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991.
非结构性碳水化合物(NSC)在植物生长、繁殖、防御和生存等方面发挥着基础性作用。为探究黑果枸杞(Lycium ruthenicum)NSC积累的器官间规律及其对土壤氮磷供应水平的响应,以3年生黑果枸杞为对象,测定了3个氮磷比例和供应量条件下根茎叶NSC含量。结果表明:(1)黑果枸杞根、茎、叶NSC组成均以可溶性糖为主,淀粉约占37.3%;器官NSC含量粗根和细根>叶片>新梢>一二年生枝条,各器官可溶性糖含量粗根和细根>叶片>新梢>一年生枝>二年生枝;淀粉含量细根>粗根>二年生枝>一年生枝>叶片和新梢;糖淀比叶片>新梢>粗根>一年生枝>二年生枝>细根。(2)氮磷比和供应量对黑果枸杞根系可溶性糖含量无显著影响,对茎叶NSC含量的影响存在显著交互效应。氮磷比5∶1时,茎叶NSC含量随氮磷供应量升高而增加;氮磷比15∶1时,茎叶NSC含量随氮磷供应量增加显著降低;氮磷比45∶1时,茎叶NSC含量随供应量的增加而显著升高。(3)一年生枝NSC含量于萌芽前达到最大值(5.05%DW),于春梢旺盛生长期降至最低值(3.79%DW);二年生枝NSC含量在萌芽前最低(4.23%DW),于秋季落叶期达到最大值(4.33%DW)。(4)粗根和叶片NSC含量与一二年生枝NSC含量负相关;新梢NSC含量与叶片NSC、二年生枝淀粉含量正相关;一年生枝可溶性糖含量与二年生枝可溶性糖含量负相关;二年生枝淀粉含量与根系淀粉和NSC含量负相关。黑果枸杞通过调整各器官NSC积累及分配应对生长季各器官能量需求和环境氮磷供应变化,在氮磷限制环境中将更多NSC储存在根系,可平衡当前碳同化与未来能量需求的矛盾,增强个体生存能力,也为黑果枸杞应对非生物逆境胁迫提供更大的灵活性。 相似文献
992.
尼日尔三角洲盆地深水油气资源丰富,其中盆地东部深水区已发现的亿顿级油气田数量和累计油气可采储量均约为西部深水区的两倍,东、西部深水区油气差异巨大,开展尼日尔三角洲盆地深水沉积特征和差异研究具有重要的生产意义和学术价值。通过对该盆地大量地震、测井和岩心等资料的分析,提出了西部深水扇主要是由三角洲提供物源,通过大型峡谷的运输,在深水平原区形成树枝状发散的深水扇,又称作“有根深水扇”;东部深水扇也是由三角洲供源,但由于缺乏大型峡谷的运输,沉积物沿大陆斜坡滑移至半深海—深海平原,形成根部不发育的“扇面状”深水扇,又称作“无根深水扇”。尼日尔三角洲盆地东西部深水区油气分布差异,除构造等因素外,其最主要的原因为有/无峡谷作为物源运输通道,分别形成的不同沉积类型,进而分别形成两种样式的深水圈闭类型,最终造成东西部深水区油气分布的巨大差异。 相似文献
993.
中国干旱内陆流域水体 N、P负荷特征与动态变化——以黑河流域为例 总被引:6,自引:0,他引:6
以黑河流域中游地区为研究区域,通过11年在不同河流断面的长期监测和区域内各类水体如地下水、泉水、水库和河流的空间选点取样分析,研究了干旱内陆流域水体 N、P等植物营养元素的负荷与时空分布及动态变化特征。浅层地下水与河水中NO3-N含量普遍较高,含量超过 1.1 m g/L,大部分平原水库水中NH4-N含量超过 0.3 m g/L;河水与浅层地下水TP、NH4-N与NO3-N含量均呈现沿流域从出山口至下游的显著递增变化,同时还具有明显的随时间递增趋势,其中NH4-N含量在河流出山口及下游断面平均年增加幅度分别为 0.11 m g/L和 0.114 m g/L;流域水体 N、P含量的季节变化明显,黑河流域春季及春夏之交的枯水期大部分河段NH4-N、NO3-N和TP等要素含量为全年最高并出现水质超标污染。控制干旱内陆流域水域尤其是枯水期的 N、P污染,应成为干旱内陆流域水资源保护问题中值得关注的关键内容。 相似文献
994.
