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Understanding the Spatial Heterogeneity of C[O.sub.2] and C[H.sub.4] Fluxes from an Urban Shallow Lake: Correlations with Environmental Factors

The spatial variability of carbon dioxide (C[O.sub.2]) and methane (C[H.sub.4]) fluxes across water-air interface in Xuanwu Lake was investigated in two seasons. Due to anthropogenic disturbances, the environmental factors and the fluxes of C[O.sub.2] and C[H.sub.4] in lake showed obvious spatial an...

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Published in:	Journal of chemistry 2017-01, Vol.2017
Main Authors:	Zhao, Zhenhua, Zhang, Dan, Shi, Wenmei, Ruan, Xiaohong, Sun, Jie
Format:	Article
Language:	English
Subjects:	Carbon dioxide Environmental aspects Lakes Methane
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container_title	Journal of chemistry
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creator	Zhao, Zhenhua Zhang, Dan Shi, Wenmei Ruan, Xiaohong Sun, Jie
description	The spatial variability of carbon dioxide (C[O.sub.2]) and methane (C[H.sub.4]) fluxes across water-air interface in Xuanwu Lake was investigated in two seasons. Due to anthropogenic disturbances, the environmental factors and the fluxes of C[O.sub.2] and C[H.sub.4] in lake showed obvious spatial and seasonal variability; their average fluxes in summer are significantly higher than those in autumn. The fluxes in heavy pollution sites with high concentrations of nitrogen and phosphorus nutrient in summer were 3.9 times (142.14: 36.07 mg x [m.sup.-2] x [h.sup.-1]) for C[O.sub.2] and 22.3 times for C[H.sub.4] (6.46: 0.29) higher than those in little pollution sites. In autumn, they were 12.3 times and 7.1 times higher, respectively. Anthropogenic disturbance and heavy pollution increased their fluxes, but aquatic plants reduced the emission of C[O.sub.2]. Except the sampling site with flourishing lotus, most of sampling sites without aquatic plant are the emission source of C[O.sub.2] and C[H.sub.4]. The correlation analysis, multiple stepwise regression, and redundancy analysis showed the key environmental factors for C[O.sub.2] including temperature (T), pH, chemical oxygen demand ([COD.sub.Mn]) in water, organic matter (OM), total nitrogen, and ammonia nitrogen in water and sediment. As for C[H.sub.4], the key environmental factors include turbidity, oxidation-reduction potential, dissolved oxygen, [COD.sub.Mn], and T in water and OM and N-N[H.sub.4.sup.+] in sediment.
doi_str_mv	10.1155/2017/8175631
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Due to anthropogenic disturbances, the environmental factors and the fluxes of C[O.sub.2] and C[H.sub.4] in lake showed obvious spatial and seasonal variability; their average fluxes in summer are significantly higher than those in autumn. The fluxes in heavy pollution sites with high concentrations of nitrogen and phosphorus nutrient in summer were 3.9 times (142.14: 36.07 mg x [m.sup.-2] x [h.sup.-1]) for C[O.sub.2] and 22.3 times for C[H.sub.4] (6.46: 0.29) higher than those in little pollution sites. In autumn, they were 12.3 times and 7.1 times higher, respectively. Anthropogenic disturbance and heavy pollution increased their fluxes, but aquatic plants reduced the emission of C[O.sub.2]. Except the sampling site with flourishing lotus, most of sampling sites without aquatic plant are the emission source of C[O.sub.2] and C[H.sub.4]. The correlation analysis, multiple stepwise regression, and redundancy analysis showed the key environmental factors for C[O.sub.2] including temperature (T), pH, chemical oxygen demand ([COD.sub.Mn]) in water, organic matter (OM), total nitrogen, and ammonia nitrogen in water and sediment. 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The correlation analysis, multiple stepwise regression, and redundancy analysis showed the key environmental factors for C[O.sub.2] including temperature (T), pH, chemical oxygen demand ([COD.sub.Mn]) in water, organic matter (OM), total nitrogen, and ammonia nitrogen in water and sediment. 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Due to anthropogenic disturbances, the environmental factors and the fluxes of C[O.sub.2] and C[H.sub.4] in lake showed obvious spatial and seasonal variability; their average fluxes in summer are significantly higher than those in autumn. The fluxes in heavy pollution sites with high concentrations of nitrogen and phosphorus nutrient in summer were 3.9 times (142.14: 36.07 mg x [m.sup.-2] x [h.sup.-1]) for C[O.sub.2] and 22.3 times for C[H.sub.4] (6.46: 0.29) higher than those in little pollution sites. In autumn, they were 12.3 times and 7.1 times higher, respectively. Anthropogenic disturbance and heavy pollution increased their fluxes, but aquatic plants reduced the emission of C[O.sub.2]. Except the sampling site with flourishing lotus, most of sampling sites without aquatic plant are the emission source of C[O.sub.2] and C[H.sub.4]. The correlation analysis, multiple stepwise regression, and redundancy analysis showed the key environmental factors for C[O.sub.2] including temperature (T), pH, chemical oxygen demand ([COD.sub.Mn]) in water, organic matter (OM), total nitrogen, and ammonia nitrogen in water and sediment. As for C[H.sub.4], the key environmental factors include turbidity, oxidation-reduction potential, dissolved oxygen, [COD.sub.Mn], and T in water and OM and N-N[H.sub.4.sup.+] in sediment.</abstract><pub>John Wiley & Sons, Inc</pub><doi>10.1155/2017/8175631</doi></addata></record>
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source	Open Access: Wiley-Blackwell Open Access Journals; Full-Text Journals in Chemistry (Open access)
subjects	Carbon dioxide Environmental aspects Lakes Methane
title	Understanding the Spatial Heterogeneity of C[O.sub.2] and C[H.sub.4] Fluxes from an Urban Shallow Lake: Correlations with Environmental Factors
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