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711.
苏南地区农田表层土壤中多环芳烃和酞酸酯的污染特征及来源 总被引:2,自引:2,他引:2
采用气相色谱质谱(GC-MS)法测定了苏南地区13个农田表层土壤样品中的多环芳烃(PAHs)和酞酸酯(PAEs)污染物,分析比较了不同区域农田表层土壤,尤其是来自钢铁企业周边的表层土壤中PAHs和PAEs的污染特征及其来源。结果表明,苏南地区农田土壤中总PAHs和总PAEs的浓度分别在147~40300μg·kg-1和0.575~762μg·kg-1之间,其中钢铁厂周边的平均浓度分别为6130μg·kg-1和47.4μg·kg-1。土壤样品中苯并(a)芘的浓度与总PAHs的浓度显著相关,高分子量PAHs在钢铁厂周边表土中含量较高,钢铁冶炼焦化和烧结等工序是其污染来源。酞酸正丁酯(DBP)和酞酸乙基己基酯是苏南地区农田土壤中含量最高的两种PAEs类物质,钢铁厂周边有较高的DBP检出可能与炼钢、冷轧和炼铁等工序有关。本研究将为经济高速发展地区农田土壤环境质量评价、农产品安全生产及土壤污染防治对策的制定提供科学依据。 相似文献
712.
液体地膜防治丘陵红壤地区水土流失的研究 总被引:4,自引:2,他引:4
通过田间试验研究了红壤丘陵区液体地膜对防治水土流失的效果和持续时间及对作物生长的影响。结果表明:地表径流量荒地喷液体地膜比对照(喷清水)增加1/5;园地比对照增加1/3。土壤侵蚀量荒地喷液体地膜比对照可减少1/2;园地比对照减少近1/3。旱稻喷液体地膜分别提高了出苗14%,有效穗11%,成穗率8%,由此增产753kg/hm2。液体地膜防治水土流失的持续时期约45d,可有效防治红壤地区夏收夏种农时季节的关键性水土流失。 相似文献
713.
714.
Total and active soil fungal communities in a native eucalypt forest and first rotation Pinus elliotti plantation were investigated by direct extraction of DNA and RNA from soil. Terminal restriction fragment length polymorphism (T-RFLP) analysis of internal transcribed spacer (ITS) and 18S rRNA profiles indicated that total and active fungal communities differed significantly in both forest types. This was supported by DGGE profile analysis on an individual plot basis for both forest types and when groups in the canonical analysis were redefined to allow comparison between forest types. Analyses of both ITS and 18S T-RFLP profiles indicated that conversion from native eucalypt forest to P. elliottii plantation may significantly alter total and active soil fungal communities. ITS DGGE (DNA) and 18S (RNA) profiles also suggested differences in fungal communities in the two forest types. No significant separation of the fungal communities in the two forest types was observed, however, when ITS DGGE (RNA) profiles were compared. Overall, the data suggest that conversion from native eucalypt forest to P. elliottii plantation at the Beerburrum State Forest in subtropical Australia has significantly altered soil fungal communities. 相似文献
715.
716.
Synthetic aperture radar (SAR) is an effective and important technique in monitoring crop and other agricultural targets because its quality does not depend on weather conditions. SAR is sensitive to the geometrical structures and dielectric properties of the targets and has a certain penetration ability to some agricultural targets. The capabilities of SAR for agriculture applications can be organized into three main categories: crop identification and crop planting area statistics, crop and cropland parameter extraction, and crop yield estimation. According to the above concepts, this paper systematically analyses the recent progresses, existing problems and future directions in SAR agricultural remote sensing. In recent years, with the remarkable progresses in SAR remote sensing systems, the available SAR data sources have been greatly enriched. The accuracies of the crop classification and parameter extraction by SAR data have been improved progressively. But the development of modern agriculture has put forwarded higher requirements for SAR remote sensing. For instance, the spatial resolution and revisiting cycle of the SAR sensors, the accuracy of crop classification, the whole phenological period monitoring of crop growth status, the soil moisture inversion under the condition of high vegetation coverage, the integrations of SAR remote sensing retrieval information with hydrological models and/or crop growth models, and so on, still need to be improved. In the future, the joint use of optical and SAR remote sensing data, the application of multi-band multi-dimensional SAR, the precise and high efficient modeling of electromagnetic scattering and parameter extraction of crop and farmland composite scene, the development of light and small SAR systems like those onboard unmanned aerial vehicles and their applications will be active research areas in agriculture remote sensing. This paper concludes that SAR remote sensing has great potential and will play a more significant role in the various fields of agricultural remote sensing. 相似文献
717.
