基于DRAINMOD的农田地表径流氮素流失动态模拟

为了解水旱农田地表径流氮素流失机理及过程,于2008年6～9月在湖北省漳河灌区开展了田间试验,并利用DRAINMOD模型对其进行模拟。研究结果表明:水田地表径流铵态氮和硝态氮的流失率均高于旱地,水田地表径流以铵态氮为主,而旱地以硝态氮为主。水旱农田地表径流氮素流失模拟值与实测值都非常接近,水田地表径流硝态氮和铵态氮模拟的相对误差分别为8.35%和10.99%,旱地分别为5.45%和14.11%;水田硝态氮和铵态氮模拟的效率系数分别为0.961和0.974,旱地的分别为0.993和0.938,效果都很好。因此,利用DRAINMOD模型进行该地区农田氮素流失动态模拟是可行而有效的。     

丹江鹦鹉沟小流域氮素随径流的迁移及对水质的影响

计算小流域非点源氮素流失负荷,并以此开展丹江水源区水体污染源解析和控制研究。基于流域断面及小区监测试验,利用平均浓度法对鹦鹉沟流域氮素年均流失模数和不同土地利用类型的非点源污染负荷进行计算分析。结果表明:径流水质中主要是总氮质量浓度超标,且硝氮质量浓度均大于氨氮质量浓度;当坡耕地坡度大于25°时,氮素流失严重,水质极差;农村生产生活污染物排放对水质有很大影响,从断面1到把口站,硝氮质量浓度和总氮质量浓度增加较大;农地、草地和林地的总氮年均径流流失模数分别为0.36、0.22和0.09t/(a·km2);流域出口非点源污染物氨氮、硝氮和总氮的平均质量浓度分别为0.17,4.71和7.55mg/L,点源污染物氨氮、硝氮和总氮的平均质量浓度分别为0.20、2.12和4.08mg/L。总体来说,鹦鹉沟流域径流中总氮的流失模数为0.89t/(a·km2),总氮是影响水质的主要污染物,需加强对坡耕地氮素流失和农村生活垃圾的治理。     

非点源污染预测模型研究进展

污染物在径流形成过程中的迁移和转化是很复杂的,为了有效地防止和控制降雨径流污染,必须对这个复杂过程进行分析、模拟和预测.详细介绍了近年来国外和国内非点源污染模型的研究进展.可以看出,GIS与非点源污染模型的结合及在模型中引入模糊理论、不确定性分析、风险管理是今后的发展趋势,而我国在非点源污染方面的研究还比较落后,有待进一步的发展.     

滁州花山水文实验流域径流与氮素耦合模拟研究

采用SWAT模型方法对滁州花山水文实验流域进行了径流与氮素耦合模拟,探讨了流域土地利用对氮素输移的影响。构建了花山水文实验流域SWAT模型,采用2008年1月~2013年12月的降雨、径流等数据对径流模型进行率定和验证,以2012年5月~2013年12月的氮浓度监测数据对氮负荷模型进行验证。利用所建立的模型对现状土地利用情形和土地利用变化情景假设下进行了径流与氮素耦合模拟,计算了现状和不同土地利用情景假设下流域的径流深和氮负荷。结果表明:汛期的氮流失量占全年氮流失的比重较大,每年的汛期是控制氮流失的关键时期;旱地的氮流失潜力较水田大,林地的增加对氮负荷具有一定的消减作用;控制氮肥的使用,加强水土保持能力,可以有效减少流域氮负荷。     

千岛湖流域不同土地利用方式对氮和磷流失的影响

从流域尺度研究氮、磷随地表径流的流失是国内外研究的热点.通过研究千岛湖流域降雨径流中总氮(TN)、总磷(TP)、可溶氮(DN)和可溶磷(DP)浓度变化,探讨不同土地利用方式对氮素、磷素流失的影响,结果表明不同土地利用方式下日降雨量与径流水中的总氮、可溶氮、总磷和可溶磷浓度均呈显著正相关;不同土地利用方式下土壤中降雨径流中总氮和总磷浓度变异较大.红薯地和园地等有人工耕种的坡地氮磷流失浓度最大,草地和林地等受人工影响干扰少的土地利用方式氮磷流失浓度相对较少.高坡林地降雨径流中氮磷流失浓度大于缓坡林地,平均DN/TN值和DP/TP值变化较小,分别为0.45和0.22左右.     

