Reclamation-oriented spatiotemporal evolution of coastal wetland along Bohai Rim,China

Coastal wetlands are located in the ecotone of interaction between the land surface and sea, and anthropogenic activities extensively interfere with these wetlands through the reclamation of large tidal wetlands and destruction of the function of the ecosystems. In this study, we investigated the dynamic evolutionary characteristics of the Bohai Rim coastal area over the past 40 years using the Modified Normalized Difference Water Index, the fractal dimension, object-oriented classification, the land-use transfer trajectory, and regression analysis. Additionally, we quantified and monitored the evolution of reclamation and analyzed the correlation between reclamation and coastal wetlands based on 99 Landsat-2, -5, and -8 images (at 60 m and 30 m spatial resolution) over the period 1980–2019. The results are as follows. (1) The coastline of the Bohai Rim increased by 1 631.2 km from 1980 to 2019 with a zigzag variation. The artificial coastline increased by 2 946.1 km, whereas the natural coastline decreased by 90%. (2) The area of man-made wetlands increased by 3 736.9 km2, the area of construction land increased by 1 008.4 km2, and the natural wetland area decreased by 66%. The decrease of tidal flats is the main contributor to the decrease of natural wetland area (takes account for 91.1%). Coastal areas are affected by intense human disturbance, which was taken place across a large area of tidal flats and caused the landscape to fragment and be more heterogeneous. The coastal zone development activities were primarily concentrated in the southern Laizhou Bay, the Yellow River Delta, the Bohai Bay, the northern Liaodong Bay, and the Pulandian Bay. The solidified shorelines and increase in sea level have resulted in intertidal wetlands decreasing and impaired wetland ecology. (3) There is a good agreement between reclamation and the size of the coastal wetlands. Both land reclamation and the reduction in coastal wetland areas are significantly related to the population size, fishery output value, and urbanization rate. In summary, human activities, such as the construction of aquaculture ponds and salt pans, industrialization, and urbanization, are the primary forces that influence the environmental changes in the coastal region. This study is beneficial for establishing and improving the systems for the rational development and utilization of natural resources, and provides theoretical references for restoring wetland ecology and managing future reclamation activities in other coastal zone-related areas.     

基于遥感数据的温度剖面预报研究

为了提高温度剖面的预报精度,提出了一种基于遥感数据的温度剖面预报方法.文中使用27个实测温度剖面和遥感SST、SSHA数据实现了对温度剖面的预报,并用该点的ARGO数据进行了检验.实验结果表明,将遥感数据同化到温度剖面的预报中是可行的,并能有效的提高温度剖面的预报精度.     

贻贝粉酶解液提取复合氨基酸

报道了以脱脂后的贻贝粉为原料，采用酶解法从其酶解液中分离提取复合氨基酸的工艺。其收率为２０％，纯度约为９０％。其中必需氨基酸（不计色氨酸）约占复合氨基酸总量的５５％，其氨基酸模式与ＦＡＯ／ＷＨＯ组织确定的模式及人乳模式进行了对照，通过适量添加个别氨基酸可使其配比接近人乳模式。     

胶州湾水体中的二氧化碳体系

采用库仑滴定法测定了胶州湾海域４个航次的总二氧化碳,根据测定的总二氧化碳的数据计算了二氧化碳各分量的含量及二氧化碳分压,得到了胶州湾水体中二氧化碳体系的平面分布、垂直分布及周日变化规律,并对结果进行了初步探讨 。     

中国海洋无脊椎动物分类学与系统演化研究进展与展望

综述了我国海域无脊椎动物的分类学和系统演化研究的历史和概况,以及我国分类系统学工作者在海洋无脊椎动物分类学、区系与动物地理学、系统发育与分子系统学领域的主要工作,重点介绍了中国科学院海洋研究所的海洋无脊椎动物分类学工作。涉及类群包括原生动物、海绵动物、刺胞动物、线虫、多毛类环节动物、星虫、螠虫、软体动物、节肢动物、苔藓动物、毛颚动物、棘皮动物、半索动物等主要的无脊椎动物门类。涉及海域以我国管辖海域,特别是中国近海为主,也涉及了西太平洋、西南印度洋等深海环境的无脊椎动物类群的分类学报道。本文总结过去,展望未来,对于在我国在海洋无脊椎动物分类与系统演化研究领域成就基础上,发现薄弱环节,研讨今后本学科的发展方向,填补研究空白,赶超本领域国际前沿,都有重要借鉴意义。     

