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1.
Stemflow of xerophytic shrubs represents a significant component of water replenishment to the soil-root system and influences water utilization of plant roots at the stand scale,especially in water-scarce semi-arid ecosystems.The stemflow of two semi-arid shrubs(Caragana korshinskii and Hippophae rhamnoides)and its effect on soil moisture enhancement were evaluated during the growing season of 2011 in the semi-arid loess region of China.The results indicated that stemflow averaged 12.3%and 8.4%of the bulk precipitation for C.korshinskii and H.rhamnoides,respectively.Individual stemflow increased in a linear function with increasing rainfall depth.The relationship between funneling ratios and rainfall suggested that there existed a rainfall depth threshold of 11 mm for both C.korshinskii and H.rhamnoides.Averaged funneling ratios were 156.6±57.1 and49.5±30.8 for C.korshinskii and H.rhamnoides,respectively,indicating that the canopy architecture of the two shrubs was an effective funnel to channel stemflow to the root area,and C.korshinskii showed a greater potential to use stemflow water in the semi-arid conditions.For individual rainfall events,the wetting front depths were approximately 2 times deeper in the rooting zone around the stems than in the bare area outside canopy for both C.korshinskii and H.rhamnoides.Correspondingly,soil water content was also significantly higher in the root area around the shrub stem than in the area outside the shrub canopy.This confirms that shrub stemflow conserved in the deep soil layers may be an available moisture source for plant growth under semi-arid conditions. 相似文献
2.
Ecological restoration by Tamarix plants on semi-arid saline lands affects the accumulation, distribution patterns and related mechanisms of soil water content and salinity. In this study, spatio-temporal variations of soil water content and salinity around natural individual Tamarix ramosissima Ledeb. were invetigated in a semi-arid saline region of the upper Yellow River, Northwest China. Specifically, soil water content, electrical conductivity(EC_e), sodium adsorption ratio(SAR_e), and salt ions(including Na~+, K~+, Ca~(2+), Mg~(2+) and SO_4~(2–)) were measured at different soil depths and at different distances from the trunk of T. ramosissima in May, July, and September 2016. The soil water content at the 20–80 cm depth was significantly lower in July and September than in May, indicating that T. ramosissima plants absorb a large amount of water through the roots during the growing period, leading to the decreasing of soil water content in the deep soil layer. At the 0–20 cm depth, there was a salt island effect around individual T. ramosissima, and the EC_e differed significantly inside and outside the canopy of T. ramosissima in May and July. Salt bioaccumulation and stemflow were two major contributing factors to this difference. The SAR_e at the 0–20 cm depth was significantly different inside and outside the canopy of T. ramosissima in the three sampling months. The values of SAR_e at the 60–80 cm depth in May and July were significantly higher than those at the 0–60 cm depth and higher than that at the corresponding depth in September. The distribution of Na~+ in the soil was similar to that of the SAR_e, while the concentrations of K~+, Ca~(2+), and Mg~(2+) showed significant differences among the sampling months and soil depths. Both season and soil depth had highly significant effects on soil water content, EC_e and SAR_e, whereas distance from the trunk of T. ramosissima only significantly affected EC_e. Based on these results, we recommend co-planting of shallow-rooted salt-tolerant species near the Tamarix plants and avoiding planting herbaceous plants inside the canopy of T. ramosissima for afforestation in this semi-arid saline region. The results of this study may provide a reference for appropriate restoration in the semi-arid saline regions of the upper Yellow River. 相似文献
3.
