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1.
Grazing-induced spatial variability of soil bulk density and content of moisture, organic carbon and calcium carbonate in a semi-arid rangeland 总被引:2,自引:0,他引:2
The landscape of many semiarid rangelands is characterized by a two-phase, shrub–intershrub vegetation mosaic, each phase having different soil properties. However, this broad subdivision groups together types of intershrub surface cover that may also differ in their soil properties and play important roles in ecosystem functioning. In the northern Negev region of Israel, we examined the soil properties associated with flock trampling routes and rock fragment clusters, as well as those associated with the remainder of the intershrub area and shrub patches. Moisture content, organic carbon content, bulk density and calcium carbonate content of the soil were determined for the above four types of cover, inside and outside long-term grazing exclosures. Soil was sampled in the peak of the growing season and in the end of the dry season, on a north- and a south-facing hillside, and from two depths. The shrub patches exhibited the highest soil moisture and organic carbon contents, and the lowest bulk density and calcium carbonate contents. The trampling routes showed opposite trends. The rock fragment clusters and the remainder of the intershrub area did not generally differ and had intermediate values of these properties. Grazing did not have a significant effect on soil properties at the whole-plot scale, but there were highly significant interactions between grazing and type of cover. Compared with the former trampling routes in the exclosures, the active trampling routes outside them had higher bulk density and lower moisture and organic carbon contents. The intershrub area had higher moisture and organic carbon contents under grazing than in the exclosures. Grazing increased the spatial heterogeneity of the soil properties examined via the creation of a network of trampling routes on the hillsides. The routes themselves, which constituted over 20% of the landscape cover, had degraded soil properties but they led to the improvement of the properties of the remainder of the intershrub area via functionally important source–sink relationships. The study of the soil of regions in which such networks are apparent should be duly cognizant of this intershrub subdivision in addition to the widely recognized shrub–intershrub dichotomy. 相似文献
2.
Effects of vegetation and slope aspect on water budget in the hill and gully region of the Loess Plateau of China 总被引:1,自引:0,他引:1
Precipitation, throughfall, stemflow and soil water content were measured, and interception, transpiration, evaporation, runoff, deep percolation and soil water recharge were estimated in the natural Liaotung Oak (Quercus liaotungensis) and regrown Black Locust (Robinia pseudoacacia) forestlands in the hill and gully region of the China Loess Plateau. Four stands (south- and north-facing slopes) of two forests were studied between May 27, 2006 and October 31, 2007. Hydrological fluxes were calculated using a coupled water and heat flow model called CoupModel. Throughfall, stemflow and soil water content were used to calibrate the model. The simulations indicated that, interception, vegetation transpiration and soil water evaporation were the main components of water consumption in the 4 stands, accounting for about 90% of the precipitation. The simulated interception and vegetation transpiration in the south-facing slope (154 and 327 mm in regrown forestland and 173 and 338 mm in natural forestland) were lower than those in the north-facing slope (219 and 344 mm in regrown forestland and 203 and 342 mm in natural forestland). Soil water evaporation in the south-facing slope (416 mm in regrown forestland and 373 mm in natural forestland) was larger than that in the north-facing slope (325 mm in regrown forestland and 330 mm in natural forestland) in the same vegetation stands. This was mainly due to greater vegetation density in the north-facing slope than in the south-facing slope. For the regrown forestlands, the simulated soil water recharge was larger under north-facing slope stands (90 mm) than under south-facing slope stands (76 mm), and the natural forestland in the north-facing slope had the largest soil water recharge (104 mm). The results indicated that vegetation species and slope aspects significantly influenced the water balance budget in the soil–vegetation–atmosphere system. The water budget differences among the 4 stands indicate that care is required for properly selecting regrown tree-species. Soil and water conservation measures must be applied scientifically when converting farmland to forest in the Loess Plateau of China, especially on the south-facing slopes. 相似文献
3.