50 km以内雷暴系统的分类识别方法研究 总被引:1,自引:0,他引:1
为解决水平尺度在50 km以内的雷暴系统自动分类识别问题,提出了系统结构疏密性特征、移出率、液态水含量及累加液态水含量特征的构建算法;这些特征既在冰雹和短时强降水之间具有显著性差异,又可以共同描述冰雹和强降水同时发生的具有双重性特质的复合性系统。为配合累加液态水含量这种与时间相关特征的使用,在所实现的分类树中引进了迭代机制。实验表明,本文方法对50 km以内雷暴系统引发的短时强降水击中率达到89.1%,误报率9.5%;对其引发的冰雹的击中率为79.8%,误报率3.5%;平均临界成功指数达到80.0%。 相似文献
995.
A preliminary methods comparison for measurement of dissolved organic nitrogen in seawater 总被引:2,自引:0,他引:2
Jonathan H. Sharp Kathrine R. Rinker Karen B. Savidge Jeffrey Abell Jean Yves Benaim Deborah Bronk David J. Burdige Gustave Cauwet Wenhao Chen Marylo D. Doval Dennis Hansell Charles Hopkinson Gerhard Kattner Nancy Kaumeyer Karen J. McGlathery Jeffrey Merriam Nick Morley Klaus Nagel Hiroshi Ogawa Carol Pollard Mireille Pujo-Pay Patrick Raimbault Raymond Sambrotto Sybil Seitzinger Georgina Spyres Frank Tirendi Ted W. Walsh C. S. Wong 《Marine Chemistry》2002,78(4)
Routine determination of dissolved organic nitrogen (DON) is performed in numerous laboratories around the world using one of three families of methods: UV oxidation (UV), persulfate oxidation (PO), or high temperature combustion (HTC). Essentially all routine methods measure total dissolved nitrogen (TDN) and calculate DON by subtracting the dissolved inorganic nitrogen (DIN). While there is currently no strong suggestion that any of these methods is inadequate, there are continuing suspicions of slight inaccuracy by UV methods.This is a report of a broad community methods comparison where 29 sets (7 UV, 13 PO, and 9 HTC) of TDN analyses were performed on five samples with varying TDN and DIN concentrations. Analyses were done in a “blind” procedure with results sent to the first author. With editing out one set of extreme outliers (representing 5 out of 145 ampoules analyzed), the community comparability for analyzing the TDN samples was in the 8–28% range (coefficient of variation representing one standard deviation for the five individual samples by 28 analyses). When DIN concentrations were subtracted uniformly (single DIN value for each sample), the comparability was obviously worse (19–46% cv). This comparison represents a larger and more diverse set of analyses, but the overall comparability is only marginally better than that of the Seattle workshop of a decade ago. Grouping methods, little difference was seen other than inconclusive evidence that the UV methods gave TDN values for several of the samples higher than HTC methods. Since there was much scatter for each of the groups of methods and for all analyses when grouped, it is thought that more uniformity in procedures is probably needed. An important unplanned observation is that variability in DIN analyses (used in determining the final analyte in most UV and PO methods) is essentially as large as the variability in the TDN analyses.This exercise should not be viewed as a qualification exercise for the analysts, but should instead be considered a broad preliminary test of the comparison of the families of methods being used in various laboratories around the world. Based on many independent analyses here, none of the routinely used methods appears to be grossly inaccurate, thus, most routine TDN analyses being reported in the literature are apparently accurate. However, it is not reassuring that the ability of the international community to determine DON in deep oceanic waters continues to be poor. It is suggested that as an outgrowth of this paper, analysts using UV and PO methods experiment and look more carefully at the completeness of DIN conversion to the final analyte and also at the accuracy of their analysis of the final analyte. HTC methods appear to be relatively easy and convenient and have potential for routine adoption. Several of the authors of this paper are currently working together on an interlaboratory comparison on HTC methodology. 相似文献
996.
997.
