太湖蓝藻水华的扩张与驱动因素   总被引：7，自引：6，他引：1  

张民  阳振  史小丽 《湖泊科学》2019,31(2):336-344

蓝藻水华表征指标及驱动因子的多样性增加了研究人员、湖泊管理部门对于蓝藻水华扩张驱动因素的困惑,本研究通过整合太湖蓝藻水华长尺度研究的成果,将蓝藻水华扩张区分为时间扩张、空间扩张和生物量扩张3个方面,分析各自的驱动因子,系统阐述了当下太湖蓝藻水华的扩张和驱动因素.太湖蓝藻水华的时间扩张呈现由夏季集中发生向春季和秋冬季节扩张的趋势,导致春季蓝藻水华发生的提前,以及年度峰值的推迟;空间扩张呈现由西北太湖向湖心和东部湖区、乃至全湖扩张的趋势;太湖蓝藻生物量自2003年以后一直呈现缓慢增加的趋势.蓝藻水华时间扩张的驱动因素相对独立,主要受气象因子的影响,风速和日照时间是主要驱动因子,风速降低和日照时间延长均有助于蓝藻水华时间的扩张;空间扩张和生物量扩张则受气象因子和富营养化的双重影响,其中影响水华空间扩张的因子较多,富营养化和气象因素的主次难以确定,一般偶发性大面积蓝藻水华受气象因子驱动,而频发性大面积蓝藻水华主要受营养盐空间分布影响;影响蓝藻生物量扩张的主要驱动因素为总磷,另外氮磷比、水下可利用光和风速的变化也在一定程度上驱动了太湖蓝藻生物量的扩张.目前表征蓝藻水华强度通常利用空间扩张或生物量扩张指标,但是均具有一定局限性,相互间也缺乏可比性,各指标用于长尺度趋势研究更为可靠,短尺度比较受方法缺陷影响较大,应进一步开发表征水华蓝藻总存量的指标以统一空间扩张和生物量扩张.  相似文献   

Recent changes in the spring microplankton of Lake Baikal,Russia     

《Limnologica》2019

Lake Baikal is facing several environmental stressors, including climate change and nearshore eutrophication. To assess recent ecological changes in Lake Baikal and provide a baseline for future comparisons, we sampled spring plankton communities from the pelagic zone of the lake in 2016 and compared these data with unpublished and published historical information going back to 1990. In 2016, one pelagic long-term monitoring station was sampled in early spring (March) during ice cover and 21 long-term monitoring stations located throughout the lake were sampled in late spring (May-June). We measured water chemistry parameters at most stations and the abundance, taxonomic composition and biomass of bacteria, ciliates and phytoplankton at several locations in different areas of the lake. Biotic parameters from 2016 were compared with historical data, showing significant changes in the spring pelagic microbial community since the 1990s. We show increased quantities of small species, mixotrophic ciliates, and the appearance (or increasing number) of small coloured and colourless flagellates. We also show substantially decreased densities of formerly dominant heavily silicified diatoms such as Aulacoseira spp. Since 2007, Synedra acus subsp. radians, a smaller and weakly silicified diatom, has dominated the spring plankton of the lake. These results suggest that Lake Baikal’s pelagic plankton community may be changing, with climate likely playing a dominant role in these changes.  相似文献   

A comparative study of the hopanoid hydrocarbons in sediments of two lakes (Fuxian and Changdang) with contrasting environments     

