科尔沁沙地土壤微生物区系季节动态的初步研究

通过对流动沙丘、半固定沙地、固定沙地及其附近农田黄土和农田黑土中主要土壤微生物类群的好气型细菌、放线菌、丝状真菌和芽孢型杆菌不同季节数量的测定结果表明,微生物类群不同,所表现的季节变化有明显差异。放线菌和芽孢杆菌的生长高峰在春季,丝状真菌的高峰在夏季,好气型细菌的生长高峰出现在秋季。另外,土壤微生物的数量随土壤质地的不同也表现出显著变化,可划分为几种情形,即农田型、固定和半固定沙地型以及流动沙地型。     

粉沙质海岸泥沙运动和淤积分析计算

介绍了粉沙质海岸的泥沙运动特点,通过理论分析和水槽试验揭示出粉沙质海岸的泥沙淤积物中悬移质和推移质的比例,并提出粉沙质海岸淤积计算的方法。     

古尔班通古特沙漠风沙土土壤蒸发特征

土壤表面蒸发是降水的无效损失,其大小直接决定着降水转化为有效土壤水的效率,从而间接决定了植物可利用水分的多寡。在降水稀少的沙漠区,定量认识土壤蒸发的大小和其所占降水的比例显得尤为重要。在2004年全生长期(5~9月)应用自制的微型蒸渗仪(Micro-Lysime-ter)测定了风沙土(有结皮覆盖的丘间低地和裸露沙丘顶部)和对照的荒漠盐碱土的土壤蒸发。结果表明:在相似的气象条件下,风沙土区的丘间低地和荒漠盐碱土的日平均蒸发量分别约是裸露沙丘(风沙土区)的2倍和3倍。整个生长期裸露沙丘的累积蒸发量为18.7mm,丘间低地为38.8mm,荒漠盐碱土为52.1mm。根据整个观测期的累积蒸发量和累积降雨量计算得出的蒸发降雨比分别为:裸露沙丘0.20,丘间低地0.42,荒漠盐碱土0.62,表明裸露沙丘由降水转化为土壤水而储存的比率最高。同时,从数据分析中可以看出:在风沙土区0~5cm土层的含水量对土壤蒸发起决定作用,而盐碱土区的土壤蒸发则受到更深层次土壤水分的影响。裸露沙丘低的土壤蒸发、高的降水转化效率,为植被恢复奠定了良好的基础。因此,裸露沙丘的低蒸发量可以视为植被状况对生态水文过程的一种良性反馈。     

基于遥感的中国北方风沙地貌类型分析

风沙地貌在我国有广泛的分布,特别在北方,对区域生态安全、社会经济发展有重大影响。为了了解我国风沙地貌最新状况,通过解译2000~2002年的Landsat7 ETM影像,建立了我国风沙地貌类型数据库。对北方风沙地貌的分析表明:1.我国北方风沙地貌主要分布在新疆、内蒙古、青海、宁夏、甘肃、陕西、吉林、黑龙江8省区,其中以新疆、内蒙古的面积最广、地貌类型最丰富;2.类型多样性上,干旱区沙漠的地貌类型远比半干旱区的沙地丰富,其中有些类型分布普遍,还有些类型仅仅局限于特定区域,是在特定的风力、风向、植被等作用下形成的;3.沙丘动态上,沙漠除古尔班通古特与乌兰布和沙漠以固定、半固定为主外其他都以流动为主,沙地沙丘则以固定、半固定状态占优势。本文从沙丘形态类型角度分析了我国风沙地貌的最新特征,具有定位、定量特点,所建数据库不仅能用于风沙地貌的定期遥感监测,还能对沙丘形态演化进行定位监测研究。     

喀斯特坡地石灰土硫形态分布及其同位素组成特征

土壤中S形态及各形态硫化物的稳定S同位素组成的分布特征对于土壤S循环研究具有重要意义。利用S形态连续提取方法测定了喀斯特坡地石灰土总S、SO4^2- -S、S^0-S、FeS—S、FeS2-S和有机S含量及其δ^34S值。有机S是石灰土主要的S形态,占总S的76．5％～93．6％。总S和有机S含量随土壤深度加深而降低,这与有机S矿化有关,对应有机S的δ^34S值逐渐增大。总体来看,FeS2是石灰土主要的无机S形态,其次为SO4^2-、FeS和S^0。石灰土表层以下深度FeS2-S增加与SO4^2-异化还原反应速率增大有关,对应SO4^2-和FeS2的δ^34S值平行增大。深层土壤FeS2-S降低则主要与SO4^2-异化还原反应速率减小及无机S厌氧氧化有关。土壤各形态S含量及其δ^34S值的分布特征,可以记录与深度相关的S形态转化过程。值得注意的是,受石灰土类型、植被状况及地形特征等因素的影响,喀斯特坡地石灰土中SO4^2-、FeS2和有机S组分容易迁移,这也是石灰土中各形态S分布变异的主要原因。     

