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1.
The Caatinga (dryland) biome of Brazil is experiencing accentuated desertification due to deforestation and inappropriate uses of its natural resources. Studies examining the diversity of filamentous fungi in Caatinga soils are still scarce and the present work was designed to isolate and identify the soil fungi of this biome in the semiarid region of northeastern Brazil. Soil samples were taken at five random sites during the dry and rainy seasons from the soil surface and at depths of 20 cm. A total of 85 species of filamentous fungi were identified, including species of anamorphic fungi (71 species), Zygomycota (8) and Ascomycota (6). The most abundant genera were Aspergillus (28) and Penicillium (18). No significant differences were observed in the numbers of colony forming units in samples taken during either the rainy or dry seasons, or from surface or subsurface soils. Most of the fungi species isolated from caatinga soils were classified as rare. Our results indicate that anamorphic fungi dominate the soil mycobiota in the Brazilian semiarid region, with species of Aspergillus and Penicillium being most common. 相似文献
2.
于2016年7~12月和2017年4月的旱、雨季期间,以金沙江干热河谷苴那小流域内的银合欢(Leucaena Benth)林地、车桑子(Dodonaea angustifolia)灌丛地和扭黄茅(Heteropogon cantortus)草地为研究对象,通过网格法和土钻法采集并测定了(0~100 cm)土层的土壤含水量,应用经典统计法和地统计学方法分析该区域不同林草植被下坡面土壤水分的动态变化特征。结果表明:(1)研究区土壤含水量总体较低,雨季显著大于旱季,旱、雨季均表现为灌丛地>草地>林地,呈中度至强度变异(0.07~0.28之间)。(2)不同林草植被下旱、雨季土壤水分具有相似的空间自相关性,自相关系数均由正向负转变,但由正向负转变的滞后距离有所不同,且雨季大于旱季,呈中等或强等空间自相关性。(3)不同林草植被下的土壤水分空间结构不同,林地、灌丛地和草地旱雨季最佳拟合模型均为球状模型;相同林草植被下各土层旱、雨季土壤水分的空间分布特征相似,但旱季的分布格局差异更显著,不同林草植被下深层土壤水分分布比表层土壤水分的分布更为复杂,土壤水分呈明显的斑块或条带状分布,含水量高值区和低值区位置不固定。总之不同林草植被类型会改变局部地段土壤水分空间分布,降雨会加强这种差异的趋势,但土壤水分仍具一定空间连续性。 相似文献
3.
To increase our understanding of soil water and nitrogen use strategies of invasive Tamarix ramosissima during dry seasons, the vertical distributions of fine roots and their associations with soil properties were examined in the Virgin River floodplain, southern Nevada, United States. We measured morphological traits of fine roots, such as fine-root mass density, fine-root length density, specific root length and specific root area at 10 cm increments to a depth of 2 m. Soil properties were analyzed at 20 cm increments. More than 60% of fine root length and biomass was concentrated at depths between 20 and 60 cm. Soil nitrogen (N) concentration had strong and positive relationships with fine-root mass and length densities, suggesting that the fine-root distribution may be influenced by soil N availability. A weak but positive relationship was observed between soil moisture and fine-root mass density. Soil salinity had no relationship with root morphological traits. These findings suggest that T. ramosissima fine roots may contribute to N uptake from the upper soil layers during dry seasons. This might be an important advantage over native riparian tree species in arid riparian areas of the southwestern United States. 相似文献
4.
The soil dilution plate method was used to examine spatiotemporal changes in microfungal communities inhabiting the playa and interdune areas in the western Negev Desert, Israel. Soil samples were collected from the 0–50 cm depth at 10 cm intervals at both habitats during the wet and dry seasons of 2010. Forty-six species belonging to 31 genera were identified, 14 and 12 species were common to both habitats during the wet and dry seasons. The colony-forming units (CFUs) ranged from 75 to 4875 and from 500 to 6925 CFU g−1 dry soil at the playa and interdune, respectively. More diverse species and higher microfungal density were recorded during the wet season compared to the dry season at both habitats, and the microfungal communities inhabiting the playa were characterized by lower species diversity and CFU compared with the interdune regardless of soil depth and sampling season. With the increase in soil depth, decreasing trends were found in both species diversity and CFU throughout the study period, especially in the playa soils. Generally, Cladosporium cladosporioides, Alternaria alternata, Ulocladium atrum, and Fusarium spp. were widespread at the playa with high relative abundance, as were Penicillium and Aspergillus spp. at both habitats. 相似文献
5.
