磁湖底泥氮释放通量的研究

本研究通过对磁湖底泥氮释放的特性进行实验室静态模拟实验,测定不同温度对磁湖底泥中氮释放量的影响。结果表明,温度升高时,底泥中NH3-N、TN释放通量增大,NO2-N和NO3-N释放通量减小。磁湖底泥的TN释放通量为-120到-25 mg/m3.d,NH3-N、NO2-N和NO3-N和TN释放通量基本呈负释放,说明磁湖大部分氮元素沉积到底泥中。本研究为探讨磁湖水质的改善提供相关的依据,并为以后关于磁湖的治理研究提供一定参考。     

水位变化对湖泊沉积物营养释放的影响

水位波动可有效调节湖泊生态系统的结构与功能,干湿交替过程引起的沉积物生物地球化学循环途径的改变是其重要机制之一。大量研究结果表明,干湿交替将加速沉积物有机碳的分解,强化沉积物硝化与硝化作用的偶联,促进沉积物磷的酶促水解和厌氧解离,从而增加再度淹没之后水中溶解有机碳和生物可利用性磷的浓度,并减少溶解无机态氮的浓度。有机质的分解是上述过程的关键步骤。因此,必须系统描述湖泊水陆界面土壤和沉积物基本理化性状与水生生物特征,分析干旱过程中沉积物生物地球化学循环途径的变化,了解淹没过程中水柱营养状态与浮游生物群落对沉积物营养释放的响应,从而揭示水位波动调控富营养化过程的机制,即诱发营养脉冲或维系其持续补给,改变营养阈值,进而导致稳态转换。     

太湖流域水资源可持续利用评价研究

为了全面了解太湖流域水资源开发利用状况,加强流域水资源综合管理,根据水资源可持续利用的涵义和太湖流域的实际情况,构建太湖流域水资源可持续利用评价指标体系,利用模糊综合评判法和灰色关联分析法分别对太湖流域2008年水资源可持续利用状况进行评价,两种模型计算结果均表明,2008年太湖流域水资源可持续利用处于中上水平,其主要制约因素主要表现在水环境状况和水生态状况问题较为严重。     

Critical velocity in phosphorus exchange processes across the sediment-water interface

Sediments are ultimate sinks of nutrients in lakes that record the pollution history evolutionary processes, and anthropogenic activities of a lake. However, sediments are considered as inner sources of environmental factor changes such as the variation in hydrodynamic conditions because of the nutrients they release. How does this process happen？ This study investigates a typical nutrient phosphorus （P） exchange among sediment, suspended particle matter （SPM）, and water. Compared with numerical and experimental studies, this study confirms that the critical velocity that occurs at a lower flow rate state exists in the range of 7 to 15 crn/sec. Critical velocity below the critical flow rate promotes the migration of particulate phosphorus （PP） to the SPM. On the other hand, critical velocity above the critical flow rate promotes the release of PP in water.     

Effects of physical and chemical characteristics of surface sediments in the formation of shallow lake algae-induced black bloom

Surface sediments are closely related to lake black blooms. The dissolved oxygen （DO） distribution and its penetration depth in surface sediments as well as the migration and transformation of redox sensitive elements such as Fe and S at the sediment-water interface are important factors that could influence the formation of the black bloom. In this study, dredged and undredged sediment cores with different surface properties were used to simulate black blooms in the laboratory. The Micro Profiling System was employed to explore features of the DO and ∑H2S distribution at the sediment-water interface. Physical and chemical characteristics in sediments and pore waters were also analyzed. The results showed that sediment dredging effectively suppressed the black blooms. In the undredged treatment, DO penetration depth was only 50 μm. Fe^2＋ concentrations, ∑H2S concentrations, and ∑H2S production rates were remarkably higher in surface sediments and pore waters compared to control and dredged treatments. Furthermore, depletion of DO and accumulation of Fe^2＋ and ∑H2S in surface sediments and pore waters provided favorable redox environments and necessary material sources for the blooms. The study results proved that physical and chemical characteristics in surface sediments are important factors in the formation of the black bloom, and could provide scientific guidance for emergency treatment and long-term pre-control of black blooms.     