《Limnologica》2019

Biologically configured ββ-hopanes, geologically configured αβ-hopanes and the biogenic hopenes were determined in dated sediment cores from Lake Fuxian in SW China and Lake Changdang in Eastern China in order to investigate anthropogenic influences on the abundance, composition and provenance of hopanoid hydrocarbons in lake sediments. Based on the results, hopenes were prevalent, with maximum values reaching 148.9 μg g⁻¹ TOC in sediments of Lake Fuxian, an oligotrophic deep lake (average depth 89.6 m), where the long water column provided ample potential for the growth of hopene-producing bacteria especially the cyanobacteria. Sediment hopenes have diminished in abundance to values of 13.4–78.5 μg g⁻¹ TOC in Lake Changdang, a eutrophic shallow (average 0.8–1.2 m) body, reflecting comparatively reduced importance of nutrient level on hopene production. Historical trends in hopenes input to the sediments of each lake are strongly dependent on nutrient status. During the last few decades, human-induced eutrophication has greatly boosted bacterial production, enhancing the accumulation of hopenes in sediments. Inputs of petroleum-derived αβ-hopanes were exceptionally high (average 71.2 μg g⁻¹ TOC) in post-1968 sediments from Lake Changdang, their increase coinciding with the advent and acceleration of petroleum product use around the lake, in particular by fishing boats. Lake Fuxian on the other hand, has undergone slower economic development and the appearance of petroleum-derived αβ-hopanes in sediments was delayed to 1990 since when the average value has been 27.1 μg g⁻¹ TOC. The abundance of αβ-hopanes in Lake Changdang has created a marked decrease in the relative contribution of hopenes to total hopanoids since 1968. Conversely, the amounts of αβ-hopanes introduced to Lake Fuxian since 1990 has yet to yield a clear change in the overall proportion of hopenes, but the abundance of ββ-hopanes has declined relative to total hopanoid levels for the period.  相似文献   

The effects of simulated inundation duration and frequency on litter decomposition: A one-year experiment     

《Limnologica》2019

There is major uncertainty in the responses of litter decomposition to the inundation regimes in field studies, mainly because of the difficulties in identification of the individual effect of duration and frequency using field studies alone. The interactive role of inundation regime and litter quality also remains unclear. The responses of mass loss to simulated inundation regime (duration and frequency) and litter quality were investigated in leaves of Carex brevicuspis and leaves and stems of Miscanthus sacchariflorus from Dongting Lake, China. Three litter types differing in litter quality were incubated under seven different inundations over 360 days (three single inundations of 90, 180, and 360 days; three repeated 180-day inundations of 2, 3, and 6 times; and no inundations) in a pond near Dongting Lake. Initial N and P contents were highest in C. brevicuspis leaves, intermediate in M. sacchariflorus leaves, and lowest in M. sacchariflorus stems, whereas the organic C, cellulose, and lignin contents were ranked in the opposite order among the three litter types. Decomposition rate was highest in M. sacchariflorus leaves (0.00222–0.00900 day⁻¹), intermediate in C. brevicuspis leaves (0.00135–0.00500 day⁻¹), and lowest in M. sacchariflorus stems (0.00080–0.00100 day⁻¹). The decomposition rate of both C. brevicuspis and M. sacchariflorus leaves increased with increasing inundation duration or decreasing frequency. However, both duration and frequency of inundation had no effect on decomposition of M. sacchariflorus stems. At the end of the incubation, N mineralization was complete in leaf litters with increasing rates with increasing inundation duration or decreasing inundation frequency, but accumulation was found in M. sacchariflorus stems. Organic C decayed quickly in both leaf litters compared with the stem litter. These data indicate that inundation regime has no effect on the decomposition of refractory stem litter while prolonged and stable inundation stimulates the degradation of labile leaf litter.  相似文献   

