黄土丘陵区不同有机碳背景下侵蚀坡面土壤呼吸特征

以黄土丘陵区5个不同有机碳背景的坡面S型小区(坡顶为对照区、坡中为侵蚀区、坡脚为沉积区)为研究对象,通过对土壤呼吸速率的动态观测,分析坡面不同类型区土壤呼吸特征及其与土壤温湿度、有机碳和坡位的关系.结果表明,土壤温度的变化对沉积区土壤呼吸影响较大,土壤湿度的变化对侵蚀区土壤呼吸影响较大.有机碳是影响土壤呼吸的首要因子,可解释土壤呼吸变异的54.72%;其次是土壤湿度、坡位和土壤温度,分别可解释土壤呼吸变异的18.86%、16.13%和10.29%.侵蚀对坡面土壤呼吸的影响具有明显的原位和异位效应,侵蚀导致坡面侵蚀区土壤呼吸减小了21.14%,沉积区土壤呼吸增大了21.93%.侵蚀坡面土壤碳排放的源汇效应与有机碳水平有关,当土壤有机碳含量大于6.82 g·kg-1时,坡面侵蚀趋向于碳汇过程;当有机碳含量小于3.03 g·kg-1时,坡面侵蚀趋向于碳源过程.文中模型可以较好地反映有机碳和土壤温湿度与土壤呼吸的关系.     

气候变化视角下的我国沿海地区防潮设计标准研究 ——以福州滨海新城为例

分析了福州滨海新城所面临的洪潮灾害风险和海堤建设规划情况.从全球气候变化导致福建沿海海平面上升的影响出发,介绍了国外沿海城市在考虑气候变化背景下如何确定海堤设计标准和我国防潮堤设计标准确定方法,分析了我国防潮堤现行设计标准存在的问题和风险,并对未来福州滨海新城防潮堤设计标准改进提出了建议,可供我国沿海地区相关问题参考.     

SOIL MOISTURE SENSING WITH AIRCRAFT OBSERVATIONS OF THE DIURNAL RANGE OF SURFACE TEMPERATURE1

ABSTRACT: Aircraft Observations of the surface temperature were made by measurements of the thermal emission in the 8-14 μm band over agricultural fields around Phoenix, Arizona. The diuranal range of these surface temperature measurnments were well correlated with the ground measurment of soil moisture in the 0-2 cm layer. The surface temperature indicating no moisture stress. These results indicate that for clear atmospheric conditions remoteley sensed sufrace temperatures can be a reliable indicator of soil moisture conditions and crop status.     

A HYBRID OPTIMIZATION APPROACH TO THE ESTIMATION OF DISTRIBUTED PARAMETERS IN TWO-DIMENSIONAL CONFINED AQUIFERS1

ABSTRACT: In using non-linear optimization techniques for estimation of parameters in a distributed ground water model, the initial values of the parameters and prior information about them play important roles. In this paper, the genetic algorithm (GA) is combined with the truncated-Newton search technique to estimate groundwater parameters for a confined steady-state ground water model. Use of prior information about the parameters is shown to be important in estimating correct or near-correct values of parameters on a regional scale. The amount of prior information needed for an accurate solution is estimated by evaluation of the sensitivity of the performance function to the parameters. For the example presented here, it is experimentally demonstrated that only one piece of prior information of the least sensitive parameter is sufficient to arrive at the global or near-global optimum solution. For hydraulic head data with measurement errors, the error in the estimation of parameters increases as the standard deviation of the errors increases. Results from our experiments show that, in general, the accuracy of the estimated parameters depends on the level of noise in the hydraulic head data and the initial values used in the truncated-Newton search technique.     

ELEVATED ATMOSPHERIC CO2 INCREASES WATER AVAILABILITY IN A WATER-LIMITED GRASSLAND ECOSYSTEM1

ABSTRACT: Californian annual grassland on sandstone (moderately fertile) and serpentine (very infertile) soils at the Jasper Ridge Biological Preserve, Stanford, California, were exposed to ambient or elevated (ambient + 36 Pa CO₂) atmospheric CO₂ in open-top chambers since December 1991. We measured ecosystem evapotranspiration with open gas-exchange systems, and soil moisture with time-domain reflectometry (TDR) over 0–15 cm (serpentine) and 0–30 cm (sandstone) depths, at times of peak above ground physiological activity. Evapotranspiration decreased by 12 to 63 percent under elevated CO₂ in three consecutive years in the sandstone ecosystem (p = 0.053, p = 0.162, p = 0.082 in 1992, 1993, and 1994, respectively). In correspondence with decreased evapotranspiration, late-season soil moisture reserves in the sandstone were extended temporally by 10 ± 3 days in 1993 and by 28 ± 11 days in 1994. The effect of elevated CO₂ on soil moisture was greater in the drier spring of 1994 (419 mm annual rainfall) than in 1993 (905 mm annual rainfall). In the serpentine ecosystem, evapotranspiration and soil moisture reserves were not clearly affected by elevated CO₂. Soil water may be conserved in drought-affected ecosystems exposed to elevated CO₂, but the amount of conservation appears to depend on the relative importance of transpiration and soil evaporation in controlling water flux.     

