The spatial and temporal variability of groundwater recharge in a forested basin in northern Wisconsin   总被引：1，自引：0，他引：1  

W. R. Dripps  K. R. Bradbury 《水文研究》2010,24(4):383-392

Recharge varies spatially and temporally as it depends on a wide variety of factors (e.g. vegetation, precipitation, climate, topography, geology, and soil type), making it one of the most difficult, complex, and uncertain hydrologic parameters to quantify. Despite its inherent variability, groundwater modellers, planners, and policy makers often ignore recharge variability and assume a single average recharge value for an entire watershed. Relatively few attempts have been made to quantify or incorporate spatial and temporal recharge variability into water resource planning or groundwater modelling efforts. In this study, a simple, daily soil–water balance model was developed and used to estimate the spatial and temporal distribution of groundwater recharge of the Trout Lake basin of northern Wisconsin for 1996–2000 as a means to quantify recharge variability. For the 5 years of study, annual recharge varied spatially by as much as 18 cm across the basin; vegetation was the predominant control on this variability. Recharge also varied temporally with a threefold annual difference over the 5‐year period. Intra‐annually, recharge was limited to a few isolated events each year and exhibited a distinct seasonal pattern. The results suggest that ignoring recharge variability may not only be inappropriate, but also, depending on the application, may invalidate model results and predictions for regional and local water budget calculations, water resource management, nutrient cycling, and contaminant transport studies. Recharge is spatially and temporally variable, and should be modelled as such. Copyright © 2009 John Wiley & Sons, Ltd.  相似文献   

Heat budget for a shallow,sinuous salt marsh estuary     

Paul McKay  Daniela Di Iorio 《Continental Shelf Research》2008

An experimental study of temperature cycles and the heat budget in the Duplin River, a tidal creek bordered by extensive intertidal salt marshes, was carried out in late summer of 2003 and spring of 2004 near Sapelo Island on the central Georgia coast in the southeastern US. Three water masses are identified with differing temperature and salinity regimes, the characteristics of which are dictated by channel morphology, tidal communication with the neighboring sound, ground water hydrology, the extent of local intertidal salt marshes and side channels and the spring–neap tidal cycle (which controls both energetic mixing and, presumably, ground water input). For the first experiment, heat budgets are constructed for the upper (warmer) and lower (cooler) areas of the Duplin River showing the diminishing importance of tidal advection away from the mouth of the creek along with the concomitant increase in the importance of both direct atmospheric fluxes and of interactions with the marsh and side creeks. The second experiment, in the spring of 2004, reexamines the heat budget on seasonal and daily averaged scales revealing the decreased importance of advective fluxes relative to direct atmospheric fluxes on this scale but the constant importance of marsh/creek interactions regardless of time scale or season. Short period temperature fluctuations which affect larval development are examined and analogies are drawn to use heat to understand the marsh as a source of sediment, carbon and other nutrients.  相似文献   

Nitrogen and carbon cycling in the North Sea and exchange with the North Atlantic—A model study. Part I. Nitrogen budget and fluxes     

Johannes Pätsch  Wilfried Kühn 《Continental Shelf Research》2008

The three-dimensional biogeochemical model ECOHAM was applied to the Northwest European Shelf (47°41′–63°53′N, 15°5′W–13°55′E) for the years 1993–1996. Nitrogen budgets were calculated for the years 1995 and 1996 for the inner shelf region, the North Sea (511,725 km²). Simulated temperatures as well as nitrate, oxygen, and chlorophyll concentrations are compared with observations.  相似文献   

中天山及其北麓的降水变化及其原因分析   总被引：2，自引：1，他引：1  

李霞  任宜勇  汤浩  陈洪武 《冰川冻土》2005,27(3):381-388

利用中天山地带85.0°～90.0°E,42.5°～45.0°N范围内17个气象站1961-2000年的降水、气温观测数据及美国NCEP/NCAR1950-2000年再分析月平均资料进行计算和分析,结果表明:这一区域近年来降水呈现上升趋势,且冬、夏季相对显著,山区降水增幅大于山前平原地带.年代际变化表现为60-70年代降水量减少,80-90年代逐步增加.大气可降水量多年也表现为增加趋势.近50a来该地区上空的水汽输送状况显示,年平均大气水汽输入为9217.8×10⁸m³,输出水汽8625.7×10⁸m³,净收支为592.0×10⁸m³,且水汽收支主要取决于夏半年的水汽输入量,境外全年输入的水汽只有6.4%转化为降水.从50-90年代水汽净收支总体上呈减少趋势,只在90年代有略微增长.结合该地区的河流径流增加、冰川物质平衡一直处于亏损状态,说明中天山北麓近年来降水量增加的主要原因是由于该地区内部的水循环量增加和水循环速率提高.  相似文献   

