On the Comprehensive Prevention and Control Technology of the Reproductive Organ Disease of Breeding Geese under the Anti-season Breeding Mode

Reproductive organ disease of geese is an endemic and multiple infectious disease in large-scale breeding of breeding geese, especially in anti-season production, which brings a great economic loss to goose production. To make effective prevention and control of reproductive organ disease of breeding geese under the anti-season breeding mode, the characteristics of control principles of infectious diseases of the poultry and the occurrence and prevalence of reproductive organ disease must be combined, so as to carry out scientific prevention and control.At the same time, according to the climate characteristics of summer, the feeding and management of breeding geese and water quality control should also be done well, and many corresponding measures should also be taken, thus obtaining better effect.

Comprehensive Prevention and Control Technologies of Rice Blast in Disease Nanchong City

The study was conducted to reduce blast damage, the use of pesticides residue, environment pollution and control costs, and to make a significant contribution to the improvement of grain production, quality and agriculture ecological environment. Over these years, by the methods of systematical monitoring, regular surveys, field investigation, rice blast resistance identification, experiments and meteorological data analysis, the study on comprehensive prevention and control of rice blast in Nanchong City was conducted. The results showed that the rice varieties more sensitive to blast had a higher incidence of severe blast disease. Replacing,varieties with different source of resistance every three to five years and reasonable variety distribution can effectively reduce the prevalence of rice blast. Appropriate treatment of infected rice straw and pathogen, seed disinfection, seedling disinfection, and pesticide application at transplanting and etc. can delay blast occurrence and reduce the damage caused by blast. By analyzing the blast control efficiency of pesticides applied at different growth stages, we found that best control efficiency against blast was achieved by spraying pesticide twice during the whole growth stage, once 3 d before transplanting or 10 d after transplanting; and once at initial heading stage. Spraying 525 g/hm^2 75% tricyclazole was proven to be the best dosage for blast control. However, 375-450 g/hm^2 75% tricyclazole is enough if the blast incidence is not severe, or the rice varieties are slightly susceptible to blast.The control efficiency against leaf blast between 4% kasugamycin and 20% tricyclazole had no significant difference, but was significantly higher than that of 100 billion spores/g of Bacillus subtilis. The control efficiency against neck blast had no significant difference among 4% kasugamycin, 20% tricyclazole and 100 billion spores/g of B. subtilis. 450 g/hm^2 75% tricyclazole had better control efficiency against neck blast than 2 250 g/hm^2 2% 800 million spores/g Jinggangmycin-wax bud bacteria SC, 1 050 g/hm^2 41% kasugamycin-isoprothiolane WP and 900 g/hm^2 41%kasugamycin-isoprothiolane WP. The frequency of severe blast incidence in Nanchong City has reached 50% since 1997. The rice blast disease has been effectively controlled by comprehensive prevention and control technology, reducing the production loss to less than 2%, and pesticides by 4 523 t in total. In 2014, 327000 t rice grains were approved as pollution-free, green and organic agricultural products, indicating that the blast control measures produced great economic, social and ecological values.

Integrated Prevention and Control System for Soil Erosion in Typical Black Soil Region of Northeast China

The black soil region of Northeast China is one of the most important food production bases and commodity grain bases in China. However, the continual loss and degradation of precious black soil resources has led to direct threats to national food security and regional sustainable development. Therefore, it is necessary to summarize integrated prevention and control experience of small watersheds in black soil region of Northeast China. Tongshuang small watershed, a typical watershed in rolling hills of typical black soil areas in Northeast China, is selected as the study area. Based on nearly 50 years' experience in prevention and control of soil and water loss, the structures and overall benefits of an integrated prevention and control system for soil and water loss are investigated. Then, the 'three defense lines' tri-dimensional protection system with reasonable allocation of different types of soil and water control measures from the hill top to gully is systematically analyzed. The first line on the top hill can weaken and block uphill runoff and sediment, hold water resources and improve soil property. The second line on the hill can truncate slope length, slow down the runoff velocity and reduce erosion energy. The third line in the gully is mainly composed of waterfall engineering, which can inhibit soil erosion and restore land resources. The 'three defense lines' system is feasible for soil and water loss control of small watersheds in the typical black soil region of Northeast China. Through the application of the in Tongshuang small watershed, There are effective improvements in ecological conditions in Tongshuang small watershed after the application of 'three defense lines' soil and water control system. Moreover, the integrated treatment paradigm for soil and water loss in typical black soil region is compared with that in loess region. The results of this study could offer references and experiences for other small watersheds in typical black soil region of Northeast China.