长期围栏封育对亚高山草原土壤有机碳空间变异的影响 总被引:1,自引:0,他引:1
以中国科学院新疆生态与地理研究所巴音布鲁克草原生态站的长期围栏封育样地为对象,利用经典统计学和地统计学相结合的方法,研究长期围栏封育对亚高山草原土壤有机碳空间变异特征的影响。结果表明:① 长期围栏封育可以增加土壤有机碳含量,围栏内0~20 cm土壤有机碳含量均值为40.76 g/kg,围栏外土壤有机碳含量均值为38.50 g/kg;围栏内20~40 cm土壤有机碳含量均值为20.98 g/kg,围栏外土壤有机碳含量均值为18.70 g/kg,土壤有机碳在水平方向上围栏内均高于围栏外;② 围栏内土壤有机碳的变异性程度均显著高于围栏外,不管是围栏内外、上层和下层,土壤有机碳均具有中等的空间相关性,且上层土壤的有机碳变异程度均高于下层土壤;③ 土壤有机碳在水平空间分布呈现出不均匀性,围栏内土壤有机碳含量空间分布水平高于围栏外,在空间插值图上看,围栏内外0~20 cm土壤有机碳含量高的位置,在20~40 cm土壤有机碳含量却相反。 相似文献
4.
黄土旱塬垄作覆膜栽培土壤水分及温度变化研究 总被引:2,自引:0,他引:2
黄土高原雨养农业区水分缺乏是制约农业生产的关键因子。本研究在黄土高原长武塬进行小区试验,通过垄作覆膜(RP)与平作不覆膜(FP)两种处理的对比研究,分析垄作覆膜下玉米生长时期土壤水分与温度的变化,以及降雨事件对于土壤水分的动态影响。结果表明,垄作覆膜在30~60 cm土层土壤水分显著高于平作不覆膜约8%,而平作不覆膜在深层(100~160 cm)土壤水分明显高于垄作覆膜,玉米生长季土体储水量变化垄作覆膜垄与沟在30~60 cm处均高出平作不覆膜20 mm,而在100~160 cm处垄作覆膜比平作不覆膜低25 mm。垄沟覆膜-垄(RPR)土壤表层10 cm处温度较垄沟覆膜-沟(RPF)与平作不覆膜分别高2.01℃和1.91℃。中雨情况下,垄作覆膜降雨土壤入渗深度可达30 cm,平作不覆膜下可以到10 cm,但强降雨事件中垄作覆膜土壤深层入渗受到抑制。降雨强度越大,土壤前期含水量越高,土壤水分峰值产生的时间越短;垄作覆膜由于土壤水分条件的改善使得土壤水分峰值出现时间较平作不覆膜早。垄作覆膜由于垄沟微地形改变使沟内具有集水效应,同时沟内集水对垄上水分存在侧向补充,但时间上存在滞后效应,滞后时间与降雨量和降雨前土壤含水量相关。垄作覆膜能够保水保墒,增加降雨入渗,抑制强降雨事件的深层入渗,抑制"自覆盖"现象的发生,从而对玉米生长具有重要的意义。 相似文献
5.
Keiichi KIMURA 《干旱区科学》2022,14(8):867-876
Shrub species are used in restoration projects on dryland for their facilitation effects, which include environmental improvements and protection from herbivore feeding. Facilitation effects on forage grasses are potentially important in improving grazing capacity on rangelands. However, the morphology-dependent performance of benefactor plants in facilitating forage species growth and supplementation under moderate grazing intensity remains unclear. Here, our main purpose was to measure facilitation performance in terms of the survival of a native forage grass, Agropyron cristatum (L.) Gaertn. (Gramineae)., in accordance with the growth conditions of a sand-fixing benefactor shrub, Caragana microphylla Lam., in the Hulun Buir Grassland, northern China. Six study sites with patches of A. cristatum and C. microphylla were established at the foot of fixed sand dunes. At each site, five quadrats were set in places where C. microphylla coverage was 100% and A. cristatum grew among the shrubs (shrub quadrats), and another five were set where A. cristatum grew alone without C. microphylla (grass quadrats). We measured the morphological traits of C. microphylla and A. cristatum in all 60 quadrats, along with the soil water content and soil temperature. The data were compared between the shrub and grass quadrats by generalized linear mixed-effect models to assess the shrub's facilitation effects. We also used such models to elucidate the relationship between the average height of C. microphylla and the morphological traits of A. cristatum in the shrub quadrats. The maximum height, average grazed height, and the number of seed heads of A. cristatum were greater in the shrub quadrats than in the grass quadrats. The soil surface temperature was lower in the shrub quadrats. The maximum height and seed head number of A. cristatum were positively associated with the average height of C. microphylla. These results suggest that the grazing impact and heat stress were smaller in shrub quadrats than in grass quadrats, and that the degree of this protective effect depended on the shrub height. The shrub canopy seemed to reduce the increase in soil temperature and keep the grass vigorous. Livestock likely avoided grazing grasses in the C. microphylla patches because of the shrub's spiny leaves; only the upper parts of the grass stems (including the seed heads) protruding from the shrub canopy were grazed. The sand-fixing shrub thus moderates the grazing impact and soil temperature, and contributes to vegetation restoration and grazing system sustainability. 相似文献
6.
