鳙、鲢鱼鳞作为稳定同位素研究非致命采样替代物的有效性

稳定同位素分析技术已成为食物网研究中的关键技术,通用方法是取鱼类背部白色肌肉,在实际应用过程会导致鱼类的死亡,因而有所局限.使用非致命组织作为稳定同位素研究中的替代组织越来越得到关注,但是目前国内尚未开展相关研究.比较鳙(Aristichthy nobilis)、鲢(Hypophthalmichthys molitrix)鱼鳞与肌肉组织中δ13C和δ15N比值,发现鳙、鲢的鱼鳞与肌肉组织中δ13C和δ15N比值均有显著差异.鱼鳞δ13C比值比肌肉更富集,平均高2.54‰,而δ15N比值比肌肉平均低0.7‰.对鳙、鲢的鱼鳞与肌肉组织δ15N比值含量进行相关分析发现,通过构建线性模型,可用校正后的鱼鳞δ15N比值替代肌肉组织δ15N比值.鲢的鱼鳞与肌肉组织δ13C比值存在显著线性相关,而鳙的鱼鳞与肌肉组织δ13C比值无显著相关关系.     

基于土地利用方式的巢湖流域氮排放情景模拟

土地利用方式及其转移对区域氮素迁移和水体氮负荷产生重要影响,但量化自然发展、耕地保护和生态保护等多情景下土地利用方式氮排放时空变化特征,揭示流域水体氮负荷对土地利用变化的响应机制仍面临挑战。本研究以巢湖流域为研究区,通过遥感解译多时相土地利用类型数据,借助PLUS和InVEST模型探索不同情景下氮排放对各土地利用类型变化的响应机制。结果表明:(1)2000—2020年期间,巢湖流域建设用地面积的增加(626.14 km²)主要占据的是耕地(减少了775.64 km²),城市化建设成为土地利用方式变化的主要驱动力;(2)PLUS模型多情景预测结果显示:2020—2030年间土地利用变化特征与2000—2020年基本保持一致,但各用地间的转换频率降低;(3)经InVEST模拟,耕地面积缩减而导致氮排放的减少量(340.17 t)大于建设用地等面积增加带来的氮排放增加量(170.11 t),使2000—2020年间巢湖流域土地利用所排放的总氮量呈降低趋势,由2000年的4768.04 t降至2020年的4597.98 t;(4)不同情景下,2030年各土地利用方式的氮排放量较2020年均呈降低趋势。其中,生态保护情景既有效地保障了巢湖流域生态功能又展现出较好的氮减排效果(113.36 t);鉴于此,建议流域管理部门应通过合理规划各用地类型的发展,严格控制建设用地对林草地、水域等生态用地的侵占,以期削减流域水体氮负荷、缓解氮素治理压力。     

The composition of nutrient fluxes from contrasting UK river basins

Accurate estimates of N and P loads were obtained for four contrasting UK river basins over a complete annual cycle. The fractionation of these loads into dissolved and particulate, and inorganic and organic components allowed a detailed examination of the nutrient load composition and of the factors influencing both the relative and absolute magnitude of these components. The particulate phosphorus (TPP) loads account for 26–75% of the annual total phosphorus (TP) transport and are predominantly inorganic. The inorganic (PIP) and organic (POP) fractions of the TPP loads represent 20–47% and 6–28% of the annual TP transport, respectively. In contrast, the particulate nitrogen loads (TPN) represent 8% or less of the annual total nitrogen (TN) loads and are predominately organic. For dissolved P transport, the dissolved inorganic fraction (DIP) is more important, representing 15–70% of the TP loads, whereas the dissolved organic fraction (DOP) represents only 3–9% of the TP loads. The TN loads are dominated by the dissolved component and more particularly the total oxidized fraction (TON), which is composed of nitrate and nitrite and represents 76–82% of the annual TN transport. The remaining dissolved N species, ammonium (NH₄-N) and organic N (DON) account for 0·3–1·2% and 13–16% of the annual TN transport, respectively. The TPN and TPP fluxes closely reflect the suspended sediment dynamics of the study basins, which are in turn controlled by basin size and morphology. The dissolved inorganic nutrient fluxes are influenced by point source inputs to the study basins, especially for P, although the TON flux is primarily influenced by diffuse source contributions and the hydrological connectivity between the river and its catchment area. The dissolved organic fractions are closely related to the dissolved organic carbon (DOC) dynamics, which are in turn influenced by land use and basin size. The magnitude of the NH₄-N fraction was dependent on the proximity of the monitoring station to point source discharges, because of rapid nitrification within the water column. However, during storm events, desorption from suspended sediment may be temporarily important. Both the magnitude and relative contribution of the different nutrient fractions exhibit significant seasonal variability in response to the hydrological regime, sediment mobilization, the degree of dilution of point source inputs and biological processes. © 1998 John Wiley & Sons, Ltd.     

