胶州湾冬季异养细菌与营养盐分布特征及关系研究   总被引：8，自引：1，他引：7  

白洁  张昊飞  李岿然  张经  刘东艳  高冬梅  易齐涛 《海洋科学》2004,28(12):31-34

2003年12月、2004年1月和2月下旬进行了3个航次的现场调查,对胶州湾冬季异养浮游细菌和无机营养盐分布特征、相互关系及影响因素进行了探讨。胶州湾冬季异养浮游细菌数量的月变化与水温的变化趋势基本一致,分布特征为近岸高,离岸逐渐减少,最大值出现在湾东北部,为7.55×109个/dm3,最小值位于湾中央,为1.89×109个/dm3。水体PO3-,NO-和NH+等营养盐的分布同样具有近岸较高,离岸逐渐减少的特点,异养细菌数量分布与氨盐浓度呈高度显著性正相关,相关系数为0.73(P<0.01),与硝酸盐和磷酸盐浓度呈显著性正相关关系,相关系数分别为0.50和0.48(P≤0.05)。水温是影响胶州湾细菌季节变化的主要因素之一,冬季营养盐水平分布可能与异养浮游细菌矿化有机质产生营养盐有关。  相似文献   

Inorganic nitrogen retention in acid‐sensitive lakes in southern Norway and southern Ontario,Canada—a comparison of mass balance data with an empirical N retention model     

. Kaste  P. J. Dillon 《水文研究》2003,17(12):2393-2407

In‐lake retention of inorganic nitrogen species (nitrate and ammonium) was estimated from mass balances in five acid‐sensitive lakes in southern Norway and eight in southern Ontario, Canada, to evaluate an empirical in‐lake N retention (R_N) model. This model is included in the First‐order Acidity Balance (FAB) model, which currently is used for calculation of critical acid loads and exceedances in many countries. To estimate in‐lake R_N, the FAB model uses a recommended mass transfer coefficient (S_N) of 5 m year⁻¹, which mainly is derived from NO₃⁻ mass balances in Canadian lakes. To date, the in‐lake R_N model has not been evaluated for large parts of Europe. At the Norwegian study sites receiving the highest N deposition (>120 meq m⁻² year⁻¹) the net in‐lake retention of inorganic N (TIN) exceeded the corresponding terrestrial retention by a factor of 1·1–2·6. Despite differences in N loading and hydrology at the Norwegian and Canadian sites, both the mean mass transfer coefficients for NO₃⁻ (S_NO3; 6·5 versus 5·6 m year⁻¹) and TIN (S_TIN; 7·9 versus 7·0 m year⁻¹) were of comparable magnitude. Both mean values and ranges of S_NO3 suggest that the default S_N value presently recommended for FAB model applications seems valid over a large range in N inputs and areal water loads (q_s). However, owing to the relatively few data available for lakes with high q_s values (15–150 m year⁻¹), it is recommended that more lakes within this range be included in future studies to obtain a more precise prediction of in‐lake N retention over a wide q_s gradient. Also, when considering that the FAB model treats all inorganic N leaching from a catchment as NO₃⁻, it seems reasonable to use a default S_TIN value instead of just S_NO3 when estimating in‐lake R_N. In that case, the in‐lake R_N presently calculated by the FAB model might be slightly underestimated. Copyright © 2003 John Wiley & Sons, Ltd.  相似文献   

不同水生植物对富营养化水体无机氮吸收动力学特征   总被引：3，自引：2，他引：1  

张贵龙  赵建宁  刘红梅  秦伟  吴钰明  杨殿林 《湖泊科学》2013,25(2):221-226

采用浓度梯度法,研究了鸢尾(Iris louisiana)、狐尾藻(Myriophyllum verticillatum)、茭白(Zizania latifolia)和水芹(Oenanthe clecumbens)对硝态氮(NO₃^--N)和铵态氮(NH₄⁺-N)吸收动力学特征.结果表明:4种水生植物对水体NO₃^--N和NH₄⁺-N吸收可用Michaelis-Menten酶动力学方程描述,随溶液NO₃^--N和NH₄⁺-N浓度增加,植物吸收NO₃^--N和NH₄⁺-N速率增加,当溶液NO₃^--N和NH₄⁺-N浓度接近于2.0 mmol/L时,吸收速率增加趋缓;4种水生植物对NO₃^--N和NH₄⁺-N的V_max值大小为水芹 >茭白 >鸢尾 >狐尾藻,对NO₃^--N的K_m值大小为水芹 >鸢尾=茭白=狐尾藻,对NH₄⁺-N的K_m值大小为水芹 >狐尾藻 >茭白=鸢尾.根据吸收动力学参数(V_max,K_m)判断水芹适宜于净化NO₃^--N和NH₄⁺-N浓度较高的水体,茭白、鸢尾和狐尾藻适合净化NO₃^--N和NH₄⁺-N浓度较低水体;4种水生植物对NO₃^--N、NH₄⁺-N表现出不同的吸收偏好性,鸢尾吸收NO₃^--N的潜力大于吸收NH₄⁺-N的,但对NH₄⁺-N的亲和力大于NO₃^--N,表明能在NO₃^--N浓度较高环境中优先吸收NH₄⁺-N.狐尾藻和水芹对NO₃^--N和NH₄⁺-N能均衡吸收.茭白对NH₄⁺-N具有较高的吸收潜力与亲和力.  相似文献