Under an extremely arid condition,a PVC greenhouse was built on the top of Mogao Grottoes in gobi area.The results of 235-day constant extraction of condensed water on the greenhouse film and soil water content showed that 2.1 g/(m2·d) groundwater moved up and exported into the soil,and a phreatic water evaporation existed in the extreme dry area where the groundwater is buried deeper than 200 m.After a prolonged export,the soil water content in the greenhouse was not lower but obviously higher than the original control ones.According to the monitored parameters including relative humidity and absolute humidity of soil,and temperature outside and inside the greenhouse,it was found that there is the available condition and mechanism for the upward movement of groundwater,and also it can be sure that the exported water was not from the soil and atmosphere outside the greenhouse.Phreatic water,an important source for soil water,interacts with atmosphere moisture via soil respiration.Soil salinity also has important effects on soil water movement and spatial-temporal heterogeneity.The extremely dry climate,terrestrial heat and change of upper soil temperature are the fundamental driving forces of water transportation and phreatic water evaporation in the Groundwater-Soil-Plant-Atmosphere Continuum(GSPAC) system. 相似文献
7.
ABAY Peryzat 《干旱区科学》2022,14(7):824-836
The study of the heterogeneity of soil enzyme activities at different sampling locations in canopy gaps will help understand the influence mechanism of canopy gaps on soil ecological processes. In this paper, we analyzed the spatiotemporal variation of soil enzyme activities and soil physicochemical properties at different sampling locations (closed canopy, expanded edge, canopy edge, gap center) in different sampling time (December, February, April, June, August, and October) on the northern slope of the Tianshan Mountains, Northwest China. The results showed that soil catalase, cellulase, sucrase, and acid phosphatase activities were relatively high from June to October and low from December to April, and most of soil enzyme activities were higher at closed canopy than at gap center. Soil urease activity was high during December-February. The soil temperature reached the highest value during June-August and was relatively high at gap center in October, December, and February. Soil water content was significantly higher in December and April than in other months. Soil bulk density was higher at gap center than at closed canopy in December. Soil pH and soil electrical conductivity in most months were higher at closed canopy than at gap center. Soil organic carbon, soil total nitrogen, and soil total phosphorus were generally higher at gap center than at closed canopy. Furthermore, sampling time played a leading role in the dynamic change of soil enzyme activity. The key factors affecting soil enzyme activity were soil temperature and soil water content, which were governed by canopy gaps. These results provide important support for further understanding the influence mechanism of forest ecosystem management and conservation on the Tianshan Mountains. 相似文献
8.
