南极海洋性气候区土壤水分动态变化研究

利用特制的石膏抗冻电极作为土壤水分探测探头 ,对南极海洋性气候区乔治王岛菲尔德斯半岛上两个土壤类型饱和寒冻石质土和贫盐基寒冻始成土进行了土壤自由水分含量动态变化定位监测。研究结果表明 ,本区土壤解冻期可持续 5～ 6个月甚至更长 ,解冻期内土壤自由水主要来自于大气降水、地表融雪、坡面径流以及水平侧渗。土壤水分动态变化规律因土壤类型差异以及剖面底部有无永冻层而表现出明显的不同。另外 ,土壤进入冻结与解冻期的时间、冻融作用的强度以及土壤自由水分状况具有明显的年际变化。     

SPATIAL AND TEMPORAL VARIATIONS OF SOIL MOISTURE IN WEST-CENTRAL OKLAHOMA

From May 7 to August 13, 1985, soil moisture was measured at 12 study sites located along a 200-km east-west trending transect in west-central Oklahoma. Soil moisture was sampled at three depths at each site: 15 cm, 61 cm, and 91 cm. Study site location and the time (week) of data collection were analyzed through correlation and regression analysis in order to assess their impact on soil moisture variability measured at the three sampled depths. Along the transect for the study period, soil moisture increased with depth; soil moisture also increased with depth from west to east along the transect during the sample period. The correlation between the location of the sample site and soil moisture was weak at the 15 cm depth (0.48), but was stronger at greater depths (0.78 at 61 cm; 0.65 at 91 cm). The location of the study site along the transect explained 25% of the variation in soil moisture at a 15 cm depth; 62% at a 61 cm depth; and 51% at a 91 cm depth. The time (week variable) of data collection at each sample site was less useful in explaining the variability in soil moisture than site location. Time explains 15, 23, and 16% of the variability observed in soil moisture along the transect for the depths of 15, 61, and 91 cm, respectively. A combination of time and location variables, however, explained 46% of the variability in soil moisture for all three depths. The same time and location variables explained 55%, 76%, and 52% of the variability observed in soil moisture for the three individual depths: 15, 61, and 91 cm, respectively. Unusual precipitation events affected the transect throughout the study period and diminished the impact of location as a significant explanatory variable for describing variability in soil moisture.     

Wind tunnel test of the influence of moisture on the erodibility of loessial sandy loam soils by wind

Loessial sandy loam soils are the major soil categories in the northern Loess Plateau, China. Owing to a dry, windy climate and sparse surface cover, wind erosion is a serious problem and dust (sand) storms occur frequently. Soil moisture is one of the most important factors influencing resistance to wind erosion. The influence of moisture content on the erodibility of sandy loam soils was investigated through wind tunnel simulations. Results showed that the threshold velocity for soil particle movement by wind increases with increasing soil moisture by a power function. The intrinsic factor in the increase in soil resistance due to moisture content is the cohesive force of soil water. Cohesive forces of the film and capillary water are different; the influence of soil moisture on threshold velocity was shown to follow a step-like pattern. The wind erosion modulus of sandy loam was directly proportional to the cube of the wind velocity or the square of the effective wind velocity (V−V_t). There existed a negative exponential relationship between the wind erosion rate and soil moisture content. Initially, as soil moisture increased the decrease in the wind erosion rate was rather rapid. When the moisture content reached more than 4%, the rate of decrease in erosion slowed and became almost constant with successive increments of moisture. This suggests that different soil moisture contents can prevent wind erosion at different levels. Four percent soil moisture could only reduce the erodibility of the sandy loam soil by a small degree.     

RELATIONSHIP OF SELECTED BIOPHYSICAL VARIABLES TO SOIL MOISTURE AND SOIL TEMPERATURE VARIABILITY

Soil moisture and soil temperature at 15, 61, and 91 cm depths were measured through use of a neutron probe and thermocouple/psychrometers, respectively, at 12 sample sites distributed along a 200 km east-west transect in west-central Oklahoma. The data were collected weekly from May 7 to August 13, 1985. Multiple regression analysis was used to explain soil moisture and soil temperature variability at the three sample depths through a combination of selected biophysical variables representing temporal and spatial site characteristics, meteorologic inputs, energy variables, and soil conditions. The multiple regression analysis showed that 83, 91, and 82% of the variation in soil moisture, and 79, 91, and 92% of the variation in soil temperature for the three depths sampled could be explained by a combination of the selected biophysical variables.     

