云贵高原湖泊水质现状及演变

利用2008年云贵高原13个湖泊丰水期的全面水质调查数据,系统分析云贵高原湖泊水质现状,通过与历史资料对比,揭示20年来的水质变化,并分析水质变化的原因.同时利用主成分分析将23个水质参数概括为6个主要成分,除程海外所有湖泊水质均与第一主成分密切相关.人类活动影响下的水体富营养化、有机污染以及农业面源污染等是除程海外湖泊污染的主要驱动因子,程海水质变化主要受水体的矿化度增加所驱动.另外,根据各主成分得分,本文也对13个湖泊水质进行了综合评价,并在评价的基础上就湖泊的保护和治理提出建议.     

长江中游网湖百年花粉序列及其沉积动力和环境特征

本文研究长江中游网湖钻孔百年来的花粉沉积序列,分析花粉沉积近、现代过程以及其与沉积粒度、过去百年湖泊由开放水系到封闭湖泊的气候、水文动力变化的关系.研究表明,花粉浓度、类型与沉积粒度的变化特征以及聚类分析反映出网湖经历了湖泊水系通江与封闭两个重大阶段变化,其花粉序列变化与沉积粒度、区域降水以及长江流量在时间序列上也具有显著的相关性.主要孢粉类型,包括陆生松属、常绿栎/落叶栎、乔灌木花粉、湿生莎草科、水生和陆生草本花粉、以及蕨类孢子,与沉积物粒度和降水具有同步相关的年份占过去130年的27%-40%,与1960年湖泊封闭以前长江流量的同步相关达到47%-57%,反映出花粉沉积量的变化受到了沉积粒径和流域降水量的影响.花粉类型对沉积和气候具有不同的响应关系,表现出具有大于降水70百分点年份以粘土沉积为主、乔灌木花粉占优的多水年模式,和小于降水30百分点的年份以粉砂沉积为主、水生、湿生、陆生草类花粉增加的少水年模式.花粉沉积与水动力这个关系为认识湖泊碎屑和利用花粉沉积记录反演过去环境变迁、生物湖泊沉积机制提供科学依据.     

鄱阳湖退田还湖及其对洪水的影响

在详细分析鄱阳湖退田还湖现状基础上,建立了鄱阳湖退田还湖洪水位效应计算模型,估计退田还湖对典型年洪水位的效应.并对退田还湖对年最高水位频率的影响进行了预测.最后,探讨了退田还湖圩区适宜管理模式和退田还湖对湖泊环境的影响.     

河西走廊东段湖泊旋回及其古气候意义

以河西走廊东段石羊河尾闾青土湖为例,通过对志云村剖面沉各气候记录的研究,证实季风边缘是年以上时间尺度的气候变化,具有暖湿,冷干的阶段性特征。自６０００ａＢＰ以来,河西走廊东段渗湖泊回经历了四次湖退和三次湖进过程。除最后一次湖退直至干涸受人类活动影响较大外,其它主要是气候阶段性变化的结果。     

东营凹陷波动古湖相烃源岩沉积特征

以东营凹陷牛38井为例,研究显示,该井沙河街组沙三段烃源岩的沉积特征具有明显的波动性．宏观上体现为, 构造因素控制湖盆的整体升降和沉积构造旋回,但季节性气候及其它因素的影响使湖盆呈现次级旋回的复合性沉积．微观上表现为纹层的不连续性及生物扰动构造等事件性沉积.古湖面不同幅度的波动和变化导致相对稳定的泥岩沉积的不稳定性,有机质的分布也呈现较显著的非均质性．湖泊的沉积过程影响了微量元素、有机质以及烃源物质的分布,水体较深、盐度较高的沙三段下部多数微量元素含量较高以及B／Ca、Sr／Ba呈现高值;水体较浅、盐度较低的沙三段中部各元素的分布较为稳定,B／Ca、Sr／Ba比值及Sr的含量均显著降低.波动性沉积导致烃源岩呈现明显的优劣性分布,沙三段下部中的有机质富集,为优质烃源岩;沙三段中部的有机质分布较为分散,生排烃的资源潜力有限．     

藻型湖区氧化亚氮排放特征及其影响因素

湖泊等内陆水体是大气N₂O潜在的重要排放源,也是全球N₂O收支估算的重要组成部分。目前全球湖泊普遍面临富营养化和蓝藻暴发等问题,明晰藻型湖泊N₂O排放强度及其环境影响因子对准确估算湖泊N₂O排放和预测其未来变化至关重要。本研究选择太湖藻型湖区为研究对象,同时选取人为活动影响较小的湖心区作为对比区域,基于2011年8月至2013年8月为期2年的逐月连续观测,探讨藻型湖区N₂O排放特征及其影响因素。结果表明,藻型湖区呈现极强的N₂O排放,其排放通量为(4.88±3.05) mmol/(m²·d),是参考区域(湖心:(2.10±4.31) mmol/(m²·d))的2倍多。此外,在藻型湖区中不同点位N₂O排放差异显著,受河流外源输入影响,近岸区是N₂O的热点排放区,其年均排放通量高达10.93 mmol/(m²·d)。连续观测表明N₂     

