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    太湖流域典型湖泊水-气界面碳通量特征及影响因素

    Characteristics and Influence Factors of CO2 Flux at Water-Air Interface of Typical Lake in the Taihu Lake Basin

    • 摘要: 目前,针对湖泊(尤其是浅水湖泊)的温室气体通量观测仍相对较少,监测数据缺乏延续性和长期性,其水-气界面交换通量的特征存在较大的不确定性。为进一步识别湖泊在碳循环中的作用及影响因子,支撑湖泊碳循环机制研究,采用国际通量观测的主要手段——涡度相关法,对太湖流域典型浅水湖泊滆湖开展水-气界面CO2通量的长期直接观测。基于2023—2024 年的观测数据,分析了滆湖CO2 通量多时间尺度变化特征及其与pH、温度、藻密度、氮磷营养盐等指标的关联性,并进一步分析了CO2通量关键影响因子有机质的来源。结果表明:在年尺度上,滆湖CO2通量为0.03 μmol/(m2·s),夏秋季总体释放CO2,7月达全年的排放峰值(32.6 gC/m2);冬春季节吸收CO2,2月达吸收峰值(-28.4 gC/m2);春、夏、秋季的白天总体为大气的汇、夜晚为源,吸收峰值出现在10:00—15:00,排放峰值出现在20:00—06:00;冬季CO2通量日变化特征相对不明显。CO2通量与温度、pH、总磷、藻密度等呈正相关,与高锰酸盐指数等有机污染指标显著相关,夏秋季有机指标浓度、磷营养盐和藻密度含量明显高于冬春季。分析显示,滆湖溶解性有机质以沉积物的释放,藻类、细菌和微生物活动等内源贡献为主,同时存在一定的外源输入影响。水温、总磷、磷酸盐、藻密度、高锰酸盐指数每降低10%,CO2通量将分别下降24.6%、2.4%、3.7%、7.4%、25.6%。

       

      Abstract: At present,there are relatively few observations of greenhouse gas fluxes in lakes,especially shallow lakes,with a lack of continuity and long-term monitoring data,leading to highly uncertain in the characteristics of water-air interface exchange flux.To further identify the role and influencing factors of lakes in the carbon cycle,and to support research on the mechanism of lake carbon cycle,this study employed the eddy covariance method,a primary international approach for flux observations,to carry out long-term direct observations of water-air interface CO2 fluxes in the Gehu Lake,a typical shallow lake in the Taihu Lake Basin.Based on the observation data from 2023 to 2024,the multi-timescale changes characteristics of CO2 flux in the Gehu Lake and their correlations with indicators such as pH,temperature,algal density,nitrogen and phosphorus nutrients were analyzed,and the sources of organic matter,a key influencing factor of CO2 flux,were further analyzed.The results showed that on an annual scale,the CO2 flux in the Gehu Lake was 0.03 μmol/(m2·s),with an overall release of CO2 in summer and autumn,reaching a peak emission of 32.6 gC/m2 in July,while CO2 was absorbed in winter and spring,reaching a peak absorption of -28.4 gC/m2 in February.During spring,summer,and autumn,the lake generally acted as a carbon sink during the daytime and a carbon source at night,with the absorption peak occurring between 10:00 and 15:00,and the emission peak between 20:00 and 06:00.The diurnal variation of CO2 flux was relatively weak in winter.CO2 flux showed positive correlations with temperature,pH,total phosphorus,and algal density,and was significantly correlated with organic pollution indicators such as permanganate index.The concentrations of organic indicators,phosphorus nutrients,and algal density were significantly higher in summer and autumn than in winter and spring.Analysis showed that the dissolved organic matter was mainly released from sediments,and the activities of algae,bacteria,and microorganisms,with some influence from exogenous inputs.For every 10% decrease in water temperature,total phosphorus,phosphate,algal density and permanganate index was associated with a 24.6%,2.4%,3.7%,7.4%,and 25.6% decrease in CO2 flux,respectively.

       

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