1973-2018年青海湖岸线动态变化   总被引：2，自引：2，他引：0  

祁苗苗  姚晓军  刘时银  朱钰  高永鹏  刘宝康 《湖泊科学》2020,32(2):573-586

青海湖独特的地理位置使得其不仅对环湖周边区域气候起着天然调节器的作用,而且还拥有丰富的湖岸线资源,准确、及时地掌握青海湖岸线动态变化对保护沿湖生态环境有重要意义.因此本文基于1973-2018年Landsat MSS/TM/OLI遥感影像和1961-2017年实测水位资料,对青海湖岸线动态变化及对鸟类栖息地的影响进行研究,同时结合面积、水位及气象数据讨论了影响岸线变化的主要因素.研究表明：1）近45年来青海湖岸线发生变化最大的区域是东岸的沙岛,西岸的鸟岛、铁布卡湾及北岸沙柳河入口区域.尤其自2004年以来,鸟岛地区岸线后退距离最大（5.52 km）,鸟类栖息地扩张约97.94 km²,为鸟类提供了较好的栖息环境.（2）1973-2018年青海湖岸线长度以0.88 km/a的速率逐渐延长.1997年之前岸线长度呈较为平稳的上升趋势,1997-2004年呈波动下降趋势,2004年之后呈剧烈波动增加趋势,岸线曲折性也表现出相同的变化趋势.（3）总体上岸线长度和曲折性受水位和面积的影响并不显著,但在不同的水位情况下,二者对青海湖动态变化做出不同的响应.尤其当水位小于3193.3 m或面积小于4249.3 km²时,岸线曲折性会随着水位和面积变化呈现相同的变化趋势,而水位高于3193.3 m时,岸线曲折性一直在增加,且水位上升速率越大则曲折性年际变化越大.（4）1973-2004年间青海湖水位下降和土地沙漠化是造成湖岸线变化的直接成因,人类活动及草场退化加速了湖泊岸线的变迁.2004年之后,随着青海湖水位回升与面积扩张,岸线逐渐后退,尤其在2017-2018年岸线后退距离最大.  相似文献   

过去40年太湖剧烈的湖泊物理环境变化及其潜在生态环境意义     

张运林  秦伯强  朱广伟 《湖泊科学》2020,32(5):1348-1359

过去40年,全球气候变暖、辐射变暗和变亮、风速减弱、气候异常波动等自然环境变化以及筑坝建闸、岸堤硬质化和调水引流等强烈人类活动势必会深刻改变太湖湖泊物理环境和过程,驱动湖泊生态系统演化.基于历史文献、档案数据以及气象水文和透明度等长期观测数据,本文系统梳理了太湖气温、水温、风速、水位和透明度等物理环境空间分布和长期变化特征,探讨了气温和风速、水位和透明度相互协同作用机制及其潜在生态环境意义.受全球变化和城市化等影响,过去40年太湖气温和水温呈现显著升高趋势,而近地面风速则表现为持续下降,湖泊增温和风速下降有利于藻类生长和蓝藻水华漂浮聚集,某种程度上增加了蓝藻水华出现频次和集聚的面积.为防洪和满足流域日益增长的水资源需求,闸坝管控和调水引流使太湖水位呈现缓慢增加趋势,而入湖污染物增加和富营养化则造成水体透明度逐渐下降,致使透明度与水位(水深)的比值明显降低,减少了湖底可利用光强,恶化水下光环境,在一定程度上驱动了太湖水生植被和草型生态系统退化.湖泊物理环境长期变化逐渐拓展了太湖藻型生境空间而压缩了草型生境空间,加剧了草型生态系统向藻型生态系统转化和增强了藻型生态系统的自我长期维持.太湖湖泊物理环境的显著变化也会部分抵消流域营养盐削减和湖体营养盐下降对藻类生物量和蓝藻水华的控制,增加了太湖蓝藻水华防控和湖泊富营养化治理的难度.这意味着未来流域控源截污需要更加严格的标准,而湖泊水位等物理环境的有效管控是应对藻华加剧和恢复草型生态系统的适应性管理策略.  相似文献   