Atmospheric hydrological budget with its effects over Tibetan Plateau   总被引：5，自引：0，他引：5  

BAI Jingyu  XU Xiangde 《地理学报(英文版)》2004,14(1):81-86

1IntroductionThe Tibetan Plateau is the most prominent feature located at unique latitudes in the world and shows special dynamic and thermal effects, thus responsible for a conspicuous hydrological cycle in the atmosphere within Asian monsoon areas, and an extremely sensitive region of land-air interactions in East Asia. A lot of researches have dealt with Tibetan dynamic and thermal effects on atmospheric circulation (Ye and Gao, 1979; Zhang etal., 1988; Ye and Fang, 1999; Zheng etal., 2…  相似文献   

全新世长江泥沙堆积的时空分布及通量估算   总被引：1，自引：1，他引：0  

王张华  Jingpu Paul Liu  赵宝成 《古地理学报》2007,9(4):419-429

利用长江中下游、河口及口外、浙-闽沿岸陆架6个主要沉积盆地的40个晚第四纪钻孔及其年代学数据和长江口外、陆架的浅地层剖面,计算了全新世不同阶段各沉积盆地的沉积速率,并进行了近7 000年来泥沙堆积通量的估算。研究发现全新世早期距今10 000年至8 000年间长江口下切古河谷是长江泥沙的主要堆积中心,沉积速率可高达15m/ka。随着海平面上升,全新世中期长江中下游也成为长江泥沙的重要沉积盆地,其中江汉盆地的沉积速率可达10m/ka。近2 000年来,口外、陆架的堆积呈明显增加趋势,反映长江中下游盆地和河口可容空间日益减小。根据沉积速率估算,距今7 000年来长江中下游堆积泥沙约13 074×108 t,同期水下三角洲和陆架的泥沙堆积量约为9 470×108 t。研究还发现全新世以来有两个异常低沉积速率时期：距今8000-7 000年期间上述各沉积盆地沉积速率均显著低,未见长江泥沙的沉积中心; 距今4 000-2 000 年期间长江口呈现低沉积速率。 这两次异常的原因推测与海平面、气候波动事件密切相关。  相似文献   

长江源区高寒退化湿地地表蒸散特征研究   总被引：1，自引：0，他引：1  

权晨  周秉荣  韩永翔  赵天良  肖建设 《冰川冻土》2016,38(5):1249-1257

青藏高原作为“亚洲水塔”,对东亚乃至全球大气水分循环都有非常显著的影响.高寒退化湿地是高原上生态多样性的保证,也是水汽循环和地表径流的重要源地,其地气之间水分交换不但可以反映气候变化,而且也对生态环境保护具有重要意义.以长江源区隆宝滩湿地连续一年、每10分钟一次的观测资料为基础,利用FAO Penman-Monteith方法分析了长江源区高寒退化湿地蒸散量的变化特征及其与环境因子之间的关系.结果表明：1）牧草生长期,潜在蒸散量日、月变化特征显著;实际蒸散量整体表现为冬小、夏大,夏季蒸散贡献最大.2）观测期间,蒸散量远大于降水量,水分亏损严重,局地蒸散对降水的贡献较高.3）土壤温度对蒸散发过程影响显著,尤其是表层5 cm地温与蒸散发相关性较好,土壤湿度变化表明其为蒸散发过程提供了充足的水分.4）全年变化中,气温是影响蒸散的主要因素.晴天中,高寒退化湿地实际蒸散量与辐射具有几乎相同的变化趋势,气温对蒸散量影响较小,蒸散量与相对湿度呈现显著的反相关.  相似文献   