E. Nevo A. P. Travleev N. A. Belova A. Tsatskin T. Pavlí
ek A. F. Kulik N. N. Tsvetkova D. C. Yemshanov 《CATENA》1998,33(3-4)
The opposite slopes of lower Nahal Oren, Mount Carmel, Israel, designated “Evolution Canyon”, display physical and biotic contrasts, although both are cut in Upper Cenomanian calcareous limestone. The three-fold greater solar radiation makes the south-facing slope warmer, drier and more variable than the north-facing slope and valley bottom. Consequently, biodiversity is greater. Microclimate (mesic–xeric) is a major force driving adaptive evolution, and causing soil divergence. The soils on both slopes are Terra Rossas in the Israeli classification system (Rhodoxeralfs in US taxonomy). However, selected properties (pH, humus content, NH4–N content, cation exchange capacity and others) display greater interslope than intraslope differences. The north-facing Terra Rossas have a dark-coloured A1 humic horizon, which is better developed than in south-facing Terra Rossas. Differences in soil morphology, moisture regime and microfabric between the north- and south-facing soils suggest that they belong to different taxonomic classes. These differences probably result in part from the forested ecosystem of the north-facing slope versus the savanna-like ecosystem of the opposite slope. 相似文献
4.
A comparison was made between two soil climosequences on north- and south-facing slopes in northern Italy to determine the influence of slope aspect on soil processes. The climosequences span an elevational gradient ranging from moderate (1200 m a.s.l.) to high alpine (2420 m a.s.l.) climate zones on surfaces having an age of about 15 000 years. The soils were investigated with respect to organic C, oxalate and dithionite extractable Fe, Al and Si, elemental losses (Ca, Mg, K, Na, Fe, Al, Si, Mn) and clay minerals. The stocks of soil org. C as well as of oxalate-extractable Fe and Al was greatest in the subalpine zone near the timberline. There are no clear differences in organic C content between the soils on north- and south-facing sites. Fe-oxalate and to a lesser extent Alo-stocks were, however, greater on north-facing sites, indicating that weathering is greater there. Eluviation and illuviation of Al and Fe within the soil profile, typical for podzolisation, was more distinctly expressed on the N slopes. The probability of ITM (Imogolite-type-material) formation in the soil seemed to be greater on south-facing sites. On the north-facing sites, element leaching was most intense in the subalpine zone close to the timberline while on the south-facing sites this was only the case for the base cations. The N slopes exhibited higher leaching of elements which generally indicates a higher weathering intensity. On south-facing sites, typical podzolisation processes were measurable only above 2000 m a.s.l. The development of smectites is also a reflection of the weathering intensity; smectite was discernible in the surface horizon at all sites on N slopes but the highest amount was detected in the sub-alpine climate zone. For the south-facing sites only in the alpine climate zone could smectite be detected. Higher temperatures and an increased number of freeze-thaw cycles on south-facing slopes should theoretically enhance rates of chemical weathering. This could, however, not be confirmed with our measurements. The degree of chemical weathering increases from the south- to the north-facing sites that are characterised by lower temperatures, lower evapotranspiration and consequently by a higher humidity. Although precipitation in Alpine regions is abundant, the availability and flux of water through the soil is the prime factor in weathering intensity. 相似文献
5.
坡位对土壤水分及植被空间分布的影响 总被引:2,自引:2,他引:2
[目的]探讨微地形对土壤含水量和生物量的影响,为浑善达克沙地环境建设和合理开发利用提供理论参考。[方法]以内蒙古锡林郭勒盟白音锡勒牧场境内的中国科学院内蒙古草原生态系统定位站沙地样地为研究对象,对坡底、坡顶、阴坡和阳坡等坡位的植被和土壤水分等指标的测定,对其进行方差分析和相关性分析。[结果]坡底以多年生杂类草占优,阴坡以灌木、半灌木及多年生禾草为主,阳坡以灌木、半灌木、多年生禾草及1,2年生植物为主,坡顶以多年生禾草和1,2年生草本植物为主;0—50cm土壤平均含水量的大小顺序为:坡底阴坡阳坡坡顶,生物量顺序与土壤平均含水量一致;坡顶、坡底、阳坡和阴坡各层土壤水分变异系数由大到小的顺序因土层和坡位的不同而表现出一定的差异性,0—50cm各层平均变异系数坡顶最大,坡底次之,阳坡最低;生物量和各层土壤含水量均呈现正相关关系,其中0—5,5—10和20—30cm土壤含水量与生物量之间表现为极显著线性正相关(p0.01)。[结论]微地形对植被种类和土壤含水量具有一定影响,且土壤含水量和植物生物量呈现正相关关系。 相似文献
6.