夏季大亚湾悬浮颗粒有机物碳、氮同位素组成及其物源指示

2015年夏季开展了大亚湾悬浮颗粒有机物碳（POC）、氮含量（PN）及其同位素组成的研究,结果表明,δ13C_POC和δ15N_PN的变化范围分别为-25.7‰~-17.4‰和-6.3‰~10.4‰,平均值分别为-20.2‰和8.2‰。大亚湾悬浮颗粒有机物含量及其碳氮同位素组成的空间变化反映了不同有机质来源的影响:喜洲岛附近海域表现出高POC、PN、δ13C_POC和δ15N_PN的特征,指征着浮游植物水华的主导贡献;东北部范和港附近海域具有高POC、PN、低δ13C_POC和高δ15N_PN的特征,反映了河流/河口水生有机物的影响;湾顶白寿湾附近海域的δ13C_POC和δ15N_PN出现低值,体现了陆源有机质和人类污水排放的影响。借助δ13C_POC和δ15N_PN的三端元混合模型,定量出海洋自生有机质、陆源有机质、河流/河口水生有机质等3个来源的贡献平均分别为70%、13%和17%,其中海洋自生有机质是夏季大亚湾悬浮颗粒有机物的最主要来源。从这3种来源颗粒有机物含量的空间变化看,海洋自生有机质含量由湾内向湾外减少,与初级生产力的空间变化相对应;河流/河口水生有机质含量在大亚湾东北部出现高值;陆源有机质含量在表、底层出现不同态势,表层陆源有机物含量在湾中部海域最低,而底层则呈现出自湾内向湾口增加的趋势,主要受控于离岸距离和珠江冲淡水、粤东沿岸上升流输送的影响。     

南极半岛近岸海域生物化学要素分布特征及影响因素

基于中国第30次南极科学考察在南极半岛(60°~63°S)近岸海域获取的调查资料,分析了该海域生物化学要素中溶解有机碳(DOC)、总氮(TN)和总磷(TP)分布特征并讨论地形和水团对其的影响。结果表明:2014年夏季南极半岛近岸海域水体DOC浓度变化范围为40.5~78.1μmol/L,平均浓度为66.3μmol/L;TN浓度变化范围为4.2~29.5μmol/L,平均浓度为14.9μmol/L;TP浓度变化范围为0.8~2.9μmol/L,平均浓度为2.0μmol/L。表层DOC呈现研究海域西北部D1断面和东南部D5断面浓度较高,中部DOC浓度较低;表层TN与TP浓度高值区出现在研究海域西部D1断面北部以及南部,中部和东部浓度较低;DOC,TN和TP浓度的垂直分布与海底地形和水团交汇密切相关,水团运动受阻于地形致使生物化学要素在垂直方向再分布。DOC,TN和TP空间分布反映了南极半岛近岸海域生物化学要素复杂的流通,将为合理开发和利用南极资源及环境影响评价提供科学依据。     

渤海及北黄海河流悬浮颗粒碳氮同位素时空分布及源解析

选择流入渤海和北黄海的36条主要河流为研究对象,对比了平水期、丰水期和枯水期水体中悬浮颗粒物和河流表层沉积物的碳和氮稳定同位素的地球化学特征,并对颗粒物有机质碳和氮来源进行分析。结果表明,水体悬浮有机质碳同位素总体上表现为δ13C平水期δ13C丰水期δ13C枯水期的特点,δ15N值呈δ15N丰水期δ15N平水期δ15N枯水期的特点。渤海和北黄海的主要入海河流悬浮颗粒物有机质的来源具有明显的季节性差异,悬浮颗粒有机质碳平水期(春秋季)来源以C3植物、土壤有机质和水生藻类为主,丰水期(夏季)碳的各来源中浮游植物的贡献率明显增大,枯水期(冬季)则表现为陆源C3植物分解和水源性有机质的混合来源;悬浮颗粒态氮的来源与季节性降水量、生活污水、合成化肥及河流内源性水生植物密切相关。     

Seasonal and sub-seasonal oxygen and nutrient fluctuations in an embayment of an eastern boundary upwelling system: St Helena Bay