2012-2018年巢湖水质变化趋势分析和蓝藻防控建议   总被引：4，自引：3，他引：1  

张民  史小丽  阳振  陈开宁 《湖泊科学》2020,32(1):11-20

巢湖自1990s中期至2012年间水质明显改善,但是近年来水质改善效果变缓,2018年蓝藻水华面积显著增加,为有效评估巢湖水体环境的变化,通过对20122018年巢湖17个点位的逐月调查数据分析阐述了近年来巢湖水质和藻情的变化特征,并在流域空间尺度上分析了巢湖流域水污染治理的进展和不足,为后续治理方向的调整和确定提供支撑.20122018年湖区调查数据显示:巢湖湖体总磷和总氮浓度显著升高,铵态氮浓度显著下降,水华蓝藻总量显著升高.在空间上,各污染指标水平呈现由西向东呈逐渐降低的趋势,但是各指标在不同湖区随时间的变化趋势差异明显,西部湖区的总磷、总氮和水华蓝藻指标近年来略有下降或持平,中部和东部湖区则显著升高,所以巢湖湖体总氮和总磷浓度的升高主要源于中、东部湖区的升高,这也是这两个湖区水华蓝藻变动的主要驱动因素.主要入湖河口数据显示:西部4条主要入湖污染河流(南淝河、十五里河、塘西河和派河)水质明显改善,但仍处于较高污染水平,中东部入湖河流(兆河、双桥河和柘皋河)总磷浓度明显升高,是中东部湖区水体营养盐升高的主要原因.中东部河流入湖污染的增加加剧了该区域湖体的富营养化水平,尤其是总磷浓度明显提升,导致中东部湖区夏季水华蓝藻的优势种从鱼腥藻种类演替为微囊藻种类.夏季微囊藻的大量繁殖,使得2018年巢湖中东部湖区部分月份水华面积异常增高.因此,巢湖流域的治理应该在持续强化流域西部合肥市污染治理的同时,增加对流域中部和东部治理的关注和投入.  相似文献   

鄱阳湖湿地溶解性有机质的光化学属性对水体光活性中间体(PPRIs)季节性变化的影响     

刘新  尉艺  李文康  吴定桂  金伟  江和龙  徐华成  宋娜 《湖泊科学》2024,36(3):807-816

湿地的水文和水化学在时空尺度上会呈现显著差异,进而会引发光化学反应的变化,光活性中间体(PPRIs)是水体间接光反应的产物,具有极强的氧化性,对水环境中有机物和污染物的归驱具有重要的影响,因此迫切需要探究湿地中PPRIs的产生过程。本研究通过捕获剂法监测了鄱阳湖湿地4个季节水体中3种PPRIs(¹O₂、·OH及³CDOM^*)的产生速率和稳态浓度的变化,并通过紫外吸收光谱、三维荧光光谱、以及傅立叶变换离子回旋共振质谱等技术对水体中可溶性有机质(DOM)组分的化学特征进行分析,揭示了鄱阳湖湿地不同季节水体中的DOM的光化学反应特性及与PPRIs产生的相关性。结果发现:鄱阳湖夏季和秋季水体的pH值、溶解有机碳(DOC)浓度较高,相反,硝酸盐、亚硝酸盐浓度在夏季和秋季较低。夏季和秋季的DOM中芳香族化合物丰度较高,并且木质素丰度明显高于冬季和春季。不同季节鄱阳湖水体有色可溶性有机物产生能力依次为秋季>夏季>冬季>春季。夏季和秋季水体中¹O₂和·OH产生速率和稳态浓度显著高于春季和冬季水体。pH、DOC、E2/E3、脂类、蛋白类及木质素类与PPRIs产生速率展现出了良好的正相关关系,尤其是其中的DOC与木质素类组分;另外在三维荧光指标结果中,荧光指数(FI)和新鲜度指数(β/α)与PPRIs呈现负相关关系,证明FI值越低即DOM陆源性越高、非新生DOM比例越高,则PPRIs产生速率越高。综上,PPRIs的光化学产生与植物源DOM密切相关。与春季和冬季相比,夏季和秋季鄱阳湖水体的有机质高,而其中DOM组分中芳香族化合物丰度较高,主要来自陆生植物和土壤有机质,其有机质的腐殖化水平较高,而在春季和冬季水体有机质主要来自湖泊本身和微生物产生的有机质,属于内源。淹水植物残体降解过程释放的有机组分,对夏、秋季DOM的来源和组成有着极易被忽视的影响和作用,而其中光化学活性较强的有机组分如木质素是造成其PPRIs产率更高的主要原因。  相似文献   