微地形对高寒草地土壤有机碳及氮含量的影响 总被引:3,自引:0,他引:3
[目的]系统分析高寒草地不同微地形条件下土壤有机碳及氮含量的变化规律,为高寒地区合理利用草地提供理论参考。[方法]在天祝高寒草地区选取7类不同微地形作为研究对象,测定其表层(0—30cm)土壤有机碳及氮含量。[结果]随着土层深度的增加,位于坡底平地,土壤全氮和铵态氮含量呈减小的趋势,位于阴坡不同坡位,土壤全氮含量呈"V"型变化,土壤铵态氮呈减小的趋势,位于阳坡不同坡位,土壤全氮含量呈减小的趋势,土壤铵态氮含量呈先增大后减小的趋势;所有微地形中,随着土层深度的增加,土壤有机碳含量呈减小的趋势;随着土层深度的增加,坡底平地,中坡阳面和中坡阴面微地形中,土壤水解氮含量呈减小的趋势,下坡阳面和下坡阴面微地形中,土壤水解氮含量呈先减小后增大的趋势,上坡阳面和上坡阴面微地形中,土壤水解氮含量呈先增大后减小的趋势。土壤表层全氮、水解氮、有机碳的含量的变化为:下坡位上坡位中坡位,而铵态氮的含量呈现先减小后增大的趋势。[结论]地形的微变化明显影响土壤氮有机碳和素的含量。 相似文献
7.
This study was conducted to investigate the effects of slope aspect and position on microbial biomass C (MBC) and some hydrolytic enzyme activities involved in soil N, P, and S cycles in a rangeland ecosystem of west central Iran. Soil samples were collected from three slope positions (summit, backslope, and footslope) of contiguous north- and south-facing slopes. Results indicated higher silt and clay content, soil organic C (SOC), total N (TN), and C/N ratio on the north-facing slope. Furthermore, MBC, alkaline phosphomonoesterase (ALP), acid phosphomonoesterase (ACP), arylsulfatase (ARS), urease (URS), L-asparaginase (LAS), and L-glutaminase (LGL) activities were greater by 46.1, 65.9, 58.6, 59.6, 52.6, 62.8, and 65.7%, respectively, on the north-facing slope compared to the south-facing one. Higher ratios of enzyme activities to MBC were observed on the north-facing slope. In contrast, per cent of inorganic N and microbial quotient were greater on the south-facing slope. The activity of ALP, ACP, ARS along with SOC, TN, and MBC values decreased from summit to footslope. Overall, our findings indicate that north-facing slope and summit position support greater microbial biomass and hydrolytic diversity. 相似文献
8.
《土壤圈》2016,(2)
The effects of slope aspects on soil biogeochemical properties and plant communities in forested environments have been studied extensively;however,slope aspect influence on soil microbial communities remains largely unexamined,despite the central role of soil biota in ecosystem functioning.In this study,the communities of both soil bacteria and arbuscular mycorrhizal fungi(AMF)were investigated using tagged pyrosequencing for three types of slope aspects(south-facing aspect,north-facing aspect and flat area)in a boreal forest of the Greater Khingan Mountains,China.The bacterial and AMF community composition differed with slope aspects.Bacterial diversity was the lowest on the north-facing aspect,and AMF diversity was the lowest on the flat area.Aspects also had a significant impact on soil pH and available phosphorus(P) and shrubby biomass.Soil pH and understory shrub biomass were significantly correlated with bacterial communities,and soil available P and shrub biomass showed significant correlations with AMF communities.Our results suggested that slope aspects affected bacterial and AMF communities,mediated by aspect-induced changes in plant community and soil chemical properties(e.g.,pH and available P),which improved the knowledge on the effects of forest slope aspects on aboveground and belowground communities. 相似文献
9.
The present paper includes the first comprehensive list of a collembolan community in a site in Israel. Comparison was made between the assemblage of collembolan species on the north- and south-facing slopes of Lower Nahal Oren, Mt. Carmel, Israel. The valley runs from east westward. Its slopes, only 100 m apart at the bottom, contrast sharply due to the much higher solar radiation on the south-facing slope. The assemblage of Collembola found includes 50 Arthropleona and 20 Symphypleona species, including 14 species that are new to science. Arthropleona species richness was very similar on the north slope (43) and the south-facing slope (41). In contrast, a rich assemblage of Symphypleona was recorded on the north-facing slope (19 species), but only eight were recorded on the south-facing slope. Differences in species richness were found between and within slopes according to altitude zone, soil depth and vegetation. Collembola of the alluvial zone on the contrasting slopes were more similar to each other than those of the alluvial zone on each slope with its adjacent altitudinal zone on the same slope. 相似文献
10.
