水淹胁迫对狗牙根光合、生长及营养元素含量的影响

以狗牙根当年生扦插苗为试验材料,采用盆栽控制实验,设置对照组(CK)、表土水淹组(SF)和全淹组(TF),研究水淹对狗牙根光合、生长、生物量和营养元素含量的影响。结果显示,1)与CK相比,SF组的狗牙根净光合速率、气孔导度、蒸腾速率和气孔限制值均显著降低,胞间CO₂浓度显著增加,但水分利用效率与CK组差异不显著。2)SF组分枝数、叶片数、根生物量、叶生物量和根冠比均显著低于CK组,而株高、基径、茎生物量和总生物量与CK组差异不显著;TF组除根冠比与CK组无显著差异外,株高、基径、分枝数、叶片数、根生物量、茎生物量和总生物量均显著低于CK组。3)与CK组相比,SF和TF组根的N、P、K、Fe、Mn含量均呈上升趋势,Cu含量显著降低;叶片中,SF组P、K、Cu含量显著下降,Fe、Mn含量显著升高。研究表明,水淹显著影响了狗牙根光合、生长及营养元素含量。狗牙根通过适度降低叶片P、K、Cu含量及升高Fe、Mn含量促进狗牙根叶片净光合速率的降低。然而狗牙根可通过提高对N、P、K等营养元素的吸收,促进其生长,维持较高的净光合速率,以有效应对水淹环境;其次,全淹环境中,狗牙根叶片衰老、凋落,叶片中N、P等营养元素可直接进入水体,存在增加水体富营养化的潜在风险,因此,应加强对三峡库区消落带狗牙根植被的刈割收获管理,以尽可能减少由此引起的二次污染。     

多孔介质的润湿性对聚驱稠油微宏观效率的影响

岩石表面的润湿性影响聚合物微观和宏观驱油效率。采用可视化微观模型和微观照相技术研究了强水湿和油湿多孔介质下聚合物微观驱油效率和驱替机理。分析了束缚水与稠油分别在两种润湿介质下的微观形态和分布对聚合物的吸附、滞留,连续性和非连续性流动,驱替前缘以及洗油效率的影响。微观模型实验结果表明,在水湿环境,地层水趋向分布于岩石骨架表面并在孔壁附近形成较厚的水膜,聚合物趋于附着在孔壁处,在这些区域聚合物的洗油效率较高;在油湿环境,束缚水主要以非连续相分布在孔隙介质中,聚合物溶液发生咬断效应,原油吸附在孔喉处,聚合物只能部分扫除原油,乳液的形成能辅助聚合物溶液驱替油相。聚合物在水湿介质的微观驱油效率明显高于油湿介质。岩心流动实验结果与微观模型分析一致,相同浓度的聚合物溶液在强水湿岩心前缘突破所需的时间长于油湿岩心,突破前缘更规整,水湿岩心和油湿岩心的水驱采出程度分别为21.5%OOIP和15%OOIP。聚合物在油湿岩心的“门槛”黏度较大。聚合物黏度为500 mPa·s时,水驱后水湿岩心和油湿岩心的原油采收率增幅分别为23%OOIP和17%OOIP。     

Influence of water regime on growth,yield, and nitrogen uptake of rice

Abstract

Greenhouse and field experiments were conducted to study the effects of water regime on growth of rice. The greenhouse experiment investigated the effects of two water regimes‐continuous flooding and flooding with soil drying between crops for 2 to 3 weeks on the growth of rice during six cropping (for six week each) on seven soils varying widely in total N contents (0.07 to 0.35%). The results averaged for the 7 soils indicated that the drymatter production or N uptake of rice was not affected by the water regimes during the six croppings.

The field experiment conducted during the dry season for two consecutive years (1976 and 1977) on a near neutral clay soil studied the effects of three water regimes (continuous flooding alternate flooding and soil drying every 2 weeks, and continuous flooding with 2 weeks mid season soil drying after 6 weeks of transplanting) and three levels of fertilizer N (0, 100 and 200 kg N/ha as urea) on grain yield and N uptake of rice. The results confirmed the absence of any significant reduction in grain yield or N uptake as a result of any of the soil drying treatments during the growing season on the unfertilized plots carrying a rice crop. On the plots fertilized with 100 or 200 kg N/na, alternate flooding and drying resulted in a significant depression in both grain yield and N uptake. Soil analysis supported heavy losses of N in the fertilized plots that underwent alternate flooding and soil drying apparently by nitrification and denitrification reactions.