土壤水分在很大程度上决定着荒漠固沙植被的生长状况和分布格局,不同植被对土壤水分的需求也不相同,研究植被根区土壤含水量的分布特征,可为合理调控固沙植被空间分布格局提供理论依据。以黑河中游荒漠绿洲过渡带上的固沙植被泡泡刺(Nitraria sphaerocarp)、沙拐枣(Calligonum mongolicum)为对象,于2014—2018年每年5月上旬(雨季前)和10月中旬(雨季后)钻取植被根区不同深度的土壤样品,研究不同植被根区垂直方向和水平方向上土壤含水量的分布特征及其变异性。结果表明:(1)土层越深,固沙植被根区土壤含水量越高;(2)除2017年外,其余年份两种固沙植被根区的土壤含水量均是雨季后大于雨季前;(3)水平方向上距离植被根区越远,土壤含水量越高;(4)两种植被根区土壤含水量的变异性在垂直方向上浅层大于深层,且垂直方向的变异性大于水平方向。 相似文献
6.
7.
杉木人工林细根寿命研究 总被引:1,自引:0,他引:1
林木细根(≤2mm)是树木水分和养分吸收的主要器官,是陆地生态系统净生产力的重要组成部分,深入理解细根生长过程及其寿命是建立全球碳及养分循环模型的关键.本试验采用微根管技术对11年生杉木(Cunninghamia lanceolata)人工林细根生长、衰老、死亡的动态过程进行了为期1年半的监测,运用Kaplan—Meier方法估计细根存活率及中值寿命(Median root longevity,MRL),生成存活曲线(Survival curve).用对数秩检验(Log—rank test)比较不同直径、不同土层、不同季节出生的细根寿命差异程度.结果表明,细根主要出.现在雨季(3q月),以直径0~1mm的细根为主,并随观测期的延长,细根存活率下降,中值寿命为236d.直径0~1mm的细根累积存活率小于1~2mm的细根.土壤下层(20~40cm)的生存曲线在细根累积存活率达到50%以后始终高于上层(0~20cm),上下层中值寿命分别为236d和243d,这可能与土壤环境因素的垂直分布相关,下层土壤有利于延长细根寿命.不同出生时间的细根寿命不同,雨季与干季出生的细根中值寿命分别为86d和270d. 相似文献
8.
Hydraulic redistribution is the process of passive water movement from deeper moist soil to shallower dry soil layers using plant roots as conduits. Results from this study indicate that this phenomenon exists among two shrub species (Guiera senegalensis and Piliostigma reticulatum) that co-exist with annual food crops in Sahelian agro-ecosystems. Real-time measurements were conducted for soil water content, soil water potential and microclimate variables notably; air temperature, relative humidity, wind speed, precipitation and solar irradiance. Additionally, sap flow measurements were conducted in shrub roots using the thermal dissipation technique on intact and coppiced shrubs. Monthly predawn leaf water potential was measured using a portable pressure chamber. Soil water potential (Ψs) at the 20 cm depth declined significantly during the dry season with diel changes in Ψs of −0.6 to −1.1 MPa. These variations were attributed to passive water release from shrub roots resulting in overnight rewetting of drier upper soil layers. Sap flow measurements on tap and lateral shrub roots indicated daily reversals in the direction of flow. During the peak of the dry season, both positive (toward shrub) and negative (toward soil) flows were observed in lateral shrub roots with sap flow in the lateral roots frequently negative at night and rapidly becoming positive soon after sunrise. The negative sap flow at night in superficial lateral roots and the periodic positive flow in the descending tap roots were indicative of hydraulic redistribution. Hydraulic redistribution may be an important mechanism for drought stress avoidance while maintaining plant physiological functions in both shrubs and neighboring annuals in water-limited environments. 相似文献
9.
用波谱分析法的研究结果表明,当地旱雨季土壤含水量差异较大:旱季土壤含水量<凋萎湿度,土壤水分严重亏缺。因受降水量的影响,土壤含水量呈周期为1a的波动变化。用谐波分析法还计算了各层次土壤含水量的谐波展开式,由此可预报土壤含水量变化趋势。 相似文献
10.