塔干沙漠南缘骆驼刺幼苗根系生长和分布对不同灌溉量的响应

为修复绿洲-荒漠过渡带上受损的骆驼刺群落,创造适宜幼苗正常生长的土壤水分条件,2009年3—10月,在塔克拉玛干沙漠南缘策勒绿洲外围研究了不同灌溉梯度对骆驼刺幼苗根系生物量积累、根系空间分布以及根冠比等的影响。结果表明,灌溉对骆驼刺幼苗根系生长和分布有显著影响,干旱胁迫（处理A）下幼苗扎根深度最大,但各月根系生物量积累却有限,根系干重较适度灌溉（处理B）下降了38.8%,尤其是细根（<2 mm）萎缩严重,只占总根重的18.1%;过度灌水（处理C）也导致了根系生物量和细根比重有不同程度的下降。各处理下,骆驼刺幼苗根系干重均随土壤深度的增加而逐层降低,大量根系集中在0~40 cm的表层,而且灌溉量越多,消根系数β越小,这种集中趋势越明显。随着幼苗的生长发育,骆驼刺幼苗根冠比逐渐增大,反映了骆驼刺将越来越多的资源投入到了地下部分,这符合荒漠区植被的生长特性。处理B下骆驼刺幼苗根系生物量积累最多,而且空间分布最大,表明适度灌溉有利于幼苗根系的正常生长和合理分布,对提高其潜在生产力具有积极意义。     

FINE SCALE VARIABILITY IN SOIL FROST DYNAMICS SURROUNDING CUSHIONS OF THE DOMINANT VASCULAR PLANT SPECIES (AZORELLA SELAGO) ON SUB‐ANTARCTIC MARION ISLAND

Through changing soil thermal regimes, soil moisture and affecting weathering and erosion processes plants can have an important effect on the physical properties and structure of soils. Such physical soil changes can in turn lead to biological facilitation, such as vegetation‐banked terrace formation or differential seedling establishment. We studied the fine scale variability in soil temperature and moisture parameters, specifically focusing on frost cycle characteristics around cushions of the dominant, vascular plant species, Azorella selago, on sub‐Antarctic Marion Island. The frost season was characterised by numerous low intensity and very shallow frost cycles. Soils on eastern cushion sides were found to have lower mean and maximum temperatures in winterthan soils on western cushion sides. In addition, lower variability in temperature was found on eastern cushion sides in winterthan on western cushion sides, probably as a result of higher wind speeds on western cushion sides and/or eastern, lee‐side snow accumulation. Despite the mild frost climate, extensive frost heave occurred in the study area, indicating that needle ice forms at temperatures above ?2°C. Our results demonstrate the effectiveness of frost pull as a heave mechanism under shallow frost conditions. The results highlight the importance of Azorella cushions in modifying site microclimates and of understanding the consequences of these modifications, such as potentially providing microhabitats. Such potential microhabitats are particularly important in light of current climate change trends on the island, as continued warming and drying will undoubtedly increase the need for thermal and moisture refugia.     

云南省中部3种森林土壤含水率、容重和细根重及其垂直分布

根据27个土壤剖面的405个土壤样品,研究云南中部地区华山松林、旱冬瓜林、云南松林的土壤含水率、容重和细根重及其垂直分布特征。结果表明：3种森林100em深土壤的平均含水率分别是（28．79±11．98）％、（24．66±9．89）％、（14．11±5．84）％,差异极显著;平均容重分别是（1．14±0．20）g／cm3、（1．26±0．18）g/cm3、（1．42±0．12）g／cm3,差异极显著;平均细根重分别为（0．1956±0．2144）g／100cm3、（0．0706±0．1066）g／100cm3、（0．1381±0．2989）g／100cm3,在0．05水平上差异显著。华山松林林下土壤的物理性质最好,旱冬瓜林次之,云南松林最差。3种森林里,随着土壤深度增加,土壤含水率增加,土壤容重和土壤细根重减少。华山松林与云南松林平均容重与平均细根重均显著负相关,旱冬瓜林平均含水率与平均容重显著负相关。华山松林下土壤细根量最大,0～20cm层根系占根系总重量的83％。     

Influence of canopy and topographic position on soil moisture response to rainfall in a hilly catchment of Three Gorges Reservoir Area,China