ZHENG Jing FAN Junliang ZHANG Fucang YAN Shicheng GUO Jinjin CHEN Dongfeng LI Zhijun 《干旱区科学》2018,10(5):794-808
High and efficient use of limited rainwater resources is of crucial importance for the crop production in arid and semi-arid areas. To investigate the effects of different soil and crop management practices(i.e., mulching mode treatments: flat cultivation with non-mulching, flat cultivation with straw mulching, plastic-covered ridge with bare furrow and plastic-covered ridge with straw-covered furrow; and planting density treatments: low planting density of 45,000 plants/hm~2, medium planting density of 67,500 plants/hm~2 and high planting density of 90,000 plants/hm~2) on rainfall partitioning by dryland maize canopy, especially the resulted net rainfall input beneath the maize canopy, we measured the gross rainfall, throughfall and stemflow at different growth stages of dryland maize in 2015 and 2016 on the Loess Plateau of China. The canopy interception loss was estimated by the water balance method. Soil water storage, leaf area index, grain yield(as well as it components) and water use efficiency of dryland maize were measured or calculated. Results showed that the cumulative throughfall, cumulative stemflow and cumulative canopy interception loss during the whole growing season accounted for 42.3%–77.5%, 15.1%–36.3% and 7.4%–21.4% of the total gross rainfall under different treatments, respectively. Soil mulching could promote the growth and development of dryland maize and enhance the capability of stemflow production and canopy interception loss, thereby increasing the relative stemflow and relative canopy interception loss and reducing the relative throughfall. The relative stemflow and relative canopy interception loss generally increased with increasing planting density, while the relative throughfall decreased with increasing planting density. During the two experimental years, mulching mode had no significant influence on net rainfall due to the compensation between throughfall and stemflow, whereas planting density significantly affected net rainfall. The highest grain yield and water use efficiency of dryland maize were obtained under the combination of medium planting density of 67,500 plants/hm~2 and mulching mode of plastic-covered ridge with straw-covered furrow. Soil mulching can reduce soil evaporation and retain more soil water for dryland maize without reducing the net rainfall input beneath the maize canopy, which may alleviate the contradiction between high soil water consumption and insufficient rainfall input of the soil. In conclusion, the application of medium planting density(67,500 plants/hm~2) under plastic-covered ridge with bare furrow is recommended for increasing dryland maize production on the Loess Plateau of China. 相似文献
9.
Effect of pea canopy architecture on microclimate and consequences on ascochyta blight infection under field conditions 总被引:1,自引:0,他引:1
Benjamin Richard François Bussière Christophe Langrume François Rouault Stéphane Jumel Robert Faivre Bernard Tivoli 《European journal of plant pathology / European Foundation for Plant Pathology》2013,135(3):509-524
In order to investigate the impact of pea canopy architecture and development on microclimate and infection by Mycosphaerella pinodes, two field experiments were conducted in 2009 and 2010 at Le Rheu (France) to obtain canopies contrasted in height, closure dynamic, leaf area index (LAI) and leaf area density (LAD). Three pea cultivars (Athos, Antares, Gregor) were sown at two (80 and 40 seeds/m2 in 2009) and three densities (80, 40 and 30 seeds/m2 in 2010) and microclimatic sensors were located inside the canopy (at the bottom and in the middle) and outside. Two main sources of wetness were identified: rainfall and dew. During rainfall periods, average daily leaf wetness duration (LWD) was about 15 h, and 3 to 10 h longer inside than outside the canopies. LWD was positively correlated with LAI until canopy closure during these periods. During dry periods when dew was the only source of leaf wetness, average daily LWD was short, decreasing as the canopy developed. Shorter LWDs were observed at the base than at the mid-level of the canopies and longer LWDs were observed outside the canopy and inside the less dense canopies irrespective of the cultivar. LWD was negatively correlated with canopy height and LAI during these periods. Slow wind speeds were recorded inside the canopies (less than 0.5 km/h) and no significant canopy effect was observed on air temperature. An infection model was developed and showed that only rainfall periods which induced long LWDs inside the canopy, were favourable to M. pinodes infection under our climatic conditions and suggested a more favourable microclimate inside dense canopies. 相似文献
10.
