猪活动区域多孔介质模型及其阻力系数的CFD模拟

旨在尝试将躺卧姿势下的猪体简化成不同几何形状以求取其阻力系数,并分析它们的差异性。本研究采用校核过的CFD模型,模拟探究了简化猪模型、半椭球模型、椭球模型和半圆柱模型4种不同躺卧猪模型对猪群区域在X、Y和Z3个垂直方向上阻力系数的影响,分析了4种模型对猪栏内气流以及压力分布的影响。结果表明,椭球模型的惯性阻力系数相比半椭球模型与半圆柱模型更加接近简化猪模型,其在X、Z和Y方向上的惯性阻力系数与简化猪模型之间的相对误差分别为-4.0%、-12.2%和14.7%,并且气流与压力分布基本一致。因此,采用椭球模型代替简化猪模型进行建模计算不仅能保证准确度还能有效提高计算效率。     

农机远程智能管理平台研发及其应用

本研究针对农机管理实时数据少、农机实时作业监管困难、服务信息不对称等问题，首先提出专业化远程管理平台设计时应具有五大原则：专业化、标准化、云平台、模块化以及开放性。基于这些原则，本研究设计了基于大田作业智能传感技术、物联网技术、定位技术、遥感技术和地理信息系统的可定制化的通用农机远程智能管理平台。平台分别为各级政府管理部门、农机合作社、农机手、农户设计并实现了基于WebGIS 的农机信息库及农机位置服务、农机作业实时监测与管理、农田基础信息管理、田间作物基本信息管理、农机调度管理、农机补贴管理、农机作业订单管理等多个实用模块。研究着重分析了在当前的技术背景下，平台部分关键技术的实现方法，包括采用低精度GNSS定位系统前提下的作业面积的计算方法、GNSS定位数据处理过程中的数据问题分析、农机调度算法、作业传感器信息的集成等，并提出了以地块为核心的管理平台建设思路；同时提出农机作业管理平台将逐步从简单作业管理转向大田农机综合管理。本平台对同类型管理平台的研发具有一定的参考与借鉴作用。     

野生型水稻及其低硅突变体中植硅体和植硅体碳的含量与分布特征

【目的】 水稻是典型的富硅植物，植硅体沉积在水稻体内可封存有机碳。本文分析不同吸硅能力基因型水稻植硅体含量、形态、分布及其固碳特征，探究水稻植硅体固碳机理。 【方法】 盆栽试验在浙江大学玻璃房内进行。供试材料为水稻低硅突变体Lsi1和Lsi2及其野生型，所有施肥和管理措施一致。于成熟期，取水稻地上部茎、叶、鞘样品，常规方法测定硅、植硅体、植硅体碳含量。 【结果】 1) 不同基因型水稻体内硅含量、植硅体含量、生物量干物质植硅体碳含量存在显著差异，均表现为突变体显著低于其野生型，大小依次为Lsi1野生型 > Lsi2野生型 > Lsi2突变体 > Lsi1突变体，Lsi1和Lsi2突变体水稻植硅体碳含量显著高于其野生型，大小依次为Lsi1突变体 > Lsi2突变体 > Lsi2野生型 > Lsi1野生型。2) 野生型水稻硅与植硅体含量为鞘 > 叶 > 茎，而突变体水稻硅与植硅体含量为叶 > 鞘 > 茎，水稻叶片中的植硅体碳与生物量干物质植硅体碳含量最高，植硅体碳含量整体分布趋势为叶 > 茎 > 鞘，生物量干物质植硅体碳含量整体变化趋势为叶 > 鞘 > 茎。3) 水稻植硅体含量与硅含量之间呈极显著正相关 ( P < 0.01)，高吸硅的水稻植硅体含量高，且形成的植硅体比表面积小，表明植硅体含量及其形态受其遗传特性的影响。植硅体含量与生物量干物质植硅体碳含量之间呈极显著正相关 ( P < 0.01)，植硅体碳含量与生物量干物质植硅体碳含量之间呈极显著负相关( P < 0.01)，表明生物量干物质植硅体碳含量除了受植硅体含量影响，还受植硅体所包裹的有机碳浓度影响。4) Lsi1及Lsi2野生型水稻生物量、植硅体储量、植硅体碳储量显著高于其突变体。 【结论】 具有高吸硅能力的野生型水稻与其突变体相比，生物量、硅、植硅体、生物量干物质植硅体碳含量增加，分布不同，虽然植硅体碳含量降低，但植硅体碳储量增加。Lsi1及Lsi2野生型水稻比低硅突变体水稻具有更高的固碳潜力。      