The results of this study suggest that alternate flooding and drying of soils in the presence of established rice plants itiay not cause a significant loss of nitrogen in unfertilized plots although in plots fertilized with high rates of N the losses may be large as indicated by the performance of rice crop.     

Evaluation of preflooding effects on iron extractability and phytoavailability in highly calcareous soil in containers

Previous pot cropping and laboratory incubation experiments were consistent with field observations showing that temporary flooding before cropping can increase the availability of soil Fe to plants. To study the effect of temporary flooding on changes in soil Fe phytoavailability we used 24 highly calcareous, Fe chlorosis–inducing soils to carry out a pot experiment where peanut and chickpea were successively grown after flooding for 30 d. At the end of the cropping experiment, the preflooded soil samples exhibited higher concentrations of acid oxalate‐, citrate/ascorbate‐ and diethylenetriaminepentacetic acid (DTPA)–extractable Fe (Fe_ox, Fe_ca, and Fe_DTPA, respectively) than the control (nonflooded) samples. Also, Fe_ox and Fe_ca exhibited no change by effect of reflooding of the cropped soils or three wetting–drying cycles in freeze‐dried slurries of soils previously incubated anaerobically for several weeks. Leaf chlorophyll concentration (LCC) in both peanut and chickpea was greatly increased by preflooding. The best predictor for LCC was Fe_ox, followed by Fe_ca and Fe_DTPA. The LCC–soil Fe relationships found suggest that the Fe species extracted by oxalate and citrate/ascorbate from preflooded soils were more phytoavailable than those extracted from control soils. However, the increased phytoavailability of extractable Fe forms was seemingly limited to the first crop (peanut). Flooding dramatically increased Fe_DTPA; however, high Fe_DTPA levels did not result in high LCC values, particularly in the second crop. Therefore, this test is a poor predictor of the severity of Fe chlorosis in preflooded soils.     

库区消落区紫色土与水稻土磷吸附解吸特征

淹水和干湿交替条件下,土壤磷水土界面的迁移能力有较大的差别,模拟研究结果表明：淹水和干湿交替能促进紫色土和水稻土对磷的吸附,减小磷的解吸率,降低磷水土界面的迁移能力,其向环境中的释磷风险为未淹水土壤＞干湿交替土壤＞淹水土壤,紫色土＞水稻土.     

NUTRIENT AND GROWTH RESPONSES OF LEERSIA ORYZOIDES,RICE CUTGRASS,TO VARYING DEGREES OF SOIL SATURATION AND WATER NITROGEN CONCENTRATION

Leersia oryzoides (rice cutgrass) is an obligate wetland plant common to agricultural drainage ditches. The objective of this greenhouse study was to expose plants to various flooding and aqueous nitrogen (N) concentrations and then to quantify the allocation of nutrients and biomass to plant components. Plants in the continuously flooded treatment (CF) had the highest tissue concentrations of copper (Cu), sulfur (S), zinc (Zn), potassium (K), sodium (Na), and manganese (Mn) in one or more plant components. Plants in the partially flooded treatment (PF) had the highest concentrations of magnesium (Mg) in leaves. The N input affected phosphorus (P) and S concentrations in roots. Leaf, stem, and root biomass were highest in PF plants. Rhizome biomass was the lowest in CF plants. These results indicate that L. oryzoides may significantly affect elemental concentrations in surface waters by its ability to uptake various elements and subsequent sequestration in various biomass components.     

Nitrogen fixation of Sesbania rostrata: Contribution of stem nodules to nitrogen acquisition

Abstract

Nitrogen contents, nodule numbers, and nodule dry weights of 6-week-oId Sesbania rostrata plants grown in sand culture with only root nodules, only stem nodules or with both were compared and the root nodules were found to contribute to nitrogen acquisition more significantly than the stem nodules. Similar findings were obtained in ¹⁵N₂-fixing experiments. An 8-week-old plant with both stem and root nodules fixed 1.50 mg nitrogen in a 12 h light period, while the fixation decreased to 1.15 mg nitrogen after the removal of the stem nodules, suggesting that root nodules played major role in nitrogen fixation. However, acetylene-reducing activities per nodule dry weight were higher in the stem nodules. Under flooding conditions, the aerenchyma tissues contributed to about 40% of N₂ transport to root nodules, and 60% was supplied through stem.     

