流域系统动力学模型的全耦合问题研究进展

从系统分析的视角出发,对流域系统动力学建模过程、方法进行总结。综述了国内外系统动力学模型(简称SD模型)在社会经济发展与流域水资源承载力、流域水环境承载和流域水生态承载力耦合关系的研究。从简单的零维模型发展到复杂的社会经济综合模型和OO-SD模型(即Objective-Optimization SD模型),国内SD模型耦合关系研究主要集中在叶尔羌河、洱海、滇池等流域,SD模型在监测、数据共享和模型结构、参数选取和不确定性分析等方面还存在不足,有待改进。     

试论天津市农业污染防治地方环境标准的制定

文章通过对当前天津市农业源污染现状的分析,阐明了天津市农业污染防治地方环境标准制定的意义与必要性。在研究了国家、环境保护部及地方关于农业源水环境污染防治标准制定现状的基础上,进一步结合天津市农业源污染的实际情况,有针对性地提出天津市农业污染防治地方环境标准研究与制定工作的具体建议,以及对标准实施方面的一些看法。     

植被净初级生产力对气候变化的响应研究——以黄土高原燕沟流域为例

Vegetation net primary productivity (NPP) is a sensitive indicator to characterize the response of terrestrial ecosystems to the climate change. Projections of the NPP changes of the Loess Plateau under future climate scenarios have great significances in revealing the interactions among terrestrial ecosystems and climatic systems, as well as instructing future vegetation construction of this region. Here, we carried out a case study on the Yangou watershed in the Loess Plateau. Using the vegetation-producing process model (VPP) established for such small watersheds, we simulated the NPP of the Yangou watershed under different scenarios of climate changes. The results showed that the NPP significantly increased with the precipitation increasing and evidently decreased with the temperature increasing where the climate change occurred in the whole year or in the summer half year. However, where the climate change occurred in the winter half year, the increased precipitation had little effect on the NPP, and the increased temperature significantly reduced the NPP. There were clear differences among the response sensitivities of different vegetation types with trees and shrubs were more sensitive to the changes in temperature and precipitation than crops and grasses. Currently, the most favourable climate change scenario to the NPP in the Yangou watershed was T0P15 under which the precipitation increased by 15% and the temperature did not changed, in the whole year; in the meantime, the most unfavourable climate change scenarios was T2P-15 under which the precipitation declined by 15% and the temperature increased by 2℃, in the whole year.     

Assessing field vulnerability to phosphorus loss in Beijing agricultural area using Revised Field Phosphorus Ranking Scheme

Guanting Reservoir,one of the drinking water supply sources of Beijing,suffers from water eutrophication.It is mainly supplied by Guishui River.Thus,to investigate the reasons of phosphorus(P)loss and improve the P management strategies in Guishui River watershed are important for the safety of drinking water in this region.In this study,a Revised Field P Ranking Scheme(PRS)was developed to reflect the field vulnerability of P loss at the field scale based on the Field PRS.In this new scheme,six factors are included, and each one was assigned a relative weight and a determination method.The affecting factors were classified into transport factors and source factors,and,the standards of environmental quality on surface water and soil erosion classification and degradation of the China were used in this scheme.By the new scheme,thirty-four fields in the Guishui River were categorized as"low","medium"or"high"potential for P loss into the runoff.The results showed that the P loss risks of orchard and vegetable fields were higher than that of corn and soybean fields.The source factors were the main factors to affect P loss from the study area.In the study area,controlling P input and improving P usage efficiency are critical to decrease P loss.Based on the results,it was suggested that more attention should be paid on the fields of vegetable and orchard since they have extremely high usage rate of P and high soil test of E Compared with P surplus by field measurements,the Revised Field PRS was more suitable for reflecting the characteristics of fields,and had higher potential capacity to identify critical source areas of P loss than PRS.     

江苏句容水库农业流域水塘和河流N_2O排放速率的研究

在句容水库农业流域的水塘和河流中,用密闭箱法于2007年8、11月和2008年2、5月采集水体表面排放的N2O气样,研究水塘和河流N2O排放速率的季节变化及其影响因素.结果显示,水塘N2O的排放速率范围在-0.42～16.76μg.m-.2h-1之间,河流N2O排放速率在0.29～8.41μg.m-.2h-1之间.由于...     