中国北方森林坡向对土壤细菌和从枝菌根真菌群落的影响 总被引:1,自引:0,他引:1
CHU Hai-Yan XIANG Xing-Ji YANG Jian J. M. ADAMS ZHANG Kao-Ping LI Yun-Tao SHI Yu 《土壤圈》2016,26(2):226-234
The effects of slope aspects on soil biogeochemical properties and plant communities in forested environments have been studied extensively; however, slope aspect influence on soil microbial communities remains largely unexamined, despite the central role of soil biota in ecosystem functioning. In this study, the communities of both soil bacteria and arbuscular mycorrhizal fungi (AMF) were investigated using tagged pyrosequencing for three types of slope aspects (south-facing aspect, north-facing aspect and flat area) in a boreal forest of the Greater Khingan Mountains, China. The bacterial and AMF community composition differed with slope aspects. Bacterial diversity was the lowest on the north-facing aspect, and AMF diversity was the lowest on the flat area. Aspects also had a significant impact on soil pH and available phosphorus (P) and shrubby biomass. Soil pH and understory shrub biomass were significantly correlated with bacterial communities, and soil available P and shrub biomass showed significant correlations with AMF communities. Our results suggested that slope aspects affected bacterial and AMF communities, mediated by aspect-induced changes in plant community and soil chemical properties (e.g., pH and available P), which improved the knowledge on the effects of forest slope aspects on aboveground and belowground communities. 相似文献
11.
This paper presents measurements of soil aggregation parameters and rainfall simulation experiments from areas of Mediterranean scrubland vegetation in La Costera district, in the southern part of Valencia Province, Spain. Data were obtained using a portable rainfall simulator and from laboratory studies of aggregate stability, using the water-drop test and ultrasonic dispersion methods. Three locations were chosen to enable the influences of aspect and the post-fire recovery time of the vegetation on soil erosion and hydrology to be investigated. The slopes studied were (a) a north-facing slope burnt ten years before the experiment, (b) a south-facing slope burnt at the same time, and (c) a north facing slope, burnt two years before the experiment, similar to slope “a” in terms of its basic characteristics. The experiments demonstrate the importance of both wildfires and aspect on hydrological and erosional soil surface processes.The north facing slope at La Costera (slope a) has a higher aggregate stability than the corresponding south facing slope (slope b). The recently burnt north facing slope (c) is intermediate in terms of aggregation, but has the most erodible soils because of the lower infiltration rates and the low vegetation and litter cover. Nevertheless, for the slopes burnt ten years previously, the south-facing slope is more erodible than the north-facing one.The results suggest that the forest fire ten years ago did not produce a persistent degradation of the ecosystem, only higher soil and water losses during the first years following the fire. A southern aspect, where vegetation recovery rates are slower and the hydraulic stress is higher, favours the development of soils with a relatively low aggregate stability. 相似文献
12.
《Geoderma》1986,37(4):307-324
Soil characteristics in a small steepland watershed underlain by schist in a rainy, tectonically active area in northwestern California show close associations with drainage-basin position and slope characteristics. Five soil-topography units based on these associations are defined in the study watershed. Spatial relationships of soil series, and patterns of soil development as indicated by B-horizon clay content and redness, reflect interactions between pedogenesis and erosion. General soil-topography patterns include: (1) decreases in soil-development moving from low-order to higher-order stream vallyes; and (2) more developed soils on north-facing as opposed to south-facing slopes. Decreases in soil-profile development moving from slopes near low-order streams to slopes near higher-order streams approximately correlate with increases in gradient, vertical relief, and drainage density, and reflect a more vigorous stripping of regolith by erosion on the slopes near the higher-order streams. The larger percentage of area covered by the more developed soils on north-facing as opposed to south-facing slopes appears to reflect a contrast in the way dominant erosional processes interact with pedogenic processes.Roadcuts on middle and upper slopes show soil discontinuities indicative of disturbance by block slides or slumps or both. Roadcuts on lower slopes show disrupted soils in small bedrock hollows that could have been created by rapid, shallow landslides or by the pulled-up root wads of toppled trees. Soil-profile characteristics and soil-topography patterns in the study area demonstrate that both erosional and pedogenic processes need to be considered when interpreting characteristics of hillslope soils. 相似文献
13.
