Research on the carbon isotopic composition of organic matter from Lake Chenghai and Caohai Lake sediments

The carbon isotopic composition of organic matter from lake sediments has been extensively used to infer variations in productivity. In this paper, based on the study of the contents and δ13C values of organic matter in different types of lakes, it has been found that δ13C values of organic matter have different responses to lake productivity in different lakes. As to the lakes dominated by aqutic macrophytes such as Lake Caohai, organic matter becomes enriched in 13C with increasing productivity. As to the lakes dominated by aquatic algae such as Lake Chenghai, δ13C values of organic matter decrease with increasing productivity, and the degradation of aquatic algae is the main factor leading to the decrease of δ13C values of organic matter with increasing productivity. Therefore, we should be cautious to use the carbon isotopic composition of organic matter to deduce lake productivity.

The Correlation of Inorganic C, O Isotopic Values for Lake Chenghai Sediments and Its Environmental Implications

As one of the lakes on the Yunnan-Guizhou plateau, Lake Chenghai, which is a typical closed lake with the precipitation accounting for one-third or more of the annual water input, has a high total salinity (almost like a saline lake).The inorganic C,O isotopic composition of lake sediments bears much sensitive information about environmental change in the catchment, while their correlations revealed the hydrological conditions under which the lake was closed. Their compositional variations are controlled by temperature, precipitation, photosynthesis, dissolving equilibrium of the carbonate system and hydrological condition. According to our research on inorganic C, O isotopic composition of Lake Chenghai sediments, we investigated the environmental change of this catchment several decades ago. The results showed that Lake Chenghai has kept good hydrological closing conditions in the past several decades, as indicated by the good correlation of inorganic C, O isotopic composition of sediments; and that the environmental change in this catchment shows a tendency of periodical evolution on a 10\+\{-11\}-years scale, although the signal noise is relatively high at the bottom of the sediment core. And we also can extend C, O isotopes, a sensitive environmental indicator, to nearly saline lake environments with a high degree of mineralization.

Isotopic Tracing of Trophication Processes over the Last Millennia on Lake Chenghai

Multi-parameter studies (stable isotopes in carbonate and or ganic matter, pigment, organic carbon and nitrogen contents) from a 660-yr cont inuous sediment core from Lake Chenghai, a closed, eutropic lake in southern Chi na, provide information on lake historical eutrophication. During the last 660 y ears, great changes have taken place in productivity and eutrophication of Lake Chenghai in response to human activities. In 1690, the productivity of the lake began to increase as Lake Chenghai became closed from agriculture in the lake’s watershed. In 1942, Lake Chenghai evolved to eutrophic state, marked by an incr ease in organic carbon, nitrogen, CaCO\-3, pigment contents and obvious negative values of stable isotopes, which is more or less simultaneous with the large-s cale population immigration during the period. In 1984, intensive human activiti es induced modern lacustrine productivity and eutrophic level. Human-induced tr ophic changes during the past few decades have affected the Lake Chenghai ecosys tem to such an extent that it has never experienced before in the last 660 years .

Environmental evolution recorded by multi-proxy evidence in Lake Chenghai sediments, Yunnan Province during recent 100 years

Lacustrine sediments can provide potential information about environmental changes in the past. On the basis of high-resolution multi-proxy analysis including carbon and nitrogen contents of organic matter, C/N ratios, inorganic carbon contents, and carbon and oxygen isotopic composition of carbonate, together with precise 137Cs dating, the environmental evolution of Lake Chenghai, Yunnan Province, during the past 100 years has been investigated. It is shown that the carbonate in Lake Chenghai is authigenic, and the organic matter is mainly derived from aquatic plants and algae, instead of terrestrial-source materials. The environmental evolution of Lake Chenghai can be diverged into three periods with the contrasting characteristics during the past 100 years. Before 1940, the stable carbon and oxygen isotope values, the poor correlation between them and the lower carbon and nitrogen contents of organic matter suggested that Lake Chenghai was open, and the lake water was oligotrophic during that period. During 1940-1993, the negative δ13C values and the gradual increase of carbon and nitrogen contents of organic matter and C/N ratios indicated that the eutrophication was aggravated. The closeness of Lake Chenghai and human activities may be responsible for this eutrophication. After 1993, notable increases in carbon and oxygen isotopic values of carbonate, carbon and nitrogen contents of organic matter, C/N ratios and inorganic carbon contents demonstrated that the increase of lacustrine productivity and the serious eutrophication were resulted from strong human activities. Therefore, the multi-proxy in Lake Chenghai sediments has reliably recorded the natural environmental evolution and the impacts from human activities.