Site Selection of Waste Slag Yard and Design of Protective Measures in Water Supply Project of Drawing from the Songhua River in Central Cities of Jilin

Water supply project of drawing from the Songhua River in central cities of Jilin is taken as research object.On the basis of analyzing project characteristics and natural conditions of the project area,site selection of waste slag yard of water diversion project and design of water and soil conservation measures are discussed.Rationality of site selection of waste slag yard and pertinence of prevention and control measures of water and soil loss in waste slag yard are analyzed,and comprehensive utilization of waste slag in large-scale production and construction projects is explored.

考虑采动效应的闭坑矿井水硫酸盐污染规律

高硫煤矿闭坑后成为埋藏在地表以下深部的产酸污染场,对相邻含水层和周边环境造成了潜在危害,且因采动效应影响和矿井空间分布复杂导致相邻含水层的污染过程与污染程度评价困难。以某闭坑矿区为研究对象,选取SO_(4)^(2-)作为特征污染物,考虑多煤层采动裂隙对含水层结构的破坏影响,运用数值模拟技术对闭坑矿区酸性矿井水中SO_(4)^(2-)污染迁移特征进行研究,并分析流体扩散系数对含水层污染物运移的影响。结果表明:SO_(4)^(2-)在二叠系童子岩组砂岩含水层中水平迁移面积随时间增大而增大,增大速率逐渐减小,垂向渗透系数扩大10倍,空间变异性增强;闭坑5、10、15a后,最大水平迁移距离分别为215、414、612m,最大垂向迁移距离分别达到50、65、70m;而扩散系数越大,产酸时间越长,SO_(4)^(2-)迁移距离和污染范围将随之增大,相较于水平方向,垂向上SO_(4)^(2-)浓度变化对扩散系数的敏感度更高。基于模拟结果,结合闭坑矿区实际条件,针对性提出了“源头减量-过程阻断-末端治理”的综合防控与治理方案。研究结果将为该闭坑煤矿酸性矿井水污染治理与防控提供理论基础,也为其他同类矿井提供科学借鉴。

河套灌区农业高效节水与面源污染防控技术

针对河套灌区水资源短缺、农业面源污染严重等问题,从不同空间尺度和治理环节入手开展灌区农业高效节水与面源污染源头防控技术研究。研发了针对污染源头的农田水肥盐药调控管理技术模式(包括除草剂残留研究与用量推荐、土壤水氮盐和作物生长对水肥管理的响应、减量膜上秋浇技术及次生盐渍化土壤微生物改良技术)、针对农田排水的富氧生态沟渠截污净化技术模式和区域尺度的面源污染空间解析识别技术,并集成构建了贯穿源头控污—过程削污—区域查污—系统调污的高效节水型农业面源污染防控技术体系。基于现状研究和新发展理念提出了河套灌区水土资源领域研究的几点认识,相关成果为河套灌区高质量发展提供了重要支撑,对同类型灌区具有重要借鉴意义。

我国不同类别煤层顶板水害致灾机理与防控路径

我国是世界上成煤和赋存条件最复杂的国家,煤层顶板水文地质条件的多样性和复杂性,采动覆岩裂隙场与渗流场耦合的相互性和时变性以及煤层顶板突水的独特性和危害性,造成顶板水害是我国尤其是西部煤矿区的主要矿井灾害之一。为了更好地认识顶板水害和推广现有技术和探索新技术防控此类矿井灾害,在全面分析近年来我国煤层顶板水害事故规律与顶板充水含水层的赋存条件、突水模式、动力特征、力学行为等基础上,系统划分了顶板水害的类型、特征、主要类别的致灾机理及梳理了现有顶板水害的防治技术,并展望了未来顶板水害防治领域的发展方向。研究发现:①顶板水害主体架构包括巨厚基岩含水层涌(淋)水、薄基岩弱胶结层水-砂耦合溃涌、离层空间蓄水储能突水、天窗补给型突水、围岩烧变增透致突等5种类别,集中分布于秦岭—淮河沿线以北地区,陕、蒙、宁是顶板水害主要聚集地。②采动诱发巨厚基岩含水层下覆岩原生裂隙互馈-贯通发育“Z”型离层空间,导致采场出现大面积涌(淋)水现象;基于复合关键层破断力学条件,阐明了薄基岩弱胶结层水-砂耦合溃涌致灾的动力源;构建了离层失稳突水临界判别准则,将离层突水划分为静载扰动、“动+静”载复合扰动、复合煤层开采重复扰动3种模式;红土隔水层缺失及红土薄弱区采动劣化损伤是产生天窗越流补给的主要根源;围岩烧变增透,孔隙度增大,接受临近水源补水后形成新的含水结构体,在采动诱发下烧变岩水涌入采场发生水害事故。③梳理了当前煤层顶板水害“探-放-治”三位一体的解危防控技术体系,提出了井上下共轭联动、钻-采(掘)高位协同地质勘探系统,以防治水“三区”划分为导向的地质保障工作,“煤-水-生态”多目标齐抓共管的绿色开采和防治水理念,以及数智化、透明化矿山水文地质灾害信息维护系统等未来发展方向。