Takuo Hishi Rieko Urakawa Naoaki Tashiro Yuka Maeda Hideaki Shibata 《Biology and Fertility of Soils》2014,50(2):343-356
This study aimed to evaluate the spatial patterns of soil nitrogen (N) transformations in relation to slope aspect and position, and to investigate the main factors controlling N transformation patterns during both the growing and dormant seasons in cool-temperate deciduous natural forests and larch plantations in eastern Hokkaido, northern Japan. Net rates of N mineralization (NRminN) and of nitrification (NRnit) in surface soils on north-facing and lower slopes were higher than those on south-facing and upper slopes, whereas the net rate of ammonium-N production (NRamm) on south-facing and upper slopes was higher than that on north-facing slopes in both the natural forests and larch plantations. Both NRminN and NRnit were higher in the growing than in the dormant season, whereas NRamm was higher in the dormant season. The soil C/N ratio, water content, soil pH and frequency of freeze–thaw cycles were important variables affecting N transformation patterns in any season. In relation to seasonality, the solar radiation index, daily temperature range and earthworm biomass were important controlling factors only during the growing season, and watershed area and soil N concentration only during the dormant season, suggesting that biological control accompanied with wet–dry events were important factors affecting N transformations during the growing season, but that run-off water and chemical controls were important determinants of spatial variation in N transformations during the dormant season. 相似文献
14.
流沙河流域土地利用与地形因子的关系 总被引:1,自引:0,他引:1
[目的]以西双版纳傣族自治州的流沙河流域为例,对该流域土地利用与地形因子的关系进行研究,为流域土地利用规划提供科学依据。[方法]采用分布指数和基于DEM数据提取的高程、坡度、坡向,分析该流域1976—2010年各地类在不同地形因子下的分布变化特征。[结果]有林地在较高海拔,较大坡度,北坡区域占有优势;茶园主要分布在1 200~1 400m海拔的东坡和南坡,坡度对其分布影响较弱;橡胶园主要分布在水热条件较好的600~1 000m海拔,坡度较缓,东坡和南坡区域;建设用地主要分布在中低海拔,坡度较缓,无坡向的平地;轮歇地在1 000~1 600m的东坡和南坡占优,坡度对其分布影响较小;水田主要分布在中低海拔,缓坡,无坡向的平地。[结论]流沙河流域有林地和传统耕地不断被开垦为橡胶园和茶园等经济种植园,橡胶种植有向高海拔、陡坡与北坡发展趋势,使有林地分布进一步破碎化。为维持该流域生态稳定性,应严格控制好经济作物的种植面积,保护好现存的热带森林。 相似文献
15.
半干旱草地上的生态地理响应: 综述 总被引:4,自引:0,他引:4
The ecogeomorphic processes occurring on semiarid rangelands are reviewed, with emphasis on the source-sink relations and positive feedback loops that existed between shrub patches and intershrub areas, and the way livestock presence affected these interactions. Compared with intershrub areas, the shrub patches had a higher soil porosity, infiltration capacity, water-holding capacity, hydraulic conductivity, structural stability, and organic matter content, and lower bulk density. These differences derived from a host of processes whose intensity was less in the shrub patches, including raindrop impact, mechanical crust formation, overland water flow, soil erosion, evaporative moisture loss, and flock trampling. There was also greater shading of the soil surface; soil and litter deposition; water accumulation; microbial, fungal, and mesofaunal activities in the shrub patches. The overland flow of water carried soil and litter from the intershrub areas to the shrub patches and resulted in microtopographic modifications that tended to strengthen these source-sink relations. Grazing had an impact on these processes, not only at the shrub-intershrub scale but also within the intershrub areas, through the creation of highly compacted trampling routes. The combined role of the above ecogeomorphic processes was to maintain the rangeland’s functionality. Without these inter-relationships, water loss, soil erosion, and nutrient depletion would occur at the hillside scale, causing degradation of the landscape. 相似文献
16.
Zhi-Hua Zhang Xitian Yang Yuefeng Shi Si-Yi Zhang Zhi-Yun Jiang 《Soil Science and Plant Nutrition》2020,66(2):369-378
ABSTRACT Shrub encroachment is very common in the semiarid regions of China. However, surprisingly little research has been conducted to evaluate the effects of shrubs on soil properties in these regions compared with other regions in the world. Three sites, one without shrub (state 1), one with 13% shrub coverage (state 2), and the third one with 40% shrub coverage (state 3) in the semiarid Inner Mongolian grasslands were selected to investigate the effects of the shrub Caragana microphylla Lam on soil properties. Soil samples were collected from three sites to evaluate the changes of bulk density (BD), grain size distribution, aggregate stability, soil organic carbon (SOC), total nitrogen (TN), and soil water content (SWC) with the development of shrub encroachment. The results showed that BD and soil sand declined, and silt, aggregate >2 mm and the mean weight diameter (MWD) rose from state 1 to state 3, especially in 20–60 cm depths. With the shrub encroachment, the content of SOC and TN increased, and especially, the increase trends were more obvious in the deeper soil than in the surface soil. SWC increased with the development of shrub encroachment at 20–60 cm depths. Greater and deeper water infiltration existed after heavy rainfall in states 2 and 3, suggesting that macropore ?ow appeared in shrub encroachment sites. All these results indicated that shrub encroachment improved soil physicochemical properties, particularly in deep soil. 相似文献
17.
