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1.
Phosphorus (P), an essential nutrient for crop and animal production, can accelerate freshwater eutrophication, now one of the most ubiquitous forms of water quality impairment in the developed world. Repeated outbreaks of harmful algal blooms (e.g., Cyanobacteria and Pfiesteria) have increased society's awareness of eutrophication, and the need for solutions. Agriculture is regarded as an important source of P in the environment. Specifically, the concentration of specialized farming systems has led to a transfer of P from areas of grain production to animal production. This has created regional surpluses in P inputs (mineral fertilizer and feed) over outputs (crop and animal produce), built up soil P in excess of crop needs, and increased the loss of P from land to water. Recent research has shown that this loss of P in both surface runoff and subsurface flow originates primarily from small areas within watersheds during a few storms. These areas occur where high soil P, or P application in mineral fertilizer or manure, coincide with high runoff or erosion potential. We argue that the overall goal of efforts to reduce P loss to water should involve balancing P inputs and outputs at farm and watershed levels by optimizing animal feed rations and land application of P as mineral fertilizer and manure. Also, conservation practices should be targeted to relatively small but critical watershed areas for P export.  相似文献   
2.
街尘是重要的环境介质,其携带的污染物在城镇化过程中对河网地区的水环境构成了一定的威胁。以杭嘉湖平原河网地区饮用水水源河流上游典型小城镇的街尘为研究对象,对街尘、河道沉积物、地表径流以及降雨前后地表水中的多环芳烃进行测定。在对不同粒径街尘中多环芳烃浓度的测定中发现,粒径为< 63、125-63、250-125 和 900-250 μm街尘中多环芳烃的平均含量分别为 7261、5835、4660 和 2909 μg/kg。小粒径的街尘颗粒含有较高的多环芳烃浓度,较小的密度,并且较难清扫,造成了小粒径街尘易被雨水冲刷随地表径流进入河网水体。在对两场降雨的地表径流中多环芳烃检测发现,颗粒态的多环芳烃分别占总浓度的 95%和 94%。地表径流过程增加了受纳水体中多环芳烃浓度的 43%-62%,其中超过 50%的增加表现为颗粒态。在对不同河段沉积物、地表径流中颗粒物和不同粒径街尘中多环芳烃浓度的风险评价中发现,小粒径街尘和地表径流中颗粒物中多环芳烃的浓度相接近并具有较高的生态风险,城镇段河道沉积物较次之。由于河网地区的特殊的水文条件和景观空间格局特征,地表径流沉积物在进入河网水体后易原位沉积,造成了河道沉积物城镇段有较高的多环芳烃浓度。  相似文献   
3.
Huang  Y. F.  Chen  X.  Huang  G. H.  Chen  Bing  Zeng  G. M.  Li  J. B.  Xia  J. 《Hydrobiologia》2003,494(1-3):127-134
GIS-based modeling is an effective approach for reflecting spatially-varied complexities in watershed systems. In this study, a GIS-aided distributive hydrological model was developed to simulate runoff and sediment transport in a loess-plateau context with semi-arid climate, sparse vegetation, and serious soil erosion. The model was then applied to a case study in the Malian River Basin, which is one of the largest catchments in the middle reach of the Yellow River. Based on the GIS technique, the DEM of the study basin was successfully used to delineate the stream network and extract information of catchment characteristics. The results show satisfactory accuracy for runoff simulation. Especially, the integrated soil-erosion and hydrological models can be used for simulating both runoff and sediment loads, which provide a useful decision-support tool for water resources management and pollution control. This study is an attempt to develop a distributed rainfall-runoff model for river basins in the loess plateau region. The developed model can also be extended to larger basins. Further works of field survey and investigation would be helpful for better calibrating critical parameters and thus improving performance of the developed model.  相似文献   
4.
5.