区域碳收支能力估算的面向对象遥感分类方法     

童新华  张郭秋晨  韦燕飞 《地球信息科学学报》2016,18(12):1675-1683

全球气候变暖问题是人类面临的最艰巨的挑战之一,通过先进的面向对象分类方法可以提高碳排放与碳汇能力的研究水平,对于控制区域气候变化具有推动作用。本文利用面向对象分类方法,以广西百色市右江区为研究区域,选取Landsat 8 OLI和Google Earth影像数据提取区域地物信息,并针对研究区地势复杂的特点,采用设置多种尺度参数的方法,选取最优尺度进行影像分割。同时,引入隶属度函数法、最邻近分类法和CART决策树分类器3种方法,基于影像光谱差异、几何形状、对象纹理等特征,逐层逐级地实施面向对象分类,随后加以针对性的精度评价分析并检验分类结果。通过总结分析前人的地物碳系数转换关系并结合高精度面向对象分类结果,构建了基于土地覆被类型的碳收支能力估算模型,并根据已有的基于CASA模型的碳收支能力估算方法加以精度校验,最终估算出右江区碳收支能力为-399.64万t。此外,本文结合右江区行政区划、人口分布、DEM等相关数据对区域碳收支能力进行了专题性剖析。结果表明,面向对象分类方法是研究小区域碳收支能力的有效途径,在区域碳循环评估中具有更好的准确性和预见性,有效促进碳收支平衡研究领域的发展。  相似文献   

Observations and model estimates of diurnal water temperature dynamics in mosquito breeding sites in western Kenya     

K. P. Paaijmans  A. F. G. Jacobs  W. Takken  B. G. Heusinkveld  A. K. Githeko  M. Dicke  A. A. M. Holtslag 《水文研究》2008,22(24):4789-4801

Water temperature is an important determinant of the growth and development of malaria mosquito immatures. To gain a better understanding of the daily temperature dynamics of malaria mosquito breeding sites and of the relationships between meteorological variables and water temperature, three clear water pools (diameter × depth: 0·16 × 0·04, 0·32 × 0·16 and 0·96 × 0·32 m) were created in Kenya. Continuous water temperature measurements at various depths were combined with weather data collections from a meteorological station. The water pools were homothermic, but the top water layer differed by up to about 2 °C in temperature, depending on weather conditions. Although the daily mean temperature of all water pools was similar (27·4–28·1 °C), the average recorded difference between the daily minimum and maximum temperature was 14·4 °C in the smallest versus 7·1 °C in the largest water pool. Average water temperature corresponded well with various meteorological variables. The temperature of each water pool was continuously higher than the air temperature. A model was developed that predicts the diurnal water temperature dynamics accurately, based on the estimated energy budget components of these water pools. The air–water interface appeared the most important boundary for energy exchange processes and on average 82–89% of the total energy was gained and lost at this boundary. Besides energy loss to longwave radiation, loss due to evaporation was high; the average estimated daily evaporation ranged from 4·2 mm in the smallest to 3·7 mm in the largest water pool. Copyright © 2008 John Wiley & Sons, Ltd.  相似文献   

The Effect of Temperature on Growth and Energy Budget of the Polychaete,Neanthes japonica Izuka     

LIU Yong ）  ）    XIAN Weiwei ）  ） Key Laboratory of Marine Ecology  Environmental Sciences  Institute of Oceanology  Chinese Academy of Sciences  Qingdao  P. R. China ） College of Fisheries  Ocean University of China  Qingdao  P. R. China 《中国海洋大学学报(英文版)》2009,8(2)

Growth and energy budget of the polychaete, Neanthesjaponica, at various temperatures (17, 20, 23, 26 and 29 ℃) were investigated in this study. The growth, as indicated by final dry weight and specific growth rate (SGR), increased with increasing temperature, with the maximum level at 26℃, and then decreased significantly at 29℃. A similar trend was observed in feeding rate, food conversion efficiency (FCE) and apparent digestive rate (ADR). However, no significant differences were detected in ADR among all the temperature treatments. In the pattern of energy allocation, faeces energy was only a small component of energy budget and had little influence on the proportion of food energy allocated to growth. The metabolic energy accounted for a large portion of energy intake for each temperature treatment. The nitrogen excretion was appreciable with changing temperature. The two expendi-ture terms (respiration energy and excretion energy) in energy budget were the major factors influencing the proportion of food en-ergy allocated to growth. These results revealed that temperature affected the growth of N. japonica mainly by influencing feeding rate and FCE. In addition, regression equations describing the relationship between feeding rate, faecal production, SGR, FCE and temperature were obtained. The optimum temperatures for feeding rate, FCE and SGR were estimated at 25.01 ℃, 24.24℃ and 24.73 ℃, respectively, from the regression equations.  相似文献