以河长制为抓手构建河湖管理保护机制探讨——以云南省程海为例

程海属于内陆封闭型湖泊,近年来程海周边旅游业崛起,人为活动日渐频繁,对湖水需求量逐日增加,导致本不能对外出水的程海流域沉积了超出湖体自身净化能力的污染物质,从而影响整个生境的自然循环能力。深入贯彻落实习近平生态文明思想,积极践行“绿水青山就是金山银山”理念,按照中央、省、市决策部署,坚持问题导向和目标导向,制定《关于全面推行河长制的实施意见》,在全县范围内全面推行河长制、湖长制,推动山水林田湖草沙系统治理,既治乱又治病治根,打造生态美丽河湖,使程海流域的河湖面貌得到初步改善。

云南程海近500年来湖泊初始生产力的演化

程海为富营养化封闭湖泊。通过对程海 CH0 1孔沉积物色素分析 ,定性恢复了近 5 0 0 a来程海湖泊初始生产力演化过程。结果表明 ,近 5 0 0 a来程海湖泊初始生产力总体上呈现由低到高的上升趋势。其中 170 0 AD前后、1790 AD前后是湖泊初始生产力出现变化的界限。另外 ,色素含量变化揭示研究时期内存在 175 0 AD前后、1930

程海藻类植物种群结构和数量的周年变化特征

2009年10月—2010年9月,在程海湖设置了3个断面9个采样点,对程海藻类植物进行了逐月采样调查。结果表明：程海藻类植物种类175种（变种）,种类组成结构特点以硅藻、绿藻、蓝藻为主;数量组成结构特点则是蓝藻占绝对优势,表现出典型的富营养化蓝藻型特征。细胞丰度为390.16×104~51 435.0×104个.L-1之间,年平均4 851.75×104个.L-1。年内时间分布呈现出3次波峰与3次波谷,每一次高峰的出现都伴随着不同种类为主的蓝藻水华暴发;水平分布在种类上无明显差异,数量上则表现出南部断面最低,中部断面次之,北部断面最高;垂直分布以表层最多,底层最低,5.0~20.0 m水柱中差异不明显。与1985年相比,种类组成中硅藻比重下降而蓝绿藻比重上升,一些对环境敏感的种类消失,优势种群发生演变,年内数量变动由单峰型发展为多峰型,湖泊富营养化进一步发展。提出了大力削减入湖污染物、增强湖泊生态系统的功能等控制富营养化的对策建议。

程海近代气候变化的化学记录

通过对程海沉积物化学组分及其比值变化剖面的精细剖析 ,辨识了程海沉积物碳酸盐含量、Ca O/ (Mg O· Al2 O3)和 (Ca O+K2 O+Na2 O) / Al2 O3比值的环境指示意义 ,初步探讨了程海区域的气候短尺度波动。研究结果表明 ,程海区域主要表现为暖干与冷湿相交替的气候演替类型 ,且存在约 5 0

云南省高原深水湖泊程海磷形态分布和变化

采用GPS定位,在程海设置了3个断面9个采样点,对各种形态磷进行了为期1 a的研究,分析了高原深水湖泊程海磷形态分布和变化.结果表明:程海中总磷含量范围为0.008～0.155 mg/L,年平均值为0.046 mg/L,含量水平已经较高.存在形态是颗粒态总磷占54.35%;溶解态有机磷占19.56%;溶解态无机磷占26.09%.各形态磷时间分布和变化与水生生物特别是浮游植物生命活动和周期变化密切相关;水平分布格局受浮游生物活动、湖流风动等综合影响;由水表层-亚底层垂直分布比较均匀,湖底层含量不同程度升高.