《水文科学杂志》2013,58(3):531-542
Abstract River corridor wetland restoration and freshwater diversion from the lower Mississippi River are being considered as two major options to reduce nitrogen input to the Gulf of Mexico. However, it is largely uncertain how much nitrogen can actually be retained from the overflowing waters by these wetland systems. This study quantified the nitrogen inflow and outflow for the largest distributary basin of the Mississippi River, the Atchafalaya River Swamp basin. The goal of the study was to seek answers to three critical questions: (a) Does the Atchafalaya River Swamp remove a significant amount of nitrogen from the overflowing water, or is it releasing more nitrogen into the Gulf? (b) How do the nitrogen removal or release rates fluctuate seasonally and annually? (c) What are the relationships between the nitrogen removal capacity and the hydrological conditions in the basin such as river stage and discharge? By utilizing the long-term (1978–2002) river discharge and water quality data, monthly and annual nitrogen fluxes were quantified, and their relationships with the basin hydrological conditions investigated. A total nitrogen—sum of the total Kjeldahl nitrogen (TKN) and nitrate plus nitrite nitrogen (NO3+NO2)—mass input—output balance between the upstream (Simmesport) and downstream (Morgan City and Wax Lake Outlet) locations was established to examine the nitrogen removal potential for this, the largest freshwater swamp basin in North America. The results from this study showed that, over the past 25 years, the Atchafalaya River Swamp basin acted as a source for NO3+NO2 nitrogen, although the average annual output of NO3+NO2 nitrogen (174 584 Mg) was only slightly higher (2.3%) than the average annual input of NO3+NO2 nitrogen (170 721 Mg). The higher NO3+NO2 mass outflow occurred throughout summer and autumn, indicating an active role of biological processes on nitrogen in the overflowing waters of the Atchafalaya. However, this swamp basin has served as a major sink for organic nitrogen: the annual averages of TKN mass input and output were 200 323 and 145 917 Mg year?1, respectively, presenting a 27.2% removal rate by the basin. This large TKN reduction appeared high during springs and low during late summers, corresponding with the fluctuation of the hydrological conditions of the river. 相似文献
998.
阿尔及利亚X区决主要发育大深度低幅度构造,低幅度圈闭识别与落实制约着区块的油气勘探发现.根据区块的地质与地球物理特点,在认真深入对比分析现有时深转换方法的基础上,提出了综合运用多种时深转换方法进行区域目标援索及单个目标“量体裁衣”的多尺度时深转换方法,有效的解决了本区油气勘探中面临的低幅构造识别与落实难题,取得了较好的勘探效果.该方法能够有效的发现低幅度圈闭并提高低幅度构造成图的精度,落实局部构造,降低勘探风险,对于类似地区的低幅度构造研究具有借鉴意义. 相似文献
999.
Due to the unique chemical properties and therefore wide range of applications, significant amounts of reactive dyes often end up in waste waters and this issue raises the need for more efficient treatment technologies. This work investigates the ability of magnetite nanoparticles functionalized with imidazolium based ionic liquid (IL) as an efficient sorbent for the removal of the Reactive black 5 from wastewater. Fourier transform infrared spectroscopy, X‐ray diffraction, transmission electron microscopy, thermo‐gravimetric analysis, and zeta potential measurement were used to characterize the synthesized nanosorbent. The results showed that under optimal conditions, the dye removal efficiency of the grafted IL is 98.5% after a single run. Regeneration of the used sorbent could be possible and the modified magnetic nanoparticles exhibited good reusability. The isothermal data of RB5 sorption conformed well to the Langmuir model and the maximum sorption capacity of IL@Fe3O4 for RB5 was 161.29 mg g?1. Thermodynamic study indicated that the adsorption is endothermic and spontaneous. The use of such a system can provide fast and efficient removal of the reactive dyes from wastewater by using an external magnetic field. 相似文献
1000.
Eleanor Setton C. Peter Keller Denise Cloutier-Fisher Perry W. Hystad 《The Professional geographer》2013,65(1):66-83
The objective of this study was to identify spatial variability in exposure to outdoor traffic-related air pollution with specific emphasis on comparing exposure estimates for working females and males across a metropolitan area. A spatial exposure simulation model was used to estimate annual average exposure to traffic-related nitrogen dioxide for males and females reporting regular work in census tracts other than that of their residence, in Vancouver, British Columbia. The model produced estimates of annual average exposure in six microenvironments (home indoor, work indoor, other indoor, outdoor, in-vehicle to work, and in-vehicle other) using time-activity patterns and work flow data, for males and females in each of 382 census tracts. This allowed for the identification of spatial variations in exposure estimates for each gender, due to mobility within the study region. Indoor sources of nitrogen dioxide were not included in the simulation. No significant differences in estimated total exposure were found between working females and males in general. Small but observable spatial differences, however, were found between working females and males at the 90th percentile of the exposure distributions associated specifically with the work indoor microenvironment. These were highest in suburban areas (+3 μ g/m3 for females, relative to total exposures in the range of 26 to 37 μ g/m3 annual average hourly nitrogen dioxide). These results identify specific geographic locations in the study area where personal monitoring studies might be warranted and suggest that the inclusion of workplace locations in multivariate modeling could be useful to further understand differences in estimated exposures. 相似文献