基于绝对主成分-多元线性回归的滇池污染源解析

定量解析污染源是湖泊流域水环境管理的重要基础.基于滇池草海和外海多年水质监测数据,采用主成分分析（PCA）方法识别了主要水质指标的污染源类型,利用绝对主成分-多元线性回归模型（APCS-MLR）得到不同污染源对水质的贡献程度.结果表明,草海主要的污染源有农业面源、城市面源和内源3类,外海的主要污染源是农业面源、城镇生活污染源、城市面源和内源4类.与河流水污染源解析结果不同,底泥内源与气象因子对滇池主要水质指标的影响较大.     

湖泊水体中硫酸盐增高的环境效应研究

通过对高原３个硫酸盐浓度差异的湖泊沉积物水界面硫的形态分布、扩散通量和碎屑有机硫通量等估算，揭示了湖泊水体硫酸盐增加以后的环境效应和自然反馈机制．研究认为：水体向沉积物内部扩散和界面硫酸盐还原作用是高硫酸盐浓度水体硫酸盐的主要清除作用，随硫酸盐浓度的增加，它在水体清除硫酸盐作用的贡献逐渐增大，而低硫酸盐含量湖泊水体生物同化吸收作用是水体硫酸盐的主要清除机制，它在硫酸盐浓度不同的水体没有差异．     

The spatial and temporal distribution of total ozone over China

In this paper the grid data of total ozone mapping spectrograph (TOMS) installed on Nimbus-7 satellite (1978 to 1994) was used and the spatial and temporal distribution of total ozone over China was analyzed. The research indicates that the Qinghai-Tibet Plateau destroyed the latitudinal distribution of total ozone of China and the low value closed center emerged over Qinghai-Tibet Plateau. Long time change trends of seasonal total ozone of Qinghai-Tibet plateau are provided. It shows that the most obvious decrease of total ozone occurs in winter (Jan.), then in summer (Jul.), the relevant slow change occurs in autumn (Oct.) and spring (Apr.).     

青藏高原生活污水处理及回用的工艺研究

在高寒缺氧的青藏高原如何对生活污水进行有效的处理,目前仍无好的解决方案。实验采用的生态大棚系统可在青藏高原的恶劣环境下提供适宜的人工小环境,保证生物处理正常运行所必需的热平衡、O2-CO2的循环平衡和水循环的平衡。采用的好氧生物-土地处理工艺不仅能保证污水处理达到国家一级排放标准,同时还解决了长期以来高原蔬菜种植的难题。     

Spatial and temporal distribution of total ozone over China

In this paper the grid data of total ozone mapping spectrograph (TOMS) installed on Nimbus 7 satellite (1978 to 1994) was used and the spatial and temporal distribution of total ozone over China was analyzed. The research indicates that the Qinghai Tibet Plateau destroyed the latitudinal distribution of total ozone of China and the low value closed center emerged over Qinghai Tibet Plateau. Long time change trends of seasonal total ozone of Qinghai Tibet Plateau are provided. It shows that the most obvious decrease of total ozone occurs in winter (Jan.), then in summer (Jul.), the relevant slow change occurs in autumn (Oct.) and spring (Apr.).     

直岗拉卡水电站工程生态环境的影响分析

直岗拉卡水电站地处青藏高原,是黄河上游第4个梯级电站,工程所处区域属生态环境十分敏感和脆弱的青藏高原。论文在阐述直岗拉卡水电站工程影响区生态环境基本特征的基础上,度量了该区域生物多样性及电站运行后对生态环境的影响程度,提出了相关对策。分析表明,直岗拉卡水电站工程在实施严格的环境保护措施后对生态环境的影响是可以接受的。     

Present status and changes of the phytoplankton community after invasion of Neosalanx taihuensis since 1982 in a deep oligotrophic plateau lake, Lake Fuxian in the subtropical China

Phytoplankton assemblages in the subtrophical oligotrophic Lake Fuxian, the second deepest lake in China, were investigated monthly from September 2002 to August 2003. A total of 113 species belonging to seven phyla were identified, among them, a filamentous green alga, Mougeotia sp., dominated almost throughout the study period and comprised most of the total phytoplankton biomass.Mougeotia sp. has made a substantial development during the past decades: it was absent in 1957, only occasionally present in 1983,increased substantially in 1993, and became predominant in 2002--2003. It is likely that natural invasion of the Taihu Lake noodlefish (Neosalanx taihuensis) has led to a change of dominant herbivorous zooplankton from small to large calanoid, which has increased grazing pressure on small edible algae, and thus has indirectly favored the development of the inedible filamentous Mougeotia sp.     

青藏高原铁路沿线雪崩危险度评价方法

简要介绍了 3条进藏铁路的主要雪害 ,指出雪崩危险度评价对铁路选线和配置防护雪害设施有重要意义。青藏铁路的雪害主要是风吹雪 ,滇藏、川藏铁路的雪害主要是雪崩。雪崩的形成和发生的必要条件是一定深度的积雪和一定范围的坡度。笔者通过理论计算得出积雪的临界厚度和山坡的临界安全角度。在分析影响雪崩的主要因素的基础上 ,利用模糊归一化方法来评价雪崩的发生危险度 ,并引用国外方法来计算雪崩达到某点的概率。最后 ,指出雪崩评价方法需要改进之处和铁路选线时应注意的问题。     

黄土高原地区生态建设的关键问题

从黄土高原地区水土保持生态建设的实际情况出发,结合历史经验教训,探讨了生态建设与农业发展、农民脱贫致富的关系.指出生态环境问题归根结底是人的问题,减少人类对生态环境的破坏和干扰,因地制宜地进行植被建设和生态恢复,激励广大农民自觉参与生态建设对黄土高原地区水土保持生态建设成败至关重要.     

青藏高原土壤柴油降解菌的筛选及降解实验研究

青藏高原北麓河地区土壤为典型的低温土壤环境,夏季高温季节表层土壤(5 cm处)温度仅为9℃,中层(20 cm处)为7.5℃,而40 cm处仅为4℃左右。土壤高温季节为7月中旬至9月上旬,而10月至来年6月土壤日平均温度下降为0℃以下。针对青藏高原低温土壤环境,在北麓河试验现场进行人工模拟柴油污染,16个月后采集污染土样,进行土著低温菌的复合筛选,柴油菌的筛选驯化温度为10℃。经过4次转接复合培养驯化后,菌液中微生物数量可达2.7×1012CFU/mL。筛选后的柴油降解菌90%以上为杆状菌,长度为2~3μm,少见球菌,其直径约为0.5μm。通过柴油摇瓶模拟降解实验,17 d后柴油去除率可达到62%。研究为青藏高原低温条件下的土壤柴油污染土著微生物修复提供了研究基础。