青藏高原东缘近2000年湖泊气候记录及全球联系

掌握青藏高原东缘气候变化历史对认识区域乃至全球气候动力成因有重要意义。本文基于我们近年来在青藏高原东缘获取的湖泊记录，并汇总他人研究成果，探讨了高原东缘近2000年气候变化历史。我们的工作表明青藏高原东缘北部（N-ETP）和南部（S-ETP）近2000年水文气候存在显著的区域差异。N-ETP 地区中世纪总体温暖湿润，小冰期寒冷干燥，近100-200年温暖湿润，表现为“暖湿-冷干”气候模式；而S-ETP地区中世纪温暖干旱，小冰期寒冷湿润，近100-200年温暖干旱，表现为“冷湿-暖干”气候模式。对比分析表明，N-ETP地区气候模式与东亚夏季风广泛区域气候模式相似；而S-ETP地区气候模式与多数印度夏季风地区气候模式相似。我们怀疑这样大尺度的水文气候差异可能与不同区域大气环流差异以及赤道太平洋-印度洋海表面温度变化及其引起的大气环流的强度及位置的变化有关。

高原深水湖泊程海氮磷形态分布特征及其与叶绿素a的相关性

湖泊水体氮、磷形态分布特征及其与藻类生长的关系是湖泊富营养化研究的重要方面。采用GPS定位,在程海湖设置了3个断面9个采样点,研究了氮、磷形态分布特征,并分析了各形态氮磷与叶绿素a的相关性。结果表明:总氮(TN)质量浓度为0.773 mg.L-1,总磷(TP)质量浓度为0.046 mg.L-1,叶绿素a质量浓度为0.024 mg.L-1。氮素的赋存形态特征是以溶解态总氮(DTN)占大部分,DTN中又以溶解态有机氮(DON)占绝大部分;磷素的存在特点是溶解态无机磷(DIP)含量比重较大。各形态氮、磷都有明显的季节性波动但区域性差异不明显,叶绿素a则有明显的季节节律和时空差异。叶绿素a很好地响应了总氮(TN)、总磷(TP)、溶解态总氮(DTN)、溶解态总磷(DTP)、颗粒态总氮(PTN)、颗粒态总磷(PTP)的变化。程海富营养化受氮和磷共同限制,控制富营养化必须同时削减氮和磷。

程海的水质状况及咸化趋势

程海又名黑坞海,位于东经100°38—41′,北纬26°27—38′之间,即今云南省永胜县城西南20km处,是横断山区最大的一个内流高山湖泊。长期以来,程海的水量出湖略大于入湖,湖水量逐年减少,水质向咸化方向发展。本文根据1981年5月27日—6月5日对程海的综合调查资料,重点分析了1972年至1981年水质演变情况,对水质状况及成化趋势进行了初步研究。

程海水质变动特征与水安全预警因素识别

采用GPS定位,在程海湖设置了3个断面9个采样点,对程海水质进行了为期1 a的研究,分析了水质时间变化特征和空间变化特征,辨识出影响程海水质时空变动的主要因素,提出水质安全预警级别与阈值判定建议。结果表明:2009年10月—2010年9月程海水质综合评价为Ⅲ类,其中有半年(1月、4月、5月、8月、9月、12月)水质类别为Ⅳ类,不能达到水环境保护目标要求;另半年水质类别为Ⅲ类,达到水环境保护目标要求。超标项目有总磷(TP)、高锰酸盐指数(CODMn)、总氮(TN)、溶解氧(DO),超标率分别为35.2%、14.8%、10.2%和9.3%,最大超标倍数分别为2.10倍、0.95倍、1.83倍和0.03倍,年平均质量浓度分别为0.046mg/L、5.15mg/L、0.773mg/L和7.51mg/L。水平变化特征为:湖南部—湖中部—湖北部水质逐渐下降;湖东部—湖中部—湖西部水质逐渐变差,湖东南角水质最好,湖西北角水质最差,湖中心水质并不明显优于湖周水质,其差异性多因TP、TN的差异引起。垂向分布上则比较均匀,但CODMn、TN、TP在湖底层明显升高,其原因相对复杂。辨识出影响程海水质变动的主要因素是叶绿素a(Chl.a)、总氮(TN)、总磷(TP)、高锰酸盐指数(CODMn)、透明度(SD)。提出了水环境安全预警体系中5项指标的水质安全预警级别与判定阈值,建议三级黄色预警值分别是0.020 mg/L、0.60 mg/L、0.030mg/L、3.5 mg/L和3.0m。

基于SCS和USLE的程海总磷总氮参照状态推断

将流域入湖的氮磷负荷分为点源和非点源两部分,基于SCS模型和USLE模型,分别计算流域入湖的溶解态和颗粒态非点源负荷,根据工业、城镇生活及规模养殖废水排放,计算了流域入湖的点源负荷。通过计算的入湖负荷和现有的湖泊氮磷浓度数据,建立了湖泊氮磷质量守恒模型。根据计算的逐年入湖氮磷负荷和建立的湖泊氮磷质量守恒模型,逆推逐年的湖泊氮磷浓度,确定湖泊氮磷参照状态。应用建立的模型推断程海的TP、TN参照状态分别为0.014 mg/L和0.247 mg/L。构建的湖泊氮磷参照状态推断模型,所需资料少,概念清晰,在资料缺乏的其他湖泊流域具有推广应用价值。