A. AbdelkadirF. Yimer 《Journal of Arid Environments》2011,75(11):1067-1071
This study investigated the effects of land use change on infiltration and moisture content of soils in three land use types. A total of 81 soil and core samples (3 replications × 3 treatments × 3 profiles × 3 soil depths) were used to determine parameters that may affect the infiltration properties of soils. The infiltration rate was measured in the field using double-ring infiltrometer with three replicates in each land use type. Results showed that infiltration rates were generally slow in the open grazed and cultivated lands suggesting high potential for runoff, limited percolation, and very low amount of water available in the soil profiles. The accumulated infiltration in soils under cultivation and open-grazing was smaller than the controlled grazing by approximately 57%. Similarly, cultivation and open-grazing had reduced the soil moisture content by 29 and 33%, respectively, compared to the controlled grazing. Surface soil compaction, higher dry bulk density and lower soil organic carbon, appeared to be the principal factors for the low infiltration capacity and moisture content of the soils. Therefore, dry land management, with long term tree cover and well regulated grazing system, is very crucial for the sustainable ecosystem functioning of this environmentally fragile area. 相似文献
11.
通过采用点面结合的方法,分析黄土高原地区降雨影响下不同深度土壤水分的时空变化,从土壤水分复杂的“变异性”中提取相对的“不变性”。结果表明:20 cm以上土壤水分无明显规律,难以表征不同植被类型或空间位置上的土壤水分差异;小于30 mm的降雨基本不会引起40 cm以下土壤水分明显波动;100 cm深处,各采样点的土壤水分能在一个稳定值上保持数月时间,在大于46 mm的强降雨之后出现阶梯式抬升,之后又保持稳定状态;越往土层深处,土壤水分时空稳定性越明显,能较好的表征各植被类型或空间位置上的土壤水分差异。该研究从土壤水分的稳定性角度进行分析,对黄土高原土壤水分的地面采样设计和时空预测具有实际应用价值。 相似文献
12.
Soil moisture was measured over a four-month period at 31 sample points on a 1 ha clear-cut site on southern Vancouver Island. At each sample point measurements were collected at 10-cm intervals to the base of the soil profile. The data were used to determine spatial and temporal variations in soil moisture, and to infer the most likely mechanism(s) of soil-water movement vertically through the soil profiles and laterally across the site. All soils showed an increase in moisture content through the monitoring period. There was no strong tendency for moisture content to increase downslope along the topographic gradient. All soils exhibited an increase in soil moisture at depths of 20–30 cm, followed by a decline. This zone of increased soil moisture was correlated with the main root zone, and not with any textural contrasts. Topographic and textural influences on moisture movement through the soil matrix appear to be of minor importance. Moisture appears to follow paths dictated by root systems, which do not necessarily follow the microtopography. [Key words: soil moisture, soil matrix, macropores, topography, southern Vancouver Island, degraded dystric brunisols, dry coastal western hemlock forests.] 相似文献
13.
The giant cactus Isolatocereus dumortieri is a dominant species of the semiarid scrub of central Mexico. Its reproductive period is during the dry season, and it produces essential resources (pollen, nectar and fruits) for a great variety of animal species. We related the production of reproductive structures with water variables in the soil–plant system. The main goal of the present study was to evaluate the consequences of a change in rainfall pattern on the phenology of I. dumortieri. We watered some plants in the dry season to simulate heavy rain events, and to test the hypothesis that water availability during the reproductive season has a negative effect on fruiting and a positive effect on vegetative growth. The seasonality of rain events caused variations in soil water potential and plant osmotic potential, and we found that both variables influenced fruit production. The regression models relating the number of fruits with soil water potential, rainfall and osmotic potential were significant for all three study periods. The highest production of reproductive structures occurred in the driest year (2009), during which there was an ENSO event. Watering did not have a significant effect on osmotic potential or growth in the cacti. However, the watering × time interaction had a negative effect on the number of immature fruits. That is, at the end of the experiment, the plants that received the most water showed a decrease in the number of fruits. Plant growth during the rainy period was significantly greater than during the dry period. The results support the hypothesis that a change in rainfall pattern during the dry season has an effect on fruit production. Vegetative growth, however, occurred only during the wet season. 相似文献
14.
