新型鸭呼肠孤病毒DH13株结构蛋白σB的原核表达及免疫原性分析

本研究旨在利用原核表达系统表达新型鸭呼肠孤病毒（NDRV） DH13株重组σB蛋白,并检测其免疫原性,为NDRV基因工程疫苗研制等提供物质材料。采用RT-PCR方法扩增获得NDRV σB基因,构建原核表达重组质粒pET-30a-σB和pET-32a-σB,将2个重组质粒转化大肠杆菌BL21（DE3）感受态细胞,利用IPTG诱导获得相应的重组蛋白,通过SDS-PAGE分析重组蛋白的表达形式。纯化无His的σB蛋白,并以此蛋白作为免疫原免疫新西兰白兔,制备兔源多克隆抗体。利用Ni²⁺柱亲和层析法纯化含His的σB蛋白,以此蛋白作为检测原,通过间接ELISA方法测定兔源多克隆抗体效价;Western blotting鉴定多克隆抗体与重组蛋白的特异性识别能力。结果显示,PCR扩增获得大小约为1 100 bp的σB基因片段。SDS-PAGE结果显示,高效表达出了2种重组σB蛋白,大小分别约为41和46 ku,均以包涵体形式存在。间接ELISA结果显示,制备的多克隆抗体效价达1∶204 800,能特异性地识别原核表达的重组蛋白,表明重组无His的σB蛋白具有良好的免疫原性。Western blotting特异性鉴定结果显示,含His的σB蛋白和无His的σB蛋白均与制备的兔源多克隆抗体发生特异性反应,表明原核表达得到的重组σB蛋白具备良好的反应原性。本试验利用原核表达系统成功地表达出了重组σB蛋白,并证实了重组NDRV σB蛋白具有良好的免疫原性及反应原性,该结果将有助于后续对NDRV σB蛋白生物学功能的鉴定、NDRV诊断用抗原的制备及NDRV新型疫苗的研制。     

甘蔗壮苗因素的研究

变量分析表明:不同砍种方式的甘蔗幼苗,其质素的差异是显著的,其中以单芽苗最优,芽片苗最差,节芽苗居中。幼苗性状间,特别是地上部性状与地下部性状间有显著或极显著的正相关,但相关的程度因处理和性状而异。通径分析表明:与苗重关系密切的三个地上部性状中,以苗粗对苗重的影响最大,叶片数次之,苗长最小;与苗重关系密切的三个     

石灰岩山地4种林分空气细菌动态变化及其影响因素分析

为探索石灰岩山地不同林分类型中空气细菌的动态变化规律及其影响因素,筛选出抑菌效果较好的林分,选取徐州石灰岩山地4种典型林分为试验材料,采用自然沉降法研究林分中细菌含量的季节变化和日变化,同步监测温湿度、风速、PM2.5和空气负离子浓度,分析空气细菌含量及其之间的关系。试验结果表明:(1)细菌含量季节性变化表现为春季秋季夏季冬季,除冬季日变化呈现"早晚低,中午高"的变化趋势,其他季节表现为"早晚高,中午低";(2)不同林分类型空气细菌含量存在显著差异(P0.05),总体来看,苦楝林对细菌的抑制效果最好;(3)细菌含量与空气湿度和PM2.5呈极显著正相关关系,与空气负离子呈极显著的负相关关系。综上,苦楝林的抑菌效果最好,湿度、PM2.5和负离子是影响空气细菌含量的主要因素。本研究可为此地城市保健林的营建以及生态旅游规划提供科学依据。     

干旱胁迫下玉米自交系抗旱性评价及筛选

以39份玉米自交系为材料,2017—2018年在甘肃省张掖市设置田间自然抗旱鉴定试验,筛选抗旱鉴定指标,综合评价玉米自交系的抗旱性。结果表明：在干旱胁迫下,39份玉米自交系的粉丝间隔时间延长了0~3 d,株高、穗位高、穗长、穗粗、穗干重、籽粒干重、出籽率及百粒重均降低,其中,穗干重、籽粒干重和出籽率3个指标分别为正常灌水处理的81.5%、79%和88.5%。穗干重、籽粒干重和出籽率与平均抗旱系数呈显著正相关,可作为玉米自交系抗旱鉴定的主要指标。利用加权抗旱系数法综合评价筛选出强抗旱玉米自交系10份,其中自交系E28、DH351、陇1222、浚92-8和黄早四,抗旱性达到极强。本研究所筛选到的抗旱自交系可在选育抗旱新品种中加强利用。     

甘蔗施肥技术系统优化研究

本文参照系统工程中的最佳模拟配合法，对甘蔗施肥技术的系统优化研究。通过计算机模拟优化，得出若干组包括高，中，低产量，净产值和甘蔗蔗糖分等综合指标要求的相应配套施肥方案，并对有关问题进行了讨论，以期为甘蔗科学施肥提供新的方法及其理论依据。     