不同耕作方式对黑土农田土壤水分及
利用效率的影响 总被引:6,自引:0,他引:6
在土壤耕作长期定位试验的基础上,研究了免耕秸秆覆盖(NT)和少耕(RT)对东北黑土区农田土壤水分及利用效率、玉米产量及特性的影响。结果表明:在作物生长季3种耕作措施土壤剖面含水量整体上呈先降低后增加的变化趋势,各时期20~40 cm土层含水量均较低。免耕可显著提高0~90 cm土层土壤含水量,90 cm土层以下三种措施土壤含水量差异逐渐降低,到190 cm土层差异不明显。土体储水量主要受降雨及不同耕作措施的影响,在干旱的春季以及降水量较少的秋季土体储水量较低,表现为:免耕>传统>少耕,而在降水量较大时土体储水量相应增加,表现为:少耕>免耕>传统。3种耕作措施下玉米叶面积指数变化趋势一致,总体表现为:传统>少耕>免耕,其中传统和少耕最高分别比免耕高0.22和0.26。在生长季少耕蒸散量最高。传统耕作玉米籽粒产量和水分利用效率分别较免耕和少耕高30%和17%,29%和11%,籽粒产量均存在显著性差异(P<0.05),表现为:传统>少耕>免耕,所以对于玉米而言,在该区不适宜实施免耕秸秆覆盖和少耕这两种保护性耕作体系。 相似文献
11.
中子仪的标定及其在坡地土壤水分测量中的应用 总被引:13,自引:0,他引:13
介绍了野外标定中子仪的方法,并比较分析了中子仪测定结果与土钻烘干法所得结果的差异。结果表明:采用分层标定的方法能够取得很好的效果,坡地土壤可以分10cm、20-30cm、40cm三个层次进行标定;由于坡地土壤物理性质的空间变异性和微地貌的差异性,中子仪法测定结果与土钻烘干法测定结果具有一定的差异;在研究降雨入渗及土壤水分再分布规律时,最好选择其它表层测量精度较高的水分测定装置。 相似文献
12.
隔沙层对盐碱地土壤水盐运动的影响 总被引:6,自引:0,他引:6
在80~100 cm范围土层设置沙层,对土壤电导率和含水量进行为期6个月的观察,分析隔沙层对土壤水盐运动的影响。结果表明:80~100 cm层沙层在大降雨量时能够提高土壤含水量;降雨量小,蒸发强烈的5~7月份,隔沙处理能够使土壤积盐程度较对照减少50%~70%;隔沙层延缓沙层以上土壤水分的下渗,从而提高降雨对土壤盐分的淋洗作用。当降雨量接近蒸发量的时候,隔沙处理土壤就能明显脱盐,而在此雨量下,对照只能保证土壤不发生积盐或少量积盐。雨季结束之后,隔沙处理土壤脱盐率较对照提高10%~35%,并能够使土壤脱盐过程持续到10月份,对植物生长十分有利。 相似文献
13.
研究不同土壤水分梯度下盆栽苗木四翅滨藜(Atriplex canescens)、中宁枸杞(Lycium barbarum)、沙棘(Hippophae rhamnoides)的净光合速率(Pn)、蒸腾速率(Tr)、气孔导度(Gs)、水分利用效率(WUE)与土壤含水量(SWC)的关系.结果表明:维持沙棘、四翅滨藜和中宁枸杞净光合速率为最高的土壤含水量分别是18.88%,17.41%和18.49%,三树种维持叶片水分利用效率最佳土壤含水量依次为10.58%,15.3%,12%;土壤水合补偿点分别为4.3%,4.4%,4.54%,最大蒸腾速率的土壤含水量分别为21.25%,22.49%,21.64%,沙棘最适宜的土壤含水量应在10.5%左右,四翅滨藜应在10%~12%,中宁枸杞应在10%~15.5%. 相似文献
14.