植被恢复作为黄土高原防治水土流失的重要措施,但极端降雨诱发的浅层滑坡在植被恢复的沟坡上频繁发生,影响流域的产流产沙过程。基于野外原位模拟降雨试验,在60 mm/h降雨强度下,研究草被沟坡浅层滑坡发生特征及其发生前后的产流产沙差异。结果表明:(1)极端降雨所诱发的草被沟坡上的浅层滑坡深度为14-36 cm,与自然强降雨所导致的浅层滑坡深度相贴合,均是低于50 cm。(2)植被根系与土壤容重、孔隙度等土壤性质显著相关(P<0.05),致使滑坡面上、下层土壤物理性质差异显著(P<0.05)。由于土壤性质的差异,在极端降雨下滑坡面上层土壤水分更快达到饱和(饱和度>90%),导致浅层滑坡的发生。(3)草被坡面浅层滑坡后的径流与产沙均显著增大(P<0.05)。三个小区的平均径流率在滑坡后增大了4.0-13.1倍,其平均含沙量和产沙率在滑坡后分别增大了9.9-54.9倍和70-841倍。研究结果有助于加深了解植被沟坡的侵蚀产沙机理,并为浅层滑坡防治提供科学依据。  相似文献   
6.
River-reef connectivity in the Meso-American Region   总被引:2,自引:2,他引:0  
The accumulation and seasonal impact of riverine discharge on coral reefs of the Meso-American Region (MAR) were estimated using a numerical simulation of river runoff dispersion. River-reef connectivity, or source-sink dynamics of terrestrial runoff was further assessed from more than 400 watersheds of the region onto discrete coral reef areas. Using land use for 2003 and 2004 in the MAR, this work builds upon a Regional Ocean Modeling System simulation of the MAR validated by ocean color satellite data, and on the monthly river nutrient and sediment load and discharge provided by the World Resources Institute using the N-SPECT model. Analysis of the variability of simulated runoff transport to the reefs showed that reefs of the Mesoamerican Barrier Reef System (MBRS) were mostly impacted from June to September, following the peak time of river discharge. At that time, the coastal and oceanic circulations contribute quickly to expel the runoff from the MBRS. High runoff concentration waters leaving the eastern coast of Honduras during the months of October to December return to the southwestern MAR in March as they are entrained in a cyclonic gyre. Coral reefs of the MAR are thus impacted twice, first from the coastal side with runoff of local origin and later from the oceanic side with runoff from mixed origin. High probability of connectivity between rivers and remote reefs is established as this study revealed that river runoff from the north shore of Honduras has a wide-spread impact on most of the coral reefs of southern Belize, while watersheds on the Gulf of Honduras are mostly connected to coral reefs in the northern shore of Honduras. Although the level of remote influence (or runoff concentration reaching the reef) is lower than the local, the cumulative effect of numerous remote river-reef connections remains significant. Communicated by Biology Editor Michael Lesser  相似文献   
7.
王为东  单保庆  尹澄清 《生态学报》2002,22(12):2154-2162
以人工持续(5d)降雨模拟方式研究了贡嘎山物眉冷杉林原生土壤地表覆被层破坏后土壤中矿质元素与营养盐的迁移输出动态与规律。模拟降雨采用当地最为常见的小到中雨雨型(5.7-26mm/h),壤中流以垂直入渗为主,并滞后于降雨0.2-4.2h,通过0模拟实验发现,降雨总量和降雨事件的持续时间对壤中流产生量的影响比单位时间降雨强度的影响更为明显,在持续降雨影响下,主要离子(Mg^2 ,Ca^2 ,Cl^-,SO4^2-和Na^ K^ )和营养盐(NH4^ -N,NO3^--N和活性磷酸盐)在短期内急剧流失,模拟降雨的第1天,壤中流结束时离子浓度仅为初始时浓度的29%,营养盐浓度为初始浓度的21%-55%。至第3天,上述离子和营养盐输出浓度趋于恒定,约为首日降雨壤中流初始浓度的1%-15%,在主要矿质元素流失后,原生土壤内过程转为有机质控制的HCO3^-输出过程,伴随着土壤矿质养分的输出,土壤缓冲能力下降,壤中流pH值由6.1降为5.2,研究结果表明,贡嘎山区峨眉冷杉林原生土壤系统十分脆弱,养分易于流失,对人类活动的敏感性很高。  相似文献   
8.