非点源污染模型研究

描述了土壤侵蚀的物理过程,分析了影响土壤侵蚀过程的主要因素,提出包括降雨径流模型、土壤侵蚀模型和畜禽污染模型的非点源污染模拟模型(NPSP),并介绍了该模型在爱尔兰Dodder流域的应用.     

水文模型系统在峨嵋河流域洪水模拟中的应用

研究目的是采用水文模型系统(HMS)模拟峨嵋河流域暴雨水文过程,并为长江上游地区气候和水文响应研究提供可靠的信息。HMS是一种分布式水文模型可用于研究各种气候因子和地表覆盖变化而引起的水文过程响应,该系统(HMS)利用气象、土壤类型、土地利用和地表覆盖、数字高程(DEM)和降雨径流等资料,研究气候、陆面、地表水和地下水的相互作用机理。在本次研究中,采用SCS Curve Number(CN)和Green-Ampt(GA)方法来计算径流过程,用GIS来数字化DEM、土壤、土地利用和陆地覆盖数据。通过用不同时间间隔的降雨和不同计算方法的水力参数模拟水文过程,来检验降雨的时间尺度效应和水力参数的空间变异性对水文过程的影响。结果表明,HMS对峨嵋河流域暴雨洪水的模拟及预测具有较好的适用性。     

太湖流域雪堰镇氮素流失规律及形态特性

以太湖流域雪堰镇为例,通过2009年3月~2010年2月连续12个月及两场次降雨事件的水质监测进行分析,研究不同河流、月份、区域、汛情、土地利用类型下氮素流失规律及形态特性,分析降雨过程中不同尺度3个流域(上涧村、龙泉河、雪堰镇)氮流失特征和不同河段氮流失规律。研究结果表明,雪堰镇氮素为劣Ⅴ类,非汛期污染比汛期严重,变化幅度大,不稳定,氮以溶解态为主,溶解态氮以硝氮为主;镇区硝氮浓度较非镇区低,氨氮比非镇区高,坑塘水面氮流失最严重,有林地(乔木较多)氮流失最少,茶园硝氮占溶解态氮百分比最高,果园氨氮占溶解态氮百分比最高;降雨前期未产流前氮素流失稳定,产流后流失越来越大,不同河段氮沿程变化基本稳定。     

坡地氮磷流失过程模拟

根据农田坡面氮、磷流失的主要过程,建立了基于次降雨事件的坡面氮、磷迁移模型。模型采用改进的Green-Ampt方程和运动波方程计算下渗与坡面流,土壤侵蚀采用修改的欧洲土壤侵蚀模型计算,用考虑了侵蚀影响与扩散作用的迁移模型计算坡面氮、磷迁移过程,采用一维对流扩散方程计算氮、磷在土壤中的迁移过程。利用室内人工降雨资料对模型进行了率定及验证。结果表明,模型可以较好地模拟地表径流中氮、磷浓度,率定期与验证期模型效率系数均在0.89以上。根据坡地氮、磷流失机理,分析了降雨强度与地表坡度对坡面径流中氮、磷浓度的影响。     

喀斯特坡地不同土地利用方式碳氮流失的水文驱动特征

喀斯特坡地壤中流与地表径流并存,共同驱动了土壤关键生源物质的迁移,造成该区土壤生产力下降、地下水污染。为揭示喀斯特坡地土壤碳氮流失途径及其水文驱动机制,本研究以喀斯特坡地径流微区(2 m×1.2 m)为研究对象,分析了火烧、轻度砍伐、重度砍伐、人工林、耕地、牧草6种不同土地利用方式对土壤碳氮流失途径、形态及通量的影响。结果表明:降雨是土壤碳氮流失的主要驱动因子,降雨产流阈值为16 mm,55 mm时达到产流峰值。各土地利用方式仅在暴雨下有显著差异,其中,人工林的土壤碳氮流失量较大,而重度砍伐的流失量较小。土地利用方式不改变土壤碳氮的流失途径,各土地利用方式均以地表流失为主(51.29%～75.15%),壤中流为辅,其中壤中流主要通过A层流失(65.20%-89.12%)。氮素流失形态以NO₃^--N为主(45.84%～56.49%)。研究结果可为揭示喀斯特坡地生源物质流失过程及其水文驱动机制、研发水土流失与面源污染阻控技术提供参考。     

The distribution of agricultural soil leachates in the unsaturated zone of the British chalk

