水系物质迁移过程示踪及其在环境中的应用

水是环境中污染物迁移的重要介质,水系污染物也可以直接作用于生物体。本文概述了对水系物质迁移过程示踪的各种方法,包括人工示踪剂方法、生物标志法、微量元素及同位素示踪方法等,指出了它们的环境应用价值。在人工示踪法中叙述了中子活化示踪沙技术和稀土元素-DTPA螯合物示踪法。生物标志物主要叙述了木质素、正构烷烃、脂肪酸的指示意义。微量元素示踪主要涉及到Sr、Ca、Mg和REE的示踪。同位素示踪法着重阐述了较先进的碳、氮、氧和铅同位素的示踪。最后展示了水系物质示踪的应用前景。     

The effects of compost in a rice–wheat cropping system on aggregate size,carbon and nitrogen content of the size–density fraction and chemical composition of soil organic matter,as shown by 13C CP NMR spectroscopy

We investigated whether the long‐term application of compost from agricultural waste improved soil physical structure, fertility and soil organic matter (SOM) storage. In 2006, we began a long‐term field experiment based on a rice–wheat rotation cropping system, having a control without fertilizer (NF) and three treatments: chemical fertilizers (CF), pig manure compost (PMC) and a prilled mixture of PMC and inorganic fertilizers (OICF). Following the harvest of wheat in 2010, the mean‐weight diameter (MWD) of water‐stable aggregates and the concentration of C and N in bulk soil (0–20 cm; <2 mm fraction) were significantly greater (P < 0.05) in PMC and NF plots than in CF or OICF plots. Pig manure compost significantly increased the proportion of >5‐mm aggregates, whereas CF significantly increased the proportion of 0.45‐ to 1‐mm aggregates. The C and N contents of all density fractions were greater in PMC than in other treatments with levels decreasing in the following order: free particulate organic matter (fPOM) >occluded particulate organic matter (oPOM) > mineral‐combined SOM (mineral–SOM). Solid‐state ¹³C CPMAS NMR spectra showed that alkyl C/O‐alkyl C ratios and aromatic component levels of SOM were smaller in PMC and OICF plots than in CF plots, suggesting that SOM in PMC and OICF plots was less degraded than that in CF plots. Nevertheless, yields of wheat in PMC and NF plots were smaller than those in CF and OICF plots, indicating that conditions for producing large grain yields did not maintain soil fertility.     

两种模型分析方法下冬小麦根系吸水深度的对比研究

为了研究冬小麦根系吸水深度,应用塑料管土柱法在田间进行冬小麦种植试验,测定了冬小麦越冬期、拔节期、抽穗期、灌浆期和成熟期不同土层深度土壤水稳定同位素值,并应用耦合模型和IsoSource多元线性模型对比分析了水源贡献率。结果表明,冬小麦在越冬期、返青期主要利用0~20 cm土层的土壤水,拔节期主要吸水深度为0~40 cm;抽穗期,基于耦合模型的主要吸水深度为0~40 cm,基于IsoSource多元线性模型的为0~40 cm和80~180 cm;灌浆期,基于耦合模型和IsoSource多元线性模型的主要不同吸水深度为180~200 cm,且基于耦合模型的该层贡献率明显高于IsoSource多元线性模型;成熟期主要利用0~40 cm和80~100 cm土层的土壤水,基于2种模型的分析结果相同。应用耦合模型求解贡献率,当分组较多且组间水稳定同位素差异较小时,应结合其他方法来保证其准确性。     

滴灌紫花苜蓿根层水分稳定同位素特征分析

为了明确滴灌紫花苜蓿根层水分运移,进一步阐明滴灌节水机理,采用液态水稳定氢氧同位素技术,分析了滴灌紫花苜蓿根层水分稳定氢氧同位素分布特征。结果表明,紫花苜蓿根层水分稳定氢氧同位素在下层富集,且随土壤剖面深度的增加同位素富集量有增加的趋势。滴灌条件下,紫花苜蓿根层发育有较多细根,可迅速而高效地利用灌溉水,灌溉后紫花苜蓿对灌溉水的利用不明确偏向于某一深度土层,根层内各土层土壤水均有利用。灌溉前土壤干旱时,滴灌紫花苜蓿以30 cm上下土层土壤水作为主要水分来源的概率较高。     

植物水分利用效率的研究进展

阐述了水分利用效率概念和测定方法的发展、水分利用效率的时间和空间变化规律、不同生活型植物的水分利用效率与水分利用效率的外在和内在影响因子、水分利用效率的遗传背景分析、水分利用效率和抗旱性关系及提高水分利用效率的措施，最后分析了今后水分利用效率的研究趋势。     

