三峡支流消落带表层沉积物氮矿化动力学参数估算

刘丹; 张帅; 唐玉姣; 尹静; 谭兴伶; 陈茜; 于志国; 林俊杰

文章摘要

刘丹,张帅,唐玉姣,尹静,谭兴伶,陈茜,于志国,林俊杰.三峡支流消落带表层沉积物氮矿化动力学参数估算[J].农业环境科学学报,2018,37(4):766-773.

三峡支流消落带表层沉积物氮矿化动力学参数估算

Parameter estimates of sediment nitrogen mineralization kinetics in the water level fluctuation zone of a Three Gorges Reservoir tributary

投稿时间：2017-09-29

DOI：10.11654/jaes.2017-1482

中文关键词: 三峡库区氮矿化速率水位波动氮矿化模型彭溪河流域

英文关键词: Three Gorges Reservoir area nitrogen mineralization rate water level fluctuation nitrogen mineralization model Pengxi River basin

基金项目:重庆市教委科学技术研究项目（KJ1733441，KJ1601016）；国家自然科学基金项目（31670467）；教育部春晖计划项目（Z2015133）；万州科技人才专项（2016-1）；三峡库区水环境演变与污染防治重庆高校市级重点实验室开放基金（WEPKL2016ZD-01，WEPKL2016ZZ-01）

作者	单位	E-mail
刘丹	重庆三峡职业学院农林科技系, 重庆万州 404100
张帅	重庆三峡学院三峡库区水环境演变与污染防治重庆高校市级重点实验室, 重庆万州 404155
唐玉姣	重庆三峡学院三峡库区水环境演变与污染防治重庆高校市级重点实验室, 重庆万州 404155
尹静	重庆三峡学院三峡库区水环境演变与污染防治重庆高校市级重点实验室, 重庆万州 404155
谭兴伶	重庆三峡学院三峡库区水环境演变与污染防治重庆高校市级重点实验室, 重庆万州 404155
陈茜	重庆三峡学院三峡库区水环境演变与污染防治重庆高校市级重点实验室, 重庆万州 404155
于志国	南京信息工程大学水文气象学院, 南京 210044
林俊杰	重庆三峡学院三峡库区水环境演变与污染防治重庆高校市级重点实验室, 重庆万州 404155	ybu_lin@126.com

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中文摘要:

为揭示干湿循环过程对消落带沉积物氮矿化动力学特征的影响，以三峡典型支流——澎溪河为例，分别于上、下游两个水文断面采集170 m（高）和150 m（低）水位高程消落带的表层（0~15 cm）沉积物样品。采用厌氧培养法测定其净氮矿化速率，应用One-pool、Two-pool、Special和有效积温（EATM）四种模型拟合氮矿化过程并建立估算方程。结果表明，沉积物总碳、总氮、碳氮比、有机质、粘粒、粉粒和铵态氮含量随高程降低而增加，而沉积物总磷、砂砾、硝态氮趋势相反（P<0.05）。低、高水位高程氮矿化最优拟合模型分别为One-pool和Special，其中易矿化速率常数（k_d）分别为0.17、0.12 d^-1，易矿化势（f_d）分别为4.05%和4.71%。另外，f_d与总碳、总氮、碳氮比、有机质、铵态氮、粉粒呈显著负相关，与硝态氮和砂砾呈显著正相关（P<0.05），而k_d相反，且两参数可用有机质和碳氮比进行估算。

英文摘要:

To reveal the effect of drought-rewetting process on the nitrogen mineralization kinetics in the sediment of the water level fluctuation(WLF) zone, surface sediment samples were collected over various water level altitudes at the upper and downstream sections of the Pengxi River. The sediment nitrogen mineralization rate was evaluated with anaerobic incubation. The one-pool, two-pool, special, and effective accumulated temperature models(EATM) were applied to fit the data of nitrogen mineralization kinetics in sediments. The result showed that total organic carbon(C), total nitrogen(N), organic matter(OM), clay, silt, and NH₄⁺-N in the higher altitude were lower than that in the lower altitude, which is on the contrary to total phosphorus, sand, and NO₃^--N. The one-pool model and special model were the optimal models for fitting nitrogen mineralization in sediments at low and high altitudes, respectively. The N mineralization rate constants(k_d) were 0.17 d^-1 and 0.12 d^-1, while the N mineralization potentials(f_d) were 4.05% and 4.71% in the low and high altitude sediments, respectively. The f_d was negatively correlated with C, N, C/N ratio, OM, NH₄⁺-N, and silt, and was positively correlated with NO₃^--N and sand (P<0.05). The k_d value had an opposite trend compared to the variation in f_d. The model parameters of f_d and k_d were successfully estimated by using the OM and C/N ratio. The current study revealed that nitrogen mineralization kinetics in sediment had a strong correlation with the water nitrogen content, and could thus be used to predict the contribution of nitrogen input into the WLF zone as an indicator of river eutrophication.

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