In Europe the Chalk constitutes a major source of potable water supply. Its outcrop forms extensive tracts of agricultural land, where the groundwater resources largely originate as infiltrating excess rainfall. Research on the unsaturated zone of the aquifer beneath such cultivated land should allow an assessment of nutrient leaching losses from the associated highly permeable soils and the prediction of future groundwater quality trends. Pore-water profiles for nitrate and numerous other constituents from a site of exceptionally detailed study are presented and compared to results from sites elsewhere in eastern England to demonstrate the impact of modern arable agriculture. Environmental isotopes have also been investigated in depth to aid the study. The problems in evaluating the evolution of the unsaturated zone profiles are discussed. Presented at the International Symposium, International Association of Hydrogeologists, “Impact of Agricultural Activities on Ground Water Quality and Quantity,” Prague, Czechoslovakia, September, 1982.     

中国东北地区20世纪末土地利用变化的土壤碳源汇效应

土地利用变化是土壤有机碳库变化的重要原因之一。文中选择中国东北地区,利用多目标区域地球化学调查数据,结合20世纪80年代和2000年土地利用数据,分析了不同土地利用方式下土壤有机碳密度分布特征,以及由于土地利用方式变化形成的土壤碳源汇效应。结果发现：（1）不同土地利用下土壤表层有机碳密度（SOCD）差异较大,沼泽地、有...     

Sources of nutrient pollution to coastal waters in the United States: Implications for achieving coastal water quality goals

Some 60% of coastal rivers and bays in the U.S. have been moderately to severely degraded by nutrient pollution. Both nitrogen (N) and phosphorus (P) contribute to the problem, although for most coastal systems N additions cause more damage. Globally, human activity has increased the flux of N and P from land to the oceans by 2-fold and 3-fold, respectively. For N, much of this increase has occurred over the past 40 years, with the increase varying by region. Human activity has increased the flux of N in the Mississippi River basin by 4-fold, in the rivers of the northeastern U.S. by 8-fold, and in the rivers draining to the North Sea by more than 10-fold. The sources of nutrients to the coast vary. For some estuaries, sewage treatment plants are the largest single input; for most systems nonpoint sources of nutrients are now of relatively greater importance, both because of improved point source treatment and control (particularly for P) and because of increases in the total magnitude of nonpoint sources (particularly for N) over the past three decades. For P, agricultural activities dominate nonpoint source fluxes. Agriculture is also the major source of N in many systems, including the flux of N down the Mississippi River, which has contributed to the large hypoxic zone in the Gulf of Mexico. For both P and N, agriculture contributes to nonpoint source pollution both through losses at the field scale, as soils erode away and fertilizer is leached to surface and ground waters, and from losses from animal feedlot operations. In the U.S. N from animal wastes that leaks directly to surface waters or is volatilized to the atmosphere as ammonia may be the single largest source of N that moves from agricultural operations into coastal waters. In some regions, including the northeastern U.S., atmospheric deposition of oxidized N from fossil-fuel combustion is the major flux from nonpoint sources. This atmospheric component of the N flux into estuaries has often been underestimated, particularly with respect to deposition onto the terrestrial landscape with subsequent export downstream. Because the relative importance of these nutrient sources varies among regions and sites, so too must appropriate and effective mitigation strategies. The regional nature and variability of nutrient sources require that nutrient management efforts address large geographic areas.     

Characteristics of Non—Point Source Pollution in the Watershed of Miyun Reservoir,Beijing,China

Nitrogen and phosphorus are the major nutrients to cause eutrophication to degrade water quality of the Miyun Reservoir,a very important drinking water source of Bijing,China,and they are mainly from non-point sources.The watershed in Miyun County was selected as the study region with a totoal area of 1400km^2.Four typical monitoring catchments and two experimental units were used to monitor the precipitation,runoff,sediment yield and pollutant loading related to various land uses in the meantime.The results show that the total nutrient loss amounts of TN and TP are 898.07t/a,and 40.70t/a,respectively,in which nutrients N and P carried by runoff are 91.3% and 77.3%,respectively.There is relatively heavier soil eroson in the northern mountain area whereas the main nutrient loss occurs near the northeast edge of the reservoir.Different land uses would influence the loss amounts of non-point source pollutants.The amount of nutrient loss from the agricultural land per unit is highest,that from forestry comes next that from grassland is lowest.However,due to the variability of land use areas,agricultural land contributes a lot to TP and forestry lands to TN.     