以上海市中心城区典型排水区域为研究对象,基于SWMM模型连续模拟2009—2011年降雨径流,分析区域235场降雨及地表径流特征.结果表明: 该区域发生频率较高的降雨具有雨量小、强度低的特点,雨量为0~10 mm、平均降雨强度为0~5 mm·h-1、降雨峰值为0~10 mm·h-1的降雨发生频率最大,分别占所有研究降雨场次的66.4%、88.8%和79.6%,这对于该区域应用低影响开发措施削减小雨量或低强度降雨下的径流和面源污染具有重要意义;径流量总体随着降雨量增大而增大,区域降雨产流临界值不仅与降雨量有关,还与平均降雨强度和降雨历时有关,2 mm以下的降雨基本不产流;2~4 mm的降雨如降雨强度在1.6 mm·h-1以下,产流量不到1 mm,当降雨量在4 mm以上、平均降雨强度大于1.6 mm·h-1时,区域基本产流.基于SWMM径流模拟结果,建立适合该区域的径流量与降雨因子的回归方程,其调整R2均大于0.97,能较好反映该区域径流量与降雨因子的关系.研究结果可为该区域更好地规划低影响开发措施和削减排水系统溢流污染提供计算基础,并为类似区域的径流研究提供参考.  相似文献   
9.
长期施磷对黄壤旱地磷库变化及地表径流中磷浓度的影响   总被引:20,自引:1,他引:19  
对贵州黄壤旱地进行采样以及盆栽试验,探索黄壤旱地磷库的变化及其对地表径流磷量的影响。结果表明,长期施磷后黄壤旱地无机磷占全磷的比例逐渐增高,Al-P、Fc-P和Ca-P积累的顺序为Fe-P>Al-P>Ca-P。长期施磷后黄壤旱地的有效磷和藻类可利用的总磷也不断积累,高磷(Olsen-P>25mg·kg^-1)旱地藻类可利用的总磷与Al-P、Fe-P和Ca-P的相关系数分别为0.859、0.903和0.650,Fc-P对藻类可利用磷量的影响起着最重要的作用。在模拟雨强为63.2mm·h^-1下,降雨30min后,低磷黄壤旱地(Olsen-P为4.62-15.9mg·kg^-1)径流中磷酸根磷含量仅为2.81-4.17μg·L^-1,生物有效性磷含量为0.723-0.876mg·L^-1;高磷黄壤旱地(Olsen-P)为29.4-59.2mg·kg^-1)径流中磷酸根磷含量达到0.026-0.714mg·L^-1,生物有效性磷含量增加到0.996-1.281mg·L^-1;高磷黄壤旱地地表径流磷量能加速水体富营养化的产生。  相似文献   
10.
Loss of nutrients and sediments from agricultural runoff causes eutrophication in surface water. Vegetated buffer zones adjacent to a stream can effectively remove and retain nutrients and sediments. It is, therefore, important to study design criteria which optimise the effect of buffer zones (BZ). This paper describes the influence of four criteria: (i) buffer zone width, (ii) amount of surface runoff water entering the BZ, (iii) seasonal variation and (iv) vegetation type. These parameters were studied after simulated and natural runoff at four different sites in Southern Norway with cold temperate climate. Surface runoff was collected before entering and after passing the BZs. The simulation experiments were short-term experiments carried out over a few days in 1992 and 1993. In the natural runoff experiments, volume proportional mixed samples were collected after each runoff period during 1992–1999. The results show significantly higher removal efficiency (in %) from 10 m wide BZs compared to 5 m widths, however, the specific retention (per m2) is higher in 5 m BZ. Buffer zones can receive particle runoff over several days without a significant decrease in their removal level. Retention efficiency between summer and autumn varied depending on the measured parameter (phosphorus, particles and nitrogen), and there were no significant differences in removal efficiency between summer and winter. The results show no significant differences between forest buffer zones (FBZ) and grass buffer zones (GBZ) regarding their retention efficiency for nitrogen and phosphorus. There was significantly higher retention efficiency in FBZ for particles. Average removal efficiencies from both simulated and natural runoff experiments varied from 60–89%, 37–81% and 81–91% for phosphorus, nitrogen and particles, respectively.  相似文献   
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