1990年以来柴达木盆地小柴旦湖扩张及影响分析     

祝存兄  樊启顺  严应存  校瑞香 《湖泊科学》2024,36(3):927-938

柴达木盆地盐湖对维系区域生态平衡、保障农业安全和国民经济发展具有重要的作用。受青藏高原气候暖湿化影响,盆地湖泊格局发生了一系列变化。为分析盆地盐湖变化特征,本文以小柴旦湖为例,基于长时间序列卫星数据,利用随机森林法提取盐湖水域范围并解构、评估“点-线-面”形态变化,同时构建矿化度指数表征盐湖资源禀赋。结果表明:(1)1990—2022年小柴旦湖面积呈“缓减-缓增-快增”的阶段性变化特征,岸线长度呈阶段性变化(2016年后增长明显),湖泊质心总体向西北方向迁移,截止2022年湖泊质心累计迁移距离为2363.49 m。(2)1990—2022年矿化度指数波动下降,呈“淡化”态势。(3)气象数据显示研究区年平均气温升高、年降水量增多、年潜在蒸散量下降,处于暖湿化轻度转型期,降水增多、蒸发下降、增温引起的冰雪融水增加综合叠加效应引起区域水资源增加,进而导致湖泊扩张和“淡化”。(4)小柴旦湖扩张和“淡化”对社会经济和生态平衡影响明显,一方面,影响湖区周边基础设施,近70 km²区域受淹没直接影响,包括德小高速公路、柳格高速公路部分路段;另一方面,作为资源型湖泊,小柴旦湖盐湖矿产资源开发利用潜力下降,“淡化”或将引起湖泊生态系统失衡。(5)未来应适当调整小柴旦湖开发利用方向,挖掘“雪山-荒漠-盐湖-湿地-公路”视觉多元化立体景观资源,平衡盐湖“资源”与“生态”属性。本研究从湖泊动态变化研究的视角,结合多种方法开展了有益的尝试,分析结果可为柴达木盆地盐湖资源和生态环境保护及基础设施建设提供决策支撑。  相似文献   

鄱阳湖洲滩湿地植物演替对土壤微生物量的影响     

温秀婷  郑博福  陈晨晨  龚磊强  詹慧英  余定坤  朱致睿  沈瑞昌 《湖泊科学》2024,36(3):881-889

湿地植物演替对土壤微生物量具有显著影响,但不同土壤理化环境下的植物演替对湿地土壤微生物量影响的具体差异还不清楚。以鄱阳湖土壤理化性质不同的4个碟形子湖(包括相对肥沃的东湖和白沙湖以及相对贫瘠的蚌湖和大湖池)为研究对象,运用空间代替时间的方法,在泥滩带、湿生植被带(苔草)和挺水植被带(南荻或芦苇)采集0~10 cm表层土壤,分析不同土壤理化性质条件下植物群落演替对土壤微生物量的影响。采用土壤微生物量碳(MBC)和微生物熵(qMB)指示土壤微生物量。蚌湖、大湖池、东湖和白沙湖洲滩湿地表层土壤MBC的平均值分别为1077.27、888.29、942.45和1162.46 mg/kg,土壤qMB的平均值分别为6.07%、6.17%、3.60%和3.79%。在泥滩-苔草-南荻植物演替洲滩,土壤MBC先增加后减少;但是在泥滩-苔草-芦苇植物演替洲滩,土壤MBC持续增加。植物演替没有显著改变土壤qMB。尽管植物的生长会增加所有洲滩湿地的土壤MBC,但增加的幅度在相对贫瘠的蚌湖和大湖池明显强于相对肥沃的东湖和白沙湖。蚌湖和大湖池的土壤qMB也显著高于东湖和白沙湖。在植被演替梯度上,洲滩湿地土壤MBC和qMB普遍受到土壤碳、氮、磷含量和pH的影响,但是不同洲滩湿地影响微生物量的关键元素并不相同。这些结果证明植物演替对湿地土壤微生物量的影响不仅与植物物种有关,还受土壤理化环境的影响。本研究将为认识湿地土壤微生物量的变化机制和科学管理长江中下游湖泊湿地提供依据。  相似文献