我国耕地保护经济补偿机制实践分析

对我国部分地区试行耕地保护经济补偿机制的实践作了初步总结,从补偿对象、补偿标准、资金来源、资金使用等方面分析了各自特点,依据资金来源和补偿对象阐述了补偿实践中的不同模式。结合上海实际,提出了完善新增建设用地土地有偿使用费使用、落实基本农田保护基金、加强土地管理基础业务工作,以进一步促进耕地和基本农田保护补偿机制完善的建议。     

农田排水沟渠的环境效应与生态功能综述

农田排水沟渠作为农业景观中重要的景观单元,能够调节农田生态系统水分平衡,改变流域水文情势。农田养分可以随排水过程迅速流失,也可以通过沉淀与吸附机制被农田沟渠所截留或者通过植物吸收后收割与反硝化去除等机制脱离农田生态系统。作为农田生态系统边缘的交错带,农田排水沟渠较高的植物多样性可以提供动物栖息地和避难场所,增加农田生态系统生物多样性。清淤、收割和控制排水等管理措施对于农田排水沟渠的环境效应和生态服务功能有着不同的影响。今后应加强从多个学科研究农田排水沟渠的环境效应和生态功能,探索生态排水沟渠的构建和管理技术,实现农田排水沟渠水利功能和生态功能的"双赢"。     

Non-point source pollution of Wujiang River watershed in Guizhou Province, SW China

The amount of pollution from non-point sources flowing in the streams of the Wujiang River watershed in Guizhou Province, SW China, is estimated by a GIS-based method using rainfall, surface runoff and land use data. A grid of cells, 100 m in size, is laid over the landscape. For each cell, mean annual surface runoff is estimated from rainfall and percent land use, and expected pollutant concentration is estimated from land use. The product of surface runoff and concentration gives expected pollutant loading from that cell. These loadings are accumulated going downstream to give expected annual pollutant loadings in streams and rivers. By dividing these accumulated loadings by the similarly accumulated mean annual surface runoff, the expected pollutant concentration from non-point sources is determined for each location in a stream or river. Observed pollutant concentrations in the watershed are averaged at each sample point and compared to the expected concentrations at the same locations determined from the grid cell model. In general, annual non-point source nutrient loadings in the Wujiang River watershed are seen to be predominantly from the agricultural and meadow areas.     

土地利用结构与生态过程

本文从土地利用与土壤水分、土地利用与土壤养分、土地利用与水土流失3个方面系统讨论了土地利用结构与生态过程研究的现状和特征,指出:1)土地利用结构对土壤水分的影响涉及生态系统、坡面、小流域和区域等系列尺度,土地利用的分布及景观特点影响土壤水分的时空变异;2)土地利用对土壤养分的影响表现在土地利用的镶嵌格局影响土壤养分的分布和迁移,土地利用的变化可以引起土壤养分的变化;3)土地利用与水土流失关系密切,土地利用的改变能够减少或增加径流和土壤侵蚀.尺度不同,土地利用与水土流失的机制也不尽相同.土地利用结构与生态过程的研究,还需要注重大尺度和多尺度上的综合研究.     

非点源污染的流域分配方法研究

农业非点源污染的流域分配研究对于提高环境质量具有重要的现实意义。根据遥感技术得到的土地利用类型、河网、道路、圩区等信息,结合地理信息系统（GIS）的空间分析功能,对非点源污染负荷进行了定量计算及可视化分析,在此基础上,得到各主要河段的污染分配量,这可为寻求流域内合理的土地利用模式和农业非点源污染排放总量的控制方法提供决策依据。     

Nutrient Loss from Various Land－Use Areas in Shixia Small Watershed of Miyun County,Beijing China

In the Shixia small watershed,twenty experimental plots and two monitoring channels,the residential area and livestock areas were used to monitor the flow,runoff and erosion,Nitrogen and phosphorous concentrations associated with various land uses were analyzed at the same time.The results are presented as follows:(1)TP ,TN and COD concentrations of runoff samples in the residential area and livestock arease are nearly 10 times those in other land-use areas.High nutrient loads are associated with village land use,which is due to unsuitable livestock rising.These areas should be treated as the critical areas of non-point source pollution.(2)Different land use influences intensity the loss nutrients,especially slope tillings in agricultural land.The amount of nutrient loss from agricultural land per unit is highest,that from forestry is intermediated and that frompastures is lowest,However,in consideration of the variability of land-use areas,agricultural land contributes the greatest to TP and forestry land to TN.(3)The concentrations of TN and TP in sediments from gangues are highest ,those in forestry land are intermediate,and those in agricultural land are lowest.Nutrient loss from hilly areas in much greater than from mountainous areas.