Land use and topography as predictors of nutrient levels in a tropical catchment     

María M. Castillo 《Limnologica》2010,40(4):322-329

The influence of landscape on nutrient concentration and yield was analyzed in a tropical catchment, the Guare River in northern Venezuela. Spatial and temporal variation in nitrate, SRP and total P were determined in 15 sites located along the river mainstem and tributaries. Higher nitrate concentrations and yields were reported from upper sites and both decreased in the downstream direction along the river mainstem. These trends appear to be related to more pronounced slopes and larger proportions of agricultural and forest lands in subcatchments located in the upper part of the basin, and dense algal mats in the lower reaches. Nitrate values were higher during periods of high discharge, suggesting that nitrate is primarily transported by shallow subsurface flow. SRP represented between 60 and 80% of total P. Phosphorus concentrations were homogeneous along the river mainstem and showed little seasonal variation, while yields were higher in the upper basin. Multiple regression identified slope, runoff and agriculture as primary predictors of nitrate and phosphorus across the watershed, which suggests that both natural and anthropogenic landscape characteristics have a strong influence on nutrient levels in the Guare catchment.  相似文献   

Plant Species Richness Increased Belowground Plant Biomass and Substrate Nitrogen Removal in a Constructed Wetland     

Hai Wang  Zheng‐Xin Chen  Xiao‐Yu Zhang  Si‐Xi Zhu  Ying Ge  Scott‐X. Chang  Chong‐Bang Zhang  Cheng‐Cai Huang  Jie Chang 《洁净——土壤、空气、水》2013,41(7):657-664

The effects of plant species richness on both above‐ and belowground plant biomass, plant nitrogen (N) pool size, and substrate N concentrations were studied in a full‐scale subsurface vertical‐flow constructed wetland (CW). Results showed that (i) plant species richness increased belowground plant biomass and its N pool size but had no effect on aboveground plant biomass and its N pool size; (ii) plant species richness increased substrate N removal, especially ammonium N removal; and (iii) plant species richness had no effect on plant N use efficiency, suggesting that the N pool size increased with increasing plant species richness. More N accumulation could be removed through harvesting plant biomass. We concluded that the N removal performance of the CW improved by plant species richness through increasing belowground biomass and relevant N pool size.  相似文献   

Possible link between new coronavirus variants and atmospheric lightning and seawater intrusion          下载免费PDF全文

Jianping Huang  Yingjie Zhao  Danfeng Wang 《大气和海洋科学快报》2022,15(1):100135

自新型冠状病毒肺炎暴发一年多以来,已经对全球产生深远影响.新型冠状病毒肺炎变异毒株的出现使当前疫情发展充满了不确定性.从这方面出发,我们讨论病毒变异与大气因素之间的联系.根据固氮过程和硝酸盐在人体中的转化过程,我们提出了新型冠状病毒肺炎变异毒株的出现或许和闪电以及海水入侵有联系.我们的研究对新型冠状病毒肺炎变异毒株可能的产生原因提供新的观点.  相似文献   

海水硝酸盐氮、氧同位素组成研究进展   总被引：2，自引：0，他引：2  

杨志  陈敏 《地球科学进展》2012,27(3):268-275

海洋中氮的生物地球化学循环影响着海洋生态系统的结构和功能,并和全球气候变化有着密切的联系,一直是海洋科学研究的重点和热点。海水硝酸盐的15N/14N和18O/16O比值可以反映海洋中氮循环的主要过程,因而成为研究海洋氮循环的一个重要手段。综述海水硝酸盐氮、氧同位素组成的测定方法,同化吸收作用、硝化作用、反硝化作用、生物固氮作用等氮循环过程所导致的氮、氧同位素分馏及其在海洋学研究中的应用。海洋生态系中硝酸盐氮、氧同位素的分布可以提供支持生物生产力的氮来源信息,以及氮在不同储库迁移转化的路径与机制。未来的研究需要发展适用于低含量硝酸盐的同位素测量方法,构筑海洋氮的收支平衡,掌握影响上层海洋硝酸盐氮、氧同位素变化的过程,获取全球海域有关硝酸盐氮、氧同位素组成的更多数据。  相似文献   

硝酸盐氮氧稳定同位素分馏过程记录的海洋氮循环研究进展   总被引：2，自引：1，他引：1  

洪义国 《地球科学进展》2013,28(7):751-764

海洋生态系统中的氮素生物地球化学循环主要是由微生物的代谢过程来驱动的,包括氮固定、氮同化、硝化以及反硝化和厌氧氨氧化过程,这些过程都伴随着不同程度的氮氧同位素的分馏,直接影响着海洋硝酸盐中的氮氧稳定同位素组成.因此,通过检测海洋硝酸盐中的氮氧稳定同位素信号,就可以捕捉到海洋中发生的具体氮素循环过程.细菌反硝化法是这一研究最有力的手段,通过细菌的作用把硝酸盐中记录的氮氧稳定同位素信号转化到N2O中,再通过痕量N2O的同位素质谱测定和分析,准确地反映海洋中发生的氮素转化过程.硝酸盐氮氧稳定同位素分馏过程为深入理解海洋氮循环提供了一个重要的工具,有力推动了海洋氮素生物地球化学的研究,在近10年来取得了重要进展.  相似文献   