洪泽湖湿地生态系统保护与修复关键技术研究

分析了洪泽湖湿地生态系统属性及其在南水北调工程实施后的演变趋势，利用野外实验研究，在生境改变条件下，适用于不同湿地退化状况的人工辅助恢复技术；在实验监测的基础上，对洪泽湖几种典型湿地生态系统的生态功能进行了定量评价，为生态恢复工程的设计提供必要的技术支持。     

浅生钙质胶结对古环境研究的意义

岩体的胶结现象需要特定的形成环境,因此通过研究胶结物的胶结特点、年龄、胶结物成分等现状,来反应胶结岩体所处的古环境条件,为了解古大地以及古气候的演化规律,提供一个研究平台。     

Distribution of radionuclides among the main components of Lake Chervyanoe in the Eastern Ural Radioactive Trace

Radioecological conditions have been estimated in Lake Chervyanoe located on the central axis of the Eastern Ural Radioactive Trace (EURT) about 100–110 km northeast of the Mayak Production Association. Data on the ⁹⁰Sr and ¹³⁷Cs contents in the main components of the lake, the distribution of these radionuclides over the profile of bottom sediments, and their amounts in the lake are presented. The experimental data have been used to construct mathematical models for estimating changes in the radionuclide concentrations and amounts in the water and bottom sediments of the lake over a long period after the nuclear accident, as well as the tritium content of the lake water in different periods of time.     

贵州梵净山九龙池沉积物14C年代学研究及全新世碳累积速率变化

放射性碳同位素加速器质谱（ASM¹⁴C）测年法是湖泊沉积物定年的主要方法,并且是全新世年代学研究的热点。随着对全新世古气候与环境变化研究的深入,选取不同介质定年可能对年代模型的准确性造成误差,进而影响到气候指标的解译。本文选取贵州东北部梵净山九龙池沉积物中树枝、树叶、树皮、种子等植物残体和全样有机质作为测年介质,利用ASM¹⁴C进行定年。结果表明,相比全样有机质,使用植物残体定年可以在一定程度上避免碳库效应的影响。但相比于原位沉积且生长年限较短的叶片,树枝的定年结果偏老,不是一种理想的定年介质。另外,根据定年结果及总有机碳含量重建了全新世九龙池的碳累积速率,发现碳累积速率可以指示该地区亚洲夏季风强度的变化历史。     

滇池周边浅层地下水硝酸盐来源及转化过程识别

明确硝酸盐的主要来源及转化过程对地下水氮污染防治和水资源开发利用具有重要意义.为了探明滇池周边浅层地下水中硝酸盐污染现状及来源,于2020年雨季（10月）和2021年旱季（4月）在滇池周边共采集73个浅层地下水样,运用水化学和氮氧同位素（δ¹⁵N-NO₃^-、δ¹⁸O-NO₃^-）识别浅层地下水中硝酸盐的空间分布、来源及转化过程,并结合同位素混合模型（SIAR）定量评价不同来源氮对浅层地下水硝酸盐的贡献.结果表明,旱季浅层地下水中有40.5%的采样点ρ（NO₃^--N）超过地下水质量标准（GB/T 14848）Ⅲ类水质规定的20 mg·L^-1,雨季超过47.2%的采样点ρ（NO₃^--N）超过20 mg·L^-1.氮氧同位素和SIAR模型分析结果证明了土壤有机氮、化肥氮、粪肥和污水氮是浅层地下水硝酸盐的主要来源,以上氮源对旱季浅层地下水中硝酸盐的贡献率分别为13.9%、11.8%和66.5%,对雨季的贡献率分别为33.7%、31.1%和25.9%,而大气氮沉降贡献率仅为8.5%,对该区浅层地下水中硝酸盐来源贡献较小.硝化作用是旱季浅层地下水中硝态氮转化的主导过程,雨季以反硝化作用为主,且反硝化作用雨季比旱季明显.