甘肃省甘南州牛羊焦虫病综合防控技术

牛羊焦虫病是一种常见的具有地方流行性和蜱传性的寄生虫病,对甘南州部分县市牛羊养殖业危害严重。通过对流行区域进行系统的流行病学调查及血涂片镜检,摸清并掌握牛羊焦虫病的感染情况和发病流行规律。该文就牛羊焦虫病的病原特点、临床症状、诊断、预防和治疗作以论述,旨在指导养殖户根据本地养殖特点,建立焦虫病综合防治方案,有效降低该病的发病率和死亡率。

张双楼矿24901工作面复合水害评价与综合防治水对策

矿井突水是煤矿生产过程中最具威胁的灾害之一,工作面回采前需对面临的水害威胁进行综合评价与治理。以张双楼煤矿24901工作面为例,针对研究区面临的西翼采区底板四灰高承压、断层及陷落柱构造发育、底板四灰富水差异大等水文地质问题,通过开展四灰含水层分阶段井下放水试验、老空水现场钻孔探放、陷落柱物探钻探综合探查、室内分析测试和理论分析,揭示研究区底板四灰岩溶发育与富水规律,查明老空水积水位置、积水量以及陷落柱发育范围、导(含)水性等,并提出了老空水、西翼底板四灰、陷落柱及断层构造等复合水害综合防治技术体系。相关研究成果揭示了东部矿区普遍面临的煤层底板灰岩水及构造水等水害特征,可为研究区及相似开采条件下矿井防治水工作提供一定的理论及工程依据。

城市园林景观对河道水污染的防治效果研究

针对城市水污染日益严重的问题,提出城市园林景观对河道水污染的防治效果研究。采集滨河公园河道各采样点水体样本,以理化指标、重金属和类金属含量及对应WQI和TLI评估上、下游水质。分析后可知,园林景观对河道水污染防治作用明显,且部分指标间存在关联作用,进一步分析植被过滤带、台地式石笼护岸、河岸斜坡式缓冲带和生态浮岛中各种植类型的净化效果,实验分析得出各种植类型均具备防治效果,其中乔灌木群落栽植效果最佳,因地制宜地结合各种植类型能够有效防治河道水污染。

基于“蓄排平衡”的城市市政-水利综合排涝探究与实践

在气候变化和城市化的共同影响下,极端暴雨天气愈演愈烈,加之排涝除险技术体系尚不完善,系统韧性不足,导致城市洪涝灾害频发,严重影响了社会经济和居民生活,目前亟需提出符合现代化城市建设需求的排水防涝设施建设方案。针对上述普遍性问题,文章介绍了一种基于“蓄排平衡”的市政-水利综合排涝体系,综合市政内涝防治系统、水利防洪排涝系统、超标应急控制系统和保障措施,利用城市自身规划条件,结合城市地形地貌、竖向标高、水系分布和洪潮分析等多重影响因素,对内涝风险区进行竖向标高调节、水系治理和调蓄设施建设等,达到城市水体的“蓄排平衡”状态。该方法通过探究市政内涝防治系统和水利防洪排涝系统在标准衔接上的共通之处,统筹两系统排水防涝设施的建设,实现市政与水利系统在水量和水位上的衔接,最终提出了基于“蓄排平衡”的衔接方法。研究以南方沿海某生态环境治理工程为依托,借助该区域市政系统与水利系统的水利模型,构建城市内涝防治体系。案例结果显示,基于“蓄排平衡”的市政-水利综合排涝体系可以在城市内涝防治中优化排涝设施的布局,有效缓解城市内涝灾害,为国内其他城市类似项目提供参考。

