梵净山翠峰茶产地岩-土系统元素迁移富集特征分析

为了解梵净山翠峰茶产地矿质元素的迁移富集特征,进而为翠峰茶地理标志保护提供参考依据。本文选取梵净山翠峰茶产区3个典型剖面,采集茶园的基岩和土壤样品共22份,对样品常量、微量元素含量进行测定,分析其地球化学特征。结果表明：梵净山翠峰茶园基岩中Se、As相对富集,Na相对缺失;其中团龙、大水溪村茶园基岩Al、K富集,湄坨村茶园基岩Ca、Mg富集。茶园土壤中富含与茶树生长相关的常、微量元素,除湄坨村茶园土壤中的As、Cd与Hg含量相对较高,其余重金属元素在无公害食品茶叶产地环境条件的限定值内。对比发现,元素在不同剖面垂向分布呈“L”型或反“L”型,与基岩类型、元素地球化学性质、成土环境、外部元素输入等因素有关。在岩-土系统中,团龙、湄坨村茶园大部分元素以淀积为主,在土壤中相对富集,其中湄坨村茶园除Ca、Mg表现为迁移淋失,其余元素呈现为从上往下迁移富集强度先增后减,在中部土壤的相对富集程度最大。大水溪村茶园大部分元素以迁移淋失为主,在土壤中相对缺失。     

林木多样性模型及生长模拟

林木生存环境复杂多变,导致林木形态千差万别,为了准确描述林木的形态多样性特征,提出了一种基于模型分解的林木生长模拟方法。首先构建多样性林木三维模型,使用林木形态的实际测量数据,基于B样条函数约束树干、树冠形态,依据削度方程模拟树干直径的变化趋势,利用Direct3D实现林木形态的三维建模;其次,按林木形态特征进行林木模型分解,将林木模型分为9个子模型;最后,使用场景节点按照拓扑结构关系对子模型进行动态组织,基于胸径、树高、枝下高、冠高和冠幅生长模型,使用多核CPU多线程并行的计算方式,获得各年龄阶段林木东、南、西、北方向形态参数,从而对子模型生长状态进行控制,实现林木不同方向生长变化的可视化模拟。结果表明：该方法可将林木三维模型与生长模型紧密结合起来,林木各方向的枝下高、冠高和冠幅严格按照生长模型进行生长,可有效模拟出林木各方向生长状态的多样性;三维场景渲染帧率（FPS）保持在25以上,平均FPS可以达到50,实现林木生长的方向异质性模拟。     

内陆水体藻蓝蛋白遥感反演研究进展

藻蓝蛋白(PC),作为蓝藻的标志性色素,通常被用作进行蓝藻水华遥感监测的标志物.近年来,内陆水体水质恶化,富营养化加剧,藻华频发,PC遥感反演研究越来越受到关注.本文从PC光学特性、反演算法开发、卫星传感器应用等方面难点及干扰因素,综合梳理了过去30 a PC遥感反演研究的发展历程和趋势,以期理解国内外相关研究的新思路...     

The 200-hPa Wind Perturbation in the Subtropical Westerly over East Asia Related to Medium-Range Forecast of Summer Rainfall in China

The 200-hPa wind perturbation (WP) in the subtropical westerly over East Asia (SWEA) has seldom been examined in previous studies, especially in connection with forecast of the summer rainfall in China. Based on the daily NCEP/NCAR reanalysis data and precipitation observations in China from 1 June to 31 August of 1960–2015, this study first systematically analyzes the spatiotemporal distribution features of the 200-hPa WP in the SWEA on different scales, especially during the Meiyu season in the Yangtze–Huaihe region and during the rainy period in North China, by using spectral decomposition and period analysis. It is found that in the 56-yr mean fields, the 200-hPa WP in the SWEA is collocated with the East Asian subtropical jet (EASJ), with the centers of the two systems coincidentally overlapped. The WP filed in the subtropical westerly mainly comprises planetary- and synoptic-scale waves. The quasi-stationary planetary-scale wave seems to determine the shape and intensity of the WP in the SWEA, while the synoptic-scale wave is closely related to the local central intensity of the WP. The daily evolution of the 56-yr mean fields shows that, following the northward (southward) movement of SWEA from 1 June to 31 August, the planetaryscale WP in the SWEA becomes gradually weakened (intensified) whereas the synoptic-scale WP is slightly intensified (weakened).The results also reveal that during the Meiyu season in the Yangtze–Huaihe region, the WP in the SWEA moves northward slowly around 37°–39°N, demonstrating a quasi-biweekly oscillation in its geographic location, which is largely attributed to the strong (weak) planetary-scale (synoptic-scale) component. On the contrast, in the summer rainy season over North China, the WP in the SWEA further strives northward beyond 40°N, showing both quasi-biweekly and weekly oscillations in its position; meanwhile, the planetary-scale wave in the SWEA becomes weakened whereas the synoptic-scale wave is enhanced. These salient variational features of the WP in the SWEA and its scaledependent components may be useful for the medium-range forecast of the rain belt migration in eastern China.     

锋生切变型强对流概念模型在浙江中西部“3·21”过程中的应用探究

利用ECMWF 0.25°×0.25°再分析资料,对照浙中西的强对流概念模型,对2019年3月21日发生在浙江中西部地区(简称"浙中西")的一次雷暴大风为主的强对流过程(简称"3·21"过程)进行诊断分析、经验总结。结果表明:该过程符合浙中西锋生切变型的强对流概念模型,出现该过程的环境条件是700 hPa西南急流脉动、850 hPa偏北和偏南两支气流强烈发展、地面低压倒槽和低层湿舌增强;探空曲线表现为上干下湿,对流层中层有明显的干侵入,大风指数I_w、对流有效位能 (Convective Available Potential Energy, CAPE)和500 hPa以下垂直风切变异常偏强形成动力强迫;对比不同强对流天气有不同的预报着眼点,设定阈值或可提高预报警报效率,如雷暴大风天气大风指数I_w > 18.5 m·s^-1、CAPE> 1 700 J·kg^-1、500 hPa的相对湿度小于46 %,冰雹天气则0 ℃层、-20 ℃层高度低于4.6 km和7.6 km且850 hPa与500 hPa气层温差高于26 ℃等,深刻理解该类强对流概念模型,是做好此类致灾性强对流潜势预报的关键点。