Genetic variation and selection of introduced provenances of Siberian Pine （Pinus sibirica） in frigid regions of the Greater Xing’an Range,Northeast China

Siberian Pine （Pinus sibirica） is an ecologically and eco-nomically important species in pristine forests throughout northern Rus-sia. Four provenances of P. sibirica were introduced from Mongolia and Russia to the Greater Xing’an Range （the Daxing’anling）, northeast China in 1993. The aim of this research was to study genetic variation and selection of the introduced four Pinus sibirica provenances. Heights （H）, basal diameters （BD）, survival rates （SR） and crown lengths （CL） of different families were measured as primary outcomes in different growth years. Results of data analyses demonstrated high coefficients of phenotypic variation （PCV） and heritability （H2） for H, BD and CL at 18 years after introduction. PCV and H2 increased with age. Correlations of＆amp;nbsp;growth traits between any two growth years were all significantly positive, but the correlation coefficient was smaller when the growth year interval was larger. Correlations between H and the original environment factors decreased gradually, indicating that with long-term subsistence in the new environment, the influence of the source environment declined. Colligation of multiple traits to estimate provenances showed that Novosibirsk, Tomsk, and Altai Mountains had higher survival rates and biomass, and proved more suitable for introduction and plantation in the Greater Xing’an Range in China.     

Research Progress on Speciation of Selenium Compounds in Plants

All factors affecting the PCR system in Pinus massoniana Lamb were investigated one by one.The results show that the optimum PCR system of EST-SSR were:2μL 10×Buffer(Mg²⁺ Free), 30 ng template DNA,0.187 5 mmol/L dNTPs, 3.75 mmol/L Mg²⁺,8 pmol primer pair,1.0 U Taq DNA poly-merase in total 20μL reaction system. Finally,a total of 11 isolates of P.massoniana was used for testing the stability of the PCR amplification.The results prove that the optimum PCR system was stable,reliable,highly repetitive.     

半导体工业废水污染特征因子初探

指出了集成电路和印制电路板是半导体工业的主要组成部分,而在生产过程中会大量使用氢氟酸,使得虽经过处理后的生产废水中氟离子浓度仍较高,达到7 mg/L左右;通过将半导体企业排放废水与生活污水、地下水及地表水中氟离子浓度进行比较,提出了以氟离子浓度作为半导体工业废水的污染特征因子,并结合不同雨污混接类型污染特征因子,依据物料和水量守恒得出不同混接类型的近似混接水量比例计算公式,以期为后续的雨污混接溯源和雨污改造工程提供借鉴。     

一种高速测频系统的开发

为满足跳频通信中测频应变速度快、灵敏度高的要求,介绍一种以FPGA为测频核心处理芯片、单片机(C8051F020)为数据处理器的高速测频系统的设计方法,并详细地介绍了系统的组成,给出了FPGA的仿真结果,实验结果表明,该方案完全符合设计要求.     

基于BIOCLIM模型的元江干热河谷稀树灌木草丛空间分布研究

根据影响干热河谷稀树灌木草丛分布的温度、数字高程模型（DEM ）以及归一化植被指数（NDVI）三个因子,使用BIOCLIM模型模拟元江县干热河谷稀疏灌木草丛空间分布,实现了元江县干热河谷空间分布的可视化表达。结果表明：干热河谷分布主要集中于除元江县城外的河谷两侧,其中东部分布较为集中,而在南部地区分布较为分散。加之近年来人为活动的加剧,对元江河谷生态环境的变化也有一定影响,该模型很好地预测了未来元江县干热面积的分布情况,以期对生物多样性保护和植被恢复提供决策支持。     

克拉玛依市土地荒漠化现状及其动态分析

以克拉玛依市为研究对象,采用遥感与地理信息相结合的方法获取研究区土地利用类型、荒漠化现状及2004年荒漠化状况。调查结果表明,研究区荒漠化土地在减少,在荒漠化类型及程度中,确定了研究区域以风蚀和盐渍化并存的荒漠化类型,10年间,风蚀和盐渍化荒漠化程度在减轻。     

室内空气中甲醛污染的危害与控制方法浅析

本文者重阐述室内空气中的主要污染物甲醛对人身健康的危害．同时分析甲醛污染的各种可能性来源．并且简要介绍了现今比较常见的几种控制甲醛污染的切实可行措施和手段。     

江西省人造板产品质量现状及对策

人造板是江西省林产工业的传统产品,近几年来发展迅速。本文根据江西省人造板产品质量的现状,分析了影响产品质量的主要因素,并提出了如何提高产品质量的对策和建议。     

基于CiteSpace的氮沉降知识图谱计量分析

客观分析国内氮沉降研究现状,总结现阶段研究的重点与薄弱点,旨在为氮沉降的科研工作者与决策者提供数据参考.以"氮沉降"为主题词,从CNKI数据库中得到2009-2019年发表的相关文献754篇,运用CiteSpace知识图谱分析工具对关键词、作者、机构进行可视化分析,并对氮沉降的研究进展、发展趋势和资助基金等方面进行相关...