The use of monitoring data for identifying factors influencing phytoplankton bloom dynamics in the eutrophic Taw Estuary, SW England     

Gerald Maier  Gillian A. Glegg  Alan D. Tappin  Paul J. Worsfold 《Marine pollution bulletin》2009,58(7):1007-288

Using the Taw Estuary as an example, data routinely collected by the Environment Agency for England and Wales over the period 1990-2004 were interrogated to identify the drivers of excessive algal growth. The estuary was highly productive with chlorophyll concentrations regularly exceeding 100 μg L⁻¹, mostly during periods of low freshwater input from the River Taw when estuarine water residence times were longest. However, algal growth in mid estuary was often inhibited by ammonia inputs from the adjacent sewage treatment works. The reported approach demonstrates the value of applying conventional statistical analyses in a structured way to existing monitoring data and is recommended as a useful tool for the rapid assessment of eutrophication. However, future estuarine monitoring should include the collection of dissolved organic nutrient data and targeted high temporal resolution data because the drivers of eutrophication are complex and often very specific to a particular estuary.  相似文献   

Comparison of nitrate attenuation characterization methods at the Uranium mill tailing site in Monument Valley, Arizona     

Kenneth C. Carroll  Fiona L. Jordan  Edward P. Glenn  W. Jody Waugh  Mark L. Brusseau   《Journal of Hydrology》2009,378(1-2):72-81

Several methods for characterizing the occurrence and rate of nitrate attenuation were tested at a field site near Monument Valley, Arizona. Spatial and temporal nitrate concentration data collected from a transect of monitoring wells located along the plume centerline were analyzed to evaluate the overall rates of natural attenuation. The occurrence and rate of denitrification was evaluated through microcosm experiments, nitrogen isotopic fractionation analysis, and solute-transport modeling. First-order denitrification-rate coefficients calculated with each method were comparable. In addition, the composite natural attenuation rate coefficient was similar to the denitrification-rate coefficients, which suggests that microbially induced decay primarily controls nitrate attenuation at the site. This research highlights the benefits associated with a multiple-method approach for the characterization of natural attenuation.  相似文献   

Weather-induced temporal variations in nitrate concentrations in shallow groundwater   总被引：1，自引：0，他引：1  

J.C. Rozemeijer  H.P. Broers  F.C. van Geer  M.F.P. Bierkens   《Journal of Hydrology》2009,378(1-2):119-127

For the evaluation of policy action programs to improve groundwater quality, research institutes and governments intensively monitor nitrate concentrations in shallow or near surface groundwater. However, trend detection is often hampered by the large seasonal and multi-annual temporal variability in nitrate concentrations, especially in shallow groundwater within 0–5 m below the surface in relatively humid regions. This variability is mainly caused by variations in precipitation excess (precipitation minus evapotranspiration) that results in strong variability in groundwater recharge. The objective of this study was to understand and quantify this weather-induced variability in shallow groundwater nitrate concentrations.We present an example of measured weather related variations in shallow groundwater nitrate concentrations from De Marke, an intensively monitored experimental farm in The Netherlands. For the quantification of the weather-induced variability, concentration-indices were calculated using a 1D model for water and solute transport. The results indicate that nitrate concentrations in the upper meter of groundwater at De Marke vary between 55% and 153% of the average concentration due to meteorological variability. The concentration-index quantification method was successfully used to distinguish weather related variability from human-induced trends in the nitrate concentration monitoring data from De Marke. Our model simulations also shows that sampling from fixed monitoring wells produces less short term variability than measuring from open boreholes. In addition, using larger screen depths and longer screens filters out short term temporal variability at the cost of a more delayed detection of trends in groundwater quality.  相似文献   

硝酸盐水质污染与污染源类型的相关性以及氮同位素的应用分析          下载免费PDF全文

王超 《山东国土资源》2019,35(2)

为了研究莱芜市各类污染源对硝酸盐数值贡献的大小,通过莱芜市地下水污染调查项目各类污染源水质监测结果,挑选出符合对应污染源类型的硝酸盐水质监测数据,进行数理统计,显示对硝酸盐影响数值贡献最大的污染源类型为畜禽养殖,其次为农业面源污染、固体废弃物、工业废水排放、生活污水、矿坑排水。为识别莱芜市地下水中硝酸盐的来源,选取莱芜市10处同位素采样点进行δ~(15)N及δ~(18)O测试,根据测试结果,δ~(15)N值变化范围为(5.82～19.95)×10~(-3),δ~(18)O值变化范围为(-8.76～-5.34)×10~(-3),根据采样点δ~(15)N、δ~(18)O值所在的值域位置及所处的水文地质条件,表明10处同位素采样点处硝酸盐来源为粪便、化肥及工业污染,部分采样点的~(15)N及δ~(18)O的比值大于2,基本上可证明反硝化作用的存在。  相似文献   

Hydrological and hydrochemical response of mountainous basins to snow accumulation and melting in northern slovakia     

G. Babiakov  D. Bodi&#x;  D. Palkovi 《水文研究》1994,8(6):551-565

Hydrological and hydrochemical parameters for two mountain basins are presented and compared. The analysis focuses on the hydrology during the winter, the cumulative outflow of sulphate and nitrate from the basin and a mass balance. An integrated model for the simulation of the amount and quality of snowmelt from seasonal snow cover is briefly described. The possible application of the model to other basins is considered.  相似文献