高寒矮嵩草草甸植物生长季土壤水分动态变化规律 总被引:2,自引:1,他引:1
利用2001年和2003年土壤水分观测资料分析了中国科学院海北高寒草甸生态系统定位站(海北站)矮嵩草草甸土壤水分的日变化、植物生长季期土壤水分的季节变化及垂直变化规律。结果表明:高寒矮嵩草草甸土壤水分的日变化在各季节表现出早晚高,中午低的U型分布变化;在植物生长季土壤水分的季节变化与植物生长、土壤消融与冻结、气候条件等有很大的联系,少降水年与多降水年变化基本一致;土壤水分随土层深度增厚而降低;根据植物根系对土壤水分利用情况将土层分为根系利用层和根系微利用层。 相似文献
15.
模拟降雨条件下苏南黄壤产流起始时间及影响因素研究 总被引:1,自引:0,他引:1
运用人工模拟降雨装置研究了暴雨条件下苏南典型丘陵土壤上纯草、纯灌、灌草3种经营模式下坡度、降雨强度、土壤前期含水量、植被覆盖度对开始产生径流时间的影响。研究表明:纯草模式下影响开始产流时间的最主要因子为土壤前期含水量,同时建立了3种植被组合下影响开始产流时间的多因子回归方程。通过方程,由植被覆盖度、坡度、土壤前期含水量和降雨强度四个易于获得的因子可预测不同植被组合下开始产生径流的时间。 相似文献
16.
为了解川西北高寒沙地红柳对土壤有机碳及腐殖质碳组分的影响,选取了沙地上修复24 a的红柳灌丛作为研究对象,通过野外调查并结合土壤样品采集和室内分析,研究了川西北沙地红柳灌丛根区(SR)、灌丛中部(SM)、灌丛边缘(SE)、灌丛外部(SO)的0~20,20~40 cm和40~60 cm土层土壤有机碳及腐殖质碳组分变化特征。结果表明:随着距灌丛植株水平距离的增加,土壤有机碳(SOC)、胡敏酸碳(HAC)、富里酸碳(FAC)和胡敏素碳(HMC)含量均呈现下降的特征;0~20 cm表层土壤,灌丛根区、灌丛中部和灌丛边缘土壤有机碳含量分别为灌丛外部的1.86倍、2.35倍和1.63倍,灌丛根区、灌丛中部和灌丛边缘土壤腐殖质碳含量分别为灌丛外部的1.96倍、0.68倍和1.22倍;在距灌丛植株水平距离相同条件下,随土层深度增加,土壤有机碳及腐殖质碳各组分含量呈降低趋势;在灌丛根区,20~40 cm和40~60 cm土层土壤有机碳相对于0~20 cm土层分别降低了32.31%和38.38%,20~40 cm和40~60 cm土层土壤腐殖质碳相对于0~20 cm土层分别降低了49.34%和53.40%。研究得出,红柳灌丛内外土壤有机碳及腐殖质碳组分存在空间异质性分布。 相似文献
17.
绿洲边缘白刺林退化植被恢复与重建技术研究 总被引:11,自引:0,他引:11
本文针对绿洲边缘天然白刺灌丛植被退化发生机制 ,采取平茬和人工降雨两种措施 ,从白刺灌丛的生长量、生物量、物种多样性以及沙丘内部水分变化量等方面入手 ,对白刺灌丛的复壮进行了初步的研究。平茬可在一定程度上促进白刺个体的生长并较小范围内改善浅层土壤水分条件。对结皮不同程度处理并结合人工降雨措施 ,均能促进白刺灌丛的生长 ,对浅层土壤水分条件具有较大幅度的影响 ,但对深层土壤水分条件不产生影响。 0 - 1 40cm范围内土壤水分条件的优劣是白刺灌丛生存生长的关键因素之一 ,改善该范围内沙丘内部水分条件对白刺灌丛的复壮具有重要的意义。 相似文献
18.