新植蔗施肥模式与宿根蔗产量及糖分关系的研究

本文研究了新植蔗不同施肥模式对宿根蔗的后续效应,旨在探讨新植蔗不同施肥模式下,宿根蔗产量和蔗糖分差异及其原因,为进一步优化甘蔗三高施肥模式提供理论依据。试验结果表明,在新植蔗不同施肥模式下,就模式间进行比较,宿根蔗蔗茎产量和收获株数存在显著差异,其规律与新植蔗的结果相一致;宿根蔗的株高在施肥情况下存在显著差异;宿根蔗茎径差异不显著;株高的变异系数存在明显差异,且施肥与否规律相同;生长中后期的叶片Ｎ含量存在明显差异,在施肥情况下差异更加明显;蔗汁锤度无显著差异;叶片Ｐ和Ｋ含量无明显差异。试验结果也表明,在新植蔗不同施肥模式下,宿根蔗施肥比不施肥,蔗茎产量和株数显著增加;叶片含Ｎ、Ｐ、Ｋ量明显增加;株高的变异系数明显较低;而其他性状则无明显的差异。分析试验结果可以看出,新植蔗不同施肥模式下宿根蔗产量的差异主要是由于株数、株高、叶片含氮量、株高整齐度的差异所致,宿根蔗的株数,乃至产量又与新植蔗的有效茎数有密切关系     

资源禀赋、收入结构与就业特征对农地承包权退出意愿的影响

为农地承包权的顺利退出提供参考,对苏州市和宿迁市7个村庄391家农户的调查数据,采用二元logistic回归模型分析农户资源禀赋、收入结构和就业特征对农地承包权退出意愿的影响。结果表明:1)资源禀赋方面,承包地面积、承包地块数、实际经营面积、宅基地面积以及是否发生过土地流转对承包权退出意愿影响不显著,而拥有城镇住房的家庭退出意愿更强烈。2)就业特征方面,农民外出务工时间越长、上班地点离农村越远、从事的职业与农业相关性越弱,则农户退出土地承包权的意愿越强烈,同时接受过非农技巧培训的农户更愿意退出土地承包权。3)收入结构方面,工资性收入所占比重越高则农户退出承包权的意愿越强,而家庭经营性收入占比较高的家庭越不愿退出承包地。     

S无刺卡因菠萝果实发育期间香气物质的变化

采用顶空固相微萃取技术和气质联用仪测定不同发育期卡因菠萝果实的香气成分,以了解果实发育期间香气物质的变化.结果表明,无刺卡因果实在成熟的4个阶段共有香气成分69种,主要为酯类和烯类,其中己酸甲酯、辛酸甲酯、正己酸乙酯等成分是卡因菠萝的主要香气成分.卡因菠萝不同发育时期果实香气物质的种类和相对含量均有明显差异.     

Effects of climate factors and soil properties on soil nutrients and elemental stoichiometry across the Huang–Huai–Hai River Basin,China

Purpose

Soil nutrients, elemental stoichiometry, and their associated environmental control play important roles in nutrient cycling. The objectives of this study were (1) to investigate soil nutrients and elemental stoichiometry, especially potassium and its associative elemental stoichiometry with other nutrients under different land uses in terrestrial ecosystems; (2) to discuss the impacts of climate factors, soil texture, and soil physicochemical properties; and (3) to identify the key factors on soil nutrient levels and elemental stoichiometry.

Materials and methods

Soil data, including pH, bulk density (BD), cation exchange capacity (CEC), volumetric water content (VMC), clay, silt and sand contents, total carbon (TC), nitrogen (TN), phosphorous (TP) and potassium (TK), available nitrogen (AN), phosphorus (AP), potassium (AK), and soil organic matter (SOM) under different land-use types, were collected, and their elemental stoichiometry ratios were calculated. Climate data including temperature, precipitation, relative humidity, wind speed, and evapotranspiration were collected. The least significant difference test and one-way analysis of variance were applied to investigate the variability of soil nutrients and elemental stoichiometry among land-use types; the ordinary least squares method and the general linear model were used to illustrate the correlations between soil nutrients, elemental stoichiometry, and soil properties or climate factors and to identify the key influencing factors.

Results and discussion

Woodlands had the highest SOM, TN, AN, and AK contents, followed by grasslands, croplands, and shrublands, while the TP and TK contents only varied slightly among land-use types. SOM, TN, AN, N/P, and N/K were strongly negatively correlated to soil pH (p <?0.05) and were strongly positively correlated to soil CEC (p <?0.05). For soil texture, only C/N was moderately negatively correlated to silt content but moderately positively correlated to sand content (p <?0.05). For climate factors, SOM, TN, AN, N/P, and N/K were significantly negatively correlated to evapotranspiration and temperature (p <?0.05), and the correlations were usually moderate. Soil pH explained most of the total variation in soil nutrients, and climate factors explained 5.64–28.16% of soil nutrients and elemental stoichiometry (except for AP (0.0%) and TK (68.35%)).

Conclusions

The results suggest that climate factors and soil properties both affect soil nutrients and elemental stoichiometry, and soil properties generally contribute more than climate factors to soil nutrient levels. The findings will help to improve our knowledge of nutrient flux responses to climate change while also assisting in developing management measures related to soil nutrients under conditions of climate change.