残坡积土壤层中铁锰氧化物的吸附特性及其地球化学找矿意义

作者用不同方法研究了粤北某铅锌矿区近矿灰岩风化土壤中铁锰氧化物对微量元素的富集作用。发现铁锰氧化物对Sb、Pb、Cd、Ni等元素具有强烈的吸附作用;对Zn、Cu等21种元素有程度不等的吸附;对Ti、Sr等12种元素不吸附。据此,作者认为在土壤地球化学找矿中,应着重在铁锰结核层和铁锰粘土层取样,或用编提取方法分析铁锰氧化物相的元素含量,强化异常,提高找矿效果。     

江西抚崇盆地上白垩统河口组砾石统计特征及其地质意义

华东南晚白垩世陆相断陷盆地以发育红色粗碎屑岩为特征。通过对赣杭构造带西段的江西抚崇盆地上白垩统河口组19个砾岩露头测点的砾组分析,对河口组砾岩的砾性、粒度、砾态和砾向等进行了详细研究。总体上砾石成分复杂,分选性较差,磨圆程度中等,呈次棱角－次圆状,风化程度较低。结合红盆周边基岩地层特点,对红盆不同区域砾岩的物质来源、成因和形成条件等进行分析和讨论。研究结果表明,河口组砾岩为晚白垩世半干旱－干旱气候条件下的一套冲积扇和辫状河相粗碎屑沉积,具有多物源和快速堆积的特点。盆地不同地区砾石成分组合特征具有明显差别,反映了盆地周围复杂的物源供应条件。根据盆地基岩地层岩性特点和扁平状砾石倾向玫瑰花图,认为河口组沉积时期,红盆碎屑沉积物主要来自盆地的北东、北、北西和南东部。     

干振碎石桩加固液化地基试验研究

根据高速公路工程液化地基加固试验研究 ,对干振碎石桩加固液化地基的原理、效果、检验方法进行讨论。研究成果表明 ,干振碎石桩用于处理液化地基具有较大的优越性。处理后地基均消除了液化。瞬态瑞利波法具有快捷可靠的优点 ,可以在地基处理质量检测中推广使用。     

Terrestrial vegetation carbon sinks in China, 1981―2000

Using China's ground observations, e.g., forest inventory, grassland resource, agricultural statistics, climate, and satellite data, we estimate terrestrial vegetation carbon sinks for China's major biomes between 1981 and 2000. The main results are in the following: (1) Forest area and forest biomass car- bon (C) stock increased from 116.5×106 ha and 4.3 Pg C (1 Pg C = 1015 g C) in the early 1980s to 142.8×106 ha and 5.9 Pg C in the early 2000s, respectively. Forest biomass carbon density increased form 36.9 Mg C/ha (1 Mg C = 106 g C) to 41.0 Mg C/ha, with an annual carbon sequestration rate of 0.075 Pg C/a. Grassland, shrub, and crop biomass sequestrate carbon at annual rates of 0.007 Pg C/a, 0.014― 0.024 Pg C/a, and 0.0125―0.0143 Pg C/a, respectively. (2) The total terrestrial vegetation C sink in China is in a range of 0.096―0.106 Pg C/a between 1981 and 2000, accounting for 14.6%―16.1% of carbon dioxide (CO2) emitted by China's industry in the same period. In addition, soil carbon sink is estimated at 0.04―0.07 Pg C/a. Accordingly, carbon sequestration by China's terrestrial ecosystems (vegetation and soil) offsets 20.8%―26.8% of its industrial CO2 emission for the study period. (3) Considerable uncertainties exist in the present study, especially in the estimation of soil carbon sinks, and need further intensive investigation in the future.     

Observations of bedload transport in a gravel bed river during high flow using fiber‐optic DTS methods

The question: ‘how does a streambed change over a minor flood?’ does not have a clear answer due to lack of measurement methods during high flows. We investigate bedload transport and disentrainment during a 1.5‐year flood by linking field measurements using fiber optic distributed temperature sensing (DTS) cable with sediment transport theory and an existing explicit analytical solution to predict depth of sediment deposition from amplitude and phase changes of the diurnal near‐bed pore‐water temperature. The method facilitates the study of gravel transport by using near‐bed temperature time series to estimate rates of sediment deposition continuously over the duration of a high flow event coinciding with bar formation. The observations indicate that all gravel and cobble particles present were transported along the riffle at a relatively low Shields Number for the median particle size, and were re‐deposited on the lee side of the bar at rates that varied over time during a constant flow. Approximately 1–6% of the bed was predicted to be mobile during the 1.5‐year flood, indicating that large inactive regions of the bed, particularly between riffles, persist between years despite field observations of narrow zones of local transport and bar growth on the order ~3–5 times the median particle size. In contrast, during a seven‐year flood approximately 8–55% of the bed was predicted to become mobile, indicating that the continuous along‐stream mobility required to mobilize coarse gravel through long pools and downstream to the next riffle is infrequent. Copyright © 2017 John Wiley & Sons, Ltd.