150ka以来内蒙古河套古大湖沉积物粒度记录的湖泊水位变化

基于内蒙古河套盆地山前兵房沟湖相层剖面沉积物的粒度记录,结合~(14)C和光释光年代学测试,对比分析沉积物粒度敏感粒级及频率曲线特征,反演了河套古大湖150ka以来的湖泊水位变化。研究结果表明,河套古大湖水位变化经历了4个阶段:(1)初始形成阶段(150~130ka),河套古大湖处于浅湖环境,沉积物粒度由粗变细,湖泊处于水位上升期;(2)发展阶段(130~54ka),早期湖水面较高,处于深水环境,晚期沉积物粒度逐渐变粗,湖泊水位有所下降;(3)萎缩阶段(54~18ka),湖泊水位快速下降,细粒沉积物含量减少,中粗粒沉积物含量增大,湖泊水位迅速下降;(4)消亡阶段(18ka至今),由于山前活动断裂影响,阴山快速隆升,湖泊急剧萎缩,湖相层顶部被山间冲洪积物覆盖。控制河套古大湖湖泊水位变化的主要因素是构造运动和气候环境突变。     

Macrozoobenthic community structure in a large shallow lake: Disentangling the effect of eutrophication and wind-wave disturbance

Biological communities in shallow lakes are often subject to the combined effects of eutrophication and wind-wave disturbance. However, their relative importance in regulating macrozoobenthic community assembly has not been well addressed. In the present study, a monthly sampling of macrozoobenthos and environmental parameters was conducted at ten sites from December 2012 to November 2013 in Lake Hongze, the fourth largest freshwater lake in China, which has undergone serious water quality deterioration over the past few decades. A total of 30 taxa were recorded during the 12 sampling occasions, including 6 chironomids, 6 bivalves, 4 gastropods, 4 oligochaetes, 4 polychaetes, 4 crustaceans and 2 other aquatic insects. The mean abundance and biomass of total macrozoobenthos varied greatly among the ten sites and presented distinctive taxonomic composition between the protected bays and the offshore zone. Three eutrophication parameters (including permanganate index (COD_Mn), chlorophyll a, and total phosphorus in surficial sediments) and three wind-wave variables (including Secchi depth, turbidity, and mean effective fetch) were highly related to spatial variation of macrozoobenthic assemblages. When eutrophication variables were controlled, there was a significant correlation between community similarity and wind-wave disturbance condition, and vice versa. Variation partitioning showed that wind wave disturbance explained 15.9% of the variation in benthic community composition, slightly lower than that explained by eutrophication (17.9%). These results indicate that wind-wave disturbance is as important as eutrophication in regulating benthic community structure in this large shallow lake. Wind-wave disturbance imposed opposite effects on benthic community relative to eutrophication, and were more prominent in the offshore zone weakening the role of eutrophication.     

Hazardous processes and events from glacier and permafrost areas: lessons from the Chilean and Argentinean Andes

Glacier and permafrost hazards such as glacial‐lake outburst floods and rock–ice avalanches cause significant socio‐economic damages worldwide, and these processes may increase in frequency and magnitude if the atmospheric temperature rises. In the extratropical Andes nearly 200 human deaths were linked to these processes during the twentieth century. We analysed bibliographical sources and satellite images to document the glacier and permafrost dynamics that have caused socio‐economic damages in this region in historic time (including glacial lake outburst floods, ice and rock–ice avalanches and lahars) to unravel their causes and geomorphological impacts. In the extratropical Andes, at least 15 ice‐dammed lakes and 16 moraine‐dammed lakes have failed since the eighteenth century, causing dozens of floods. Some floods rank amongst the largest events ever recorded (5000 × 10⁶ m³ and 229 × 10⁶ m³, respectively). Outburst flood frequency has increased in the last three decades, partially as a consequence of long‐term (decades to centuries) climatic changes, glaciers shrinkage, and lake growth. Short‐term (days to weeks) meteorological conditions (i.e. intense and/or prolonged rainfall and high temperature that increased meltwater production) have also triggered outburst floods and mass movements. Enormous mass failures of glaciers and permafrost (> 10 × 10⁶ m³) have impacted lakes, glaciers, and snow‐covered valleys, initiating chain reactions that have ultimately resulted in lake tsunamis and far‐reaching (> 50 km) flows. The eruption of ice‐covered volcanoes has also caused dozens of damaging lahars with volumes up to 45 × 10⁶ m³. Despite the importance of these events, basic information about their occurrence (e.g. date, causes, and geomorphological impact), which is well established in other mountain ranges, is absent in the extratropical Andes. A better knowledge of the processes involved can help to forecast and mitigate these events. Copyright © 2014 John Wiley & Sons, Ltd.     

气候变暖背景下青藏高原山地灾害及其风险分析

基于青藏高原1930-2010年山地灾害实例,分析了气候变暖对青藏高原山地灾害的影响。结果表明：在气候变暖背景下,冰湖溃决灾害增多,冰川泥石流趋于活跃,特大灾害出现频繁,灾害链生特征明显,表现出时间和空间上的延拓性,巨灾发生概率增大;在藏东南地区表现出雨热同期的气候特征,构成了利于冰川类泥石流形成的条件;波密县城位于两条泥石流危险区的建筑物占地面积由1988年0.014 km²扩展到2012年1.004 km²,人口与经济密集区与灾害高风险区重叠,加之气候变化导致的灾害危险性增加,青藏高原灾害风险显著增大。上述结果提供了气候变化对青藏高原山地灾害影响的证据,初步阐述了其影响特征,有助于山地减灾和进一步认识气候变化对山地灾害的影响机理。