黄土高原植被恢复提高大于0.25mm粒级水稳性团聚体在土壤增碳中的作用

本研究选择陕北黄土高原绥德、吴旗、宜川3个地区,调查分析了不同植被恢复类型（草、灌、乔）下05cm表层土壤水稳性团聚体粒径分布及其有机碳含量的变化。结果表明:不同植被恢复类型均显著提高了 2mm和2～0.25mm 两个粒级的水稳性团聚体及其有机碳（SOC）的含量,但不同植被恢复类型的作用在3个地区有所不同。与农地相比,在绥德,油松和柠条、分别使 2mm和2～0.25mm粒级的水稳性团聚体中的SOC含量分别提高了99%～153%和219%～350% ,但苜蓿没有明显作用;在吴旗,苜蓿、沙棘、刺槐分别使 2mm和2～0.25mm水稳性团聚体中SOC含量分别提高了28%～30%和85%～130%,而刺槐对 2mm水稳性团聚体没有作用,而使2～0.25mm粒级的水稳性团聚体SOC含量提高了210% ; 在宜川,白草、羊胡草、狼牙刺和油松使 2mm和2～0.25mm粒级的水稳性团聚体中的SOC含量分别提高了405%～932%和724%～1130%。植被恢复土壤增碳主要是提高了2～0.25mm和2mm 两个粒级的水稳性团聚体中SOC的含量,提高值分别为514%和470%,占土壤有机碳库增量的49%和43%,而对其它粒级水稳性团聚体中SOC含量的贡献小于16%。以上研究结果说明,植被恢复稳定土层结构、促进土壤水稳性大团聚体中SOC的形成,可能在黄土丘陵侵蚀景观土壤固碳过程中起重要作用。     

Determination of apparent digestibility coefficient in fish by stable carbon isotopes

Estimation of the apparent digestibility coefficient ADC(%) of C₃ and C₄ plants in experimental diets for fingerlings of tambaqui (Colossoma macropomum, Cuvier, 1818) was calculated by applying chromic oxide (Cr₂O₃) external marker methodology and by a proposed mathematical expression based on the isotopic composition (δ¹³C). A total of 240 tambaqui fingerlings each weighing ±48.2 g and measuring ±9.8 cm were maintained in eight 500‐L aquariums specially designed for faeces collection. The ADC(%) of the C₃ and C₄ diets did not differ significantly between the two methods, producing results of 75.6%; 76.2% and 74.4%; 72.8%, respectively. The ADC(%) results obtained by isotopic method presented less variation than by chromic oxide. The proposed mathematical expression for calculating the ADC(%) based on δ¹³C values offers an alternative methodology, which can reduce errors and diminish the effort required to collect biological material. However, it is important to note that this method is limited to analysis of diets or food items with distinct isotopic signals.     

有限个渐进非扩张非自映射的带有误差的Ishikawa迭代的收敛性

介绍了有限个渐进非扩张非自映射的带有误差的Ishikawa迭代, 并且证明了在一致凸Banach空间中这种带有误差的Ishikawa迭代在一个新的条件下的强收敛性.     

晒烟稳定株系选拔中的灰色关联分析

采用灰色系统理论对晒烟稳定株系的诸多性状因子进行综合评价和定量分析．分析结果表明，将诸多的性状因子融为一体，在理想的标准品种模式高选择压力下进行测评，避免了优良材料的丢失和淘汰；依据灰色关联度的排序，牡８４ － ２０ － １ 名列第一，牡８９ － ２６ － ５ 名列第二，牡８９ －３０ － １ 名列第三，牡８９ － ２０ － １ 名列第四．     

Patterns and drivers of seasonal water sources for artificial sand-fixing plants in the northeastern Mu Us sandy land, Northwest China

Understanding plant water-use patterns is important for improving water-use efficiency and for sustainable vegetation restoration in arid and semi-arid regions. However, seasonal variations in water sources and their control by different sand-fixing plants in water-limited desert ecosystems remain poorly understood. In this study, stable isotopic ratios of hydrogen (δ²H) and oxygen (δ¹⁸O) in precipitation, soil water, groundwater, and xylem water were determined to document seasonal changes in water uptake by three representative plant species (Pinus sylvestris var. mongolica Litv., Amygdalus pedunculata Pall., and Salix psammophila) in the northeastern Mu Us sandy land, Northwest China. Based on the depth distribution and temporal variation of measured gravimetric soil water content (SWC), the soil water profile of the three species stands was divided into active (0.01 g g^-1 < SWC < 0.08 g g^-1, 20% < coefficient of variation (CV) < 45%), stable (0.02 g g^-1 < SWC < 0.05 g g^-1, CV < 20%), and moist (0.08 g g^-1 < SWC < 0.20 g g^-1, CV > 45%) layers. Annually, P. sylvestris, A. pedunculata, and S. psammophila obtained most water from deep (59.2% ±9.7%, moist layer and groundwater), intermediate (57.4% ±9.8%, stable and moist layers), and shallow (54.4% ±10.5%, active and stable layers) sources, respectively. Seasonally, the three plant species absorbed more than 60% of their total water uptake from the moist layer and groundwater in the early (June) dry season; then, they switched to the active and stable layers in the rainy season (July–September) for water resources (50.1%–62.5%). In the late (October–November) dry season, P. sylvestris (54.5%–66.2%) and A. pedunculata (52.9%–63.6%) mainly used water from stable and moist layers, whereas S. psammophila (52.6%–70.7%) still extracted water predominantly from active and stable layers. Variations in the soil water profile induced by seasonal fluctuations in precipitation and groundwater levels and discrepancies in plant phenology, root distribution, and water demand are the main factors affecting the seasonal water-use patterns of artificial sand-fixing plants. Our study addresses the issue of plant water uptake with knowledge of proportional source-water use and reveals important implications for future vegetation restoration and water management in the Mu Us sandy land and similar desert regions around the world.