Development of bacteria and benthic total maximum daily loads: a case study, Linville Creek, Virginia

Two total maximum daily load (TMDL) studies were performed for Linville Creek in Rockingham County, Virginia, to address bacterial and benthic impairments. The TMDL program is an integrated watershed management approach required by the Clean Water Act. This paper describes the procedures used by the Center for TMDL and Watershed Studies at Virginia Tech to develop the Linville Creek TMDLs and discusses the key lessons learned from and the ramifications of the procedures used in these and other similar TMDL studies. The bacterial impairment TMDL was developed using the Hydrological Simulation Program-Fortran (HSPF). Fecal coliform loads were estimated through an intensive source characterization process. The benthic impairment TMDL was developed using the Generalized Watershed Loading Function (GWLF) model and the reference watershed approach. The bacterial TMDL allocation scenario requires a 100% reduction in cattle manure direct-deposits to the stream, a 96% reduction in nonpoint-source loadings to the land surface, and a 95% reduction in wildlife direct-deposits to the stream. Sediment was identified as the primary benthic stressor. The TMDL allocation scenario for the benthic impairment requires an overall reduction of 12.3% of the existing sediment loads. Despite the many drawbacks associated with using watershed-scale models like HSPF and GWLF to develop TMDLs, the detailed watershed and pollutant-source characterization required to use these and similar models creates information that stakeholders need to select appropriate corrective measures to address the cause of the water quality impairment when implementing the TMDL.     

超微气泡富氧+生物活化技术在黑臭水体治理中的工程应用

针对当前黑臭河道治理工作中出现的黑臭反复,长效性难保持问题,以某内源污染严重的重度黑臭河道为例实施原位生态修复。第1阶段采用超微气泡富氧（移动式曝气船+定点式曝气设备）和生物活化技术进行水体和底质修复,削减内源污染,改善生境;第2阶段应用定点式曝气设备、生态浮岛、水生植物净化、水生动物多样性调控进行生态修复,营造健康稳定的生态系统。经过近4个月的治理,治理区水质由重度黑臭稳定达到GB 3838—2002《地表水环境质量标准》Ⅴ类水标准,水体COD、NH₃-N和TP含量分别为28.79,0.36,0.19 mg/L,去除率分别达到45%、98%和85%以上,治理后水体澄清,可见多种水生动物和沉水植物,河道底质呈现自然泥土色泽,在未进行清淤处理的情况下即达到了泥水共治的效果,水环境质量得到显著提升,实现了长效治理。     

三唑酮在设施栽培土壤及大白菜中的消解动态及残留

为评价三唑酮在大白菜施用后的环境安全性,建立了GC测定蔬菜及土壤中三唑酮残留的方法,进行露地与设施栽培条件三唑酮在大白莱和土壤中的消解动态和最终残留研究.在大白菜和土壤中的最低检测质量分数均为0.001 mg/kg,三唑酮的平均加标回收率为81.5％～110.6％,变异系数为1.32％～6.04％.消解动态试验为2倍推荐使用剂量施药1次,三唑酮在设施栽培大白菜的半衰期分别为2.72～3.30 d和3.21～3.35 d;露地栽培为2.35～2.87 d和2.30～3.12 d.设施栽培大白菜中三唑酮残留量与用药量正相关,随着施药量的增加,消解速度减慢,残留量相应增大.研究可为制定三唑酮设施栽培大白菜上最大残留限量和合理使用准则以及风险评估提供科学依据.     

Nutrient transport from livestock manure applied to pastureland using phosphorus-based management strategies

Land applications of manure from confined animal systems and direct deposit by grazing animals are both major sources of nutrients in streams. The objectives of this study were to determine the effects of P-based manure applications on total suspended solids (TSS) and nutrient losses from dairy manures and poultry litter surface applied to pasturelands and to compare the nutrient losses transported to the edge of the field during overland flow events. Two sets of plots were established: one set for the study of in-field release and another set for the study of edge-of-the-field nutrient transport. Release plots were constructed at three pastureland sites (previous poultry litter applications, previous liquid dairy manure application, and no prior manure application) and received four manure treatments (turkey [Meleagris gallopavo] litter, liquid dairy manure, standard cowpies, and none). Pasture plots with a history of previous manure applications released higher concentrations of TSS and higher percentages of total P (TP) in the particulate form. Transport plots were developed on pasture with no prior manure application. The average flow-weighted TP concentrations were highest in runoff samples from the plots treated with cowpies (1.57 mg L(-1)). Reducing excess P in dairy cow diets and surface applying manure to the land using P-based management practices did not increase N concentrations in runoff. This study found that nutrients are most transportable from cowpies; thus a buffer zone between pastureland and streams or other appropriate management practices are necessary to reduce nutrient losses to waterbodies.