中国北方某流域畜禽养殖污染与防治对策研究

通过实地调研和等标污染负荷模型等研究方法,对北方某流域内畜禽养殖产生的环境污染进行定量化研究.结果表明:研究区规模化大型畜禽养殖和小户养殖都比较多,管理混乱;流域内畜禽养殖污染向水体排放污染物主要是COD,占排污总量的82.73％;等标污染负荷研究显示流域主要污染物是TN和TP,在对畜禽污染的治理中应着重治理TN和TP的污染;研究区应在合理规划布局选址基础上,建立畜禽粪便治理和综合利用设施,实现资源利用的最大化,促进流域的可持续发展.     

嘉兴市水污染源解析及等标污染负荷评价

研究水环境污染的主要来源及主要污染物,对于区域水污染治理具有重要意义。本文通过分析嘉兴市各类污染物入河量,以及污染物等标排放量的计算,得出了嘉兴市水环境污染的主要污染物和主要污染源。结果表明,嘉兴市面源污染物的入河量大于点源,畜禽养殖是面源污染的主要来源,也是总磷的主要来源。点污染的主要来源是城镇生活,其中,桐乡市污染物入河量最大,各区县的污染物入河量总体服从桐乡市﹥南湖区﹥嘉善县﹥平湖市﹥海宁市﹥秀洲区﹥海盐县的分布。等标污染负荷的方法显示：嘉兴市的主要污染源是畜禽养殖、城镇生活和农田;总氮、氨氮和总磷为主要污染物。     

陕西渭南地区土地生产潜力及其人口承载量

本文以多年大量的资源考察、经济统计资料为依据,运用系统动力学方法,通过建立包括土地资源、水资源和种植业、畜牧业、渔业等为主的土地生产潜力模型及人口发展预测模型,对未来40年渭南地区不同投入状况下土地生产潜力及其不同消费水平下的人口承载量,作了趋势性定量分析和预测,并得出渭南地区具有较大的土地潜在人口支持能力的基本结论。     

Distance and flow effects on microsphere transport in a large gravel column

Consumption of microbially contaminated ground water can cause adverse health effects and the processes involved in pathogen transport in aquifers need to be understood. The influences of distance, flow velocity, and colloid size on colloid transport were examined in homogenous pea-gravel media using an 8-m column and three sizes (1, 5, and 10 microm) of microspheres. Experiments were conducted at three flow rates by simultaneously injecting microspheres with a conservative tracer, bromide. Observed concentrations were simulated with CXTFIT and analyzed with filtration theory. The results demonstrate that colloid concentration is strongly log-linearly related to transport distance (as suggested by filtration theory) in coarse gravels, similar to our previous field studies. In contrast, the log-linear relationship is often reported to be invalid in fine porous media. The observed log-linear relationship is possibly because straining is negligible in the coarse gravels investigated. This has implications in predicting setback distances for land disposal of effluent, and suggests that setback distances in gravel aquifers can be estimated using constant spatial removal rates (f). There was an inverse relationship between transport distance and colloidal concentration, but not with temporal attachment rate (katt) and collision coefficient (alpha). Increases in flow velocity result in increasing colloidal recovery, katt and alpha but decreasing f. Increases in sphere size result in decreasing colloidal recovery with increasing katt, f, alpha, and velocity enhancement. Diffusion is the dominant collision mechanism for 1-microm spheres (81-88%), while settling dominates for 5- and 10-microm spheres (> 87%), and interception is very small for all spheres investigated.     

我国水污染治理行业2007年技术发展综述

本文在对行业重点水污染治理企业调查的基础上,综述了2007年我国水污染治理行业的技术开发应用情况、技术研究热点及发展趋势,并对存在的主要问题提出了对策建议.     

The influence on carbon,nitrogen recycling,and greenhouse gas emissions under different C/N ratios by black soldier fly

Environmental Science and Pollution Research - Currently, sustainable utilization, including recycling and valorization, is becoming increasingly popular in waste management. Black soldier fly...     

Glyphosate application increased catabolic activity of gram-negative bacteria but impaired soil fungal community

Environmental Science and Pollution Research - Glyphosate is a non-selective organophosphate herbicide that is widely used in agriculture, but its effects on soil microbial communities are highly...     

江苏省太湖流域水功能区纳污能力及限制排污总量研究

水功能区纳污能力及限制排污总量研究是制定区域水污染控制规划的基础。依据《江苏省地表水(环境)功能区划》,结合江苏省太湖流域现状水质和污染概况,针对河网区和湖库区分别采用一维、二维非稳态模型,计算江苏省太湖流域水功能区纳污能力,在此基础上,引入最大污染物入河量,核定50%、75%和90%水文保证率下的最大污染物入河量分别为2015年、2020年和2030年限排总量。结果表明:(1)CODMn和氨氮纳污能力分别为284 803 t/a和22 448 t/a;(2)2015年CODMn和氨氮限排总量分别为221 867 t/a和20 520 t/a,2020年和2030年限排总量递减,均小于纳污能力;(3)CODMn和氨氮入河量削减率分别为21.8%和46.3%,与水质超标率相差均在25%以内,基本相符。江苏省太湖流域纳污能力、限排总量、污染物入河量削减率和水质超标率之间关系合理,计算结果合理。研究成果为太湖流域水环境控制规划提供决策依据。