河流在碳的运输过程中扮演着重要角色。为探究河流筑坝拦截后龙滩水库溶解无机碳(DIC)的来源和变化特征,于2016年7月和2017年1月采集水样,然后分析了河水DIC及其碳稳定同位素(δ13C)值。研究结果表明:(1)δ13CDIC值具有显著的时空差异,表明两个季节影响DIC的主要因素和DIC的来源并不相同。雨季,DIC及其δ13C主要分布在2.04~4.12 mmol·L^-1和-5.52‰^-2.87‰的范围内;旱季,水体DIC为3.33~4.61 mmol·L^-1,而δ13CDIC显著低于雨季为-15.90‰^-9.12‰。雨季,稀释效应显著降低了DIC浓度,由于水体热分层使得DIC在水柱剖面上差异显著,而旱季由于混合作用的影响,在剖面上差异较低。(2)在雨季,河流δ13CDIC较旱季明显偏正,碳酸盐岩的强烈风化输入大量HCO3-是DIC的主要来源。在旱季,DIC和δ13CDIC成反比关系,δ13CDIC在旱季变得更低,其大部分的DIC来自于土壤CO2输入和原位有机呼吸作用。旱季水体热分层消失,混合作用使得底部具有较低δ13C值的含碳水体上涌,并与表水层混合导致其δ13CDIC值低于雨季。这种季节性模式与自然河流不同,而是与湖泊的季节变化特征更为类似,说明河流拦截蓄水后逐渐湖沼化,并显著影响了DIC的循环。 相似文献
15.
Root tensile strength relationships and their slope stability implications of three shrub species in the Northern Apennines (Italy) 总被引:12,自引:1,他引:12
The role of root strength is important in stabilising steep hillslopes which are seasonally affected by storm-induced shallow landslides. In the Italian Apennines, steep (25–40°) slopes underlain by mudstone are generally stable if they are covered by shrubs whose roots anchor into the soil mantle. To quantify the mechanical reinforcement of roots to soil, the root tensile breaking force and the root tensile strength of three autochthonous shrub species commonly growing on stiff clay soils of the Northern Italian Apennines, Rosa canina (L.), Inula viscosa (L.) and Spartium junceum (L.), were measured by means of field and laboratory tests. For each test approximately 150 root specimens were used. The tensile force increases with increasing root diameter following a second-order polynomial regression curve. The tensile strength decreases with increasing root diameter following a power law curve. The field in situ tensile force required to break a root is always smaller than that obtained from laboratory tests for the same root diameter, although their difference becomes negligible if the root diameter is smaller than 5 mm. The influence of root tensile strength on soil shear strength was verified based on the infinite slope stability model. The root reinforcement was calculated using the number and mean diameter of roots. The factor of safety was calculated for three different soil thickness values (0.1, 0.3, and 0.6 m) and topographic slopes between 10° and 45°. The factor of safety for the combination of 0.6 m soil thickness, slopes smaller than 30°, and vegetation of I. viscosa (L.) or S. junceum (L.) is always larger than 1. If a slope is steeper, the factor of safety may be smaller than 1 for I. viscosa (L.), although it is still larger than 1 for S. junceum (L.). In the stiff clayey areas of the Northern Italian Apennines, I. viscosa (L.) mainly colonizes fan/cone/taluses and stabilises these zones up to a topographic gradient < 30° for a soil 0.6 m thick. S. junceum (L.) colonizes not only fan/cone/taluses but also headwalls and cliffs and, for a 0.6 m thick soil, it stabilises these areas up to 45°. The effectiveness of this reinforcement, however, depends strongly on the frequency of soil and seasonal grass vegetation removal due to shallow landsliding before the entrance of the shrub species. 相似文献
16.
Over the last 10 years a great interest in spineless cactus pear was shown in the drier areas in terms of both fresh fruit and fodder production. However, there is a lack of knowledge on quantitative data on root dynamics of these plants needed to fully understand its potential under water limiting conditions. This study aimed at quantifying the effects of water stress on the growth of tap roots, side roots and rain roots of the species Opuntia ficus-indica (L.) Miller (cultivar Morado—green cladode) and O. robusta Wendl. (cultivar Monterey—blue cladode). One-year-old cladodes were planted in root boxes and pots (2002/2003 season) that were kept in the greenhouse at day/night temperatures of 25–30 °C/15–18 °C. Placing the cladodes flat on the soil, more areoles came in contact with the soil and therefore more roots developed in both species with an average of only 3.4% areole complexes not rooting. Each areole complex formed on average 3 roots. The highest daily tap root growth was 42 and 36 mm for O. ficus-indica and O. robusta, respectively. Tap root growth increased in the morning with water stress for both species but decreased in the afternoon. Side root growth increased with water stress, with that of O. robusta more per tap root than O. ficus-indica. O. robusta showed a finer root system than O. ficus-indica. The side roots grew as much as 8 and 5 mm per day for O. ficus-indica and O. robusta, respectively. Whitish rain roots developed on the established roots within the first hour after rewetting the soil and grew for only 3 days. Rain roots grew up to 7 and 5 mm within a day for O. ficus-indica and O. robusta, respectively. Considering all studied aspects of their roots systems, O. robusta appears to be better adapted to drought (less sensitive to water stress) than O. ficus-indica. 相似文献
17.