1950-2009年洞庭湖流域农业水灾演变特征及分异规律

洞庭湖流域为我国重要农业生产区,而农业水灾却一直是制约农业可持续发展的最大障碍因素。以1950-2009年水灾统计资料为依据,用定性与定量相结合的方法,系统分析了该流域农业水灾演变特征及区域分异。结果表明:①年年发生流域性或区域性的农业水灾,其中重灾、特大水灾频率呈增大趋势;②在长时间尺度演变过程中,受灾率异常指数岀现2个波峰期和4个波谷期,成灾率异常指数岀现3个波峰期和3个波谷期,且水灾受灾率与成灾率大体上呈同步变化,但短时间內受灾率与成灾率却呈反向波动;③农业水灾具有突变性,但总体演变呈增加趋势;④受孕灾环境、洪涝致灾因子及经济发展水平组合差异的制约,农业相对灾情与绝对灾情在空间上的分布均呈明显的南北分异与东西分异。     

建阳市农业面源污染调查与防治对策研究

就目前建阳市农业面源污染的现状进行调查,并提出防治对策。     

农村沼气在北方农业源减排中的应用浅析

农村沼气作为一种特殊的清洁能源,在沈阳市农村节能减排、应对气候变化和发展低碳经济、促进新农村建设方面发挥了巨大的作用。本文通过对沼气工程在北方地区应用的阐述,力图推动北方农村沼气在农业源减排工作中的应用。     

水稻种植对中亚热带红壤丘陵区小流域氮磷养分输出的影响

以湖南省长沙县的脱甲流域(高水稻种植面积比例)和涧山流域(低水稻种植面积比例)为研究对象,对比研究红壤丘陵地区典型农业流域水稻种植对河流水体氮磷浓度和输出强度的影响.连续16个月的监测结果表明,脱甲和涧山流域河流水体均存在比较严重的养分污染,尤其是氮污染;对比两个流域,脱甲流域河流水体的氮磷浓度水平和水质恶化程度均高于涧山流域.从养分组成来看,脱甲流域河流水体中氮以铵态氮为主(占总氮的58.5%),而涧山流域主要是硝态氮(占总氮的76.1%).脱甲流域中可溶性磷占总磷比例为47.1%,高于涧山流域的37.5%.从养分浓度变化的时间动态而言,两个流域河流中各形态氮素水平在1~2月和7月较高,而可溶性磷和总磷在5~6月和10~12月出现两个峰值.由于两个流域河道径流主要集中在水稻种植期间的4~10月,脱甲流域河流中较高的氮磷养分浓度意味着潜在的氮磷流失风险.脱甲流域月平均总氮输出通量为1.67 kg·(hm2·月)-1,总磷为0.06 kg·(hm2·月)-1,均高于涧山流域的0.44 kg·(hm2·月)-1和0.02kg·(hm2·月)-1.考虑到两个流域的气候、地形地貌、土壤类型、农田耕作方式相似而只是水稻种植面积比例不同,因此,在该地区传统的水稻栽培管理模式下,较高面积比例的水稻种植对流域河流水体环境存在潜在威胁.     

汉江上游金水河流域氮湿沉降

汉江上游金水河流域是南水北调工程的重要水源涵养区,但是氮污染已成为该流域水质的主要威胁因素.该研究对汉江的金水河流域开展了为期1 a(2012-02~2013-02)的氮湿沉降观测,并利用氮输出模型估算了氮湿沉降对河流氮负荷的贡献量.结果表明雨水中总氮(DTN)的浓度在0.24~2.89 mg·L-1之间,铵态氮(NH+4-N)、硝态氮(NO-3N)及有机氮(DON)分别占42.8%、13.3%和43.9%;雨水氮浓度随降雨量增大而变小,明显受到降雨的稀释作用.流域内氮湿沉降主要来自人类活动,沉降负荷在4.97~7.00 kg·(hm2·a)-1之间,受降雨量的主要影响,上游地区的氮湿沉降负荷>下游地区>中游地区,春夏两季约占全年氮湿沉降的81%.流域氮湿沉降对河流氮负荷贡献量约为34 000~46 000 kg,只占流域氮肥贡献量的5.05%~6.78%,远小于流域内农业活动化肥氮的贡献量,不是河流氮的主要来源.