选择了黄土高原安塞县境内的纸坊沟、县南沟、西沟、郭阳湾等不同流域,对黄土丘陵沟壑区退耕地植被恢复过程中的土壤水分变化规律进行了研究.研究结果表明,随着退耕年限的增长,60 cm以下土层的土壤水分含量逐渐减少;对于不同地形条件的土壤含水量,阴坡>半阴坡>阳坡,坡下>坡中>坡上,并且随着坡度的增大,土壤含水量减小;不同的植被类型土壤水分含量也不同,在选择的草地、灌木地、林地3种植被类型中,以草地的土壤含水量最高,林地最小,灌木地介于两者之间;从恢复方式看,自然恢复的土壤水分含量相对较高,人工恢复的土壤水分含量相对较低,自然+人工恢复介于两者之间.另外,对于同一种植被类型,生物量越大,土壤水分含量越小. 相似文献
18.
《CATENA》1998,33(2):123-138
Physical and chemical soil properties were measured along a mountainous climatological gradient in the province of Alicante (Spain). The objective was to evaluate how the climate affects certain soil properties at different temporal and spatial scales. These properties include infiltration, runoff and sediment concentrations resulting from rainfall simulation experiments performed in winter and in summer. Chemical soil properties like carbonate content, organic matter content and CEC were analysed in reference soil profiles along the gradient. Physical soil properties like soil moisture content, macroaggregation and waterstable microaggregation were measured at monthly intervals during a year. The comparison of the results was done at different spatial (site, slope and patch) and temporal (monthly and seasonal) scales by means of some statistical tests. It can be concluded that there are some soil properties positively related to the gradient, like organic matter, clay content and CEC which increase with the annual rainfall. However, runoff coefficients and erosion are higher when the climatic annual rainfall. However, runoff coefficients and erosion are higher when the climatic conditions become more arid. Aggregation and infiltration capacity are higher on north-facing slopes and in vegetated patches than in south-facing slopes and in bare patches. 相似文献
19.
衡阳盆地紫色土丘陵坡地土壤水分变化动态研究 总被引:16,自引:0,他引:16
2007年对衡阳盆地紫色土丘陵坡地0-50 cm土壤进行研究.结果表明:(1)在同一水平空间位置上,土壤平均含水量总的变化趋势是阴坡>阳坡.而土壤水分变异系数则呈现出相反的变化规律;(2)在同一垂直空间位置上,阴坡与阳坡不同坡位的土壤含水量的变化规律均为:下坡>中坡>上坡.阳坡的土壤水分变异系数的大小顺序是:阳坡上坡>阳坡中坡>阳坡下坡;而阴坡则呈现出相反的变化趋势;(3)土壤含水量的消长与同期的降雨量有关,1-6月为雨季水分补偿期,7-12月属于旱季水分亏缺期;(4)在同一水平空间,不同坡向土壤含水量剖面变化明显.随着土层深度的增加,土壤含水量增加.从土壤水分的变异系数来看,阳坡土壤水分的变异系数随土壤的加深而变大,阴坡土壤水分的变异系数随土壤深度的加深而变小,土壤水分的最稳定层均出现在10-30 cm处. 相似文献
20.
半干旱黄土区不同土地利用的土壤水分效应是农业生产、植被恢复和土地合理利用的重要依据.通过对孙家岔流域不同土地利用格局实测土壤水分资料分析,结果表明,梯田区阴坡的土壤含水率高于阳坡;梁峁顶区封闭荒地不同累积深度的土壤含水率均高于农地;缓坡区(<15°)农地土壤平均含水率高于荒地;灌木林地表层(0-80 cm)土壤含水率高于荒地,而较深层(80-180 cm)低于荒坡;松树林地平均土壤含水率高于杏树林地.说明在半干旱黄土区,梯田的保水效益最好;杏树林相对于松树林耗水量更大,不适宜在无灌溉条件的半干旱黄土区大面积种植;柠条灌木林改善地表土壤水分状况的效应明显,并且能充分利用较深层的土壤水分;缓坡区种植农作物比荒地更有助于土壤水分的改善. 相似文献