土壤水分对沙尘暴的阈值反应--以内蒙古中西部地区为例

以2001年4月至2003年6月内蒙古中西部地区逐时观测的土壤体积含水百分率资料为基础,论述了土壤体积含水百分率的时间变化规律及其对沙尘暴的阈值反应.得到的主要结论是:(1)土壤体积含水百分率有着单峰型日波动反应,最高和最低值分别出现在午后4时和午前9时.(2)土壤体积含水百分率的月际变化基本遵循以1a为周期作简单振动的变化规律,最低值出现在3～4月.土壤体积含水百分率全年波动介于18.5%～37.3%之间,年平均值为26.5%.(3)沙尘暴的发生在土壤体积含水百分率含量一定范围内并不随土壤含水量的降低而发生明显变化,但当土壤体积含水百分率低于19.5%时,则随着土壤体积含水百分率的降低而明显增加,表现为土壤体积含水百分率有明显的阈值反应.(4)引进沙尘暴时度的概念研究了沙尘暴发生的持续时间,由沙尘暴时度与土壤体积含水百分率的指数关系发现,在时度大于200min和小于120min的两类沙尘暴中,土壤体积含水百分率每降低1%,沙尘暴时度将分别增加19.94min和10.14min.     

DUAL URBAN AND RURAL HYDROGRAPH SIGNALS IN THREE SMALL WATERSHEDS1

ABSTRACT: Many studies can be found in the literature pertaining to the effects of urbanization on surface runoff in small watersheds and the hydrologic response of undeveloped watersheds. However, an extensive literature review yielded few published studies that illustrate differing hydrologic responses from multiple source areas within a watershed. The concepts discussed here are not new, but the methods used provide a unique, basic procedure for investigating stormwater hydrology in topographically diverse basins. Six storm hydrographs from three small central Pennsylvania watersheds were analyzed for this paper; five are presented. Two important conclusions are deduced from this investigation. First, in all cases we found two distinct peaks in stream discharge, each representing different contributing areas to direct discharge with greatly differing curve numbers and lags representative of urban and rural source regions. Second, the direct discharge represents only a small fraction of the total drainage area with the urban peak becoming increasingly important with respect to the rural peak with the amount of urbanization and as the magnitude of the rain event decreases.     

浅析存款业务创新

从技术角度来探讨银行的存款业务创新，提出商业银行应该考虑经济发展情况、金融文化背景等因素，以满足客户的需求为目的来设计、组织存款要素，并在市场细分的基础上，提供差别化存款产品，按市场规律进行定价。     

EVALUATION OF HYDROLOGIC BENEFITS OF INFILTRATION BASED URBAN STORM WATER MANAGEMENT1

ABSTRACT: As watersheds are urbanized, their surfaces are made less pervious and more channelized, which reduces infiltration and speeds up the removal of excess runoff. Traditional storm water management seeks to remove runoff as quickly as possible, gathering excess runoff in detention basins for peak reduction where necessary. In contrast, more recently developed “low impact” alternatives manage rainfall where it falls, through a combination of enhancing infiltration properties of pervious areas and rerouting impervious runoff across pervious areas to allow an opportunity for infiltration. In this paper, we investigate the potential for reducing the hydrologic impacts of urbanization by using infiltration based, low impact storm water management. We describe a group of preliminary experiments using relatively simple engineering tools to compare three basic scenarios of development: an undeveloped landscape; a fully developed landscape using traditional, high impact storm water management; and a fully developed landscape using infiltration based, low impact design. Based on these experiments, it appears that by manipulating the layout of urbanized landscapes, it is possible to reduce impacts on hydrology relative to traditional, fully connected storm water systems. However, the amount of reduction in impact is sensitive to both rainfall event size and soil texture, with greatest reductions being possible for small, relatively frequent rainfall events and more pervious soil textures. Thus, low impact techniques appear to provide a valuable tool for reducing runoff for the events that see the greatest relative increases from urbanization: those generated by the small, relatively frequent rainfall events that are small enough to produce little or no runoff from pervious surfaces, but produce runoff from impervious areas. However, it is clear that there still needs to be measures in place for flood management for larger, more intense, and relatively rarer storm events, which are capable of producing significant runoff even for undeveloped basins.     

安顺市土壤pH空间变异及影响因素分析

探究土壤pH的空间分布特征及其变异规律,分析环境因子对土壤pH空间分异的影响,对安顺市山地复杂环境下土壤pH的精准管理和土壤资源的可持续利用具有重要意义.基于22 851个野外采样点,综合采用全局Moran's I指数、冷热点分析、半方差函数和克里金插值的方法,从不同角度揭示了安顺市土壤pH值的空间结构特征和分布规律,...