以程海为例用支持向量机回归算法预测叶绿素a浓度

应用支持向量机回归(SVR)算法预测程海富营养化水体叶绿素a(Chl-a)的浓度,用留一法交叉验证(LOOCV)优化SVR预测模型的参数,并根据平均相对误差(MRE),讨论SVR预测模型的准确性。结果表明:用径向基核函数构建的SVR预测模型预测结果最优;SVR预测模型的预测值和实测值具有很好的一致性,相关系数为0.938,MRE为12.30%。SVR预测模型的建模结果优于人工神经网络(BP-ANN)预测模型,说明SVR算法能够准确预测Chl-a浓度。

云南程海富营养化过程的碳氧稳定同位素示踪

近 5 0 0年来程海生物成因碳酸盐δ1 8O和δ1 3C及其有机质δ1 3C同位素记录了程海湖泊环境由贫营养到中富营养的演化过程。碳酸盐δ1 8O记录显示 ,大约 1 690年程海成为封闭湖泊后 ,当时湖泊贫营养环境并没有发生变化 ,但造成了湖泊水体交换周期加长 ,碳酸盐δ1 3C、有机质δ1 3C及其色素含量、碳酸盐含量变化指示湖泊生产力开始增高。 1 91 1～ 1 942年碳酸盐δ1 8O和δ1 3C及有机质δ1 3C突然显著偏负 ,表明湖泊生物种群结构发生转变 ,湖泊初级生产力迅速增加 ,湖泊由贫营养向中营养转化。湖泊沉积物色素含量及碳酸盐含量变化也记录了这一湖泊环境的转换过程。约 1 986年以来 ,随着藻类养殖业及其农业耕作方式的转变 ,程海水环境渐渐转变成目前的中富营养化状态。

云南程海湖淡水真菌抗菌活性筛选

从云南程海湖分离到473株淡水真菌,用滤纸片法测定其抗菌活性,活性菌株经显微形态观察进行分类鉴定。结果显示有290株菌对至少1种病原菌具有抗菌活性,占总菌株数的61.31%;高抗菌活性菌株59株(抑菌圈直径≥15 mm),占总菌株的12.47%。将具有抗菌活性的菌株鉴定为46个属,优势属为青霉属(Penicillium)、曲霉属(Aspergillus)和枝孢属(Cladosporium)。

云南省程海现代沉积物中^(137)Cs、^(210)Pb的分布及计年研究

程海沉积物柱芯中存在三个峰形完好的137Cs蓄积峰。 94%的137Cs累计值分配于 1985年以前 ,表明程海沉积物中的13 7Cs能较好地保存在沉积年代的相应层节中。该沉积物柱芯中2 10 Pbex的分布特殊 ,据此将近五十年来程海的沉积过程分为三个稳定沉积阶段和两个快速沉积阶段。两种计年方法的结合有助于认识沉积速率变化较大情况下湖泊的沉积状况 。

云南程海沉积物碳酸盐来源辨识

碳酸盐是湖泊沉积物的组成部分,其碳、氧同位素组成是恢复湖区古气候/古环境的有效代用指标.沉积物碳酸盐包括物源区带来的外源碳酸盐和湖泊内生沉淀产生的自生碳酸盐,其中只有自生碳酸盐才具有古气候指示意义.故沉积物碳酸盐来源辨识是开展碳酸盐古环境记录研究的基础和前提.通过多种方法的综合判别,证明了程海沉积物碳酸盐主要是自生碳酸盐,为开展碳酸盐记录研究提供了可靠依据.程海是开展碳酸盐碳氧同位素与古气候研究的理想场所,尤其值得深入研究.

程海湖滨区造林的土壤条件分析及其应用技术

通过对程海湖滨区土壤条件的分析,针对其造林困难的特点,经试验研究提出了适用于该区域的造林技术措施。分析认为:程海湖滨区多为塌陷松散堆积物,土壤石砾含量高,达79.31%以上,土壤水分的渗透较快,既不保水也不保肥,在程海湖滨区采用优质容器大苗培育技术、大塘客土造林技术、旱季微渗持续给水灌溉技术,可取得较好的造林成效。