基于Hertz接触理论的黑水虻幼虫碰撞恢复系数测定

为建立黑水虻幼虫与收集、输送、分离等机械工作部件间发生碰撞时的碰撞模型，基于黑水虻幼虫生物特性，应用Hertz弹性碰撞理论推导了黑水虻幼虫碰撞过程动力学方程，结合运动学方程原理构建了黑水虻幼虫恢复系数的测定装置并进行了黑水虻幼虫恢复系数测定试验。试验针对第5龄期的黑水虻幼虫，采用L16(44×23)混合正交试验方案研究了碰撞材料、材料厚度、下落高度、碰撞角、跌落方向、含水率等因素对黑水虻幼虫恢复系数的影响，然后对碰撞材料、材料厚度、下落高度、碰撞角、跌落方向进行单因素试验，并获得了材料厚度、下落高度、碰撞角对恢复系数的影响规律与回归方程，且方程的决定系数均不小于0.9427。试验结果表明，影响黑水虻幼虫恢复系数的因素影响由大到小为：碰撞材料、下落高度、碰撞角、跌落方向、碰撞材料厚度、含水率，其中含水率对恢复系数影响不显著。单因素试验结果可得：黑水虻幼虫与Q235钢、铝合金、有机玻璃、橡胶等碰撞材料间的恢复系数依次降低，随下落高度的增大而逐渐减小，随材料厚度的增加而逐渐增大，恢复系数随碰撞角的增大而整体呈增大趋势，且横向跌落方向大于纵向跌落方向。该文研究结果可为黑水虻幼虫收集、输送、分离等机械相关工作部件优化设计提供参考依据。     

A rapid,simple, and sensitive immunoagglutination assay with silica nanoparticles for serotype identification of Pseudomonas aeruginosa

An agglutination test based on colored silica nanoparticles (colored SiNps) was established to detect serotypes of Pseudomonas aeruginosa. Monodisperse colored SiNps were used as agglutination test carriers. The colored SiNps were prepared through reverse microemulsion with reactive dyes, sensitized with 11 kinds of mono-specific antibodies against P. aeruginosa, and denoted as IgG-colored SiNps. Eleven kinds of IgG-colored SiNps were individually mixed with P. aeruginosa on a glass slide. Different serotypes of P. aeruginosa could be identified by agglutination test with evident agglutination. The P. aeruginosa could be detected in a range from 3.6 × 10⁵ to 3.6 × 10¹² cfu mL^?1. This new agglutination test was confirmed to be a specific, sensitive, fast, easy-to-perform, and cost-efficient tool for the routine diagnosis of P. aeruginosa.     

沂蒙山区金银花光合效率对土壤水分的响应

为探索抗旱灌木光合作用效率对土壤水分的响应特征与阈值效应，以沂蒙山区优势灌木金银花为材料布设盆栽模拟试验，通过人工灌水与植物自然耗水的方法进行控水处理，在不同水分梯度下测定分析了金银花的光合作用参数，并对土壤水分有效性进行了分级。结果表明:1）金银花叶片净光合速率（P_n）和水分利用效率（WUE）对土壤相对含水量（RSWC）具有明显的阈值响应规律，当RSWC分别为79.59%和47.43%时，金银花P_n、WUE达到最大值。当RSWC=29.71%时，制约光合效率的主要因子由气孔限制转为非气孔限制。2）确定了金银花光合作用的5个特征水分阈值:P_n水分补偿点、P_n水分均值点、P_n水分饱和点、WUE水分均值点和WUE水分高效点。同时，将金银花的土壤水分有效性划分了5个等级:高产高效水、高产中效水、中产高效水、低产低效水和无产无效水。3）田间水分管理时，为维持金银花较高的光合作用水平，应维持的土壤水分范围为:42.38%≤RSWC≤96.05%，避免土壤水分低于29.71%。研究结果可为沂蒙山区干旱逆境下金银花的风险诊断和田间水分管理提供科学依据。     