XinPing LIU 《干旱区科学》2015,7(2):238-250
Quantification of deep drainage and the response of soil water content to rainfall patterns are critical for an effective management strategy of soil water conservation and groundwater utilization. However, information on how rainfall characteristics influence soil water dynamics and deep drainage in mobile sandy lands are lacking. We used an underground chamber to examine the response of deep drainage and soil water content in mobile sandy lands to rainfall characteristics during the growing season of 2010, 2011 and 2012. Results showed that rainfall in this area was dominated by small events (≤5 mm), which increased soil water content in the surface soil layers (0–40 cm), but did not increase soil water content at the deeper soil layers (greater than 40 cm). Soil water content at the 0–100 cm depth increased significantly when the total amount of rain was >20 mm. Rainfall amount, intensity and the duration of dry intervals were significantly related to the soil water content at different soil layers. Deep drainage was significantly correlated with rainfall amount and intensity, but not with the duration of the dry interval. The coefficients of deep drainage in mobile sandy lands ranged from 61.30% to 67.94% during the growing seasons. Our results suggested that rainfall infiltration in these widespread mobile sandy lands had considerable potential to increase soil water storage while recharging the groundwater in this region. 相似文献
19.
Leaf wetness provides a wide range of benefits not only to leaves,but also to ecosystems and communities.It regulates canopy eco-hydrological processes and drives spatial differences in hydrological flux.In spite of these functions,little remains known about the spatial distribution of leaf wetness under different soil water conditions.Leaf wetness measurements at the top(180 cm),middle(135 cm),and bottom(85 cm)of the canopy positions of rainfed jujube(Ziziphus jujuba Mill.)in the Chinese loess hilly region were obtained along with meteorological and soil water conditions during the growing seasons in 2019 and 2020.Under soil water non-deficit condition,the frequency of occurrence of leaf wetness was 5.45%higher at the top than at the middle and bottom of the canopy positions.The frequency of occurrence of leaf wetness at the top,middle and bottom of the canopy positions was over 80%at 17:00?18:00(LST).However,the occurrence of leaf wetness at the top was earlier than those at the middle and bottom of the canopy positions.Correspondingly,leaf drying at the top was also latter than those at the middle and bottom of the canopy positions.Leaf wetness duration at the middle was similar to that at the bottom of the canopy position,but about 1.46-3.01 h less than that at the top.Under soil water deficit condition,the frequency of occurrence of leaf wetness(4.92%-45.45%)followed the order of top>middle>bottom of the canopy position.As the onset of leaf wetness was delayed,the onset of wet leaf drying was advanced and the leaf wetness duration was shortened.Leaf wetness duration at the top was linearly related(R2>0.70)to those at the middle and bottom of the canopy positions under different soil water conditions.In conclusion,the hydrological processes at canopy surfaces of rainfed jujube depended on the position of leaves,thus adjusting canopy structure to redistribute hydrological process is a way to meet the water need of jujube. 相似文献
20.
通过在旱区坡耕地上模拟降雨试验,研究在降雨强度40 mm·h-1和历时为3 h的条件下,7种线性水溶性高分子聚合物(PAM)和新型节水保水材料(SAP)交并施用方式对径流和氮素淋溶的影响。结果表明:与对照处理(不施用PAM和SAP)相比较,施加PAM和SAP有效减少了径流量和氮素淋溶量,减少的地表径流量达93.29%,相应地降低水中总氮淋溶量达25.58%,保水作用SAP强于PAM;同时,减少的土壤侵蚀量达91.85%,相应地降低泥沙中总氮淋溶量达37.96%;由降雨后土壤剖面养分分布可知,0~15 cm深度土壤的含氮量比对照组高50.24%。说明施加PAM和SAP增加了根系层的持水和保肥能力,降低了土壤养分随水的深层渗漏,且保土作用PAM强于SAP。在坡耕地施加PAM和SAP不但可以减少水土流失,而且能降低土壤氮素的流失,防止肥料对地下水的污染。 相似文献