Rainfall provides essential water resource for vegetation growth and acts as driving force for hydrologic process, bedrock weathering and nutrient cycle in the steep hilly catchment. But the effects of rainfall features, vegetation types, topography, and also their interactions on soil water movement and soil moisture dynamics are inadequately quantified. During the coupled wet and dry periods of the year 2018 to 2019, time-series soil moisture was monitored with 5-min interval resolution in a hilly catchment of the Three Gorges Reservoir Area in China. Three hillslopes covered with evergreen forest(EG), secondary deciduous forest mixed with shrubs(SDFS) and deforested pasture(DP) were selected, and two monitoring sites with five detected depths were established at upslope and downslope position, respectively. Several parameters expressing soil moisture response to rainfall event were evaluated, including wetting depth, cumulative rainfall amount and lag time before initial response, maximum increase of soil water storage, and transform ratio of rainwater to soil water. The results indicated that rainfall amount is the dominant rainfall variable controlling soil moisture response to rainfall event. No soil moisture response occurred when rainfall amounts was 8 mm, and all the deepest monitoring sensors detected soil moisture increase when total rainfall amounts was 30 mm. In the wet period, the cumulative rainfall amount to trigger surface soil moisture response in EG-up site was significantly higher than in other five sites. However, no significant difference in cumulative rainfall amount to trigger soil moisture response was observed among all study sites in dry period. Vegetation canopy interception reduced the transform ratio of rainwater to soil water, with a higher reduction in vegetation growth period than in other period. Also, interception of vegetation canopy resulted in a largeraccumulated rainfall amount and a longer lag time for initiating soil moisture response to rainfall. Generally, average cumulative rainfall amount for initiating soil moisture response during dry period of all sites(3.5–5.6 mm) were less than during wet period(5.7–19.7 mm). Forests captured more infiltration water compared with deforested pasture, showing the larger increments of both soil water storage for the whole soil profile and volumetric soil water content at 10 cm depth on two forest slopes. Topography dominated soil subsurface flow, proven by the evidences that less rainfall amount and less time was needed to trigger soil moisture response and also larger accumulated soil water storage increment in downslope site than in corresponding upslope site during heavy rainfall events.     

古尔班通古特沙漠南缘风沙土土壤水分特征与毛管水最大上升高度

为确定古尔班通古特沙漠南缘地下水深埋区毛管上升水的最大上升高度,对划分固沙植物水分来源提供理论依据,于2016年3月~2018年11月,采用中子仪法对试验地0~10 m土层土壤含水量进行观测,分析沙丘不同坡位土壤含水量的季节变化情况,并利用最大分子持水量与土壤含水量曲线交会法确定试验地毛管水的最大上升高度。结果表明：沙丘不同坡位0~130 cm土层的土壤含水量受外界气象因素影响较大,随季节变化规律明显;130 cm土层以下至570~760 cm土层为土壤含水量较为稳定的干沙层;而570~760 cm以下土层的土壤含水量主要受地下水水位波动和毛管上升水的影响,其含水量变化上界可看作是毛管水的最大上升高度。试验地的最大分子持水量为0.026 1 cm³·cm^-3,且沙丘不同坡位毛管水的最大上升高度分布在250~290 cm之间。     

CHAOTIC EVOLUTION OF SOME COASTAL PLAIN SOILS

Nonlinear dynamical systems (NDS) models of soil systems suggest that soil evolution may be potentially chaotic, and thus sensitive to initial conditions and to small perturbations. Chaos implies that the diversity of the soil cover should increase over time. This hypothesis was tested by comparing the diversity of soil types on either side of the Suffolk Scarp on the lower coastal plain of North Carolina. While parent material and other soil-forming factors at the two sites are similar, the Pamlico Terrace east of the scarp is late Pleistocene and the Talbot Terrace west of the scarp is middle to late Pleistocene and at least twice as old. A soil system model based on vertical clay distribution and textural differentiation is introduced to account for the major factors that lead to differentiation of soil series in the study area. The model is unstable and potentially chaotic and, like more general models, predicts that even where all other soil-forming factors are similar, the diversity and spatial variability of soils should be greater on older soil landscapes. Soil series were identified along 0.5 km transects on either side of the Suffolk Scarp in Craven County. Only one soil series was identified on the Pamlico site, while the Talbot transect included at least seven distinct soil series. The dramatically higher variability of the soil cover on the older landscape is predicted by the model and provides field evidence for chaotic pedogenesis. [Key words: chaos theory, soils, Pleistocene, North Carolina].     

