf disease was decreased only in 1982, but the incidence of root rot was not significantly affected by the nematticide. Although aldicarb increased cereal grain yields by approximately 15% there was no significant relationship between numbers of root lesion nematodes in roots and soil and fungal disease symptoms on barley and wheat.  相似文献   

15.
Granular formulations of chlorfenvinphos and phorate were applied to sandyloam soil at 2 kg a.i./ha either broadcast and incorporated to 2.5 cm, broadcast and incorporated at 10 cm or by the bow-wave method along the carrot rows. Depth of incorporation did not influence the rates of residue decline in the soil. Bow-wave applications produced the highest residues in root and foliage and also reduced the rate of oxidation of phorate. 30 weeks after sowing the carrots, all treatments gave the highest residue concentrations in the uppermost 6 cm of carrot root. The peel of carrots grown in the soil treated to a depth of 10 cm contained 88 % and 23 % of the total chlorfenvinphos and phorate residues respectively. Significant differences were found in the residue concentrations in five carrot cultivars treated with chlorfenvinphos and phorate by the bow-wave method at 1.5 kg a.i./ha. The concentrations were inversely correlated with root size so that amounts of insecticide (μg/carrot) were similar in all cultivars. Prolonged growth of cv. Norfolk Giant slightly extended the period of uptake of chlorfenvinphos, but the uptake of phorate was ultimately less than its rate of dissipation. Neither the method of application nor the selection of carrot cultivar extended the period of uptake very greatly but differences which were obtained in residue concentrations in the carrot may become significant in the event of regulatory control of residue levels.  相似文献   

16.
A 2-year study investigated the relationship between the nematicides aldicarb and fosthiazate and populations of plant growth-promoting (PGP) and plant-growth-inhibiting (PGI) bacteria, and root-lesion nematodes and bacteria-feeding nematodes in the root-zone soils of potatoes. Fewer ( P  < 0.05) bacterial genera and species were recovered from aldicarb-treated soils than from the fosthiazate and untreated soils but bacterial population densities were greatest in the aldicarb-treated soils. In potato plantlet bioassays using root-zone bacteria from the three soil sources, bacteria from the aldicarb-treated soils reduced ( P  < 0.01) the mean wet and dry weight of shoots and roots compared with those from the fosthiazate and untreated soils. In the field, fosthiazate (but not aldicarb) significantly increased tuber yields and reduced nematode population densities of Pratylenchus penetrans in roots and soil. Population densities of bacteria-feeding nematodes (primarily Diplogaster lheritieri ) were not affected by either nematicide. Aldicarb appeared to suppress the populations of plant-growth-promoting bacteria that contribute to enhanced growth in potatoes. This is attributed to the long-term use of aldicarb at the trial site, which may have encouraged the selection, or adaptation, of soil microorganisms that degrade carbamate pesticides but do not enhance potato growth.  相似文献   

17.
The reaction of six Musa genotypes to root-parasitic nematodes was evaluated under field conditions, together with the horizontal, and vertical distributions of the neomatodes within the soil profile. The numbers of Radopholus similis, Helicotylenchus spp., Meloidogyne spp. and of all nematodes in the excavated soil quadrant varied with Musa genotype. All genotypes were very susceptible to at least one nematode. Yangambi km5, Pisang Jari Buaya and FHIA-23 supported the lowest number of R. similis and Pisang Jari Buaya, the lowest number of Helicotylenchus spp. These three cultivars supported high numbers of Meloidogyne spp. Furthermore, FHIA-23 supported high numbers of Helicotylenchus spp. The horizontal and vertical distributions of R. similis in the root system of Valery, Gros Michel and FHIA-18 were very similar. By constrast, the distributions of Helicotylenchus spp., Meloidogyne spp. and the number of all nematodes varied slightly among the genotypes. Because Musa genotypes susceptible to a particular nematode showed a similar horizontal and vertical nematode distribution with populations concentrated in the vicinity of the plant base (0–30 cm horizontal distance and 30 cm depth), sampling at this site would be sufficient for the identification of the Musa plant reaction.  相似文献   

18.
风沙土区黄柳根系及其碳储量分布特征   总被引:1,自引:0,他引:1  
以内蒙古敖汉旗风沙土区15 a、25 a和35 a林龄的黄柳(Salix gordejevii)林为研究对象,分别设置3个样地,采用分层分段挖掘法,测定不同土层、土段的根系生物量、含碳率,计算根系碳储量,分析不同林龄黄柳根系及根系碳储量分布特征变化。随着土层深度的增加,黄柳根系生物量呈现先增加后减少的趋势,主要分布在0~100cm土层,均占根系总量的80%以上;15 a、25 a和35 a生黄柳根系总生物量分别为516.50、4 448.60 g·株~(-1)和7 257.7 g·株~(-1),随着林龄的增加,黄柳根系生物量呈增长趋势。根系碳储量分布特征呈梭形,15 a、25 a和35 a生黄柳根系总生物量分别为30.81、158.56 g·株~(-1)和229.9 g·株~(-1);随着林龄的增加呈增加趋势。  相似文献   

19.
微润带埋深对温室番茄生长和土壤水分动态的影响   总被引:3,自引:0,他引:3  
为探明微润灌溉对番茄生长和土壤水分的影响,设置了3种不同埋深和2种不同工作压力,研究了微润带埋设深度和压力对番茄生长、产量及水分利用效率的影响。结果表明:定植后94天,微润带压力水头为180cm、埋深为15 cm时的番茄株高分别比埋深10 cm和20 cm的处理增加9.17%和7.55%;此时番茄气孔导度最小,光合速率和水分利用效率最大,分别比埋深为10 cm和20 cm的处理增产3.24%和7.45%;不同埋深土壤含水率垂直分布随时间的变化存在差异,15 cm埋深时的土壤含水率最大。微润带埋深是影响土壤水分时空变化的主要因素;压力对土壤含水量时间变化影响不显著。  相似文献   

20.
为了解雨水集聚深层入渗(RWCI)系统土壤水分的入渗规律,设置不同灌水量(10 L、21 L和36 L)和RWCI设计坑深(40 cm和60 cm)的室内土箱试验,观测不同灌水量与不同水头变化情况土壤含水率变化和土壤湿润锋在径向和垂直方向上运移过程,依据非饱和土壤水动力学理论,建立HYDRUS-2D变水头边界条件土壤水分二维入渗模型。通过与实测数据对比,结果表明模型模拟值和实测值具有较好一致性:垂向湿润锋相对均方差(R_E)、平均绝对误差(MAE)和纳什系数(NE)分别为0.019、0.011 cm和0.994,径向湿润锋R_E、MAE和NE分别为0.018、0.851 cm和0.977,土壤含水率R_E、MAE和NE分别为0.188、0.016 cm~3·cm~(-3)和0.916。相比于设计深度为40 cm的RWCI系统, 60 cm RWCI系统在不同灌水量下能够更有效地增加果树根系分布层的土壤含水率,增加土壤水分入渗深度;相同灌水量下RWCI系统设计深度的径向湿润锋分布间无明显差异,而垂直方向的分布具有明显差异;RWCI系统在相同的设计深度下,随着灌水量增大湿润锋在垂向与径向的运移距离差异逐渐增大。  相似文献   

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