There are no reports on the effects of elevated carbon dioxide [CO2] on the fluxes of N2O, CO2 and CH4 from semi-arid wheat cropping systems. These three soil gas fluxes were measured using closed chambers under ambient (420 ± 18 μmol mol−1) and elevated (565 ± 37 μmol mol−1) at the Free-Air Carbon dioxide Enrichment experimental facility in northern China. Measurements were made over five weeks on a wheat crop (Triticum aestivum L. cv. Zhongmai 175). Elevated [CO2] increased N2O and CO2 emission from soil by 60% and 15%, respectively, but had no significant effect on CH4 flux. There was no significant interaction between [CO2] and N application rate on these gas fluxes, probably because soil N was not limiting. At least 22% increase in C storage is required to offset the observed increase in greenhouse gas emissions under elevated [CO2]. 相似文献
718.
Phosphorus (P) concentrations in needles and leaves of forest trees are declining in the last years in Europe. For a sustainable forest management the knowledge of site specific P nutrition/availability in forest soils is vital, but we are lacking verified simple methods for the estimation of plant available P. Within this study, four soil P extraction methods [water ( ), double‐lactate (Plac), citric acid (Pcit), and sodium bicarbonate ( )], as well as total P content of the soil (Ptot) were tested to investigate which method is best correlated with foliar P concentrations of spruce [Picea abies (L.) H. Karst.] and beech [Fagus sylvatica (L.)]. Mineral soil samples from 5 depth levels of 48 forest sites of the Bavarian sample set of the second National Forest Soil Inventory (BZE II) were stratified according to tree species (spruce and beech) and soil pH (pH < 6.2 and > 6.2), covering the whole range of P nutrition. The extractable amount of P per mass unit of soil increased in the order << Plac < < Pcit, decreased with soil depth, and was higher in soils with pH < 6.2. Citric acid extracted up to 10% of Ptot in acidic soils. Whereas Pcit delivers adequate regression models for P nutrition in the case of spruce (R2 up to 0.53) and beech (R2 up to 0.58) for acidic soils, shows good results for spruce growing on acidic soils (R2 up to 0.66) and for beech on soils with pH > 6.2 (R2 up to 0.57). Plac produces adequate models only for beech on high pH soils (R2 up to 0.64), while did not produce acceptable regression models. Ptot seems suitable to explain the P nutrition status of beech on acidic (R2 up to 0.62) and alkaline soils (R2 up to 0.61). Highest R2s are obtained mostly in soil depths down to 40 cm. As and Pcit showed good results for both investigated tree species, they should be considered preferentially in future studies. 相似文献
719.
东江源区坡地果园水土流失防治分析 总被引:1,自引:0,他引:1
东江是香港特别行政区主要的饮用水水源,源区水环境直接关系到珠江三角洲和香港的饮用水安全;但近年来由于果业开发导致东江源区水土流失现象严重,水质呈恶化趋势.为防治东江源区坡地果园水土流失,应根据区域水土流失现状,结合地形、地质、土壤条件,通过设置山边沟、草沟等工程措施,同时配合采用梯壁植草、节水覆盖等植物措施进行综合防治,达到改善东江源区水质的目标. 相似文献
720.