闽东南沿海一些地理环境特征的再认识

本文认为,闽东南沿海的气候为南亚热带半湿润气候;土壤属半干润老成土;原生植被不可能是湿润季雨林,而可能是具有旱生特征的常绿硬叶阔叶和针叶混交林或森林灌丛;在土地利用上以旱作为特征,应把该区与台湾海峡一起作为一个自然区划单元划出,建议称为闽东南沿海与台湾海峡半岛岛屿州。     

紫色土不同土体的土壤养分和酶活性特征

对紫色土未培肥和培肥的不同土体,在小麦生育期内土壤养分和酶活性的动态测定结果表明:未培肥土体的全氮、有效磷、蔗糖酶、碱性磷酸酶有明显变化。尤其是砂土在改变为不同质地的土体后,上述土壤养分和酶活性都有所提高。培肥土体的土壤有机质、全氮、有效钾明显增加,土壤酶活性增强。砂土培肥的效果最显著。所以改变土体质地,并加以培肥,有助于提高土壤肥力,防治紫色土退化。     

海南岛尖峰岭地区山地土壤发生特性

对地处热带的海南岛尖峰岭地区的山地土壤的发生和发育特性进行了研究。因母岩因素以及较弱的成土作用和较强的侵蚀作用 ,土壤质地普遍较粗 ,石砾含量高。由于山地气候的垂直分异 ,不同海拔高度土壤间的发生特性存在较大差异。高海拔地区土壤易风化矿物含量高 ,低海拔地区土壤中抗风化能力强的锆石含量高 ;高海拔区土壤中粘土矿物以三水铝石和埃洛石为主 ,含有一定量的铝蛭石 ,低海拔土壤以高岭石为主 ,有一定量的水云母。伴随海拔高度的增加 ,阳离子交换量 (CEC7)、盐基总量、盐基饱和度、pH下降 ,而代换性酸H 、Al3 却逐渐增多。高海拔区湿润的水分状况和酸性成土环境导致粘粒的硅铝率、硅铁铝率较低海拔土壤小。尖峰岭地区土壤类型以雏形土为主 ,山麓分布有淋溶土。     

旱林作业对水分因子再分配研究

水分因子严重制约着干旱半干旱条件下林木的生长,因地制宜地采用各种造林技术,最大限度地创造集流条件,合理利用水资源,是干旱造林研究的主要课题。根据多年的试验观测与研究,对旱林作业技术措施的实践应用效果,进行了综合评价和分析研究。     

亚热带山地土壤的地球化学特征及其与新构造运动的关系

对亚热带峨眉山、天目山和凤阳山的列样品研究表明，高、低海拔土壤在矿质风化与淋溶、氧化铁富集与转化、粘粒矿物类型及分布等方面均酷为相似，而这些地球化学特性在相同温差水平带的土壤上却有明显区别，由此推算的新构造运动强度与前人研究结构基本一致。这对阐明山地土壤的发生分类及拓宽新构造运动研究方法等有一定参与价值。     

黑河中游荒漠绿洲过渡带固沙植被根区土壤含水量

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。     

海南岛北部玄武岩上土壤发育过程的定量研究

随着土壤的发育，土壤形态亦会出现相应的变化。对海南岛北部玄武岩上发育的不同成土年龄土壤系列的研究表明，土壤形态特征及其定量化指数，如红化率指数、剖面相对发育指数、土层指数、剖面发育指数等能够较好地反映土壤发育程度和土壤发育的相对年龄，其中剖面发育指数的批示效果最好。     

Study on north boundary of suptropical zone in Funiu Mountain according to soil geochemistry

The boundary between suptropical zone and temperate zone is not only important in physical geography, but also attractive in agricultural production. Seven soil profiles studied in this paper are placed along the southern slope of Funiu Mountain at different heights above sea level. Many compositions and properties of these soils have been determined in laboratory. In this paper, the laws of migration and accumulation of soil materials on the southern slope of Funiu Mountain are discussed first, then the division of the boundary between suptropical zone and temperate zone in this area according to soil geochemistry is discussed with qualitative methods and mathematical classification method in which twelve selected indexes such as Km, Saf, Ba, β, Feo/Fet, Mno/Mnt and so on are used. The result indicates that the boundary between suptropical zone and temperate zone on the southern slope of Funiu Mountain is about 950 m above sea level.     

紫色土不同土体的土壤肥力综合评价

采用专家系统建立了土壤肥力综合评判体系,应用模糊综合评判方法对不同土体的肥力进行了综合评判。评判结果表明,不同质地层次的土体均为可级,不同培肥土体均为优级。以综合评价总分,比较了不同土体肥力的优劣。简要分析了不同土体肥力差异的原因。由此为紫色土改良、防治其退化提供了科学依据。