下穿地表水塘浅埋隧洞综合超前预报与防控措施研究

下穿地表水塘浅埋隧洞是一项复杂且高风险的工程,地质条件对施工安全和工程质量影响巨大。施工前深入了解地质情况,制定有效的安全防控措施至关重要。研究以磨盘山隧洞为依托,探讨了下穿地表水塘浅埋隧洞工程中的地质风险与安全防控措施。针对该难题,基于地质分析、地震波法、瞬变电磁预报方法和钻孔探测等方法,构建了下穿地表水塘浅埋隧洞的综合超前预报体系,并对下穿地表水塘隧洞区段的不良地质进行了探测与综合分析预警。结果表明:建立的下穿地表水塘浅埋隧洞的综合超前预报体系能够有效地判识隧道前方不良地质情况,得出的预警结果能够有效地指导现场施工,为现场安全防控措施的制定提供了依据,保障了磨盘山隧洞的高效安全掘进。

基于综合物探的承压开采回采工作面底板注浆治理效果分析

为了验证承压开采回采工作面底板注浆治理效果,本文以霍州煤电汾源煤业5-104工作面底板注浆工程为例,注浆前采用多种(多次)物探技术手段,对承压开采回采作面内部及底板构造赋存、含水层富水性等情况进行综合探查;工作面需要开展多次注浆,每次注浆后采用物探手段进行验证,指导下一次注浆,为注浆治理工作提供“靶区”;将注浆前后综合物探数据进行对比分析,检验注浆治理效果,保障回采工作面安全回采。

综合物探法在掘进工作面防治水中的应用

为保障巷道掘进过程中的安全性,以山西焦煤霍州煤电洪崖煤业有限公司3-1021运输巷道为研究对象,采用理论分析和现场实测的方法对综合物探法在掘进工作面的应用展开研究。研究结果表明:3-1021巷道在同层隐伏构造及上覆小窑破坏区可能存在水患威胁;以直流电法和瞬变电磁法相结合的综合物探法用于巷道掘进工作面的超前探测,可有效增加掘进工作面超前探测的精度;依据综合物探法的探测结果,3-1021巷道掘进过程中共对4处水害威胁区域进行了钻孔放水作业,保障了巷道掘进工作面的安全。

水土保持技术在水利工程建设中的运用

准确应用水土保持技术,打造科学的水土保持体系,可更好地满足水利工程项目协同管理的要求,实现经济效益和环保效益和谐统一的目标。本文在充分分析水利工程项目水土流失特点的基础上,提出了提升水土保持技术在水利工程应用水平的相关措施,可为水利工程建设过程中水土流失防治工作提供依据。

煤矿矿井水污染源自动监测及综合防治技术研究

煤矿开采造成了矿井水污染问题,威胁人们的身体健康,为此,研究煤矿矿井水污染源自动监测及综合防治技术。以陕西省西安市彬长矿区为研究区域,分析该矿区的基本概况。对研究区域矿井水污染源开展自动监测,分析矿井水污染的主要来源。利用化学物质对水入射光线的吸附与分散效应进行水质参数监测,根据监测结果通过从源头控制、污染治理、矿井水资源化和优化排放方式四个防治措施实现研究矿区矿井水的综合防治。实验结果表明,所提方法的污染源监测精度较高,监测误差能够控制在1%以内,应用效果较好。

遥感技术在沙漠化防治中的应用

本文介绍了沙漠化的主要特征及对环境和社会的影响;分析了沙漠化监测与防治方法的优劣势;在此基础上分析了遥感技术在沙漠化研究中的应用,包括遥感数据的获取、处理方法及其应用,重点讨论了遥感技术在土地退化监测、植被恢复和水资源管理等方面的应用;探讨了遥感技术在沙漠化监测和防治领域未来的研究方向和面临的挑战。旨在通过探讨当代遥感技术在沙漠化防治中的研究应用,为促进沙漠化防治工作的进一步发展和完善提供参考。

红层地区高瓦斯引水隧洞施工关键技术研究

以亭子口灌区一期工程Ⅲ标金鸡梁隧洞为例,针对红层地区高瓦斯引水隧洞施工安全问题,结合红层地区粉砂质泥岩特性,分析了隧洞施工过程中采用的相应措施。结果表明:采用超前地质钻孔进行瓦斯释放与预报;利用人工检测与自动监测相结合的方式加强瓦斯监控;按照“一备一用”的要求配置以加强洞内通风;对机械设备加装车载瓦斯自动监控报警与断电系统以及尾气火花熄灭器,对隧洞用电进行“三专”“两闭锁”改造等有针对性的措施,可以时刻掌握隧洞内的瓦斯浓度变化,消除隐患,保证隧洞施工的安全,所取得的经验可为类似工程借鉴。

北方超大城市三水协同科技支撑路径研究

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