内蒙古苏木山华北落叶松生物量及碳储量研究

森林生物量、碳储量是评价森林生长状况的重要指标。通过野外样地调查及室内烘干称重等方法,研究了苏木山林场不同林龄华北落叶松人工林乔木层、灌木层、草本层生物量以及乔木层净生产力、碳储量积累特点和变化趋势。结果表明:幼龄林、中龄林、近熟林平均木的生物量分别为26.41 kg、32.70 kg、107.81 kg;林分生物量分别为43.66 t·hm^-2、79.88 t·hm^-2、125.83 t·hm^-2;灌木层和草本层生物量之和分别为1.44 t·hm^-2、1.19 t·hm^-2、0.95 t·hm^-2;乔木层净第一生产力分别为2.56 t·hm^-2·a^-1、3.07 t·hm^-2·a^-1、3.40 t·hm^-2·a^-1,碳储量分别为22.20 t·hm^-2、40.55 t·hm^-2、63.80 t·hm^-2。苏木山华北落叶松人工林生物量、碳储量随林龄增加而增大,各器官碳储量从大到小依次为干>根>枝>皮>叶。     

水流作用下一种养殖金属网衣水阻力特性的数值模拟研究

为保障深远海金属网箱养殖系统的结构安全,进行网箱结构的水动力学研究是一项重要的工作。构成金属网箱主要组成部分的金属网衣是一种小直径多孔的网状结构,在波浪和水流作用下的水动力学特性与一般的海洋工程结构物有显著不同。本文基于有限元基本原理,采用梁单元模拟金属网线结构,采用连接单元模拟网线接触部位的相互作用,并运用ABAQUS软件进行数值计算,在试验验证的基础上,分析了在水流作用下一种金属菱形链网衣在不同网目尺寸、不同网线直径情况下的水阻力变化情况。数值模拟结果表明在各种工况下,当网目尺寸由25 mm增加到35 mm、45 mm时,网衣受力增加幅度的平均值分别为14.71%和38.07%;当网线直径由2.5 mm增加到3.2 mm、4.0 mm时,各工况下网衣受力增加幅度的平均值分别为25.05%和45.06%。研究结果可以为进一步开展深海养殖金属网箱水动力特性研究提供积极的基础。     

中国稻田生态系统服务净价值评估

使用当量因子法和数量模型核算了2007—2016年中国稻田生态系统服务净价值。结果显示:1)2016年中国稻田生态系统提供服务价值为1.344×10~(12)元,服务成本为0.144×10~(12)元,服务净价值为1.2×10~(12)元,平均生态服务净价值为3 977元/hm~2;2)2007—2016年,中国稻田生态系统服务净价值总体呈上升趋势,中东部地区稻田生态系统服务净价值较高,西北地区较低;3)稻田受化肥和农药污染较严重的省份为安徽。研究结论为制定精准的生态补偿机制提供了可靠的参考数据。各省应响应"农业节肥节药"政策,参照稻田生态成本比例有针对性地进行农村污染治理和生态环境保护工作。     

瓜实蝇龄期和密度对蝇蛹金小蜂寄生能力的影响

蝇蛹金小蜂是蝇类害虫重要的蛹期寄生性天敌，为了评价其对蔬菜上重要害虫瓜实蝇的控害潜能，本文就蝇蛹金小蜂对瓜实蝇蛹的寄生潜能进行了研究，建立了功能反应和干扰效应数学模型。结果表明，蝇蛹金小蜂对不同蛹龄瓜实蝇蛹的寄生功能反应均符合 HollingⅡ模型，但不同蛹龄之间的功能反应参数存在差异。蝇蛹金小蜂对 2 日龄、4 日龄和 6 日龄瓜实蝇蛹的模方程分别为 Na = 0.478 0N0/(1+0.010N0)、Na = 0.474 0N0/(1+0.008 6N0) 和 Na = 0.476 4N0/(1+0.009 9N0)。蝇蛹金小蜂自身密度也会对寄生产生一定的干扰效应，用 Hassell-Varley 模型拟合，蝇蛹金小蜂干扰效应方程可表示为：a = 0.071 9P –0.252 6。     