Review of Measurement Technologies for Air Pollutants at Livestock and Poultry Farms

With the intensification of livestock breeding, the air quality problem of livestock farms caused by high density breeding is becoming more and more serious. Animal husbandry has become one of the important sources of air pollutants in China. Air emitted from most intensive livestock houses contains a large amount of pollutants, including ammonia, sulfides, particulate matters (PM), volatile organic compounds (VOCs), which not only poses a big threat to animals and workers in livestock farms, but also spreads to the surrounding environment resulting in air pollution. Scientific and applicable air pollutants measuring methods are the basis of monitoring and controlling air pollution in livestock and poultry farms. In this article, the detection methods of livestock farming related hazardous gases (e.g., NH₃, H₂S), greenhouse gases, particulate matters and odor were summarized. The detection methods of hazardous gases in livestock houses mainly include chemical analysis, semiconductor gas sensor detection, spectroscopic methodology and mass spectrometry. The wet-chemical method is cheap and can detect gases sensitively and accurately, while it cannot detect gases in real time, and the process is time-consuming and labor-intensive. The gas tube is cheap and easy to operate, but the deviation is great. Electrochemical sensor is of high sensitivity, moderate cost and can be used to detect gas concentration continuously, however, the devices are easy to age. Spectrum method and mass spectrometry can detect gas quickly and accurately, but it is not suitable for conventional air detection of productive livestock farming due to its high costs. In this paper, the detection methods of greenhouse gases (e.g., CH₄, CO₂) generated from animal intestinal fermentation and livestock environment were also summarized. It is hard to conclude an accurate detection of greenhouse gases in animal husbandry, because the concentrations of greenhouse gases in animal husbandry changes all the time (diurnal and seasonal) and are related to other factors including sampling points. No international common testing method and measurement standard are concluded till now, therefore, the research of greenhouse gases detection method and standard in animal husbandry should be carried out as soon as possible. The detection methods of particulate matters (PM) in livestock farms were reviewed from three aspects: physical, chemical and biological characteristics. PM contains complex components in livestock farms, therefore, it is highly needed to improve PM detection technology. Besides, the component analysis and sensory analysis of odorous substances in livestock farms were overviewed. The odor analysis of professional olfactory discernment personnel owns stronger subjectivity and costs higher than gas chromatography- mass spectrometry. While, using gas chromatography-mass spectrometry is unable to determine all gaseous organic compounds with one sample. Combining gas chromatography and dynamic olfactometer can be more efficient for comprehensive analysis of odor samples. In this article, detection methods and techniques of air pollutants in animal husbandry were comprehensively reviewed to provide a reference for the development of air pollutants detection technologies in livestock and poultry breeding in China.     

Influence of water exchange rates on fingerling production in Indian major carps in large outdoor concrete tanks

Influence of varied water exchange (total of 0%, 40%, 60%, 80% and 100% in four phases during three months) on fingerling production of Indian major carps-catla, rohu and mrigal under polyculture was evaluated in large outdoor concrete tanks (50 m²). Rearing density of 30 fry m⁻³ was used. Survival in the control tanks reduced during the 2nd month unlike the treatments, attributed to lack of water exchange in the tanks. While no marked variation in water quality was observed among the control and treatments, graded water exchange led to proportionate improvement in the fingerling performance in terms of survival and growth in the treatments. Harvested total lengths of fingerlings were similar in all, irrespective of varied exchange levels. Although no significant variation in net weight gain (NWG) and specific growth rate (SGR) were observed among the treatments during 1st and 2nd months of rearing in any of the species, these attributes increased significantly during 3rd month with higher water exchange in treatments. The harvested body weight (HBW) also increased significantly with increased exchange level. However, survival, HBW, NWG and SGR remained similar in all species between the 80% and 100% water exchange levels. Treatment with 80% water exchange had higher water productivity in terms of number and biomass production of fingerlings per unit (m⁻³) of TWU and CWU for which, the study recommended 80% to be the ideal total water exchange required for fingerling production of IMC in concrete tanks.     