沙漠人工植物群落的根系分布及动态 总被引:19,自引:13,他引:6
2004年植物生长季,利用根钻取样研究了沙漠4种不同配置类型油蒿与柠条植物群落的根系分布及生长动态;另外,采用挖沟分层取样研究了半固定沙丘两种植物的粗根剖面结构,结果表明:尽管4个样地高峰值和低峰值出现的时间不一致,但沙漠植物细根的生长动态表现为双峰型;整个生长季纯油蒿样地细根密集分布于0~40 cm,其余样地密集分布于10~60 cm;受一年生植物的影响,9月份4个样地表层(0~30 cm)细根的根长密度和根重密度均出现最大值。采用边灌水边取样的办法获得4个样地300 cm深的根系数据,4个样地90%以上的细根分布在0~200 cm层次,其中纯油蒿样地的根系的最大深度是270 cm,其余3个样地均在300 cm以下;细根的根长密度和根重密度随深度而减小且呈指数递减形式(P<0.01)。除纯油蒿样地外的其他3个样地,根瘤的最高值出现在4月份;粗根的根长密度远远小于细根的根长密度。挖沟分层取样研究表明,与柠条相比油蒿具有较高的根冠比;柠条的粗根长主要分布于0~60 cm,粗根重主要分布在0~40 cm;油蒿的粗根分布比柠条的更浅,粗根长主要分布于0~40 cm,粗根重主要分布在0~20 cm。 相似文献
18.
海南岛的海涂土壤及其开发利用 总被引:2,自引:2,他引:0
根据调查资料和采样分析,作者划分海南岛海涂土壤类型,并就机械组成、养分含量、盐渍化程度、粘土矿物组成等方面阐述海涂土壤特征。根据海涂土壤的性质及其生态环境特征进行开发利用,宜以海水养殖和晒盐为主,其中海水养殖可分为8个区。 相似文献
19.
Toshiyuki Ohtsuka Mitsuru Hirota Xianzhou Zhang Ayako Shimono Yukiko Senga Minguan Du Seiichiro Yonemura Shigeto Kawashima Yanhong Tang 《Polar Science》2008,2(4):277-285
To accurately estimate soil organic carbon (SOC) storage in upper alpine to nival zones on the Tibetan Plateau, we inventoried SOC pools in 0–0.3 m profiles along an altitudinal gradient (4400–5300 m asl). We also studied vegetation properties and decomposition activity along the gradient to provide insight into the mechanisms of SOC storage. The vegetation cover and belowground root biomass showed a gradual increased with altitude, reaching a peak in the upper alpine zone at 4800–4950 m before decreasing in the nival zone at 5200–5300 m.Decomposition activity was invariant along the altitudinal gradient except in the nival zone. SOC pools at lower sites were relatively small (2.6 kg C m−2 at 4400 m), but increased sharply with altitude, reaching a peak in the upper alpine zone (4950 m; 13.7 kg C m−2) before decreasing (1.0 kg C m−2 at 5300 m) with altitude in the nival zone. SOC pool varied greatly within individual alpine meadows by a factor of five or more, as did bulk density, partly due to the effect of grazing. Inventory data for both carbon density and bulk density along altitudinal gradients in alpine ecosystems are of crucial importance in estimating global tundra SOC storage. 相似文献
20.
Temporal and spatial variation in soil respiration of poplar plantations at different developmental stages in Xinjiang, China 总被引:3,自引:0,他引:3
Soil respiration is essential for the understanding of carbon sequestration of forest plantations. Soil respiration of poplar plantations at three developmental stages was investigated in 2007 and 2008. The results showed that mean soil respiration rate was 5.74, 5.10 and 4.71 μmol CO2 m−2 s−1 for stands of 2-, 7- and 12-year-old, respectively, during the growing season. Soil temperature decreased with increasing plantation age and canopy cover. As plantation matured, fine root biomass also declined. Multiple regression analysis suggested that soil temperature in the upper layer could explain 73-77% of the variation in soil respiration and fine root biomass in the upper layer could explain further 5-8%. The seasonal dynamics of soil respiration was mainly controlled by soil temperature rhythm and fine root growth since soil water availability remained adequate due to monthly irrigation. Spatial variability of soil respiration varied considerably among three age classes, with the coefficient of variation of 28.8%, 22.4% and 19.6% for stands of 2-, 7- and 12-year-old, respectively. The results highlight the importance of the development stage in soil carbon budget over a rotation, since both temporal and spatial variation in soil respiration displayed significant differences at different developmental stages. 相似文献