Re-think urban drainage following a SuDS retrofitting approach against urban flooding: A modelling investigation for an Italian case study

In the last decades, urban sprawl and soil sealing led to an increase of urban flooding phenomena. Sustainable Drainage Systems (SuDS) seem able to weaken stormwater-related criticalities, enhancing sustainability and city resilience.Relying on a detailed and feasible preparatory study of SuDS feasible retrofit design, based on a punctual identification of the areas suitable for retrofitting and the most appropriate combination of SuDS technologies, the reported research aimed to assess the effectiveness of a sustainable drainage approach in Sesto Ulteriano (Italy), an urban catchment suffering from stormwater management concerns. In particular, using the approach of a typical scenario analysis, this comparative modeling analysis involved SWMM5 for the assessment of the differences in the catchment hydrological behaviour between the mentioned specific and feasible SuDS retrofitting scenarios and a potential one, where non-specificity is considered for SuDS retrofitting location. Besides, the analyses focused on investigating how rainfall severity, areal extension and land use typical feature could influence the effectiveness of the sustainable redevelopment of the urban area.Results indicate that SuDS projects based on potential designs, which does not account for the feasible suds location, might result in a significant overestimation of the hydrological benefit. They showed, indeed, an improved hydrological performance, with average total volume reductions of the Combined Sewer Overflows up to over 70 % (retrofitting the 8.3 % of the catchment area), that is about 40 % higher than those obtained under the same areal extension by the feasible scenarios. Moreover, it was found that there could be an optimal SuDS retrofitting percentage above which additional hydrological benefits are undetectable. Land use, resulting in the variability in the degree of imperviousness necessarily associated to a variability in the retrofitting potential, also seemed to affect SuDS hydrological performance and for this reason should be included in an overall assessment. SuDS also proved to act successfully on the actual maximum percentage of nodes of the drainage network above a 0.7 filling degree threshold (about 52 % under 10-year return period rainfall) reducing it to 24 % with a feasible retrofitting involving the 8.3 % of the study area.     

The water-saving potential of using micro-sprinkling irrigation for winter wheat production on the North China Plain

The shortage of groundwater resources is a considerable challenge for winter wheat production on the North China Plain. Water-saving technologies and procedures are thus urgently required. To determine the water-saving potential of using micro-sprinkling irrigation(MSI) for winter wheat production, field experiments were conducted from 2012 to 2015. Compared to traditional flooding irrigation(TFI), micro-sprinkling thrice with 90 mm water(MSI1) and micro-sprinkling four times with 120 mm water(MSI2) increased the water use efficiency by 22.5 and 16.2%, respectively, while reducing evapotranspiration by 17.6 and 10.8%. Regardless of the rainfall pattern, MSI(i.e., MSI1 or MSI2) either stabilized or significantly increased the grain yield, while reducing irrigation water volumes by 20–40%, compared to TFI. Applying the same volumes of irrigation water, MSI(i.e., MSI3, micro-sprinkling five times with 150 mm water) increased the grain yield and water use efficiency of winter wheat by 4.6 and 11.7%, respectively, compared to TFI. Because MSI could supply irrigation water more frequently in smaller amounts each time, it reduced soil layer compaction, and may have also resulted in a soil water deficit that promoted the spread of roots into the deep soil layer, which is beneficial to photosynthetic production in the critical period. In conclusion, MSI1 or MSI2 either stabilized or significantly increased grain yield while reducing irrigation water volumes by 20–40% compared to TFI, and should provide water-saving technological support in winter wheat production for smallholders on the North China Plain.     

水分胁迫下李氏禾营养器官的解剖结构研究

通过模拟水分胁迫条件,分析了不同淹水深度、淹水时间长度和持续干旱等处理下李氏禾（Leersia hexandra）营养器官的解剖结构。结果表明,李氏禾具有忍耐淹水和干旱的特性;水分胁迫下李氏禾根、茎、叶的基本结构组成没有特殊变化,根由表皮、皮层、中柱组成;茎由表皮、基本组织（薄壁细胞）、维管束组成;叶由表皮（表皮细胞、泡状细胞、气孔器）、叶肉、叶脉组成。淹水胁迫下,李氏禾根、茎、叶内形成大且多的气腔,具有发达的通气组织;干旱胁迫下李氏禾的根皮层增厚、叶片内叶绿素含量减少但不失绿。总体而言,为了适应逆境的生长,李氏禾内部结构产生了一种具有自我保护和调解功能的变化。