Seasonal, sub-seasonal and spatial fluctuations in bottom dissolved oxygen (DO) were examined in St Helena Bay, South Africa’s largest and most productive embayment, between November 2013 and November 2014. Alongshore bay characteristics were assessed through comparison of variables along the 50-m depth contour. A mean coefficient of variation of 0.35 provided a measure of the relative variability of near-bottom DO concentrations along this contour. Consistently lower DO concentrations in the southern region of the bay in summer and autumn are attributed to enhanced retention. Across-shelf transects captured the seasonal development of hypoxia in relation to the distribution of phytoplankton biomass. Exceptional dinoflagellate blooms form extensive subsurface thin layers preceding the autumn DO minima in the south of the bay, prior to winter ventilation of the bottom waters. The seasonal decline in DO concentrations in the bottom waters was marked by sub-seasonal events of hypoxia, and ultimately anoxia linked to episodic deposition of organic matter, as indicated by increases in bottom chlorophyll-a concentrations. Seasonal changes in bottom water macronutrient concentrations followed trends in apparent oxygen utilisation (AOU), both of which mirrored DO concentrations. In the south of the bay, nitrogen loss through denitrification/anammox in suboxic waters was indicated by a dissolved inorganic N deficit in the bottom waters, which was most pronounced in autumn.     

Nitrate dynamics in a rural headwater catchment: measurements and modelling

This study was designed to improve our understanding of, and mechanistically simulate, nitrate (NO₃) dynamics in a steep 9.8 ha rural headwater catchment, including its production in soil and delivery to a stream via surface and subsurface processes. A two‐dimensional modelling approach was evaluated for (1) integrating these processes at a hillslope scale annually and within storms, (2) estimating denitrification, and (3) running virtual experiments to generate insights and hypotheses about using trees in streamside management zones (SMZs) to mitigate NO₃ delivery to streams. Total flow was mathematically separated into quick‐ and slow‐flow components; the latter was routed through the HYDRUS software with a nitrogen module designed for constructed wetlands. Flow was monitored for two years. High surface‐soil NO₃ concentrations started to be delivered to the stream via preferential subsurface flow within two days of the storm commencing. Groundwater NO₃‐N concentrations decreased from 1.0 to less than 0.1 mg l^?1 from up‐slope to down‐slope water tables, respectively, which was attributed to denitrification. Measurements were consistent with the flushing of NO₃ mainly laterally from surface soil during and following each storm. The model accurately accounted for NO₃ turnover, leading to the hypotheses that denitrification was a minor flux (<3 kg N ha^?1) compared to uptake (98^?127 kg N ha^?1), and that SMZ trees would reduce denitrification if they lowered the water table. This research provides an example of the measurement and modelling of NO₃ dynamics at a small‐catchment scale with high spatial and temporal resolution. Copyright © 2013 John Wiley & Sons, Ltd.     

总氮对土物理力学性能影响的试验研究

通过室内试验,考察了去离子水及不同浓度总氮溶液对土体物理力学性能的影响,并通过土体矿物成分含量及微观形貌分析,对总氮溶液与土体作用机制进行了初步探讨。结果表明,总氮对土体物理力学性能影响明显：（1）土体塑性指数、相对密度和有效黏聚力随总氮溶液浓度增大而减小,有效内摩擦角随溶液浓度的增大而增大;（2）各浸泡条件下,土体应力-应变关系曲线变化规律基本一致,均呈应变硬化现象,土体剪切峰值随总氮溶液浓度的增大先减小后增大;（3）孔隙水压力随轴向应变的增加先增加,然后缓慢降低,最后曲线逐渐趋于水平,表现出较大的剪胀性;（4）总氮溶液与土体间相互作用主要包括离子交换作用、微生物分解作用和溶蚀及胶结作用,这些作用通过改变土体的矿物成分含量,使其微观形貌及孔隙特征发生明显变化,最终导致土体的宏观力学特性改变。     

哈尔滨-绥化地区土壤氮储量及其时空变化特征

依据多目标区域地球化学调查成果,按照中国地质调查局下发的《全国土壤碳储量及各类元素（氧化物）储量实测计算暂行要求》,以表层土壤样品分析单元（4 km²）为计算单位,对哈尔滨-绥化地区表层土壤（0~20 cm）氮储量进行计算.研究了不同生态系统和不同土壤类型土壤氮储量、氮密度的差异,研究了20年来土壤氮储量的变化特征及成因.结果表明研究区土壤氮储量略微增加,这主要是由于湿地生态系统和森林生态系统对土壤的固氮效果显著造成的.