Detection and characterization of an isolate of Tomato mottle mosaic virus infecting tomato in China

Tomato (Solanum lycopersicum) plants exhibiting severe leaf distortion, mottle and systemic crinkling symptoms were identified in Hainan province in China in 2016. To survey and control the disease, it is necessary to identify and characterize the pathogen causing the disease. Dot enzyme-linked immunosorbent assay showed that the crude saps of the infected tomato samples reacted positively with the monoclonal antibody against Tobacco mosaic virus which indicated that one or more tobamoviruses are likely associated with the disease. RT-pCR and DNA sequence analysis results further elucidated that Tomato mottle mosaic virus (ToMMV) in Tobamovirus was the pathogen causing the mottle disease in tomato. We amplified and sequenced the full-length sequence of the genome which showed the highest nucleotide identity with ToMMV YYMLJ and ToMMV TiLhaLJ isolates. The putative virus isolate was named ToMMV Hainan. Biological indexing studies showed that ToMMV Hainan can infect Nicotiana benthamiana, Capsicum annuum and Solanum lycopersicum showing serious symptoms. This was the first identification and characterization of ToMMV infecting tomato in Hainan of China.     

甘薯茎腐病症状及其病原鉴定

甘薯茎腐病是危害甘薯的一种严重病害,甘薯茎、叶柄、叶片和块根均可被害。该病典型症状是茎基部发黑和变软腐烂,叶发黄,茎和块根维管束黑褐色,引起块根腐烂、有臭味。通过对甘薯茎腐病典型症状样本的采集、病原菌的分离和纯化以及致病性测定,明确该病害是一种细菌病害。通过对甘薯茎腐病菌的菌体形态和培养特性观察发现,病原菌是革兰氏阴性细菌,菌体短杆状,大小约为2.36μm×0.4μm,周生鞭毛,可在烟草上激发过敏性反应(HR)。Biolog测定、脂肪酸分析、16S rDNA序列分析、MALDI-TOF质谱鉴定和8个看家基因(dnaX、rplB、fusA、gapA、gyrA、purA、recA和rpoS)的序列系统发育分析,发现该病原菌与达旦提狄克氏菌Dickeya dadantii高度一致。这些结果说明,浙江省发生的小番薯病害是甘薯茎腐病,病原为D.dadantii。     

碱蓬根系嗜盐耐盐真菌的分离与鉴定

为分析耐盐植物碱蓬根系真菌的组成和耐盐程度,采用常规植物组织真菌分离方法对盐碱地中生长健康的碱蓬根系进行真菌分离,将分离得到的真菌在不同NaCl浓度培养基上进行培养,检测菌株的嗜盐耐盐性,并对分离得到的嗜盐耐盐真菌进行形态学鉴定和分子生物学鉴定。结果显示:分离得到耐盐真菌40株,分别属于镰刀菌属(Fusarium sp.)、链格孢属(Alternaria sp.)、曲霉属(Aspergillus sp.)、腐霉属(Pythium sp.)等,其中,棘孢曲霉(Aspergillus aculeatus)和尖孢镰刀菌(Fusarium oxysporum)是没有被报道过的耐盐真菌;分离得到嗜盐真菌3株,都属于聚多曲霉(Aspergillus sydowii)。结果表明,耐盐植物碱蓬中嗜盐耐盐真菌多样性丰富。     

植物对镉毒害的形态和生理响应研究进展

Cadmium (Cd) contamination has posed an increasing challenge to environmental quality and food security.In recent years,phytoremediation has been particularly scrutinized because it is cost-effective and environmentally friendly,especially the use of metal-hyperaccumulating plants to extract or mine heavy metals from polluted soils.Under Cd stress,responses of hyperaccumulator and non-hyperaccumulator plants differ in morphological responses and physiological processes such as photosynthesis and respiration,uptake,transport,and assimilation of minerals and nitrogen,and water uptake and transport,which contribute to their ability to accumulate and detoxify Cd.This review aims to provide a brief overview of the recent progresses in the differential responses of hyperaccumulator and non-accumulator plants to Cd toxicity in terms of growth and physiological processes.Such information might be useful in developing phytoremediation technology for contaminated soils.