改进型经验正交函数海洋声速剖面预报方法

鉴于深海温跃层以下往往声速值缺乏,声速剖面不完整的原因,提出一种声速剖面的预报方法:在传统经验正交函数预报法基础上,首先改进协方差矩阵的求解方法,将原始数据的空间信息和时间信息有效地融合到协方差矩阵中,通过由大量实测数据统计得出的时间函数的经验公式,得到合成剖面,将二者结合,把不完整剖面垂直向下延拓到海底,较为有效地解决了传统方法求解协方差矩阵和时间函数较粗糙的问题,给出了完整的海洋声速剖面的准确预报.实测数据检验结果表明,改进方法的预报精度比传统方法有了很大提高.     

江淮入梅前后气象因子变化特征及预报着眼点探析

针对2010年江淮地区入梅日预报偏差情况,利用2010年6—7月高低空实况资料和NCEP再分析资料,分析了入梅前后湿度、经向风、地转西风急流的变化特征,并结合1985—2005年21 a历史平均状况和近几年的变化特征,分析了江淮地区入梅前后气象因子变化的规律性、普遍性,丰富了江淮地区入梅预报着眼点。研究发现:有些年份地转西风急流从30°N以南北跳到30~37.5°N区域,对江淮地区进入梅雨期有很好的预示作用,且其稳定维持,有利于江淮梅雨期降水的持续。70%湿度区北跳到30°N的时间及持续时间对江淮地区入梅日的预报和梅雨期长度有着较好的指示作用。在30~35°N区域内v850 hPa-v200 hPa风速差值的突然增大和江淮地区入梅有着较好对应关系。这为梅雨的预报提供了新的思路和方法。     

智能网格预报产品在大兴安岭暴雪天气中的释用分析

本文利用MICAPS4.1平台上的高空、地面、智能网格预报、集合预报等数值预报产品,对2018年10月26-28日发生在黑龙江省大兴安岭地区的一次区域性暴雪天气过程形成机制进行探讨。结果表明:高空槽后强冷空气与槽前西南暖湿气流在大兴安岭上空交汇,导致暖锋锋生,地面暖锋与低空暖式切变相互作用形成暴雪天气。暴雪的主要触发系统就是超极地冷空气促使高空槽强烈发展切涡,≥20m·s^-1的西南低空急流作为水汽输送带,为暴雪区提供了充足的水汽来源;垂直上升运动中心和散度辐合辐散中心耦合且加强,为暴雪提供了强有力的动力抬升条件,有利于上升运动的增强发展。智能网格预报产品对这次大兴安岭暴雪天气的落区、降水量级以及强降雪的时段,都预报的比较准确。     

基于无人机高光谱遥感技术对内陆养殖池塘水质监测的研究

为准确、快速、全面获取内陆养殖小区池塘及尾水处理池水体水质变化情况,建立养殖水环境实时预警调控及数字化管控机制,选择浙江湖州市集中连片的养殖小区为试验区,于2020年12月采用搭载GaiaSky-mini高光谱相机的无人机进行试验区近地遥感图像采集,并进行图像拼接、辐射校正和几何校正等预处理;然后对反射波段进行差值、比...     

A data collection and analysis system for research on rock fracturing

We have made a data collection and analysis system for recording microcracks in rock to study the three dimensional pattern of fracture and the dynamic properties of rock during pressurization. This system, with 8 channel data detection, records in real-time, from the initial microcracks to the final vibration waveform excited by the master fracture. The detected data are recorded digitally at the hard disk of an IBM computer (or 286, 386 personal computer) as well as transmitted to disk. The sampling rate for each channel is 10 MHz. Collecting every acoustic emission events in the loaded rock sample with 8 channels by this system, mathematically modelling the AE event travel time, and taking the coordinates of the AE event hypocenter and the three components of P wave velocity as unknown parameters, we set up a set of residual equations for joint inversion, so that the three dimensional localization of AE event hypocenters can be completed under variable velocities, which will lay foundations for the research on rock fracture clearly. The Chinese version of this paper appeared in the Chinese edition ofActa Seismological Sinica,13, 489–495, 1991. The design and development of the system, and the experiments are sponsored by the Chinese Joint Seismological Science Foundation.