春大豆鼓粒期冠层翻叶原因及翻叶对叶片净光合速率和粒重的影响

为明确春大豆鼓粒期冠层翻叶原因及翻叶对粒重的影响。在大田条件下,以28份大豆品种为材料,采用随机区组试验设计,研究了鼓粒初期植株顶部4片叶的单叶面积、比叶重、叶型指数、叶片含水量与翻叶率的关系;比较了翻叶与对照叶片的净光合速率、百粒重及粒重的差异。结果表明,不同大豆品种间翻叶率在0~26.5%之间,且差异显著,其中以‘中黄313’、‘中黄42’和‘中黄13’最高;单叶面积在46~151 cm²之间,其中以‘中黄39’、‘中黄42’和‘中黄13’最大;比叶重在0.536~1.64 mg/cm²之间,其中以‘中黄322’、‘中黄313’和‘中黄13’最低;叶型指数在1.35~3.51之间,其中以‘中黄70’、‘中黄80’和‘中黄42’最低。供试大豆品种分为3个类群,第I类群品种单叶面积小,比叶重高,叶型指数大,翻叶率为1.03%;第III类群品种单叶面积大,比叶重小,翻叶率高达19.7%;第II类群共4个品种,单叶面积、比叶重、叶型指数、翻叶率介于第I类和第III类群之间。翻叶后显著降低叶片净光合速率,平均降幅31.7%,粒数较多的‘新大豆27号’百粒重降低10.38%~22.4%,而粒数少的‘吉育60’粒重没有降低。大豆上层叶片单叶面积大、比叶重小及叶型指数低的叶片翻叶率高,翻叶降低叶片净光合速率,进而降低同节位百粒重及单节粒重,不利于大豆高产。     

Ridge-furrow plastic mulching with a suitable planting density enhances rainwater productivity,grain yield and economic benefit of rainfed maize

Soil surface mulching and planting density regulation are widely used for effective utilization of limited rainwater resources and improvement of crop productivity in dryland farming.However,the combined effects of mulching type and planting density on maize growth and yield have been seldom studied,especially in different hydrological years.A field experiment was conducted to evaluate the effects of mulching type and planting density on the soil temperature,growth,grain yield(GY),water use efficiency(WUE)and economic benefit of rainfed maize in the drylands of northern China during 2015-2017.Precipitation fluctuated over the three years.There were four mulching types(NM,flat cultivation with non-mulching;SM,flat cultivation with straw mulching;RP,plastic-mulched ridge plus bare furrow;RPFS,plastic-mulched ridge plus straw-mulched furrow)and three planting densities(LD,low planting density,45.0×10^3 plants/hm^2;MD,medium planting density,67.5×10^3 plants/hm^2;HD,high planting density,90.0×10^3 plants/hm^2).Results showed that soil temperature was higher with RP and lower with SM compared with NM,but no significant difference was found between RPFS and NM.More soil water was retained by soil mulching at the early growth stage,but it significantly varied at the middle and late growth stages.Maize growth was significantly improved by soil mulching.With increasing planting density,stem diameter,net photosynthetic rate and chlorophyll content tended to decline,whereas a single-peak trend in biomass yield was observed.Mulching type and planting density did not have significant effect on evapotranspiration(ET),but GY and WUE were significantly affected.There were significant interacting effects of mulching type and planting density on biomass yield,GY,ET and WUE.Compared with NM,RPFS,RP and SM increased GY by 57.5%,50.8%and 18.9%,and increased WUE by 66.6%,54.3%and 18.1%,respectively.At MD,GY increased by 41.4%and 25.2%,and WUE increased by 38.6%and 22.4%compared with those of at LD and HD.The highest maize GY(7023.2 kg/hm^2)was observed under MD+RPFS,but the value(6699.1 kg/hm^2)was insignificant under MD+RP.Similar trends were observed for WUE under MD+RP and MD+RPFS,but no significant difference was observed between these two combinations.In terms of economic benefit,net income under MD+RP was the highest with a 9.8%increase compared with that of under MD+RPFS.Therefore,we concluded that RP cultivation pattern with a suitable planting density(67.5×10^3 plants/hm^2)is promising for rainwater resources utilization and maize production in the drylands of northern China.